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ABCC8 cDNA ORF clone, Homo sapiens(Human)

Gene Symbol ABCC8
Entrez Gene ID 6833
Full Name ATP binding cassette subfamily C member 8
Synonyms ABC36,HHF1,HI,HRINS,MRP8,PHHI,SUR,SUR1,SUR1delta2,TNDM2
General protein information
Preferred Names

ATP binding cassette subfamily C member 8

Names

ATP-binding cassette sub-family C member 8
ATP-binding cassette transporter sub-family C member 8
ATP-binding cassette, sub-family C (CFTR/MRP), member 8
sulfonylurea receptor (hyperinsulinemia)
sulfonylurea receptor 1

Gene Type protein-coding
Organism Homo sapiens(Human)
Genome

11

11p15.1

Summary The protein encoded by this gene is a member of the superfamily of ATP-binding cassette (ABC) transporters. ABC proteins transport various molecules across extra- and intra-cellular membranes. ABC genes are divided into seven distinct subfamilies (ABC1, MDR/TAP, MRP, ALD, OABP, GCN20, White). This protein is a member of the MRP subfamily which is involved in multi-drug resistance. This protein functions as a modulator of ATP-sensitive potassium channels and insulin release. Mutations and deficiencies in this protein have been observed in patients with hyperinsulinemic hypoglycemia of infancy, an autosomal recessive disorder of unregulated and high insulin secretion. Mutations have also been associated with non-insulin-dependent diabetes mellitus type II, an autosomal dominant disease of defective insulin secretion. Alternatively spliced transcript variants have been found for this gene. [provided by RefSeq, Dec 2013].
Disorder MIM:

600509

Disorder Html: Hyperinsulinemic hypoglycemia, familial, 1, 256450 (3);

mRNA and Protein(s)

mRNA Protein Name
XM_017018197.1 XP_016873686.1 ATP-binding cassette sub-family C member 8 isoform X1
NM_000352.4 NP_000343.2 ATP-binding cassette sub-family C member 8 isoform 2
NM_001287174.1 NP_001274103.1 ATP-binding cassette sub-family C member 8 isoform 1
XM_017018201.1 XP_016873690.1 ATP-binding cassette sub-family C member 8 isoform X6
XM_017018202.1 XP_016873691.1 ATP-binding cassette sub-family C member 8 isoform X7
NM_001351295.1 NP_001338224.1 ATP-binding cassette sub-family C member 8 isoform 3
XM_017018203.1 XP_016873692.1 ATP-binding cassette sub-family C member 8 isoform X8
XM_017018204.1 XP_016873693.1 ATP-binding cassette sub-family C member 8 isoform X9
NM_001351296.1 NP_001338225.1 ATP-binding cassette sub-family C member 8 isoform 4
NM_001351297.1 NP_001338226.1 ATP-binding cassette sub-family C member 8 isoform 5
XM_017018199.1 XP_016873688.1 ATP-binding cassette sub-family C member 8 isoform X3



Mus musculus (house mouse) Abcc8 NP_035640.2
Gallus gallus (chicken) ABCC8 XP_421005.2
Macaca mulatta (rhesus monkey) ABCC8 XP_001088694.1
Pan troglodytes (chimpanzee) ABCC8 XP_508310.4
Canis lupus familiaris (dog) ABCC8 XP_005633781.1
Bos taurus (cattle) ABCC8 NP_001192539.1
Rattus norvegicus (Norway rat) Abcc8 NP_037171.2
Danio rerio (zebrafish) abcc8 NP_001166118.2
Homo sapiens (human) ABCC8 NP_001274103.1


Related articles in PubMed

Current Status of Childhood Hyperinsulinemic Hypoglycemia in Turkey.
Şıklar Z, Berberoğlu M
Journal of clinical research in pediatric endocrinology8(4)375-380(2016 12)

Successful transition to sulfonylurea therapy in two Iraqi siblings with neonatal diabetes mellitus and iDEND syndrome due to ABCC8 mutation.
Ozsu E, Giri D, Seymen Karabulut G, Senniappan S
Journal of pediatric endocrinology & metabolism : JPEM29(12)1403-1406(2016 Dec)

Genetic characteristics and long-term follow-up of 11 patients with congenital hyperinsulinism followed in a single center.
Warncke K, Falco F, Rabl W, Engelsberger I, Saier J, Flores-Rodriguez D, Burdach S, Bonfig W
Journal of pediatric endocrinology & metabolism : JPEM29(10)1187-1194(2016 Oct)

Clinical and Genetic Characteristics, Management and Long-Term Follow-Up of Turkish Patients with Congenital Hyperinsulinism.
Güven A, Cebeci AN, Ellard S, Flanagan SE
Journal of clinical research in pediatric endocrinology8(2)197-204(2016 Jun)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

ABCC8 mutation causing loss of function of beta-cell KATP channels lead to congenital hyperinsulinism, higher basal [Ca(2+)] i and insulin secretion, increased insulin secretion in response to amino acids but not to glucose, increased basal rate of oxygen consumption and mitochondrial mass, increased rates of glycolysis, increased serine/glycine and glutamine biosynthesis, and low gamma-aminobutyric acid (GABA) levels.
Title: Functional and Metabolomic Consequences of K

Genes ABCC7, A3, A8, A12, and C8 prevailed among the most upregulated or downregulated ones. In conclusion, the results supported our theory about general adenosine triphosphate-binding cassette gene expression profiles and their importance for cancer on clinical as well as research levels.
Title: ABC gene expression profiles have clinical importance and possibly form a new hallmark of cancer.

Hyperinsulinism-causing mutations cause multiple molecular defects in SUR1 nucleotide-binding domains.
Title: Hyperinsulinism-Causing Mutations Cause Multiple Molecular Defects in SUR1 NBD1.

ABCC8 mutation is associated with neonatal diabetes mellitus and iDEND syndrome.
Title: Successful transition to sulfonylurea therapy in two Iraqi siblings with neonatal diabetes mellitus and iDEND syndrome due to ABCC8 mutation.

Mutations of the ABCC8 gene is associated with congenital hyperinsulinism.
Title: Genetic characteristics and long-term follow-up of 11 patients with congenital hyperinsulinism followed in a single center.

The following ABCC8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ABCC8 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

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***CloneID RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OHu92459 XM_017018204.1
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X12, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 10-12 $475.30
$679.00
OHu92456 XM_017018201.1
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X7, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $727.30
$1039.00
OHu92457 XM_017018202.1
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X9, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu92458 XM_017018203.1
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X10, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu102629 NM_001351295.1
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant 3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 24-26 $811.30
$1159.00
OHu102630 NM_001351297.1
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant 5, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 24-26 $811.30
$1159.00
OHu92454 XM_017018197.1
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 24-26 $811.30
$1159.00
OHu92455 XM_017018199.1
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 24-26 $811.30
$1159.00
OHu20799 NM_001287174.1
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $811.30
$1159.00
OHu21635 NM_000352.4
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $811.30
$1159.00
OHu60816 NM_001351296.1
Latest version!
Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant 4, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $811.30
$1159.00

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.


CloneID OHu92459
Clone ID Related Accession (Same CDS sequence) XM_017018204.1
Accession Version XM_017018204.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 2703bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform X9
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
ATGGGAGGCT ACTTCACGTG GACCCCAGAT GGAATCCCCA CACTGTCCAA CATCACCATT 
CGTATCCCCC GAGGCCAGCT GACTATGATC GTGGGGCAGG TGGGCTGCGG CAAGTCCTCG
CTCCTTCTAG CCGCACTGGG GGAGATGCAG AAGGTCTCAG GGGCTGTCTT CTGGAGCAGC
CTTCCTGACA GCGAGATAGG AGAGGACCCC AGCCCAGAGC GGGAGACAGC GACCGACTTG
GATATCAGGA AGAGAGGCCC CGTGGCCTAT GCTTCGCAGA AACCATGGCT GCTAAATGCC
ACTGTGGAGG AGAACATCAT CTTTGAGAGT CCCTTCAACA AACAACGGTA CAAGATGGTC
ATTGAAGCCT GCTCTCTGCA GCCAGACATC GACATCCTGC CCCATGGAGA CCAGACCCAG
ATTGGGGAAC GGGGCATCAA CCTGTCTGGT GGTCAACGCC AGCGAATCAG TGTGGCCCGA
GCCCTCTACC AGCACGCCAA CGTTGTCTTC TTGGATGACC CCTTCTCAGC TCTGGATATC
CATCTGAGTG ACCACTTAAT GCAGGCCGGC ATCCTTGAGC TGCTCCGGGA CGACAAGAGG
ACAGTGGTCT TAGTGACCCA CAAGCTACAG TACCTGCCCC ATGCAGACTG GATCATTGCC
ATGAAGGATG GCACCATCCA GAGGGAGGGT ACCCTCAAGG ACTTCCAGAG GTCTGAATGC
CAGCTCTTTG AGCACTGGAA GACCCTCATG AACCGACAGG ACCAAGAGCT GGAGAAGGAG
ACTGTCACAG AGAGAAAAGC CACAGAGCCA CCCCAGGGCC TATCTCGTGC CATGTCCTCG
AGGGATGGCC TTCTGCAGGA TGAGGAAGAG GAGGAAGAGG AGGCAGCTGA GAGCGAGGAG
GATGACAACC TGTCGTCCAT GCTGCACCAG CGTGCTGAGA TCCCATGGCG AGCCTGCGCC
AAGTACCTGT CCTCCGCCGG CATCCTGCTC CTGTCGTTGC TGGTCTTCTC ACAGCTGCTC
AAGCACATGG TCCTGGTGGC CATCGACTAC TGGCTGGCCA AGTGGACCGA CAGCGCCCTG
ACCCTGACCC CTGCAGCCAG GAACTGCTCC CTCAGCCAGG AGTGCACCCT CGACCAGACT
GTCTATGCCA TGGTGTTCAC GGTGCTCTGC AGCCTGGGCA TTGTGCTGTG CCTCGTCACG
TCTGTCACTG TGGAGTGGAC AGGGCTGAAG GTGGCCAAGA GACTGCACCG CAGCCTGCTA
AACCGGATCA TCCTAGCCCC CATGAGGTTT TTTGAGACCA CGCCCCTTGG GAGCATCCTG
AACAGATTTT CATCTGACTG TAACACCATC GACCAGCACA TCCCATCCAC GCTGGAGTGC
CTGAGCCGCT CCACCCTGCT CTGTGTCTCA GCCCTGGCCG TCATCTCCTA TGTCACACCT
GTGTTCCTCG TGGCCCTCTT GCCCCTGGCC ATCGTGTGCT ACTTCATCCA GAAGTACTTC
CGGGTGGCGT CCAGGGACCT GCAGCAGCTG GATGACACCA CCCAGCTTCC ACTTCTCTCA
CACTTTGCCG AAACCGTAGA AGGACTCACC ACCATCCGGG CCTTCAGGTA TGAGGCCCGG
TTCCAGCAGA AGCTTCTCGA ATACACAGAC TCCAACAACA TTGCTTCCCT CTTCCTCACA
GCTGCCAACA GATGGCTGGA AGTCCGAATG GAGTACATCG GTGCATGTGT GGTGCTCATC
GCAGCGGTGA CCTCCATCTC CAACTCCCTG CACAGGGAGC TCTCTGCTGG CCTGGTGGGC
CTGGGCCTTA CCTACGCCCT AATGGTCTCC AACTACCTCA ACTGGATGGT GAGGAACCTG
GCAGACATGG AGCTCCAGCT GGGGGCTGTG AAGCGCATCC ATGGGCTCCT GAAAACCGAG
GCAGAGAGCT ACGAGGGGCT CCTGGCACCA TCGCTGATCC CAAAGAACTG GCCAGACCAA
GGGAAGATCC AGATCCAGAA CCTGAGCGTG CGCTACGACA GCTCCCTGAA GCCGGTGCTG
AAGCACGTCA ATGCCCTCAT CGCCCCTGGA CAGAAGATCG GGATCTGCGG CCGCACCGGC
AGTGGGAAGT CCTCCTTCTC TCTTGCCTTC TTCCGCATGG TGGACACGTT CGAAGGGCAC
ATCATCATTG ATGGCATTGA CATCGCCAAA CTGCCGCTGC ACACCCTGCG CTCACGCCTC
TCCATCATCC TGCAGGACCC CGTCCTCTTC AGCGGCACCA TCCGATTTAA CCTGGACCCT
GAGAGGAAGT GCTCAGATAG CACACTGTGG GAGGCCCTGG AAATCGCCCA GCTGAAGCTG
GTGGTGAAGG CACTGCCAGG AGGCCTCGAT GCCATCATCA CAGAAGGCGG GGAGAATTTC
AGCCAGGGAC AGAGGCAGCT GTTCTGCCTG GCCCGGGCCT TCGTGAGGAA GACCAGCATC
TTCATCATGG ACGAGGCCAC GGCTTCCATT GACATGGCCA CGGAAAACAT CCTCCAAAAG
GTGGTGATGA CAGCCTTCGC AGACCGCACT GTGGTCACCA TCGCGCATCG AGTGCACACC
ATCCTGAGTG CAGACCTGGT GATCGTCCTG AAGCGGGGTG CCATCCTTGA GTTCGATAAG
CCAGAGAAGC TGCTCAGCCG GAAGGACAGC GTCTTCGCCT CCTTCGTCCG TGCAGACAAG
TGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq XP_016873693.1
CDS1089..3791
Translation

Target ORF information:

RefSeq Version XM_017018204.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X12, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017018204.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
ATGGGAGGCT ACTTCACGTG GACCCCAGAT GGAATCCCCA CACTGTCCAA CATCACCATT 
CGTATCCCCC GAGGCCAGCT GACTATGATC GTGGGGCAGG TGGGCTGCGG CAAGTCCTCG
CTCCTTCTAG CCGCACTGGG GGAGATGCAG AAGGTCTCAG GGGCTGTCTT CTGGAGCAGC
CTTCCTGACA GCGAGATAGG AGAGGACCCC AGCCCAGAGC GGGAGACAGC GACCGACTTG
GATATCAGGA AGAGAGGCCC CGTGGCCTAT GCTTCGCAGA AACCATGGCT GCTAAATGCC
ACTGTGGAGG AGAACATCAT CTTTGAGAGT CCCTTCAACA AACAACGGTA CAAGATGGTC
ATTGAAGCCT GCTCTCTGCA GCCAGACATC GACATCCTGC CCCATGGAGA CCAGACCCAG
ATTGGGGAAC GGGGCATCAA CCTGTCTGGT GGTCAACGCC AGCGAATCAG TGTGGCCCGA
GCCCTCTACC AGCACGCCAA CGTTGTCTTC TTGGATGACC CCTTCTCAGC TCTGGATATC
CATCTGAGTG ACCACTTAAT GCAGGCCGGC ATCCTTGAGC TGCTCCGGGA CGACAAGAGG
ACAGTGGTCT TAGTGACCCA CAAGCTACAG TACCTGCCCC ATGCAGACTG GATCATTGCC
ATGAAGGATG GCACCATCCA GAGGGAGGGT ACCCTCAAGG ACTTCCAGAG GTCTGAATGC
CAGCTCTTTG AGCACTGGAA GACCCTCATG AACCGACAGG ACCAAGAGCT GGAGAAGGAG
ACTGTCACAG AGAGAAAAGC CACAGAGCCA CCCCAGGGCC TATCTCGTGC CATGTCCTCG
AGGGATGGCC TTCTGCAGGA TGAGGAAGAG GAGGAAGAGG AGGCAGCTGA GAGCGAGGAG
GATGACAACC TGTCGTCCAT GCTGCACCAG CGTGCTGAGA TCCCATGGCG AGCCTGCGCC
AAGTACCTGT CCTCCGCCGG CATCCTGCTC CTGTCGTTGC TGGTCTTCTC ACAGCTGCTC
AAGCACATGG TCCTGGTGGC CATCGACTAC TGGCTGGCCA AGTGGACCGA CAGCGCCCTG
ACCCTGACCC CTGCAGCCAG GAACTGCTCC CTCAGCCAGG AGTGCACCCT CGACCAGACT
GTCTATGCCA TGGTGTTCAC GGTGCTCTGC AGCCTGGGCA TTGTGCTGTG CCTCGTCACG
TCTGTCACTG TGGAGTGGAC AGGGCTGAAG GTGGCCAAGA GACTGCACCG CAGCCTGCTA
AACCGGATCA TCCTAGCCCC CATGAGGTTT TTTGAGACCA CGCCCCTTGG GAGCATCCTG
AACAGATTTT CATCTGACTG TAACACCATC GACCAGCACA TCCCATCCAC GCTGGAGTGC
CTGAGCCGCT CCACCCTGCT CTGTGTCTCA GCCCTGGCCG TCATCTCCTA TGTCACACCT
GTGTTCCTCG TGGCCCTCTT GCCCCTGGCC ATCGTGTGCT ACTTCATCCA GAAGTACTTC
CGGGTGGCGT CCAGGGACCT GCAGCAGCTG GATGACACCA CCCAGCTTCC ACTTCTCTCA
CACTTTGCCG AAACCGTAGA AGGACTCACC ACCATCCGGG CCTTCAGGTA TGAGGCCCGG
TTCCAGCAGA AGCTTCTCGA ATACACAGAC TCCAACAACA TTGCTTCCCT CTTCCTCACA
GCTGCCAACA GATGGCTGGA AGTCCGAATG GAGTACATCG GTGCATGTGT GGTGCTCATC
GCAGCGGTGA CCTCCATCTC CAACTCCCTG CACAGGGAGC TCTCTGCTGG CCTGGTGGGC
CTGGGCCTTA CCTACGCCCT AATGGTCTCC AACTACCTCA ACTGGATGGT GAGGAACCTG
GCAGACATGG AGCTCCAGCT GGGGGCTGTG AAGCGCATCC ATGGGCTCCT GAAAACCGAG
GCAGAGAGCT ACGAGGGGCT CCTGGCACCA TCGCTGATCC CAAAGAACTG GCCAGACCAA
GGGAAGATCC AGATCCAGAA CCTGAGCGTG CGCTACGACA GCTCCCTGAA GCCGGTGCTG
AAGCACGTCA ATGCCCTCAT CGCCCCTGGA CAGAAGATCG GGATCTGCGG CCGCACCGGC
AGTGGGAAGT CCTCCTTCTC TCTTGCCTTC TTCCGCATGG TGGACACGTT CGAAGGGCAC
ATCATCATTG ATGGCATTGA CATCGCCAAA CTGCCGCTGC ACACCCTGCG CTCACGCCTC
TCCATCATCC TGCAGGACCC CGTCCTCTTC AGCGGCACCA TCCGATTTAA CCTGGACCCT
GAGAGGAAGT GCTCAGATAG CACACTGTGG GAGGCCCTGG AAATCGCCCA GCTGAAGCTG
GTGGTGAAGG CACTGCCAGG AGGCCTCGAT GCCATCATCA CAGAAGGCGG GGAGAATTTC
AGCCAGGGAC AGAGGCAGCT GTTCTGCCTG GCCCGGGCCT TCGTGAGGAA GACCAGCATC
TTCATCATGG ACGAGGCCAC GGCTTCCATT GACATGGCCA CGGAAAACAT CCTCCAAAAG
GTGGTGATGA CAGCCTTCGC AGACCGCACT GTGGTCACCA TCGCGCATCG AGTGCACACC
ATCCTGAGTG CAGACCTGGT GATCGTCCTG AAGCGGGGTG CCATCCTTGA GTTCGATAAG
CCAGAGAAGC TGCTCAGCCG GAAGGACAGC GTCTTCGCCT CCTTCGTCCG TGCAGACAAG
TGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu92456
Clone ID Related Accession (Same CDS sequence) XM_017018201.1
Accession Version XM_017018201.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4500bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform X6
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGGAAGAGG GGCTCCCTTC CCTACACAGC TCCCAGCCCA GTGGGTCCTC ACCTCCAAAC
CACCCCCAGC CCCTCAGGGT TGTGAACCGC AAGCGTCCAG CCCGGGAGGA TTGTCGGGGC
CTCACCGGCC CACTGCAGAG CCTGGTCCCC AGTGCAGATG GCGATGCTGA CAACTGCTGT
GTCCAGATCA TGGGAGGCTA CTTCACGTGG ACCCCAGATG GAATCCCCAC ACTGTCCAAC
ATCACCATTC GTATCCCCCG AGGCCAGCTG ACTATGATCG TGGGGCAGGT GGGCTGCGGC
AAGTCCTCGC TCCTTCTAGC CGCACTGGGG GAGATGCAGA AGGTCTCAGG GGCTGTCTTC
TGGAGCAGCA GCCTTCCTGA CAGCGAGATA GGAGAGGACC CCAGCCCAGA GCGGGAGACA
GCGACCGACT TGGATATCAG GAAGAGAGGC CCCGTGGCCT ATGCTTCGCA GAAACCATGG
CTGCTAAATG CCACTGTGGA GGAGAACATC ATCTTTGAGA GTCCCTTCAA CAAACAACGG
TACAAGATGG TCATTGAAGC CTGCTCTCTG CAGCCAGACA TCGACATCCT GCCCCATGGA
GACCAGACCC AGATTGGGGA ACGGGGCATC AACCTGTCTG GTGGTCAACG CCAGCGAATC
AGTGTGGCCC GAGCCCTCTA CCAGCACGCC AACGTTGTCT TCTTGGATGA CCCCTTCTCA
GCTCTGGATA TCCATCTGAG TGACCACTTA ATGCAGGCCG GCATCCTTGA GCTGCTCCGG
GACGACAAGA GGACAGTGGT CTTAGTGACC CACAAGCTAC AGTACCTGCC CCATGCAGAC
TGGATCATTG CCATGAAGGA TGGCACCATC CAGAGGGAGG GTACCCTCAA GGACTTCCAG
AGGTCTGAAT GCCAGCTCTT TGAGCACTGG AAGACCCTCA TGAACCGACA GGACCAAGAG
CTGGAGAAGG AGACTGTCAC AGAGAGAAAA GCCACAGAGC CACCCCAGGG CCTATCTCGT
GCCATGTCCT CGAGGGATGG CCTTCTGCAG GATGAGGAAG AGGAGGAAGA GGAGGCAGCT
GAGAGCGAGG AGGATGACAA CCTGTCGTCC ATGCTGCACC AGCGTGCTGA GATCCCATGG
CGAGCCTGCG CCAAGTACCT GTCCTCCGCC GGCATCCTGC TCCTGTCGTT GCTGGTCTTC
TCACAGCTGC TCAAGCACAT GGTCCTGGTG GCCATCGACT ACTGGCTGGC CAAGTGGACC
GACAGCGCCC TGACCCTGAC CCCTGCAGCC AGGAACTGCT CCCTCAGCCA GGAGTGCACC
CTCGACCAGA CTGTCTATGC CATGGTGTTC ACGGTGCTCT GCAGCCTGGG CATTGTGCTG
TGCCTCGTCA CGTCTGTCAC TGTGGAGTGG ACAGGGCTGA AGGTGGCCAA GAGACTGCAC
CGCAGCCTGC TAAACCGGAT CATCCTAGCC CCCATGAGGT TTTTTGAGAC CACGCCCCTT
GGGAGCATCC TGAACAGATT TTCATCTGAC TGTAACACCA TCGACCAGCA CATCCCATCC
ACGCTGGAGT GCCTGAGCCG CTCCACCCTG CTCTGTGTCT CAGCCCTGGC CGTCATCTCC
TATGTCACAC CTGTGTTCCT CGTGGCCCTC TTGCCCCTGG CCATCGTGTG CTACTTCATC
CAGAAGTACT TCCGGGTGGC GTCCAGGGAC CTGCAGCAGC TGGATGACAC CACCCAGCTT
CCACTTCTCT CACACTTTGC CGAAACCGTA GAAGGACTCA CCACCATCCG GGCCTTCAGG
TATGAGGCCC GGTTCCAGCA GAAGCTTCTC GAATACACAG ACTCCAACAA CATTGCTTCC
CTCTTCCTCA CAGCTGCCAA CAGATGGCTG GAAGTCCGAA TGGAGTACAT CGGTGCATGT
GTGGTGCTCA TCGCAGCGGT GACCTCCATC TCCAACTCCC TGCACAGGGA GCTCTCTGCT
GGCCTGGTGG GCCTGGGCCT TACCTACGCC CTAATGGTCT CCAACTACCT CAACTGGATG
GTGAGGAACC TGGCAGACAT GGAGCTCCAG CTGGGGGCTG TGAAGCGCAT CCATGGGCTC
CTGAAAACCG AGGCAGAGAG CTACGAGGGG CTCCTGGCAC CATCGCTGAT CCCAAAGAAC
TGGCCAGACC AAGGGAAGAT CCAGATCCAG AACCTGAGCG TGCGCTACGA CAGCTCCCTG
AAGCCGGTGC TGAAGCACGT CAATGCCCTC ATCGCCCCTG GACAGAAGAT CGGGATCTGC
GGCCGCACCG GCAGTGGGAA GTCCTCCTTC TCTCTTGCCT TCTTCCGCAT GGTGGACACG
TTCGAAGGGC ACATCATCAT TGATGGCATT GACATCGCCA AACTGCCGCT GCACACCCTG
CGCTCACGCC TCTCCATCAT CCTGCAGGAC CCCGTCCTCT TCAGCGGCAC CATCCGATGC
CATCATCACA GAAGGCGGGG AGAATTTCAG CCAGGGACAG AGGCAGCTGT TCTGCCTGGC
CCGGGCCTTC GTGAGGAAGA CCAGCATCTT CATCATGGAC GAGGCCACGG CTTCCATTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq XP_016873690.1
CDS64..4563
Translation

Target ORF information:

RefSeq Version XM_017018201.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X7, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017018201.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGGAAGAGG GGCTCCCTTC CCTACACAGC TCCCAGCCCA GTGGGTCCTC ACCTCCAAAC
CACCCCCAGC CCCTCAGGGT TGTGAACCGC AAGCGTCCAG CCCGGGAGGA TTGTCGGGGC
CTCACCGGCC CACTGCAGAG CCTGGTCCCC AGTGCAGATG GCGATGCTGA CAACTGCTGT
GTCCAGATCA TGGGAGGCTA CTTCACGTGG ACCCCAGATG GAATCCCCAC ACTGTCCAAC
ATCACCATTC GTATCCCCCG AGGCCAGCTG ACTATGATCG TGGGGCAGGT GGGCTGCGGC
AAGTCCTCGC TCCTTCTAGC CGCACTGGGG GAGATGCAGA AGGTCTCAGG GGCTGTCTTC
TGGAGCAGCA GCCTTCCTGA CAGCGAGATA GGAGAGGACC CCAGCCCAGA GCGGGAGACA
GCGACCGACT TGGATATCAG GAAGAGAGGC CCCGTGGCCT ATGCTTCGCA GAAACCATGG
CTGCTAAATG CCACTGTGGA GGAGAACATC ATCTTTGAGA GTCCCTTCAA CAAACAACGG
TACAAGATGG TCATTGAAGC CTGCTCTCTG CAGCCAGACA TCGACATCCT GCCCCATGGA
GACCAGACCC AGATTGGGGA ACGGGGCATC AACCTGTCTG GTGGTCAACG CCAGCGAATC
AGTGTGGCCC GAGCCCTCTA CCAGCACGCC AACGTTGTCT TCTTGGATGA CCCCTTCTCA
GCTCTGGATA TCCATCTGAG TGACCACTTA ATGCAGGCCG GCATCCTTGA GCTGCTCCGG
GACGACAAGA GGACAGTGGT CTTAGTGACC CACAAGCTAC AGTACCTGCC CCATGCAGAC
TGGATCATTG CCATGAAGGA TGGCACCATC CAGAGGGAGG GTACCCTCAA GGACTTCCAG
AGGTCTGAAT GCCAGCTCTT TGAGCACTGG AAGACCCTCA TGAACCGACA GGACCAAGAG
CTGGAGAAGG AGACTGTCAC AGAGAGAAAA GCCACAGAGC CACCCCAGGG CCTATCTCGT
GCCATGTCCT CGAGGGATGG CCTTCTGCAG GATGAGGAAG AGGAGGAAGA GGAGGCAGCT
GAGAGCGAGG AGGATGACAA CCTGTCGTCC ATGCTGCACC AGCGTGCTGA GATCCCATGG
CGAGCCTGCG CCAAGTACCT GTCCTCCGCC GGCATCCTGC TCCTGTCGTT GCTGGTCTTC
TCACAGCTGC TCAAGCACAT GGTCCTGGTG GCCATCGACT ACTGGCTGGC CAAGTGGACC
GACAGCGCCC TGACCCTGAC CCCTGCAGCC AGGAACTGCT CCCTCAGCCA GGAGTGCACC
CTCGACCAGA CTGTCTATGC CATGGTGTTC ACGGTGCTCT GCAGCCTGGG CATTGTGCTG
TGCCTCGTCA CGTCTGTCAC TGTGGAGTGG ACAGGGCTGA AGGTGGCCAA GAGACTGCAC
CGCAGCCTGC TAAACCGGAT CATCCTAGCC CCCATGAGGT TTTTTGAGAC CACGCCCCTT
GGGAGCATCC TGAACAGATT TTCATCTGAC TGTAACACCA TCGACCAGCA CATCCCATCC
ACGCTGGAGT GCCTGAGCCG CTCCACCCTG CTCTGTGTCT CAGCCCTGGC CGTCATCTCC
TATGTCACAC CTGTGTTCCT CGTGGCCCTC TTGCCCCTGG CCATCGTGTG CTACTTCATC
CAGAAGTACT TCCGGGTGGC GTCCAGGGAC CTGCAGCAGC TGGATGACAC CACCCAGCTT
CCACTTCTCT CACACTTTGC CGAAACCGTA GAAGGACTCA CCACCATCCG GGCCTTCAGG
TATGAGGCCC GGTTCCAGCA GAAGCTTCTC GAATACACAG ACTCCAACAA CATTGCTTCC
CTCTTCCTCA CAGCTGCCAA CAGATGGCTG GAAGTCCGAA TGGAGTACAT CGGTGCATGT
GTGGTGCTCA TCGCAGCGGT GACCTCCATC TCCAACTCCC TGCACAGGGA GCTCTCTGCT
GGCCTGGTGG GCCTGGGCCT TACCTACGCC CTAATGGTCT CCAACTACCT CAACTGGATG
GTGAGGAACC TGGCAGACAT GGAGCTCCAG CTGGGGGCTG TGAAGCGCAT CCATGGGCTC
CTGAAAACCG AGGCAGAGAG CTACGAGGGG CTCCTGGCAC CATCGCTGAT CCCAAAGAAC
TGGCCAGACC AAGGGAAGAT CCAGATCCAG AACCTGAGCG TGCGCTACGA CAGCTCCCTG
AAGCCGGTGC TGAAGCACGT CAATGCCCTC ATCGCCCCTG GACAGAAGAT CGGGATCTGC
GGCCGCACCG GCAGTGGGAA GTCCTCCTTC TCTCTTGCCT TCTTCCGCAT GGTGGACACG
TTCGAAGGGC ACATCATCAT TGATGGCATT GACATCGCCA AACTGCCGCT GCACACCCTG
CGCTCACGCC TCTCCATCAT CCTGCAGGAC CCCGTCCTCT TCAGCGGCAC CATCCGATGC
CATCATCACA GAAGGCGGGG AGAATTTCAG CCAGGGACAG AGGCAGCTGT TCTGCCTGGC
CCGGGCCTTC GTGAGGAAGA CCAGCATCTT CATCATGGAC GAGGCCACGG CTTCCATTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu92457
Clone ID Related Accession (Same CDS sequence) XM_017018202.1
Accession Version XM_017018202.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3312bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform X7
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
ATGCTCCGCG GCATCAAGCT GCTGAAGCTG TACGCCTGGG AGAACATCTT CCGCACGCGG 
GTGGAGACGA CCCGCAGGAA GGAGATGACC AGCCTCAGGG CCTTTGCCAT CTATACCTCC
ATCTCCATTT TCATGAACAC GGCCATCCCC ATTGCAGCTG TCCTCATAAC TTTCGTGGGC
CACGTCAGCT TCTTCAAAGA GGCCGACTTC TCGCCCTCCG TGGCCTTTGC CTCCCTCTCC
CTCTTCCATA TCTTGGTCAC ACCGCTGTTC CTGCTGTCCA GTGTGGTCCG ATCTACCGTC
AAAGCTCTAG TGAGCGTGCA AAAGCTAAGC GAGTTCCTGT CCAGTGCAGA GATCCGTGAG
GAGCAGTGTG CCCCCCATGA GCCCACACCT CAGGGCCCAG CCAGCAAGTA CCAGGCGGTG
GAAGAGGGGC TCCCTTCCCT ACACAGCTCC CAGCCCAGTG GGTCCTCACC TCCAAACCAC
CCCCAGCCCC TCAGGGTTGT GAACCGCAAG CGTCCAGCCC GGGAGGATTG TCGGGGCCTC
ACCGGCCCAC TGCAGAGCCT GGTCCCCAGT GCAGATGGCG ATGCTGACAA CTGCTGTGTC
CAGATCATGG GAGGCTACTT CACGTGGACC CCAGATGGAA TCCCCACACT GTCCAACATC
ACCATTCGTA TCCCCCGAGG CCAGCTGACT ATGATCGTGG GGCAGGTGGG CTGCGGCAAG
TCCTCGCTCC TTCTAGCCGC ACTGGGGGAG ATGCAGAAGG TCTCAGGGGC TGTCTTCTGG
AGCAGCAGCC TTCCTGACAG CGAGATAGGA GAGGACCCCA GCCCAGAGCG GGAGACAGCG
ACCGACTTGG ATATCAGGAA GAGAGGCCCC GTGGCCTATG CTTCGCAGAA ACCATGGCTG
CTAAATGCCA CTGTGGAGGA GAACATCATC TTTGAGAGTC CCTTCAACAA ACAACGGTAC
AAGATGGTCA TTGAAGCCTG CTCTCTGCAG CCAGACATCG ACATCCTGCC CCATGGAGAC
CAGACCCAGA TTGGGGAACG GGGCATCAAC CTGTCTGGTG GTCAACGCCA GCGAATCAGT
GTGGCCCGAG CCCTCTACCA GCACGCCAAC GTTGTCTTCT TGGATGACCC CTTCTCAGCT
CTGGATATCC ATCTGAGTGA CCACTTAATG CAGGCCGGCA TCCTTGAGCT GCTCCGGGAC
GACAAGAGGA CAGTGGTCTT AGTGACCCAC AAGCTACAGT ACCTGCCCCA TGCAGACTGG
ATCATTGCCA TGAAGGATGG CACCATCCAG AGGGAGGGTA CCCTCAAGGA CTTCCAGAGG
TCTGAATGCC AGCTCTTTGA GCACTGGAAG ACCCTCATGA ACCGACAGGA CCAAGAGCTG
GAGAAGGAGA CTGTCACAGA GAGAAAAGCC ACAGAGCCAC CCCAGGGCCT ATCTCGTGCC
ATGTCCTCGA GGGATGGCCT TCTGCAGGAT GAGGAAGAGG AGGAAGAGGA GGCAGCTGAG
AGCGAGGAGG ATGACAACCT GTCGTCCATG CTGCACCAGC GTGCTGAGAT CCCATGGCGA
GCCTGCGCCA AGTACCTGTC CTCCGCCGGC ATCCTGCTCC TGTCGTTGCT GGTCTTCTCA
CAGCTGCTCA AGCACATGGT CCTGGTGGCC ATCGACTACT GGCTGGCCAA GTGGACCGAC
AGCGCCCTGA CCCTGACCCC TGCAGCCAGG AACTGCTCCC TCAGCCAGGA GTGCACCCTC
GACCAGACTG TCTATGCCAT GGTGTTCACG GTGCTCTGCA GCCTGGGCAT TGTGCTGTGC
CTCGTCACGT CTGTCACTGT GGAGTGGACA GGGCTGAAGG TGGCCAAGAG ACTGCACCGC
AGCCTGCTAA ACCGGATCAT CCTAGCCCCC ATGAGGTTTT TTGAGACCAC GCCCCTTGGG
AGCATCCTGA ACAGATTTTC ATCTGACTGT AACACCATCG ACCAGCACAT CCCATCCACG
CTGGAGTGCC TGAGCCGCTC CACCCTGCTC TGTGTCTCAG CCCTGGCCGT CATCTCCTAT
GTCACACCTG TGTTCCTCGT GGCCCTCTTG CCCCTGGCCA TCGTGTGCTA CTTCATCCAG
AAGTACTTCC GGGTGGCGTC CAGGGACCTG CAGCAGCTGG ATGACACCAC CCAGCTTCCA
CTTCTCTCAC ACTTTGCCGA AACCGTAGAA GGACTCACCA CCATCCGGGC CTTCAGGTAT
GAGGCCCGGT TCCAGCAGAA GCTTCTCGAA TACACAGACT CCAACAACAT TGCTTCCCTC
TTCCTCACAG CTGCCAACAG ATGGCTGGAA GTCCGAATGG AGTACATCGG TGCATGTGTG
GTGCTCATCG CAGCGGTGAC CTCCATCTCC AACTCCCTGC ACAGGGAGCT CTCTGCTGGC
CTGGTGGGCC TGGGCCTTAC CTACGCCCTA ATGGTCTCCA ACTACCTCAA CTGGATGGTG
AGGAACCTGG CAGACATGGA GCTCCAGCTG GGGGCTGTGA AGCGCATCCA TGGGCTCCTG
AAAACCGAGG CAGAGAGCTA CGAGGGGCTC CTGGCACCAT CGCTGATCCC AAAGAACTGG
CCAGACCAAG GGAAGATCCA GATCCAGAAC CTGAGCGTGC GCTACGACAG CTCCCTGAAG
CCGGTGCTGA AGCACGTCAA TGCCCTCATC GCCCCTGGAC AGAAGATCGG GATCTGCGGC
CGCACCGGCA GTGGGAAGTC CTCCTTCTCT CTTGCCTTCT TCCGCATGGT GGACACGTTC
GAAGGGCACA TCATCATTGA TGGCATTGAC ATCGCCAAAC TGCCGCTGCA CACCCTGCGC
TCACGCCTCT CCATCATCCT GCAGGACCCC GTCCTCTTCA GCGGCACCAT CCGATTTAAC
CTGGACCCTG AGAGGAAGTG CTCAGATAGC ACACTGTGGG AGGCCCTGGA AATCGCCCAG
CTGAAGCTGG TGGTGAAGGC ACTGCCAGGA GGCCTCGATG CCATCATCAC AGAAGGCGGG
GAGAATTTCA GCCAGGGACA GAGGCAGCTG TTCTGCCTGG CCCGGGCCTT CGTGAGGAAG
ACCAGCATCT TCATCATGGA CGAGGCCACG GCTTCCATTG ACATGGCCAC GGAAAACATC
CTCCAAAAGG TGGTGATGAC AGCCTTCGCA GACCGCACTG TGGTCACCAT CGCGCATCGA
GTGCACACCA TCCTGAGTGC AGACCTGGTG ATCGTCCTGA AGCGGGGTGC CATCCTTGAG
TTCGATAAGC CAGAGAAGCT GCTCAGCCGG AAGGACAGCG TCTTCGCCTC CTTCGTCCGT
GCAGACAAGT GA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq XP_016873691.1
CDS1368..4679
Translation

Target ORF information:

RefSeq Version XM_017018202.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X9, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017018202.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
ATGCTCCGCG GCATCAAGCT GCTGAAGCTG TACGCCTGGG AGAACATCTT CCGCACGCGG 
GTGGAGACGA CCCGCAGGAA GGAGATGACC AGCCTCAGGG CCTTTGCCAT CTATACCTCC
ATCTCCATTT TCATGAACAC GGCCATCCCC ATTGCAGCTG TCCTCATAAC TTTCGTGGGC
CACGTCAGCT TCTTCAAAGA GGCCGACTTC TCGCCCTCCG TGGCCTTTGC CTCCCTCTCC
CTCTTCCATA TCTTGGTCAC ACCGCTGTTC CTGCTGTCCA GTGTGGTCCG ATCTACCGTC
AAAGCTCTAG TGAGCGTGCA AAAGCTAAGC GAGTTCCTGT CCAGTGCAGA GATCCGTGAG
GAGCAGTGTG CCCCCCATGA GCCCACACCT CAGGGCCCAG CCAGCAAGTA CCAGGCGGTG
GAAGAGGGGC TCCCTTCCCT ACACAGCTCC CAGCCCAGTG GGTCCTCACC TCCAAACCAC
CCCCAGCCCC TCAGGGTTGT GAACCGCAAG CGTCCAGCCC GGGAGGATTG TCGGGGCCTC
ACCGGCCCAC TGCAGAGCCT GGTCCCCAGT GCAGATGGCG ATGCTGACAA CTGCTGTGTC
CAGATCATGG GAGGCTACTT CACGTGGACC CCAGATGGAA TCCCCACACT GTCCAACATC
ACCATTCGTA TCCCCCGAGG CCAGCTGACT ATGATCGTGG GGCAGGTGGG CTGCGGCAAG
TCCTCGCTCC TTCTAGCCGC ACTGGGGGAG ATGCAGAAGG TCTCAGGGGC TGTCTTCTGG
AGCAGCAGCC TTCCTGACAG CGAGATAGGA GAGGACCCCA GCCCAGAGCG GGAGACAGCG
ACCGACTTGG ATATCAGGAA GAGAGGCCCC GTGGCCTATG CTTCGCAGAA ACCATGGCTG
CTAAATGCCA CTGTGGAGGA GAACATCATC TTTGAGAGTC CCTTCAACAA ACAACGGTAC
AAGATGGTCA TTGAAGCCTG CTCTCTGCAG CCAGACATCG ACATCCTGCC CCATGGAGAC
CAGACCCAGA TTGGGGAACG GGGCATCAAC CTGTCTGGTG GTCAACGCCA GCGAATCAGT
GTGGCCCGAG CCCTCTACCA GCACGCCAAC GTTGTCTTCT TGGATGACCC CTTCTCAGCT
CTGGATATCC ATCTGAGTGA CCACTTAATG CAGGCCGGCA TCCTTGAGCT GCTCCGGGAC
GACAAGAGGA CAGTGGTCTT AGTGACCCAC AAGCTACAGT ACCTGCCCCA TGCAGACTGG
ATCATTGCCA TGAAGGATGG CACCATCCAG AGGGAGGGTA CCCTCAAGGA CTTCCAGAGG
TCTGAATGCC AGCTCTTTGA GCACTGGAAG ACCCTCATGA ACCGACAGGA CCAAGAGCTG
GAGAAGGAGA CTGTCACAGA GAGAAAAGCC ACAGAGCCAC CCCAGGGCCT ATCTCGTGCC
ATGTCCTCGA GGGATGGCCT TCTGCAGGAT GAGGAAGAGG AGGAAGAGGA GGCAGCTGAG
AGCGAGGAGG ATGACAACCT GTCGTCCATG CTGCACCAGC GTGCTGAGAT CCCATGGCGA
GCCTGCGCCA AGTACCTGTC CTCCGCCGGC ATCCTGCTCC TGTCGTTGCT GGTCTTCTCA
CAGCTGCTCA AGCACATGGT CCTGGTGGCC ATCGACTACT GGCTGGCCAA GTGGACCGAC
AGCGCCCTGA CCCTGACCCC TGCAGCCAGG AACTGCTCCC TCAGCCAGGA GTGCACCCTC
GACCAGACTG TCTATGCCAT GGTGTTCACG GTGCTCTGCA GCCTGGGCAT TGTGCTGTGC
CTCGTCACGT CTGTCACTGT GGAGTGGACA GGGCTGAAGG TGGCCAAGAG ACTGCACCGC
AGCCTGCTAA ACCGGATCAT CCTAGCCCCC ATGAGGTTTT TTGAGACCAC GCCCCTTGGG
AGCATCCTGA ACAGATTTTC ATCTGACTGT AACACCATCG ACCAGCACAT CCCATCCACG
CTGGAGTGCC TGAGCCGCTC CACCCTGCTC TGTGTCTCAG CCCTGGCCGT CATCTCCTAT
GTCACACCTG TGTTCCTCGT GGCCCTCTTG CCCCTGGCCA TCGTGTGCTA CTTCATCCAG
AAGTACTTCC GGGTGGCGTC CAGGGACCTG CAGCAGCTGG ATGACACCAC CCAGCTTCCA
CTTCTCTCAC ACTTTGCCGA AACCGTAGAA GGACTCACCA CCATCCGGGC CTTCAGGTAT
GAGGCCCGGT TCCAGCAGAA GCTTCTCGAA TACACAGACT CCAACAACAT TGCTTCCCTC
TTCCTCACAG CTGCCAACAG ATGGCTGGAA GTCCGAATGG AGTACATCGG TGCATGTGTG
GTGCTCATCG CAGCGGTGAC CTCCATCTCC AACTCCCTGC ACAGGGAGCT CTCTGCTGGC
CTGGTGGGCC TGGGCCTTAC CTACGCCCTA ATGGTCTCCA ACTACCTCAA CTGGATGGTG
AGGAACCTGG CAGACATGGA GCTCCAGCTG GGGGCTGTGA AGCGCATCCA TGGGCTCCTG
AAAACCGAGG CAGAGAGCTA CGAGGGGCTC CTGGCACCAT CGCTGATCCC AAAGAACTGG
CCAGACCAAG GGAAGATCCA GATCCAGAAC CTGAGCGTGC GCTACGACAG CTCCCTGAAG
CCGGTGCTGA AGCACGTCAA TGCCCTCATC GCCCCTGGAC AGAAGATCGG GATCTGCGGC
CGCACCGGCA GTGGGAAGTC CTCCTTCTCT CTTGCCTTCT TCCGCATGGT GGACACGTTC
GAAGGGCACA TCATCATTGA TGGCATTGAC ATCGCCAAAC TGCCGCTGCA CACCCTGCGC
TCACGCCTCT CCATCATCCT GCAGGACCCC GTCCTCTTCA GCGGCACCAT CCGATTTAAC
CTGGACCCTG AGAGGAAGTG CTCAGATAGC ACACTGTGGG AGGCCCTGGA AATCGCCCAG
CTGAAGCTGG TGGTGAAGGC ACTGCCAGGA GGCCTCGATG CCATCATCAC AGAAGGCGGG
GAGAATTTCA GCCAGGGACA GAGGCAGCTG TTCTGCCTGG CCCGGGCCTT CGTGAGGAAG
ACCAGCATCT TCATCATGGA CGAGGCCACG GCTTCCATTG ACATGGCCAC GGAAAACATC
CTCCAAAAGG TGGTGATGAC AGCCTTCGCA GACCGCACTG TGGTCACCAT CGCGCATCGA
GTGCACACCA TCCTGAGTGC AGACCTGGTG ATCGTCCTGA AGCGGGGTGC CATCCTTGAG
TTCGATAAGC CAGAGAAGCT GCTCAGCCGG AAGGACAGCG TCTTCGCCTC CTTCGTCCGT
GCAGACAAGT GA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu92458
Clone ID Related Accession (Same CDS sequence) XM_017018203.1
Accession Version XM_017018203.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3012bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform X8
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGGAAGAGG GGCTCCCTTC CCTACACAGC TCCCAGCCCA GTGGGTCCTC ACCTCCAAAC
CACCCCCAGC CCCTCAGGGT TGTGAACCGC AAGCGTCCAG CCCGGGAGGA TTGTCGGGGC
CTCACCGGCC CACTGCAGAG CCTGGTCCCC AGTGCAGATG GCGATGCTGA CAACTGCTGT
GTCCAGATCA TGGGAGGCTA CTTCACGTGG ACCCCAGATG GAATCCCCAC ACTGTCCAAC
ATCACCATTC GTATCCCCCG AGGCCAGCTG ACTATGATCG TGGGGCAGGT GGGCTGCGGC
AAGTCCTCGC TCCTTCTAGC CGCACTGGGG GAGATGCAGA AGGTCTCAGG GGCTGTCTTC
TGGAGCAGCA GCCTTCCTGA CAGCGAGATA GGAGAGGACC CCAGCCCAGA GCGGGAGACA
GCGACCGACT TGGATATCAG GAAGAGAGGC CCCGTGGCCT ATGCTTCGCA GAAACCATGG
CTGCTAAATG CCACTGTGGA GGAGAACATC ATCTTTGAGA GTCCCTTCAA CAAACAACGG
TACAAGATGG TCATTGAAGC CTGCTCTCTG CAGCCAGACA TCGACATCCT GCCCCATGGA
GACCAGACCC AGATTGGGGA ACGGGGCATC AACCTGTCTG GTGGTCAACG CCAGCGAATC
AGTGTGGCCC GAGCCCTCTA CCAGCACGCC AACGTTGTCT TCTTGGATGA CCCCTTCTCA
GCTCTGGATA TCCATCTGAG TGACCACTTA ATGCAGGCCG GCATCCTTGA GCTGCTCCGG
GACGACAAGA GGACAGTGGT CTTAGTGACC CACAAGCTAC AGTACCTGCC CCATGCAGAC
TGGATCATTG CCATGAAGGA TGGCACCATC CAGAGGGAGG GTACCCTCAA GGACTTCCAG
AGGTCTGAAT GCCAGCTCTT TGAGCACTGG AAGACCCTCA TGAACCGACA GGACCAAGAG
CTGGAGAAGG AGACTGTCAC AGAGAGAAAA GCCACAGAGC CACCCCAGGG CCTATCTCGT
GCCATGTCCT CGAGGGATGG CCTTCTGCAG GATGAGGAAG AGGAGGAAGT AAGTGGGGAT
AAAATGCCCT GA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq XP_016873692.1
CDS64..3075
Translation

Target ORF information:

RefSeq Version XM_017018203.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X10, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017018203.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGGAAGAGG GGCTCCCTTC CCTACACAGC TCCCAGCCCA GTGGGTCCTC ACCTCCAAAC
CACCCCCAGC CCCTCAGGGT TGTGAACCGC AAGCGTCCAG CCCGGGAGGA TTGTCGGGGC
CTCACCGGCC CACTGCAGAG CCTGGTCCCC AGTGCAGATG GCGATGCTGA CAACTGCTGT
GTCCAGATCA TGGGAGGCTA CTTCACGTGG ACCCCAGATG GAATCCCCAC ACTGTCCAAC
ATCACCATTC GTATCCCCCG AGGCCAGCTG ACTATGATCG TGGGGCAGGT GGGCTGCGGC
AAGTCCTCGC TCCTTCTAGC CGCACTGGGG GAGATGCAGA AGGTCTCAGG GGCTGTCTTC
TGGAGCAGCA GCCTTCCTGA CAGCGAGATA GGAGAGGACC CCAGCCCAGA GCGGGAGACA
GCGACCGACT TGGATATCAG GAAGAGAGGC CCCGTGGCCT ATGCTTCGCA GAAACCATGG
CTGCTAAATG CCACTGTGGA GGAGAACATC ATCTTTGAGA GTCCCTTCAA CAAACAACGG
TACAAGATGG TCATTGAAGC CTGCTCTCTG CAGCCAGACA TCGACATCCT GCCCCATGGA
GACCAGACCC AGATTGGGGA ACGGGGCATC AACCTGTCTG GTGGTCAACG CCAGCGAATC
AGTGTGGCCC GAGCCCTCTA CCAGCACGCC AACGTTGTCT TCTTGGATGA CCCCTTCTCA
GCTCTGGATA TCCATCTGAG TGACCACTTA ATGCAGGCCG GCATCCTTGA GCTGCTCCGG
GACGACAAGA GGACAGTGGT CTTAGTGACC CACAAGCTAC AGTACCTGCC CCATGCAGAC
TGGATCATTG CCATGAAGGA TGGCACCATC CAGAGGGAGG GTACCCTCAA GGACTTCCAG
AGGTCTGAAT GCCAGCTCTT TGAGCACTGG AAGACCCTCA TGAACCGACA GGACCAAGAG
CTGGAGAAGG AGACTGTCAC AGAGAGAAAA GCCACAGAGC CACCCCAGGG CCTATCTCGT
GCCATGTCCT CGAGGGATGG CCTTCTGCAG GATGAGGAAG AGGAGGAAGT AAGTGGGGAT
AAAATGCCCT GA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu102629
Clone ID Related Accession (Same CDS sequence) NM_001351295.1
Accession Version NM_001351295.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4812bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2017-05-05
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform 3
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC124798.5. On May 5, 2017 this sequence version replaced XM_017018198.1. Transcript Variant: This variant (3) encodes the longest isoform (3). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.132101.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGGAAGAGG GGCTCCCTTC CCTACACAGC TCCCAGCCCA GTGGGTCCTC ACCTCCAAAC
CACCCCCAGC CCCTCAGGGT TGTGAACCGC AAGCGTCCAG CCCGGGAGGA TTGTCGGGGC
CTCACCGGCC CACTGCAGAG CCTGGTCCCC AGTGCAGATG GCGATGCTGA CAACTGCTGT
GTCCAGATCA TGGGAGGCTA CTTCACGTGG ACCCCAGATG GAATCCCCAC ACTGTCCAAC
ATCACCATTC GTATCCCCCG AGGCCAGCTG ACTATGATCG TGGGGCAGGT GGGCTGCGGC
AAGTCCTCGC TCCTTCTAGC CGCACTGGGG GAGATGCAGA AGGTCTCAGG GGCTGTCTTC
TGGAGCAGCC TTCCTGACAG CGAGATAGGA GAGGACCCCA GCCCAGAGCG GGAGACAGCG
ACCGACTTGG ATATCAGGAA GAGAGGCCCC GTGGCCTATG CTTCGCAGAA ACCATGGCTG
CTAAATGCCA CTGTGGAGGA GAACATCATC TTTGAGAGTC CCTTCAACAA ACAACGGTAC
AAGATGGTCA TTGAAGCCTG CTCTCTGCAG CCAGACATCG ACATCCTGCC CCATGGAGAC
CAGACCCAGA TTGGGGAACG GGGCATCAAC CTGTCTGGTG GTCAACGCCA GCGAATCAGT
GTGGCCCGAG CCCTCTACCA GCACGCCAAC GTTGTCTTCT TGGATGACCC CTTCTCAGCT
CTGGATATCC ATCTGAGTGA CCACTTAATG CAGGCCGGCA TCCTTGAGCT GCTCCGGGAC
GACAAGAGGA CAGTGGTCTT AGTGACCCAC AAGCTACAGT ACCTGCCCCA TGCAGACTGG
ATCATTGCCA TGAAGGATGG CACCATCCAG AGGGAGGGTA CCCTCAAGGA CTTCCAGAGG
TCTGAATGCC AGCTCTTTGA GCACTGGAAG ACCCTCATGA ACCGACAGGA CCAAGAGCTG
GAGAAGGAGA CTGTCACAGA GAGAAAAGCC ACAGAGCCAC CCCAGGGCCT ATCTCGTGCC
ATGTCCTCGA GGGATGGCCT TCTGCAGGAT GAGGAAGAGG AGGAAGAGGA GGCAGCTGAG
AGCGAGGAGG ATGACAACCT GTCGTCCATG CTGCACCAGC GTGCTGAGAT CCCATGGCGA
GCCTGCGCCA AGTACCTGTC CTCCGCCGGC ATCCTGCTCC TGTCGTTGCT GGTCTTCTCA
CAGCTGCTCA AGCACATGGT CCTGGTGGCC ATCGACTACT GGCTGGCCAA GTGGACCGAC
AGCGCCCTGA CCCTGACCCC TGCAGCCAGG AACTGCTCCC TCAGCCAGGA GTGCACCCTC
GACCAGACTG TCTATGCCAT GGTGTTCACG GTGCTCTGCA GCCTGGGCAT TGTGCTGTGC
CTCGTCACGT CTGTCACTGT GGAGTGGACA GGGCTGAAGG TGGCCAAGAG ACTGCACCGC
AGCCTGCTAA ACCGGATCAT CCTAGCCCCC ATGAGGTTTT TTGAGACCAC GCCCCTTGGG
AGCATCCTGA ACAGATTTTC ATCTGACTGT AACACCATCG ACCAGCACAT CCCATCCACG
CTGGAGTGCC TGAGCCGCTC CACCCTGCTC TGTGTCTCAG CCCTGGCCGT CATCTCCTAT
GTCACACCTG TGTTCCTCGT GGCCCTCTTG CCCCTGGCCA TCGTGTGCTA CTTCATCCAG
AAGTACTTCC GGGTGGCGTC CAGGGACCTG CAGCAGCTGG ATGACACCAC CCAGCTTCCA
CTTCTCTCAC ACTTTGCCGA AACCGTAGAA GGACTCACCA CCATCCGGGC CTTCAGGTAT
GAGGCCCGGT TCCAGCAGAA GCTTCTCGAA TACACAGACT CCAACAACAT TGCTTCCCTC
TTCCTCACAG CTGCCAACAG ATGGCTGGAA GTCCGAATGG AGTACATCGG TGCATGTGTG
GTGCTCATCG CAGCGGTGAC CTCCATCTCC AACTCCCTGC ACAGGGAGCT CTCTGCTGGC
CTGGTGGGCC TGGGCCTTAC CTACGCCCTA ATGGTCTCCA ACTACCTCAA CTGGATGGTG
AGGAACCTGG CAGACATGGA GCTCCAGCTG GGGGCTGTGA AGCGCATCCA TGGGCTCCTG
AAAACCGAGG CAGAGAGCTA CGAGGGGCTC CTGGCACCAT CGCTGATCCC AAAGAACTGG
CCAGACCAAG GGAAGATCCA GATCCAGAAC CTGAGCGTGC GCTACGACAG CTCCCTGAAG
CCGGTGCTGA AGCACGTCAA TGCCCTCATC GCCCCTGGAC AGAAGATCGG GATCTGCGGC
CGCACCGGCA GTGGGAAGTC CTCCTTCTCT CTTGCCTTCT TCCGCATGGT GGACACGTTC
GAAGGGCACA TCATCATTGA TGGCATTGAC ATCGCCAAAC TGCCGCTGCA CACCCTGCGC
TCACGCCTCT CCATCATCCT GCAGGACCCC GTCCTCTTCA GCGGCACCAT CCGATTTAAC
CTGGACCCTG AGAGGAAGTG CTCAGATAGC ACACTGTGGG AGGCCCTGGA AATCGCCCAG
CTGAAGCTGG TGGTGAAGGC ACTGCCAGGA GGCCTCGATG CCATCATCAC AGAAGGCGGG
GAGAATTTCA GCCAGGGACA GAGGCAGCTG TTCTGCCTGG CCCGGGCCTT CGTGAGGAAG
ACCAGCATCT TCATCATGGA CGAGGCCACG GCTTCCATTG ACATGGCCAC GGAAAACATC
CTCCAAAAGG TGGTGATGAC AGCCTTCGCA GACCGCACTG TGGTCACCAT CGCGCATCGA
GTGCACACCA TCCTGAGTGC AGACCTGGTG ATCGTCCTGA AGCGGGGTGC CATCCTTGAG
TTCGATAAGC CAGAGAAGCT GCTCAGCCGG AAGGACAGCG TCTTCGCCTC CTTCGTCCGT
GCAGACAAGT GA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq NP_001338224.1
CDS70..4881
Exon (1)1..217
Translation

Target ORF information:

RefSeq Version NM_001351295.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant 3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001351295.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGGAAGAGG GGCTCCCTTC CCTACACAGC TCCCAGCCCA GTGGGTCCTC ACCTCCAAAC
CACCCCCAGC CCCTCAGGGT TGTGAACCGC AAGCGTCCAG CCCGGGAGGA TTGTCGGGGC
CTCACCGGCC CACTGCAGAG CCTGGTCCCC AGTGCAGATG GCGATGCTGA CAACTGCTGT
GTCCAGATCA TGGGAGGCTA CTTCACGTGG ACCCCAGATG GAATCCCCAC ACTGTCCAAC
ATCACCATTC GTATCCCCCG AGGCCAGCTG ACTATGATCG TGGGGCAGGT GGGCTGCGGC
AAGTCCTCGC TCCTTCTAGC CGCACTGGGG GAGATGCAGA AGGTCTCAGG GGCTGTCTTC
TGGAGCAGCC TTCCTGACAG CGAGATAGGA GAGGACCCCA GCCCAGAGCG GGAGACAGCG
ACCGACTTGG ATATCAGGAA GAGAGGCCCC GTGGCCTATG CTTCGCAGAA ACCATGGCTG
CTAAATGCCA CTGTGGAGGA GAACATCATC TTTGAGAGTC CCTTCAACAA ACAACGGTAC
AAGATGGTCA TTGAAGCCTG CTCTCTGCAG CCAGACATCG ACATCCTGCC CCATGGAGAC
CAGACCCAGA TTGGGGAACG GGGCATCAAC CTGTCTGGTG GTCAACGCCA GCGAATCAGT
GTGGCCCGAG CCCTCTACCA GCACGCCAAC GTTGTCTTCT TGGATGACCC CTTCTCAGCT
CTGGATATCC ATCTGAGTGA CCACTTAATG CAGGCCGGCA TCCTTGAGCT GCTCCGGGAC
GACAAGAGGA CAGTGGTCTT AGTGACCCAC AAGCTACAGT ACCTGCCCCA TGCAGACTGG
ATCATTGCCA TGAAGGATGG CACCATCCAG AGGGAGGGTA CCCTCAAGGA CTTCCAGAGG
TCTGAATGCC AGCTCTTTGA GCACTGGAAG ACCCTCATGA ACCGACAGGA CCAAGAGCTG
GAGAAGGAGA CTGTCACAGA GAGAAAAGCC ACAGAGCCAC CCCAGGGCCT ATCTCGTGCC
ATGTCCTCGA GGGATGGCCT TCTGCAGGAT GAGGAAGAGG AGGAAGAGGA GGCAGCTGAG
AGCGAGGAGG ATGACAACCT GTCGTCCATG CTGCACCAGC GTGCTGAGAT CCCATGGCGA
GCCTGCGCCA AGTACCTGTC CTCCGCCGGC ATCCTGCTCC TGTCGTTGCT GGTCTTCTCA
CAGCTGCTCA AGCACATGGT CCTGGTGGCC ATCGACTACT GGCTGGCCAA GTGGACCGAC
AGCGCCCTGA CCCTGACCCC TGCAGCCAGG AACTGCTCCC TCAGCCAGGA GTGCACCCTC
GACCAGACTG TCTATGCCAT GGTGTTCACG GTGCTCTGCA GCCTGGGCAT TGTGCTGTGC
CTCGTCACGT CTGTCACTGT GGAGTGGACA GGGCTGAAGG TGGCCAAGAG ACTGCACCGC
AGCCTGCTAA ACCGGATCAT CCTAGCCCCC ATGAGGTTTT TTGAGACCAC GCCCCTTGGG
AGCATCCTGA ACAGATTTTC ATCTGACTGT AACACCATCG ACCAGCACAT CCCATCCACG
CTGGAGTGCC TGAGCCGCTC CACCCTGCTC TGTGTCTCAG CCCTGGCCGT CATCTCCTAT
GTCACACCTG TGTTCCTCGT GGCCCTCTTG CCCCTGGCCA TCGTGTGCTA CTTCATCCAG
AAGTACTTCC GGGTGGCGTC CAGGGACCTG CAGCAGCTGG ATGACACCAC CCAGCTTCCA
CTTCTCTCAC ACTTTGCCGA AACCGTAGAA GGACTCACCA CCATCCGGGC CTTCAGGTAT
GAGGCCCGGT TCCAGCAGAA GCTTCTCGAA TACACAGACT CCAACAACAT TGCTTCCCTC
TTCCTCACAG CTGCCAACAG ATGGCTGGAA GTCCGAATGG AGTACATCGG TGCATGTGTG
GTGCTCATCG CAGCGGTGAC CTCCATCTCC AACTCCCTGC ACAGGGAGCT CTCTGCTGGC
CTGGTGGGCC TGGGCCTTAC CTACGCCCTA ATGGTCTCCA ACTACCTCAA CTGGATGGTG
AGGAACCTGG CAGACATGGA GCTCCAGCTG GGGGCTGTGA AGCGCATCCA TGGGCTCCTG
AAAACCGAGG CAGAGAGCTA CGAGGGGCTC CTGGCACCAT CGCTGATCCC AAAGAACTGG
CCAGACCAAG GGAAGATCCA GATCCAGAAC CTGAGCGTGC GCTACGACAG CTCCCTGAAG
CCGGTGCTGA AGCACGTCAA TGCCCTCATC GCCCCTGGAC AGAAGATCGG GATCTGCGGC
CGCACCGGCA GTGGGAAGTC CTCCTTCTCT CTTGCCTTCT TCCGCATGGT GGACACGTTC
GAAGGGCACA TCATCATTGA TGGCATTGAC ATCGCCAAAC TGCCGCTGCA CACCCTGCGC
TCACGCCTCT CCATCATCCT GCAGGACCCC GTCCTCTTCA GCGGCACCAT CCGATTTAAC
CTGGACCCTG AGAGGAAGTG CTCAGATAGC ACACTGTGGG AGGCCCTGGA AATCGCCCAG
CTGAAGCTGG TGGTGAAGGC ACTGCCAGGA GGCCTCGATG CCATCATCAC AGAAGGCGGG
GAGAATTTCA GCCAGGGACA GAGGCAGCTG TTCTGCCTGG CCCGGGCCTT CGTGAGGAAG
ACCAGCATCT TCATCATGGA CGAGGCCACG GCTTCCATTG ACATGGCCAC GGAAAACATC
CTCCAAAAGG TGGTGATGAC AGCCTTCGCA GACCGCACTG TGGTCACCAT CGCGCATCGA
GTGCACACCA TCCTGAGTGC AGACCTGGTG ATCGTCCTGA AGCGGGGTGC CATCCTTGAG
TTCGATAAGC CAGAGAAGCT GCTCAGCCGG AAGGACAGCG TCTTCGCCTC CTTCGTCCGT
GCAGACAAGT GA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu102630
Clone ID Related Accession (Same CDS sequence) NM_001351297.1
Accession Version NM_001351297.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4743bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2017-05-05
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform 5
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC124798.5. On May 5, 2017 this sequence version replaced XM_017018200.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803614.181610.1, SRR1803617.5564.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGC GGAAGGACAT TCAGGGCACT
CAAGGTGCCC GGGCCATCTG GCAGGCACTC AGCCATGCCT TCGGGAGGCG CCTGGTCCTC
AGCAGCACTT TCCGCATCTT GGCCGACCTG CTGGGCTTCG CCGGGCCACT GTGCATCTTT
GGGATCGTGG ACCACCTTGG GAAGGAGAAC GACGTCTTCC AGCCCAAGAC ACAATTTCTC
GGGGTTTACT TTGTCTCATC CCAAGAGTTC CTTGCCAATG CCTACGTCTT AGCTGTGCTT
CTGTTCCTTG CCCTCCTACT GCAAAGGACA TTTCTGCAAG CATCCTACTA TGTGGCCATT
GAAACTGGAA TTAACTTGAG AGGAGCAATA CAGACCAAGA TTTACAATAA AATTATGCAC
CTGTCCACCT CCAACCTGTC CATGGGAGAA ATGACTGCTG GACAGATCTG TAATCTGGTT
GCCATCGACA CCAATCAGCT CATGTGGTTT TTCTTCTTGT GCCCAAACCT CTGGGCTATG
CCAGTACAGA TCATTGTGGG TGTGATTCTC CTCTACTACA TACTCGGAGT CAGTGCCTTA
ATTGGAGCAG CTGTCATCAT TCTACTGGCT CCTGTCCAGT ACTTCGTGGC CACCAAGCTG
TCTCAGGCCC AGCGGAGCAC ACTGGAGTAT TCCAATGAGC GGCTGAAGCA GACCAACGAG
ATGCTCCGCG GCATCAAGCT GCTGAAGCTG TACGCCTGGG AGAACATCTT CCGCACGCGG
GTGGAGACGA CCCGCAGGAA GGAGATGACC AGCCTCAGGG CCTTTGCCAT CTATACCTCC
ATCTCCATTT TCATGAACAC GGCCATCCCC ATTGCAGCTG TCCTCATAAC TTTCGTGGGC
CACGTCAGCT TCTTCAAAGA GGCCGACTTC TCGCCCTCCG TGGCCTTTGC CTCCCTCTCC
CTCTTCCATA TCTTGGTCAC ACCGCTGTTC CTGCTGTCCA GTGTGGTCCG ATCTACCGTC
AAAGCTCTAG TGAGCGTGCA AAAGCTAAGC GAGTTCCTGT CCAGTGCAGA GATCCGTGAG
GAGCAGTGTG CCCCCCATGA GCCCACACCT CAGGGCCCAG CCAGCAAGTA CCAGGCGGTG
CCCCTCAGGG TTGTGAACCG CAAGCGTCCA GCCCGGGAGG ATTGTCGGGG CCTCACCGGC
CCACTGCAGA GCCTGGTCCC CAGTGCAGAT GGCGATGCTG ACAACTGCTG TGTCCAGATC
ATGGGAGGCT ACTTCACGTG GACCCCAGAT GGAATCCCCA CACTGTCCAA CATCACCATT
CGTATCCCCC GAGGCCAGCT GACTATGATC GTGGGGCAGG TGGGCTGCGG CAAGTCCTCG
CTCCTTCTAG CCGCACTGGG GGAGATGCAG AAGGTCTCAG GGGCTGTCTT CTGGAGCAGC
CTTCCTGACA GCGAGATAGG AGAGGACCCC AGCCCAGAGC GGGAGACAGC GACCGACTTG
GATATCAGGA AGAGAGGCCC CGTGGCCTAT GCTTCGCAGA AACCATGGCT GCTAAATGCC
ACTGTGGAGG AGAACATCAT CTTTGAGAGT CCCTTCAACA AACAACGGTA CAAGATGGTC
ATTGAAGCCT GCTCTCTGCA GCCAGACATC GACATCCTGC CCCATGGAGA CCAGACCCAG
ATTGGGGAAC GGGGCATCAA CCTGTCTGGT GGTCAACGCC AGCGAATCAG TGTGGCCCGA
GCCCTCTACC AGCACGCCAA CGTTGTCTTC TTGGATGACC CCTTCTCAGC TCTGGATATC
CATCTGAGTG ACCACTTAAT GCAGGCCGGC ATCCTTGAGC TGCTCCGGGA CGACAAGAGG
ACAGTGGTCT TAGTGACCCA CAAGCTACAG TACCTGCCCC ATGCAGACTG GATCATTGCC
ATGAAGGATG GCACCATCCA GAGGGAGGGT ACCCTCAAGG ACTTCCAGAG GTCTGAATGC
CAGCTCTTTG AGCACTGGAA GACCCTCATG AACCGACAGG ACCAAGAGCT GGAGAAGGAG
ACTGTCACAG AGAGAAAAGC CACAGAGCCA CCCCAGGGCC TATCTCGTGC CATGTCCTCG
AGGGATGGCC TTCTGCAGGA TGAGGAAGAG GAGGAAGAGG AGGCAGCTGA GAGCGAGGAG
GATGACAACC TGTCGTCCAT GCTGCACCAG CGTGCTGAGA TCCCATGGCG AGCCTGCGCC
AAGTACCTGT CCTCCGCCGG CATCCTGCTC CTGTCGTTGC TGGTCTTCTC ACAGCTGCTC
AAGCACATGG TCCTGGTGGC CATCGACTAC TGGCTGGCCA AGTGGACCGA CAGCGCCCTG
ACCCTGACCC CTGCAGCCAG GAACTGCTCC CTCAGCCAGG AGTGCACCCT CGACCAGACT
GTCTATGCCA TGGTGTTCAC GGTGCTCTGC AGCCTGGGCA TTGTGCTGTG CCTCGTCACG
TCTGTCACTG TGGAGTGGAC AGGGCTGAAG GTGGCCAAGA GACTGCACCG CAGCCTGCTA
AACCGGATCA TCCTAGCCCC CATGAGGTTT TTTGAGACCA CGCCCCTTGG GAGCATCCTG
AACAGATTTT CATCTGACTG TAACACCATC GACCAGCACA TCCCATCCAC GCTGGAGTGC
CTGAGCCGCT CCACCCTGCT CTGTGTCTCA GCCCTGGCCG TCATCTCCTA TGTCACACCT
GTGTTCCTCG TGGCCCTCTT GCCCCTGGCC ATCGTGTGCT ACTTCATCCA GAAGTACTTC
CGGGTGGCGT CCAGGGACCT GCAGCAGCTG GATGACACCA CCCAGCTTCC ACTTCTCTCA
CACTTTGCCG AAACCGTAGA AGGACTCACC ACCATCCGGG CCTTCAGGTA TGAGGCCCGG
TTCCAGCAGA AGCTTCTCGA ATACACAGAC TCCAACAACA TTGCTTCCCT CTTCCTCACA
GCTGCCAACA GATGGCTGGA AGTCCGAATG GAGTACATCG GTGCATGTGT GGTGCTCATC
GCAGCGGTGA CCTCCATCTC CAACTCCCTG CACAGGGAGC TCTCTGCTGG CCTGGTGGGC
CTGGGCCTTA CCTACGCCCT AATGGTCTCC AACTACCTCA ACTGGATGGT GAGGAACCTG
GCAGACATGG AGCTCCAGCT GGGGGCTGTG AAGCGCATCC ATGGGCTCCT GAAAACCGAG
GCAGAGAGCT ACGAGGGGCT CCTGGCACCA TCGCTGATCC CAAAGAACTG GCCAGACCAA
GGGAAGATCC AGATCCAGAA CCTGAGCGTG CGCTACGACA GCTCCCTGAA GCCGGTGCTG
AAGCACGTCA ATGCCCTCAT CGCCCCTGGA CAGAAGATCG GGATCTGCGG CCGCACCGGC
AGTGGGAAGT CCTCCTTCTC TCTTGCCTTC TTCCGCATGG TGGACACGTT CGAAGGGCAC
ATCATCATTG ATGGCATTGA CATCGCCAAA CTGCCGCTGC ACACCCTGCG CTCACGCCTC
TCCATCATCC TGCAGGACCC CGTCCTCTTC AGCGGCACCA TCCGATTTAA CCTGGACCCT
GAGAGGAAGT GCTCAGATAG CACACTGTGG GAGGCCCTGG AAATCGCCCA GCTGAAGCTG
GTGGTGAAGG CACTGCCAGG AGGCCTCGAT GCCATCATCA CAGAAGGCGG GGAGAATTTC
AGCCAGGGAC AGAGGCAGCT GTTCTGCCTG GCCCGGGCCT TCGTGAGGAA GACCAGCATC
TTCATCATGG ACGAGGCCAC GGCTTCCATT GACATGGCCA CGGAAAACAT CCTCCAAAAG
GTGGTGATGA CAGCCTTCGC AGACCGCACT GTGGTCACCA TCGCGCATCG AGTGCACACC
ATCCTGAGTG CAGACCTGGT GATCGTCCTG AAGCGGGGTG CCATCCTTGA GTTCGATAAG
CCAGAGAAGC TGCTCAGCCG GAAGGACAGC GTCTTCGCCT CCTTCGTCCG TGCAGACAAG
TGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq NP_001338226.1
CDS70..4812
Exon (1)1..217
Translation

Target ORF information:

RefSeq Version NM_001351297.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant 5, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001351297.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGC GGAAGGACAT TCAGGGCACT
CAAGGTGCCC GGGCCATCTG GCAGGCACTC AGCCATGCCT TCGGGAGGCG CCTGGTCCTC
AGCAGCACTT TCCGCATCTT GGCCGACCTG CTGGGCTTCG CCGGGCCACT GTGCATCTTT
GGGATCGTGG ACCACCTTGG GAAGGAGAAC GACGTCTTCC AGCCCAAGAC ACAATTTCTC
GGGGTTTACT TTGTCTCATC CCAAGAGTTC CTTGCCAATG CCTACGTCTT AGCTGTGCTT
CTGTTCCTTG CCCTCCTACT GCAAAGGACA TTTCTGCAAG CATCCTACTA TGTGGCCATT
GAAACTGGAA TTAACTTGAG AGGAGCAATA CAGACCAAGA TTTACAATAA AATTATGCAC
CTGTCCACCT CCAACCTGTC CATGGGAGAA ATGACTGCTG GACAGATCTG TAATCTGGTT
GCCATCGACA CCAATCAGCT CATGTGGTTT TTCTTCTTGT GCCCAAACCT CTGGGCTATG
CCAGTACAGA TCATTGTGGG TGTGATTCTC CTCTACTACA TACTCGGAGT CAGTGCCTTA
ATTGGAGCAG CTGTCATCAT TCTACTGGCT CCTGTCCAGT ACTTCGTGGC CACCAAGCTG
TCTCAGGCCC AGCGGAGCAC ACTGGAGTAT TCCAATGAGC GGCTGAAGCA GACCAACGAG
ATGCTCCGCG GCATCAAGCT GCTGAAGCTG TACGCCTGGG AGAACATCTT CCGCACGCGG
GTGGAGACGA CCCGCAGGAA GGAGATGACC AGCCTCAGGG CCTTTGCCAT CTATACCTCC
ATCTCCATTT TCATGAACAC GGCCATCCCC ATTGCAGCTG TCCTCATAAC TTTCGTGGGC
CACGTCAGCT TCTTCAAAGA GGCCGACTTC TCGCCCTCCG TGGCCTTTGC CTCCCTCTCC
CTCTTCCATA TCTTGGTCAC ACCGCTGTTC CTGCTGTCCA GTGTGGTCCG ATCTACCGTC
AAAGCTCTAG TGAGCGTGCA AAAGCTAAGC GAGTTCCTGT CCAGTGCAGA GATCCGTGAG
GAGCAGTGTG CCCCCCATGA GCCCACACCT CAGGGCCCAG CCAGCAAGTA CCAGGCGGTG
CCCCTCAGGG TTGTGAACCG CAAGCGTCCA GCCCGGGAGG ATTGTCGGGG CCTCACCGGC
CCACTGCAGA GCCTGGTCCC CAGTGCAGAT GGCGATGCTG ACAACTGCTG TGTCCAGATC
ATGGGAGGCT ACTTCACGTG GACCCCAGAT GGAATCCCCA CACTGTCCAA CATCACCATT
CGTATCCCCC GAGGCCAGCT GACTATGATC GTGGGGCAGG TGGGCTGCGG CAAGTCCTCG
CTCCTTCTAG CCGCACTGGG GGAGATGCAG AAGGTCTCAG GGGCTGTCTT CTGGAGCAGC
CTTCCTGACA GCGAGATAGG AGAGGACCCC AGCCCAGAGC GGGAGACAGC GACCGACTTG
GATATCAGGA AGAGAGGCCC CGTGGCCTAT GCTTCGCAGA AACCATGGCT GCTAAATGCC
ACTGTGGAGG AGAACATCAT CTTTGAGAGT CCCTTCAACA AACAACGGTA CAAGATGGTC
ATTGAAGCCT GCTCTCTGCA GCCAGACATC GACATCCTGC CCCATGGAGA CCAGACCCAG
ATTGGGGAAC GGGGCATCAA CCTGTCTGGT GGTCAACGCC AGCGAATCAG TGTGGCCCGA
GCCCTCTACC AGCACGCCAA CGTTGTCTTC TTGGATGACC CCTTCTCAGC TCTGGATATC
CATCTGAGTG ACCACTTAAT GCAGGCCGGC ATCCTTGAGC TGCTCCGGGA CGACAAGAGG
ACAGTGGTCT TAGTGACCCA CAAGCTACAG TACCTGCCCC ATGCAGACTG GATCATTGCC
ATGAAGGATG GCACCATCCA GAGGGAGGGT ACCCTCAAGG ACTTCCAGAG GTCTGAATGC
CAGCTCTTTG AGCACTGGAA GACCCTCATG AACCGACAGG ACCAAGAGCT GGAGAAGGAG
ACTGTCACAG AGAGAAAAGC CACAGAGCCA CCCCAGGGCC TATCTCGTGC CATGTCCTCG
AGGGATGGCC TTCTGCAGGA TGAGGAAGAG GAGGAAGAGG AGGCAGCTGA GAGCGAGGAG
GATGACAACC TGTCGTCCAT GCTGCACCAG CGTGCTGAGA TCCCATGGCG AGCCTGCGCC
AAGTACCTGT CCTCCGCCGG CATCCTGCTC CTGTCGTTGC TGGTCTTCTC ACAGCTGCTC
AAGCACATGG TCCTGGTGGC CATCGACTAC TGGCTGGCCA AGTGGACCGA CAGCGCCCTG
ACCCTGACCC CTGCAGCCAG GAACTGCTCC CTCAGCCAGG AGTGCACCCT CGACCAGACT
GTCTATGCCA TGGTGTTCAC GGTGCTCTGC AGCCTGGGCA TTGTGCTGTG CCTCGTCACG
TCTGTCACTG TGGAGTGGAC AGGGCTGAAG GTGGCCAAGA GACTGCACCG CAGCCTGCTA
AACCGGATCA TCCTAGCCCC CATGAGGTTT TTTGAGACCA CGCCCCTTGG GAGCATCCTG
AACAGATTTT CATCTGACTG TAACACCATC GACCAGCACA TCCCATCCAC GCTGGAGTGC
CTGAGCCGCT CCACCCTGCT CTGTGTCTCA GCCCTGGCCG TCATCTCCTA TGTCACACCT
GTGTTCCTCG TGGCCCTCTT GCCCCTGGCC ATCGTGTGCT ACTTCATCCA GAAGTACTTC
CGGGTGGCGT CCAGGGACCT GCAGCAGCTG GATGACACCA CCCAGCTTCC ACTTCTCTCA
CACTTTGCCG AAACCGTAGA AGGACTCACC ACCATCCGGG CCTTCAGGTA TGAGGCCCGG
TTCCAGCAGA AGCTTCTCGA ATACACAGAC TCCAACAACA TTGCTTCCCT CTTCCTCACA
GCTGCCAACA GATGGCTGGA AGTCCGAATG GAGTACATCG GTGCATGTGT GGTGCTCATC
GCAGCGGTGA CCTCCATCTC CAACTCCCTG CACAGGGAGC TCTCTGCTGG CCTGGTGGGC
CTGGGCCTTA CCTACGCCCT AATGGTCTCC AACTACCTCA ACTGGATGGT GAGGAACCTG
GCAGACATGG AGCTCCAGCT GGGGGCTGTG AAGCGCATCC ATGGGCTCCT GAAAACCGAG
GCAGAGAGCT ACGAGGGGCT CCTGGCACCA TCGCTGATCC CAAAGAACTG GCCAGACCAA
GGGAAGATCC AGATCCAGAA CCTGAGCGTG CGCTACGACA GCTCCCTGAA GCCGGTGCTG
AAGCACGTCA ATGCCCTCAT CGCCCCTGGA CAGAAGATCG GGATCTGCGG CCGCACCGGC
AGTGGGAAGT CCTCCTTCTC TCTTGCCTTC TTCCGCATGG TGGACACGTT CGAAGGGCAC
ATCATCATTG ATGGCATTGA CATCGCCAAA CTGCCGCTGC ACACCCTGCG CTCACGCCTC
TCCATCATCC TGCAGGACCC CGTCCTCTTC AGCGGCACCA TCCGATTTAA CCTGGACCCT
GAGAGGAAGT GCTCAGATAG CACACTGTGG GAGGCCCTGG AAATCGCCCA GCTGAAGCTG
GTGGTGAAGG CACTGCCAGG AGGCCTCGAT GCCATCATCA CAGAAGGCGG GGAGAATTTC
AGCCAGGGAC AGAGGCAGCT GTTCTGCCTG GCCCGGGCCT TCGTGAGGAA GACCAGCATC
TTCATCATGG ACGAGGCCAC GGCTTCCATT GACATGGCCA CGGAAAACAT CCTCCAAAAG
GTGGTGATGA CAGCCTTCGC AGACCGCACT GTGGTCACCA TCGCGCATCG AGTGCACACC
ATCCTGAGTG CAGACCTGGT GATCGTCCTG AAGCGGGGTG CCATCCTTGA GTTCGATAAG
CCAGAGAAGC TGCTCAGCCG GAAGGACAGC GTCTTCGCCT CCTTCGTCCG TGCAGACAAG
TGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu92454
Clone ID Related Accession (Same CDS sequence) XM_017018197.1
Accession Version XM_017018197.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4815bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGGAAGAGG GGCTCCCTTC CCTACACAGC TCCCAGCCCA GTGGGTCCTC ACCTCCAAAC
CACCCCCAGC CCCTCAGGGT TGTGAACCGC AAGCGTCCAG CCCGGGAGGA TTGTCGGGGC
CTCACCGGCC CACTGCAGAG CCTGGTCCCC AGTGCAGATG GCGATGCTGA CAACTGCTGT
GTCCAGATCA TGGGAGGCTA CTTCACGTGG ACCCCAGATG GAATCCCCAC ACTGTCCAAC
ATCACCATTC GTATCCCCCG AGGCCAGCTG ACTATGATCG TGGGGCAGGT GGGCTGCGGC
AAGTCCTCGC TCCTTCTAGC CGCACTGGGG GAGATGCAGA AGGTCTCAGG GGCTGTCTTC
TGGAGCAGCA GCCTTCCTGA CAGCGAGATA GGAGAGGACC CCAGCCCAGA GCGGGAGACA
GCGACCGACT TGGATATCAG GAAGAGAGGC CCCGTGGCCT ATGCTTCGCA GAAACCATGG
CTGCTAAATG CCACTGTGGA GGAGAACATC ATCTTTGAGA GTCCCTTCAA CAAACAACGG
TACAAGATGG TCATTGAAGC CTGCTCTCTG CAGCCAGACA TCGACATCCT GCCCCATGGA
GACCAGACCC AGATTGGGGA ACGGGGCATC AACCTGTCTG GTGGTCAACG CCAGCGAATC
AGTGTGGCCC GAGCCCTCTA CCAGCACGCC AACGTTGTCT TCTTGGATGA CCCCTTCTCA
GCTCTGGATA TCCATCTGAG TGACCACTTA ATGCAGGCCG GCATCCTTGA GCTGCTCCGG
GACGACAAGA GGACAGTGGT CTTAGTGACC CACAAGCTAC AGTACCTGCC CCATGCAGAC
TGGATCATTG CCATGAAGGA TGGCACCATC CAGAGGGAGG GTACCCTCAA GGACTTCCAG
AGGTCTGAAT GCCAGCTCTT TGAGCACTGG AAGACCCTCA TGAACCGACA GGACCAAGAG
CTGGAGAAGG AGACTGTCAC AGAGAGAAAA GCCACAGAGC CACCCCAGGG CCTATCTCGT
GCCATGTCCT CGAGGGATGG CCTTCTGCAG GATGAGGAAG AGGAGGAAGA GGAGGCAGCT
GAGAGCGAGG AGGATGACAA CCTGTCGTCC ATGCTGCACC AGCGTGCTGA GATCCCATGG
CGAGCCTGCG CCAAGTACCT GTCCTCCGCC GGCATCCTGC TCCTGTCGTT GCTGGTCTTC
TCACAGCTGC TCAAGCACAT GGTCCTGGTG GCCATCGACT ACTGGCTGGC CAAGTGGACC
GACAGCGCCC TGACCCTGAC CCCTGCAGCC AGGAACTGCT CCCTCAGCCA GGAGTGCACC
CTCGACCAGA CTGTCTATGC CATGGTGTTC ACGGTGCTCT GCAGCCTGGG CATTGTGCTG
TGCCTCGTCA CGTCTGTCAC TGTGGAGTGG ACAGGGCTGA AGGTGGCCAA GAGACTGCAC
CGCAGCCTGC TAAACCGGAT CATCCTAGCC CCCATGAGGT TTTTTGAGAC CACGCCCCTT
GGGAGCATCC TGAACAGATT TTCATCTGAC TGTAACACCA TCGACCAGCA CATCCCATCC
ACGCTGGAGT GCCTGAGCCG CTCCACCCTG CTCTGTGTCT CAGCCCTGGC CGTCATCTCC
TATGTCACAC CTGTGTTCCT CGTGGCCCTC TTGCCCCTGG CCATCGTGTG CTACTTCATC
CAGAAGTACT TCCGGGTGGC GTCCAGGGAC CTGCAGCAGC TGGATGACAC CACCCAGCTT
CCACTTCTCT CACACTTTGC CGAAACCGTA GAAGGACTCA CCACCATCCG GGCCTTCAGG
TATGAGGCCC GGTTCCAGCA GAAGCTTCTC GAATACACAG ACTCCAACAA CATTGCTTCC
CTCTTCCTCA CAGCTGCCAA CAGATGGCTG GAAGTCCGAA TGGAGTACAT CGGTGCATGT
GTGGTGCTCA TCGCAGCGGT GACCTCCATC TCCAACTCCC TGCACAGGGA GCTCTCTGCT
GGCCTGGTGG GCCTGGGCCT TACCTACGCC CTAATGGTCT CCAACTACCT CAACTGGATG
GTGAGGAACC TGGCAGACAT GGAGCTCCAG CTGGGGGCTG TGAAGCGCAT CCATGGGCTC
CTGAAAACCG AGGCAGAGAG CTACGAGGGG CTCCTGGCAC CATCGCTGAT CCCAAAGAAC
TGGCCAGACC AAGGGAAGAT CCAGATCCAG AACCTGAGCG TGCGCTACGA CAGCTCCCTG
AAGCCGGTGC TGAAGCACGT CAATGCCCTC ATCGCCCCTG GACAGAAGAT CGGGATCTGC
GGCCGCACCG GCAGTGGGAA GTCCTCCTTC TCTCTTGCCT TCTTCCGCAT GGTGGACACG
TTCGAAGGGC ACATCATCAT TGATGGCATT GACATCGCCA AACTGCCGCT GCACACCCTG
CGCTCACGCC TCTCCATCAT CCTGCAGGAC CCCGTCCTCT TCAGCGGCAC CATCCGATTT
AACCTGGACC CTGAGAGGAA GTGCTCAGAT AGCACACTGT GGGAGGCCCT GGAAATCGCC
CAGCTGAAGC TGGTGGTGAA GGCACTGCCA GGAGGCCTCG ATGCCATCAT CACAGAAGGC
GGGGAGAATT TCAGCCAGGG ACAGAGGCAG CTGTTCTGCC TGGCCCGGGC CTTCGTGAGG
AAGACCAGCA TCTTCATCAT GGACGAGGCC ACGGCTTCCA TTGACATGGC CACGGAAAAC
ATCCTCCAAA AGGTGGTGAT GACAGCCTTC GCAGACCGCA CTGTGGTCAC CATCGCGCAT
CGAGTGCACA CCATCCTGAG TGCAGACCTG GTGATCGTCC TGAAGCGGGG TGCCATCCTT
GAGTTCGATA AGCCAGAGAA GCTGCTCAGC CGGAAGGACA GCGTCTTCGC CTCCTTCGTC
CGTGCAGACA AGTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq XP_016873686.1
CDS64..4878
Translation

Target ORF information:

RefSeq Version XM_017018197.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017018197.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGGAAGAGG GGCTCCCTTC CCTACACAGC TCCCAGCCCA GTGGGTCCTC ACCTCCAAAC
CACCCCCAGC CCCTCAGGGT TGTGAACCGC AAGCGTCCAG CCCGGGAGGA TTGTCGGGGC
CTCACCGGCC CACTGCAGAG CCTGGTCCCC AGTGCAGATG GCGATGCTGA CAACTGCTGT
GTCCAGATCA TGGGAGGCTA CTTCACGTGG ACCCCAGATG GAATCCCCAC ACTGTCCAAC
ATCACCATTC GTATCCCCCG AGGCCAGCTG ACTATGATCG TGGGGCAGGT GGGCTGCGGC
AAGTCCTCGC TCCTTCTAGC CGCACTGGGG GAGATGCAGA AGGTCTCAGG GGCTGTCTTC
TGGAGCAGCA GCCTTCCTGA CAGCGAGATA GGAGAGGACC CCAGCCCAGA GCGGGAGACA
GCGACCGACT TGGATATCAG GAAGAGAGGC CCCGTGGCCT ATGCTTCGCA GAAACCATGG
CTGCTAAATG CCACTGTGGA GGAGAACATC ATCTTTGAGA GTCCCTTCAA CAAACAACGG
TACAAGATGG TCATTGAAGC CTGCTCTCTG CAGCCAGACA TCGACATCCT GCCCCATGGA
GACCAGACCC AGATTGGGGA ACGGGGCATC AACCTGTCTG GTGGTCAACG CCAGCGAATC
AGTGTGGCCC GAGCCCTCTA CCAGCACGCC AACGTTGTCT TCTTGGATGA CCCCTTCTCA
GCTCTGGATA TCCATCTGAG TGACCACTTA ATGCAGGCCG GCATCCTTGA GCTGCTCCGG
GACGACAAGA GGACAGTGGT CTTAGTGACC CACAAGCTAC AGTACCTGCC CCATGCAGAC
TGGATCATTG CCATGAAGGA TGGCACCATC CAGAGGGAGG GTACCCTCAA GGACTTCCAG
AGGTCTGAAT GCCAGCTCTT TGAGCACTGG AAGACCCTCA TGAACCGACA GGACCAAGAG
CTGGAGAAGG AGACTGTCAC AGAGAGAAAA GCCACAGAGC CACCCCAGGG CCTATCTCGT
GCCATGTCCT CGAGGGATGG CCTTCTGCAG GATGAGGAAG AGGAGGAAGA GGAGGCAGCT
GAGAGCGAGG AGGATGACAA CCTGTCGTCC ATGCTGCACC AGCGTGCTGA GATCCCATGG
CGAGCCTGCG CCAAGTACCT GTCCTCCGCC GGCATCCTGC TCCTGTCGTT GCTGGTCTTC
TCACAGCTGC TCAAGCACAT GGTCCTGGTG GCCATCGACT ACTGGCTGGC CAAGTGGACC
GACAGCGCCC TGACCCTGAC CCCTGCAGCC AGGAACTGCT CCCTCAGCCA GGAGTGCACC
CTCGACCAGA CTGTCTATGC CATGGTGTTC ACGGTGCTCT GCAGCCTGGG CATTGTGCTG
TGCCTCGTCA CGTCTGTCAC TGTGGAGTGG ACAGGGCTGA AGGTGGCCAA GAGACTGCAC
CGCAGCCTGC TAAACCGGAT CATCCTAGCC CCCATGAGGT TTTTTGAGAC CACGCCCCTT
GGGAGCATCC TGAACAGATT TTCATCTGAC TGTAACACCA TCGACCAGCA CATCCCATCC
ACGCTGGAGT GCCTGAGCCG CTCCACCCTG CTCTGTGTCT CAGCCCTGGC CGTCATCTCC
TATGTCACAC CTGTGTTCCT CGTGGCCCTC TTGCCCCTGG CCATCGTGTG CTACTTCATC
CAGAAGTACT TCCGGGTGGC GTCCAGGGAC CTGCAGCAGC TGGATGACAC CACCCAGCTT
CCACTTCTCT CACACTTTGC CGAAACCGTA GAAGGACTCA CCACCATCCG GGCCTTCAGG
TATGAGGCCC GGTTCCAGCA GAAGCTTCTC GAATACACAG ACTCCAACAA CATTGCTTCC
CTCTTCCTCA CAGCTGCCAA CAGATGGCTG GAAGTCCGAA TGGAGTACAT CGGTGCATGT
GTGGTGCTCA TCGCAGCGGT GACCTCCATC TCCAACTCCC TGCACAGGGA GCTCTCTGCT
GGCCTGGTGG GCCTGGGCCT TACCTACGCC CTAATGGTCT CCAACTACCT CAACTGGATG
GTGAGGAACC TGGCAGACAT GGAGCTCCAG CTGGGGGCTG TGAAGCGCAT CCATGGGCTC
CTGAAAACCG AGGCAGAGAG CTACGAGGGG CTCCTGGCAC CATCGCTGAT CCCAAAGAAC
TGGCCAGACC AAGGGAAGAT CCAGATCCAG AACCTGAGCG TGCGCTACGA CAGCTCCCTG
AAGCCGGTGC TGAAGCACGT CAATGCCCTC ATCGCCCCTG GACAGAAGAT CGGGATCTGC
GGCCGCACCG GCAGTGGGAA GTCCTCCTTC TCTCTTGCCT TCTTCCGCAT GGTGGACACG
TTCGAAGGGC ACATCATCAT TGATGGCATT GACATCGCCA AACTGCCGCT GCACACCCTG
CGCTCACGCC TCTCCATCAT CCTGCAGGAC CCCGTCCTCT TCAGCGGCAC CATCCGATTT
AACCTGGACC CTGAGAGGAA GTGCTCAGAT AGCACACTGT GGGAGGCCCT GGAAATCGCC
CAGCTGAAGC TGGTGGTGAA GGCACTGCCA GGAGGCCTCG ATGCCATCAT CACAGAAGGC
GGGGAGAATT TCAGCCAGGG ACAGAGGCAG CTGTTCTGCC TGGCCCGGGC CTTCGTGAGG
AAGACCAGCA TCTTCATCAT GGACGAGGCC ACGGCTTCCA TTGACATGGC CACGGAAAAC
ATCCTCCAAA AGGTGGTGAT GACAGCCTTC GCAGACCGCA CTGTGGTCAC CATCGCGCAT
CGAGTGCACA CCATCCTGAG TGCAGACCTG GTGATCGTCC TGAAGCGGGG TGCCATCCTT
GAGTTCGATA AGCCAGAGAA GCTGCTCAGC CGGAAGGACA GCGTCTTCGC CTCCTTCGTC
CGTGCAGACA AGTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu92455
Clone ID Related Accession (Same CDS sequence) XM_017018199.1
Accession Version XM_017018199.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4812bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGC GGAAGGACAT TCAGGGCACT
CAAGGTGCCC GGGCCATCTG GCAGGCACTC AGCCATGCCT TCGGGAGGCG CCTGGTCCTC
AGCAGCACTT TCCGCATCTT GGCCGACCTG CTGGGCTTCG CCGGGCCACT GTGCATCTTT
GGGATCGTGG ACCACCTTGG GAAGGAGAAC GACGTCTTCC AGCCCAAGAC ACAATTTCTC
GGGGTTTACT TTGTCTCATC CCAAGAGTTC CTTGCCAATG CCTACGTCTT AGCTGTGCTT
CTGTTCCTTG CCCTCCTACT GCAAAGGACA TTTCTGCAAG CATCCTACTA TGTGGCCATT
GAAACTGGAA TTAACTTGAG AGGAGCAATA CAGACCAAGA TTTACAATAA AATTATGCAC
CTGTCCACCT CCAACCTGTC CATGGGAGAA ATGACTGCTG GACAGATCTG TAATCTGGTT
GCCATCGACA CCAATCAGCT CATGTGGTTT TTCTTCTTGT GCCCAAACCT CTGGGCTATG
CCAGTACAGA TCATTGTGGG TGTGATTCTC CTCTACTACA TACTCGGAGT CAGTGCCTTA
ATTGGAGCAG CTGTCATCAT TCTACTGGCT CCTGTCCAGT ACTTCGTGGC CACCAAGCTG
TCTCAGGCCC AGCGGAGCAC ACTGGAGTAT TCCAATGAGC GGCTGAAGCA GACCAACGAG
ATGCTCCGCG GCATCAAGCT GCTGAAGCTG TACGCCTGGG AGAACATCTT CCGCACGCGG
GTGGAGACGA CCCGCAGGAA GGAGATGACC AGCCTCAGGG CCTTTGCCAT CTATACCTCC
ATCTCCATTT TCATGAACAC GGCCATCCCC ATTGCAGCTG TCCTCATAAC TTTCGTGGGC
CACGTCAGCT TCTTCAAAGA GGCCGACTTC TCGCCCTCCG TGGCCTTTGC CTCCCTCTCC
CTCTTCCATA TCTTGGTCAC ACCGCTGTTC CTGCTGTCCA GTGTGGTCCG ATCTACCGTC
AAAGCTCTAG TGAGCGTGCA AAAGCTAAGC GAGTTCCTGT CCAGTGCAGA GATCCGTGAG
GAGCAGTGTG CCCCCCATGA GCCCACACCT CAGGGCCCAG CCAGCAAGTA CCAGGCGGTG
GAAGAGGGGC TCCCTTCCCT ACACAGCTCC CAGCCCAGTG GGTCCTCACC TCCAAACCAC
CCCCAGCCCC TCAGGGTTGT GAACCGCAAG CGTCCAGCCC GGGAGGATTG TCGGGGCCTC
ACCGGCCCAC TGCAGAGCCT GGTCCCCAGT GCAGATGGCG ATGCTGACAA CTGCTGTGTC
CAGATCATGG GAGGCTACTT CACGTGGACC CCAGATGGAA TCCCCACACT GTCCAACATC
ACCATTCGTA TCCCCCGAGG CCAGCTGACT ATGATCGTGG GGCAGGTGGG CTGCGGCAAG
TCCTCGCTCC TTCTAGCCGC ACTGGGGGAG ATGCAGAAGG TCTCAGGGGC TGTCTTCTGG
AGCAGCAGCC TTCCTGACAG CGAGATAGGA GAGGACCCCA GCCCAGAGCG GGAGACAGCG
ACCGACTTGG ATATCAGGAA GAGAGGCCCC GTGGCCTATG CTTCGCAGAA ACCATGGCTG
CTAAATGCCA CTGTGGAGGA GAACATCATC TTTGAGAGTC CCTTCAACAA ACAACGGTAC
AAGATGGTCA TTGAAGCCTG CTCTCTGCAG CCAGACATCG ACATCCTGCC CCATGGAGAC
CAGACCCAGA TTGGGGAACG GGGCATCAAC CTGTCTGGTG GTCAACGCCA GCGAATCAGT
GTGGCCCGAG CCCTCTACCA GCACGCCAAC GTTGTCTTCT TGGATGACCC CTTCTCAGCT
CTGGATATCC ATCTGAGTGA CCACTTAATG CAGGCCGGCA TCCTTGAGCT GCTCCGGGAC
GACAAGAGGA CAGTGGTCTT AGTGACCCAC AAGCTACAGT ACCTGCCCCA TGCAGACTGG
ATCATTGCCA TGAAGGATGG CACCATCCAG AGGGAGGGTA CCCTCAAGGA CTTCCAGAGG
TCTGAATGCC AGCTCTTTGA GCACTGGAAG ACCCTCATGA ACCGACAGGA CCAAGAGCTG
GAGAAGGAGA CTGTCACAGA GAGAAAAGCC ACAGAGCCAC CCCAGGGCCT ATCTCGTGCC
ATGTCCTCGA GGGATGGCCT TCTGCAGGAT GAGGAAGAGG AGGAAGAGGA GGCAGCTGAG
AGCGAGGAGG ATGACAACCT GTCGTCCATG CTGCACCAGC GTGCTGAGAT CCCATGGCGA
GCCTGCGCCA AGTACCTGTC CTCCGCCGGC ATCCTGCTCC TGTCGTTGCT GGTCTTCTCA
CAGCTGCTCA AGCACATGGT CCTGGTGGCC ATCGACTACT GGCTGGCCAA GTGGACCGAC
AGCGCCCTGA CCCTGACCCC TGCAGCCAGG AACTGCTCCC TCAGCCAGGA GTGCACCCTC
GACCAGACTG TCTATGCCAT GGTGTTCACG GTGCTCTGCA GCCTGGGCAT TGTGCTGTGC
CTCGTCACGT CTGTCACTGT GGAGTGGACA GGGCTGAAGG TGGCCAAGAG ACTGCACCGC
AGCCTGCTAA ACCGGATCAT CCTAGCCCCC ATGAGGTTTT TTGAGACCAC GCCCCTTGGG
AGCATCCTGA ACAGATTTTC ATCTGACTGT AACACCATCG ACCAGCACAT CCCATCCACG
CTGGAGTGCC TGAGCCGCTC CACCCTGCTC TGTGTCTCAG CCCTGGCCGT CATCTCCTAT
GTCACACCTG TGTTCCTCGT GGCCCTCTTG CCCCTGGCCA TCGTGTGCTA CTTCATCCAG
AAGTACTTCC GGGTGGCGTC CAGGGACCTG CAGCAGCTGG ATGACACCAC CCAGCTTCCA
CTTCTCTCAC ACTTTGCCGA AACCGTAGAA GGACTCACCA CCATCCGGGC CTTCAGGTAT
GAGGCCCGGT TCCAGCAGAA GCTTCTCGAA TACACAGACT CCAACAACAT TGCTTCCCTC
TTCCTCACAG CTGCCAACAG ATGGCTGGAA GTCCGAATGG AGTACATCGG TGCATGTGTG
GTGCTCATCG CAGCGGTGAC CTCCATCTCC AACTCCCTGC ACAGGGAGCT CTCTGCTGGC
CTGGTGGGCC TGGGCCTTAC CTACGCCCTA ATGGTCTCCA ACTACCTCAA CTGGATGGTG
AGGAACCTGG CAGACATGGA GCTCCAGCTG GGGGCTGTGA AGCGCATCCA TGGGCTCCTG
AAAACCGAGG CAGAGAGCTA CGAGGGGCTC CTGGCACCAT CGCTGATCCC AAAGAACTGG
CCAGACCAAG GGAAGATCCA GATCCAGAAC CTGAGCGTGC GCTACGACAG CTCCCTGAAG
CCGGTGCTGA AGCACGTCAA TGCCCTCATC GCCCCTGGAC AGAAGATCGG GATCTGCGGC
CGCACCGGCA GTGGGAAGTC CTCCTTCTCT CTTGCCTTCT TCCGCATGGT GGACACGTTC
GAAGGGCACA TCATCATTGA TGGCATTGAC ATCGCCAAAC TGCCGCTGCA CACCCTGCGC
TCACGCCTCT CCATCATCCT GCAGGACCCC GTCCTCTTCA GCGGCACCAT CCGATTTAAC
CTGGACCCTG AGAGGAAGTG CTCAGATAGC ACACTGTGGG AGGCCCTGGA AATCGCCCAG
CTGAAGCTGG TGGTGAAGGC ACTGCCAGGA GGCCTCGATG CCATCATCAC AGAAGGCGGG
GAGAATTTCA GCCAGGGACA GAGGCAGCTG TTCTGCCTGG CCCGGGCCTT CGTGAGGAAG
ACCAGCATCT TCATCATGGA CGAGGCCACG GCTTCCATTG ACATGGCCAC GGAAAACATC
CTCCAAAAGG TGGTGATGAC AGCCTTCGCA GACCGCACTG TGGTCACCAT CGCGCATCGA
GTGCACACCA TCCTGAGTGC AGACCTGGTG ATCGTCCTGA AGCGGGGTGC CATCCTTGAG
TTCGATAAGC CAGAGAAGCT GCTCAGCCGG AAGGACAGCG TCTTCGCCTC CTTCGTCCGT
GCAGACAAGT GA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq XP_016873688.1
CDS72..4883
Translation

Target ORF information:

RefSeq Version XM_017018199.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017018199.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGC GGAAGGACAT TCAGGGCACT
CAAGGTGCCC GGGCCATCTG GCAGGCACTC AGCCATGCCT TCGGGAGGCG CCTGGTCCTC
AGCAGCACTT TCCGCATCTT GGCCGACCTG CTGGGCTTCG CCGGGCCACT GTGCATCTTT
GGGATCGTGG ACCACCTTGG GAAGGAGAAC GACGTCTTCC AGCCCAAGAC ACAATTTCTC
GGGGTTTACT TTGTCTCATC CCAAGAGTTC CTTGCCAATG CCTACGTCTT AGCTGTGCTT
CTGTTCCTTG CCCTCCTACT GCAAAGGACA TTTCTGCAAG CATCCTACTA TGTGGCCATT
GAAACTGGAA TTAACTTGAG AGGAGCAATA CAGACCAAGA TTTACAATAA AATTATGCAC
CTGTCCACCT CCAACCTGTC CATGGGAGAA ATGACTGCTG GACAGATCTG TAATCTGGTT
GCCATCGACA CCAATCAGCT CATGTGGTTT TTCTTCTTGT GCCCAAACCT CTGGGCTATG
CCAGTACAGA TCATTGTGGG TGTGATTCTC CTCTACTACA TACTCGGAGT CAGTGCCTTA
ATTGGAGCAG CTGTCATCAT TCTACTGGCT CCTGTCCAGT ACTTCGTGGC CACCAAGCTG
TCTCAGGCCC AGCGGAGCAC ACTGGAGTAT TCCAATGAGC GGCTGAAGCA GACCAACGAG
ATGCTCCGCG GCATCAAGCT GCTGAAGCTG TACGCCTGGG AGAACATCTT CCGCACGCGG
GTGGAGACGA CCCGCAGGAA GGAGATGACC AGCCTCAGGG CCTTTGCCAT CTATACCTCC
ATCTCCATTT TCATGAACAC GGCCATCCCC ATTGCAGCTG TCCTCATAAC TTTCGTGGGC
CACGTCAGCT TCTTCAAAGA GGCCGACTTC TCGCCCTCCG TGGCCTTTGC CTCCCTCTCC
CTCTTCCATA TCTTGGTCAC ACCGCTGTTC CTGCTGTCCA GTGTGGTCCG ATCTACCGTC
AAAGCTCTAG TGAGCGTGCA AAAGCTAAGC GAGTTCCTGT CCAGTGCAGA GATCCGTGAG
GAGCAGTGTG CCCCCCATGA GCCCACACCT CAGGGCCCAG CCAGCAAGTA CCAGGCGGTG
GAAGAGGGGC TCCCTTCCCT ACACAGCTCC CAGCCCAGTG GGTCCTCACC TCCAAACCAC
CCCCAGCCCC TCAGGGTTGT GAACCGCAAG CGTCCAGCCC GGGAGGATTG TCGGGGCCTC
ACCGGCCCAC TGCAGAGCCT GGTCCCCAGT GCAGATGGCG ATGCTGACAA CTGCTGTGTC
CAGATCATGG GAGGCTACTT CACGTGGACC CCAGATGGAA TCCCCACACT GTCCAACATC
ACCATTCGTA TCCCCCGAGG CCAGCTGACT ATGATCGTGG GGCAGGTGGG CTGCGGCAAG
TCCTCGCTCC TTCTAGCCGC ACTGGGGGAG ATGCAGAAGG TCTCAGGGGC TGTCTTCTGG
AGCAGCAGCC TTCCTGACAG CGAGATAGGA GAGGACCCCA GCCCAGAGCG GGAGACAGCG
ACCGACTTGG ATATCAGGAA GAGAGGCCCC GTGGCCTATG CTTCGCAGAA ACCATGGCTG
CTAAATGCCA CTGTGGAGGA GAACATCATC TTTGAGAGTC CCTTCAACAA ACAACGGTAC
AAGATGGTCA TTGAAGCCTG CTCTCTGCAG CCAGACATCG ACATCCTGCC CCATGGAGAC
CAGACCCAGA TTGGGGAACG GGGCATCAAC CTGTCTGGTG GTCAACGCCA GCGAATCAGT
GTGGCCCGAG CCCTCTACCA GCACGCCAAC GTTGTCTTCT TGGATGACCC CTTCTCAGCT
CTGGATATCC ATCTGAGTGA CCACTTAATG CAGGCCGGCA TCCTTGAGCT GCTCCGGGAC
GACAAGAGGA CAGTGGTCTT AGTGACCCAC AAGCTACAGT ACCTGCCCCA TGCAGACTGG
ATCATTGCCA TGAAGGATGG CACCATCCAG AGGGAGGGTA CCCTCAAGGA CTTCCAGAGG
TCTGAATGCC AGCTCTTTGA GCACTGGAAG ACCCTCATGA ACCGACAGGA CCAAGAGCTG
GAGAAGGAGA CTGTCACAGA GAGAAAAGCC ACAGAGCCAC CCCAGGGCCT ATCTCGTGCC
ATGTCCTCGA GGGATGGCCT TCTGCAGGAT GAGGAAGAGG AGGAAGAGGA GGCAGCTGAG
AGCGAGGAGG ATGACAACCT GTCGTCCATG CTGCACCAGC GTGCTGAGAT CCCATGGCGA
GCCTGCGCCA AGTACCTGTC CTCCGCCGGC ATCCTGCTCC TGTCGTTGCT GGTCTTCTCA
CAGCTGCTCA AGCACATGGT CCTGGTGGCC ATCGACTACT GGCTGGCCAA GTGGACCGAC
AGCGCCCTGA CCCTGACCCC TGCAGCCAGG AACTGCTCCC TCAGCCAGGA GTGCACCCTC
GACCAGACTG TCTATGCCAT GGTGTTCACG GTGCTCTGCA GCCTGGGCAT TGTGCTGTGC
CTCGTCACGT CTGTCACTGT GGAGTGGACA GGGCTGAAGG TGGCCAAGAG ACTGCACCGC
AGCCTGCTAA ACCGGATCAT CCTAGCCCCC ATGAGGTTTT TTGAGACCAC GCCCCTTGGG
AGCATCCTGA ACAGATTTTC ATCTGACTGT AACACCATCG ACCAGCACAT CCCATCCACG
CTGGAGTGCC TGAGCCGCTC CACCCTGCTC TGTGTCTCAG CCCTGGCCGT CATCTCCTAT
GTCACACCTG TGTTCCTCGT GGCCCTCTTG CCCCTGGCCA TCGTGTGCTA CTTCATCCAG
AAGTACTTCC GGGTGGCGTC CAGGGACCTG CAGCAGCTGG ATGACACCAC CCAGCTTCCA
CTTCTCTCAC ACTTTGCCGA AACCGTAGAA GGACTCACCA CCATCCGGGC CTTCAGGTAT
GAGGCCCGGT TCCAGCAGAA GCTTCTCGAA TACACAGACT CCAACAACAT TGCTTCCCTC
TTCCTCACAG CTGCCAACAG ATGGCTGGAA GTCCGAATGG AGTACATCGG TGCATGTGTG
GTGCTCATCG CAGCGGTGAC CTCCATCTCC AACTCCCTGC ACAGGGAGCT CTCTGCTGGC
CTGGTGGGCC TGGGCCTTAC CTACGCCCTA ATGGTCTCCA ACTACCTCAA CTGGATGGTG
AGGAACCTGG CAGACATGGA GCTCCAGCTG GGGGCTGTGA AGCGCATCCA TGGGCTCCTG
AAAACCGAGG CAGAGAGCTA CGAGGGGCTC CTGGCACCAT CGCTGATCCC AAAGAACTGG
CCAGACCAAG GGAAGATCCA GATCCAGAAC CTGAGCGTGC GCTACGACAG CTCCCTGAAG
CCGGTGCTGA AGCACGTCAA TGCCCTCATC GCCCCTGGAC AGAAGATCGG GATCTGCGGC
CGCACCGGCA GTGGGAAGTC CTCCTTCTCT CTTGCCTTCT TCCGCATGGT GGACACGTTC
GAAGGGCACA TCATCATTGA TGGCATTGAC ATCGCCAAAC TGCCGCTGCA CACCCTGCGC
TCACGCCTCT CCATCATCCT GCAGGACCCC GTCCTCTTCA GCGGCACCAT CCGATTTAAC
CTGGACCCTG AGAGGAAGTG CTCAGATAGC ACACTGTGGG AGGCCCTGGA AATCGCCCAG
CTGAAGCTGG TGGTGAAGGC ACTGCCAGGA GGCCTCGATG CCATCATCAC AGAAGGCGGG
GAGAATTTCA GCCAGGGACA GAGGCAGCTG TTCTGCCTGG CCCGGGCCTT CGTGAGGAAG
ACCAGCATCT TCATCATGGA CGAGGCCACG GCTTCCATTG ACATGGCCAC GGAAAACATC
CTCCAAAAGG TGGTGATGAC AGCCTTCGCA GACCGCACTG TGGTCACCAT CGCGCATCGA
GTGCACACCA TCCTGAGTGC AGACCTGGTG ATCGTCCTGA AGCGGGGTGC CATCCTTGAG
TTCGATAAGC CAGAGAAGCT GCTCAGCCGG AAGGACAGCG TCTTCGCCTC CTTCGTCCGT
GCAGACAAGT GA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu20799
Clone ID Related Accession (Same CDS sequence) NM_001287174.1
Accession Version NM_001287174.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4749bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2017-05-05
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform 1
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC124798.5, AF087138.1, R84665.1, BU950000.1, BM352492.1 and BM313666.1. This sequence is a reference standard in the RefSeqGene project. On Dec 3, 2013 this sequence version replaced XM_005253088.1. Transcript Variant: This variant (1) uses two alternate in-frame splice sites in the 5' coding region compared to variant 3. The encoded isoform (1) is shorter than isoform 3. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2145313 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGCCCCTCA GGGTTGTGAA CCGCAAGCGT CCAGCCCGGG AGGATTGTCG GGGCCTCACC
GGCCCACTGC AGAGCCTGGT CCCCAGTGCA GATGGCGATG CTGACAACTG CTGTGTCCAG
ATCATGGGAG GCTACTTCAC GTGGACCCCA GATGGAATCC CCACACTGTC CAACATCACC
ATTCGTATCC CCCGAGGCCA GCTGACTATG ATCGTGGGGC AGGTGGGCTG CGGCAAGTCC
TCGCTCCTTC TAGCCGCACT GGGGGAGATG CAGAAGGTCT CAGGGGCTGT CTTCTGGAGC
AGCAGCCTTC CTGACAGCGA GATAGGAGAG GACCCCAGCC CAGAGCGGGA GACAGCGACC
GACTTGGATA TCAGGAAGAG AGGCCCCGTG GCCTATGCTT CGCAGAAACC ATGGCTGCTA
AATGCCACTG TGGAGGAGAA CATCATCTTT GAGAGTCCCT TCAACAAACA ACGGTACAAG
ATGGTCATTG AAGCCTGCTC TCTGCAGCCA GACATCGACA TCCTGCCCCA TGGAGACCAG
ACCCAGATTG GGGAACGGGG CATCAACCTG TCTGGTGGTC AACGCCAGCG AATCAGTGTG
GCCCGAGCCC TCTACCAGCA CGCCAACGTT GTCTTCTTGG ATGACCCCTT CTCAGCTCTG
GATATCCATC TGAGTGACCA CTTAATGCAG GCCGGCATCC TTGAGCTGCT CCGGGACGAC
AAGAGGACAG TGGTCTTAGT GACCCACAAG CTACAGTACC TGCCCCATGC AGACTGGATC
ATTGCCATGA AGGATGGCAC CATCCAGAGG GAGGGTACCC TCAAGGACTT CCAGAGGTCT
GAATGCCAGC TCTTTGAGCA CTGGAAGACC CTCATGAACC GACAGGACCA AGAGCTGGAG
AAGGAGACTG TCACAGAGAG AAAAGCCACA GAGCCACCCC AGGGCCTATC TCGTGCCATG
TCCTCGAGGG ATGGCCTTCT GCAGGATGAG GAAGAGGAGG AAGAGGAGGC AGCTGAGAGC
GAGGAGGATG ACAACCTGTC GTCCATGCTG CACCAGCGTG CTGAGATCCC ATGGCGAGCC
TGCGCCAAGT ACCTGTCCTC CGCCGGCATC CTGCTCCTGT CGTTGCTGGT CTTCTCACAG
CTGCTCAAGC ACATGGTCCT GGTGGCCATC GACTACTGGC TGGCCAAGTG GACCGACAGC
GCCCTGACCC TGACCCCTGC AGCCAGGAAC TGCTCCCTCA GCCAGGAGTG CACCCTCGAC
CAGACTGTCT ATGCCATGGT GTTCACGGTG CTCTGCAGCC TGGGCATTGT GCTGTGCCTC
GTCACGTCTG TCACTGTGGA GTGGACAGGG CTGAAGGTGG CCAAGAGACT GCACCGCAGC
CTGCTAAACC GGATCATCCT AGCCCCCATG AGGTTTTTTG AGACCACGCC CCTTGGGAGC
ATCCTGAACA GATTTTCATC TGACTGTAAC ACCATCGACC AGCACATCCC ATCCACGCTG
GAGTGCCTGA GCCGCTCCAC CCTGCTCTGT GTCTCAGCCC TGGCCGTCAT CTCCTATGTC
ACACCTGTGT TCCTCGTGGC CCTCTTGCCC CTGGCCATCG TGTGCTACTT CATCCAGAAG
TACTTCCGGG TGGCGTCCAG GGACCTGCAG CAGCTGGATG ACACCACCCA GCTTCCACTT
CTCTCACACT TTGCCGAAAC CGTAGAAGGA CTCACCACCA TCCGGGCCTT CAGGTATGAG
GCCCGGTTCC AGCAGAAGCT TCTCGAATAC ACAGACTCCA ACAACATTGC TTCCCTCTTC
CTCACAGCTG CCAACAGATG GCTGGAAGTC CGAATGGAGT ACATCGGTGC ATGTGTGGTG
CTCATCGCAG CGGTGACCTC CATCTCCAAC TCCCTGCACA GGGAGCTCTC TGCTGGCCTG
GTGGGCCTGG GCCTTACCTA CGCCCTAATG GTCTCCAACT ACCTCAACTG GATGGTGAGG
AACCTGGCAG ACATGGAGCT CCAGCTGGGG GCTGTGAAGC GCATCCATGG GCTCCTGAAA
ACCGAGGCAG AGAGCTACGA GGGGCTCCTG GCACCATCGC TGATCCCAAA GAACTGGCCA
GACCAAGGGA AGATCCAGAT CCAGAACCTG AGCGTGCGCT ACGACAGCTC CCTGAAGCCG
GTGCTGAAGC ACGTCAATGC CCTCATCGCC CCTGGACAGA AGATCGGGAT CTGCGGCCGC
ACCGGCAGTG GGAAGTCCTC CTTCTCTCTT GCCTTCTTCC GCATGGTGGA CACGTTCGAA
GGGCACATCA TCATTGATGG CATTGACATC GCCAAACTGC CGCTGCACAC CCTGCGCTCA
CGCCTCTCCA TCATCCTGCA GGACCCCGTC CTCTTCAGCG GCACCATCCG ATTTAACCTG
GACCCTGAGA GGAAGTGCTC AGATAGCACA CTGTGGGAGG CCCTGGAAAT CGCCCAGCTG
AAGCTGGTGG TGAAGGCACT GCCAGGAGGC CTCGATGCCA TCATCACAGA AGGCGGGGAG
AATTTCAGCC AGGGACAGAG GCAGCTGTTC TGCCTGGCCC GGGCCTTCGT GAGGAAGACC
AGCATCTTCA TCATGGACGA GGCCACGGCT TCCATTGACA TGGCCACGGA AAACATCCTC
CAAAAGGTGG TGATGACAGC CTTCGCAGAC CGCACTGTGG TCACCATCGC GCATCGAGTG
CACACCATCC TGAGTGCAGA CCTGGTGATC GTCCTGAAGC GGGGTGCCAT CCTTGAGTTC
GATAAGCCAG AGAAGCTGCT CAGCCGGAAG GACAGCGTCT TCGCCTCCTT CGTCCGTGCA
GACAAGTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq NP_001274103.1
CDS70..4818
Exon (1)1..217
Translation

Target ORF information:

RefSeq Version NM_001287174.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001287174.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGCCCCTCA GGGTTGTGAA CCGCAAGCGT CCAGCCCGGG AGGATTGTCG GGGCCTCACC
GGCCCACTGC AGAGCCTGGT CCCCAGTGCA GATGGCGATG CTGACAACTG CTGTGTCCAG
ATCATGGGAG GCTACTTCAC GTGGACCCCA GATGGAATCC CCACACTGTC CAACATCACC
ATTCGTATCC CCCGAGGCCA GCTGACTATG ATCGTGGGGC AGGTGGGCTG CGGCAAGTCC
TCGCTCCTTC TAGCCGCACT GGGGGAGATG CAGAAGGTCT CAGGGGCTGT CTTCTGGAGC
AGCAGCCTTC CTGACAGCGA GATAGGAGAG GACCCCAGCC CAGAGCGGGA GACAGCGACC
GACTTGGATA TCAGGAAGAG AGGCCCCGTG GCCTATGCTT CGCAGAAACC ATGGCTGCTA
AATGCCACTG TGGAGGAGAA CATCATCTTT GAGAGTCCCT TCAACAAACA ACGGTACAAG
ATGGTCATTG AAGCCTGCTC TCTGCAGCCA GACATCGACA TCCTGCCCCA TGGAGACCAG
ACCCAGATTG GGGAACGGGG CATCAACCTG TCTGGTGGTC AACGCCAGCG AATCAGTGTG
GCCCGAGCCC TCTACCAGCA CGCCAACGTT GTCTTCTTGG ATGACCCCTT CTCAGCTCTG
GATATCCATC TGAGTGACCA CTTAATGCAG GCCGGCATCC TTGAGCTGCT CCGGGACGAC
AAGAGGACAG TGGTCTTAGT GACCCACAAG CTACAGTACC TGCCCCATGC AGACTGGATC
ATTGCCATGA AGGATGGCAC CATCCAGAGG GAGGGTACCC TCAAGGACTT CCAGAGGTCT
GAATGCCAGC TCTTTGAGCA CTGGAAGACC CTCATGAACC GACAGGACCA AGAGCTGGAG
AAGGAGACTG TCACAGAGAG AAAAGCCACA GAGCCACCCC AGGGCCTATC TCGTGCCATG
TCCTCGAGGG ATGGCCTTCT GCAGGATGAG GAAGAGGAGG AAGAGGAGGC AGCTGAGAGC
GAGGAGGATG ACAACCTGTC GTCCATGCTG CACCAGCGTG CTGAGATCCC ATGGCGAGCC
TGCGCCAAGT ACCTGTCCTC CGCCGGCATC CTGCTCCTGT CGTTGCTGGT CTTCTCACAG
CTGCTCAAGC ACATGGTCCT GGTGGCCATC GACTACTGGC TGGCCAAGTG GACCGACAGC
GCCCTGACCC TGACCCCTGC AGCCAGGAAC TGCTCCCTCA GCCAGGAGTG CACCCTCGAC
CAGACTGTCT ATGCCATGGT GTTCACGGTG CTCTGCAGCC TGGGCATTGT GCTGTGCCTC
GTCACGTCTG TCACTGTGGA GTGGACAGGG CTGAAGGTGG CCAAGAGACT GCACCGCAGC
CTGCTAAACC GGATCATCCT AGCCCCCATG AGGTTTTTTG AGACCACGCC CCTTGGGAGC
ATCCTGAACA GATTTTCATC TGACTGTAAC ACCATCGACC AGCACATCCC ATCCACGCTG
GAGTGCCTGA GCCGCTCCAC CCTGCTCTGT GTCTCAGCCC TGGCCGTCAT CTCCTATGTC
ACACCTGTGT TCCTCGTGGC CCTCTTGCCC CTGGCCATCG TGTGCTACTT CATCCAGAAG
TACTTCCGGG TGGCGTCCAG GGACCTGCAG CAGCTGGATG ACACCACCCA GCTTCCACTT
CTCTCACACT TTGCCGAAAC CGTAGAAGGA CTCACCACCA TCCGGGCCTT CAGGTATGAG
GCCCGGTTCC AGCAGAAGCT TCTCGAATAC ACAGACTCCA ACAACATTGC TTCCCTCTTC
CTCACAGCTG CCAACAGATG GCTGGAAGTC CGAATGGAGT ACATCGGTGC ATGTGTGGTG
CTCATCGCAG CGGTGACCTC CATCTCCAAC TCCCTGCACA GGGAGCTCTC TGCTGGCCTG
GTGGGCCTGG GCCTTACCTA CGCCCTAATG GTCTCCAACT ACCTCAACTG GATGGTGAGG
AACCTGGCAG ACATGGAGCT CCAGCTGGGG GCTGTGAAGC GCATCCATGG GCTCCTGAAA
ACCGAGGCAG AGAGCTACGA GGGGCTCCTG GCACCATCGC TGATCCCAAA GAACTGGCCA
GACCAAGGGA AGATCCAGAT CCAGAACCTG AGCGTGCGCT ACGACAGCTC CCTGAAGCCG
GTGCTGAAGC ACGTCAATGC CCTCATCGCC CCTGGACAGA AGATCGGGAT CTGCGGCCGC
ACCGGCAGTG GGAAGTCCTC CTTCTCTCTT GCCTTCTTCC GCATGGTGGA CACGTTCGAA
GGGCACATCA TCATTGATGG CATTGACATC GCCAAACTGC CGCTGCACAC CCTGCGCTCA
CGCCTCTCCA TCATCCTGCA GGACCCCGTC CTCTTCAGCG GCACCATCCG ATTTAACCTG
GACCCTGAGA GGAAGTGCTC AGATAGCACA CTGTGGGAGG CCCTGGAAAT CGCCCAGCTG
AAGCTGGTGG TGAAGGCACT GCCAGGAGGC CTCGATGCCA TCATCACAGA AGGCGGGGAG
AATTTCAGCC AGGGACAGAG GCAGCTGTTC TGCCTGGCCC GGGCCTTCGT GAGGAAGACC
AGCATCTTCA TCATGGACGA GGCCACGGCT TCCATTGACA TGGCCACGGA AAACATCCTC
CAAAAGGTGG TGATGACAGC CTTCGCAGAC CGCACTGTGG TCACCATCGC GCATCGAGTG
CACACCATCC TGAGTGCAGA CCTGGTGATC GTCCTGAAGC GGGGTGCCAT CCTTGAGTTC
GATAAGCCAG AGAAGCTGCT CAGCCGGAAG GACAGCGTCT TCGCCTCCTT CGTCCGTGCA
GACAAGTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu21635
Clone ID Related Accession (Same CDS sequence) NM_000352.4
Accession Version NM_000352.4 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4746bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2017-05-05
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform 2
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC124798.5, AF087138.1, R84665.1, BM352492.1 and BM313666.1. This sequence is a reference standard in the RefSeqGene project. On Dec 3, 2013 this sequence version replaced NM_000352.3. Transcript Variant: This variant (2) uses an alternate in-frame splice site in the 5' coding region compared to variant 3. The encoded isoform (2) is shorter than isoform 3. Isoforms 2 and 4 are the same length but differ in sequence. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: L78207.1, SRR1660807.102475.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145313 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGCCCCTCA GGGTTGTGAA CCGCAAGCGT CCAGCCCGGG AGGATTGTCG GGGCCTCACC
GGCCCACTGC AGAGCCTGGT CCCCAGTGCA GATGGCGATG CTGACAACTG CTGTGTCCAG
ATCATGGGAG GCTACTTCAC GTGGACCCCA GATGGAATCC CCACACTGTC CAACATCACC
ATTCGTATCC CCCGAGGCCA GCTGACTATG ATCGTGGGGC AGGTGGGCTG CGGCAAGTCC
TCGCTCCTTC TAGCCGCACT GGGGGAGATG CAGAAGGTCT CAGGGGCTGT CTTCTGGAGC
AGCCTTCCTG ACAGCGAGAT AGGAGAGGAC CCCAGCCCAG AGCGGGAGAC AGCGACCGAC
TTGGATATCA GGAAGAGAGG CCCCGTGGCC TATGCTTCGC AGAAACCATG GCTGCTAAAT
GCCACTGTGG AGGAGAACAT CATCTTTGAG AGTCCCTTCA ACAAACAACG GTACAAGATG
GTCATTGAAG CCTGCTCTCT GCAGCCAGAC ATCGACATCC TGCCCCATGG AGACCAGACC
CAGATTGGGG AACGGGGCAT CAACCTGTCT GGTGGTCAAC GCCAGCGAAT CAGTGTGGCC
CGAGCCCTCT ACCAGCACGC CAACGTTGTC TTCTTGGATG ACCCCTTCTC AGCTCTGGAT
ATCCATCTGA GTGACCACTT AATGCAGGCC GGCATCCTTG AGCTGCTCCG GGACGACAAG
AGGACAGTGG TCTTAGTGAC CCACAAGCTA CAGTACCTGC CCCATGCAGA CTGGATCATT
GCCATGAAGG ATGGCACCAT CCAGAGGGAG GGTACCCTCA AGGACTTCCA GAGGTCTGAA
TGCCAGCTCT TTGAGCACTG GAAGACCCTC ATGAACCGAC AGGACCAAGA GCTGGAGAAG
GAGACTGTCA CAGAGAGAAA AGCCACAGAG CCACCCCAGG GCCTATCTCG TGCCATGTCC
TCGAGGGATG GCCTTCTGCA GGATGAGGAA GAGGAGGAAG AGGAGGCAGC TGAGAGCGAG
GAGGATGACA ACCTGTCGTC CATGCTGCAC CAGCGTGCTG AGATCCCATG GCGAGCCTGC
GCCAAGTACC TGTCCTCCGC CGGCATCCTG CTCCTGTCGT TGCTGGTCTT CTCACAGCTG
CTCAAGCACA TGGTCCTGGT GGCCATCGAC TACTGGCTGG CCAAGTGGAC CGACAGCGCC
CTGACCCTGA CCCCTGCAGC CAGGAACTGC TCCCTCAGCC AGGAGTGCAC CCTCGACCAG
ACTGTCTATG CCATGGTGTT CACGGTGCTC TGCAGCCTGG GCATTGTGCT GTGCCTCGTC
ACGTCTGTCA CTGTGGAGTG GACAGGGCTG AAGGTGGCCA AGAGACTGCA CCGCAGCCTG
CTAAACCGGA TCATCCTAGC CCCCATGAGG TTTTTTGAGA CCACGCCCCT TGGGAGCATC
CTGAACAGAT TTTCATCTGA CTGTAACACC ATCGACCAGC ACATCCCATC CACGCTGGAG
TGCCTGAGCC GCTCCACCCT GCTCTGTGTC TCAGCCCTGG CCGTCATCTC CTATGTCACA
CCTGTGTTCC TCGTGGCCCT CTTGCCCCTG GCCATCGTGT GCTACTTCAT CCAGAAGTAC
TTCCGGGTGG CGTCCAGGGA CCTGCAGCAG CTGGATGACA CCACCCAGCT TCCACTTCTC
TCACACTTTG CCGAAACCGT AGAAGGACTC ACCACCATCC GGGCCTTCAG GTATGAGGCC
CGGTTCCAGC AGAAGCTTCT CGAATACACA GACTCCAACA ACATTGCTTC CCTCTTCCTC
ACAGCTGCCA ACAGATGGCT GGAAGTCCGA ATGGAGTACA TCGGTGCATG TGTGGTGCTC
ATCGCAGCGG TGACCTCCAT CTCCAACTCC CTGCACAGGG AGCTCTCTGC TGGCCTGGTG
GGCCTGGGCC TTACCTACGC CCTAATGGTC TCCAACTACC TCAACTGGAT GGTGAGGAAC
CTGGCAGACA TGGAGCTCCA GCTGGGGGCT GTGAAGCGCA TCCATGGGCT CCTGAAAACC
GAGGCAGAGA GCTACGAGGG GCTCCTGGCA CCATCGCTGA TCCCAAAGAA CTGGCCAGAC
CAAGGGAAGA TCCAGATCCA GAACCTGAGC GTGCGCTACG ACAGCTCCCT GAAGCCGGTG
CTGAAGCACG TCAATGCCCT CATCGCCCCT GGACAGAAGA TCGGGATCTG CGGCCGCACC
GGCAGTGGGA AGTCCTCCTT CTCTCTTGCC TTCTTCCGCA TGGTGGACAC GTTCGAAGGG
CACATCATCA TTGATGGCAT TGACATCGCC AAACTGCCGC TGCACACCCT GCGCTCACGC
CTCTCCATCA TCCTGCAGGA CCCCGTCCTC TTCAGCGGCA CCATCCGATT TAACCTGGAC
CCTGAGAGGA AGTGCTCAGA TAGCACACTG TGGGAGGCCC TGGAAATCGC CCAGCTGAAG
CTGGTGGTGA AGGCACTGCC AGGAGGCCTC GATGCCATCA TCACAGAAGG CGGGGAGAAT
TTCAGCCAGG GACAGAGGCA GCTGTTCTGC CTGGCCCGGG CCTTCGTGAG GAAGACCAGC
ATCTTCATCA TGGACGAGGC CACGGCTTCC ATTGACATGG CCACGGAAAA CATCCTCCAA
AAGGTGGTGA TGACAGCCTT CGCAGACCGC ACTGTGGTCA CCATCGCGCA TCGAGTGCAC
ACCATCCTGA GTGCAGACCT GGTGATCGTC CTGAAGCGGG GTGCCATCCT TGAGTTCGAT
AAGCCAGAGA AGCTGCTCAG CCGGAAGGAC AGCGTCTTCG CCTCCTTCGT CCGTGCAGAC
AAGTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq NP_000343.2
CDS70..4815
Exon (1)1..217
Translation

Target ORF information:

RefSeq Version NM_000352.4
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_000352.4

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGG TGCGGAAGGA CATTCAGGGC
ACTCAAGGTG CCCGGGCCAT CTGGCAGGCA CTCAGCCATG CCTTCGGGAG GCGCCTGGTC
CTCAGCAGCA CTTTCCGCAT CTTGGCCGAC CTGCTGGGCT TCGCCGGGCC ACTGTGCATC
TTTGGGATCG TGGACCACCT TGGGAAGGAG AACGACGTCT TCCAGCCCAA GACACAATTT
CTCGGGGTTT ACTTTGTCTC ATCCCAAGAG TTCCTTGCCA ATGCCTACGT CTTAGCTGTG
CTTCTGTTCC TTGCCCTCCT ACTGCAAAGG ACATTTCTGC AAGCATCCTA CTATGTGGCC
ATTGAAACTG GAATTAACTT GAGAGGAGCA ATACAGACCA AGATTTACAA TAAAATTATG
CACCTGTCCA CCTCCAACCT GTCCATGGGA GAAATGACTG CTGGACAGAT CTGTAATCTG
GTTGCCATCG ACACCAATCA GCTCATGTGG TTTTTCTTCT TGTGCCCAAA CCTCTGGGCT
ATGCCAGTAC AGATCATTGT GGGTGTGATT CTCCTCTACT ACATACTCGG AGTCAGTGCC
TTAATTGGAG CAGCTGTCAT CATTCTACTG GCTCCTGTCC AGTACTTCGT GGCCACCAAG
CTGTCTCAGG CCCAGCGGAG CACACTGGAG TATTCCAATG AGCGGCTGAA GCAGACCAAC
GAGATGCTCC GCGGCATCAA GCTGCTGAAG CTGTACGCCT GGGAGAACAT CTTCCGCACG
CGGGTGGAGA CGACCCGCAG GAAGGAGATG ACCAGCCTCA GGGCCTTTGC CATCTATACC
TCCATCTCCA TTTTCATGAA CACGGCCATC CCCATTGCAG CTGTCCTCAT AACTTTCGTG
GGCCACGTCA GCTTCTTCAA AGAGGCCGAC TTCTCGCCCT CCGTGGCCTT TGCCTCCCTC
TCCCTCTTCC ATATCTTGGT CACACCGCTG TTCCTGCTGT CCAGTGTGGT CCGATCTACC
GTCAAAGCTC TAGTGAGCGT GCAAAAGCTA AGCGAGTTCC TGTCCAGTGC AGAGATCCGT
GAGGAGCAGT GTGCCCCCCA TGAGCCCACA CCTCAGGGCC CAGCCAGCAA GTACCAGGCG
GTGCCCCTCA GGGTTGTGAA CCGCAAGCGT CCAGCCCGGG AGGATTGTCG GGGCCTCACC
GGCCCACTGC AGAGCCTGGT CCCCAGTGCA GATGGCGATG CTGACAACTG CTGTGTCCAG
ATCATGGGAG GCTACTTCAC GTGGACCCCA GATGGAATCC CCACACTGTC CAACATCACC
ATTCGTATCC CCCGAGGCCA GCTGACTATG ATCGTGGGGC AGGTGGGCTG CGGCAAGTCC
TCGCTCCTTC TAGCCGCACT GGGGGAGATG CAGAAGGTCT CAGGGGCTGT CTTCTGGAGC
AGCCTTCCTG ACAGCGAGAT AGGAGAGGAC CCCAGCCCAG AGCGGGAGAC AGCGACCGAC
TTGGATATCA GGAAGAGAGG CCCCGTGGCC TATGCTTCGC AGAAACCATG GCTGCTAAAT
GCCACTGTGG AGGAGAACAT CATCTTTGAG AGTCCCTTCA ACAAACAACG GTACAAGATG
GTCATTGAAG CCTGCTCTCT GCAGCCAGAC ATCGACATCC TGCCCCATGG AGACCAGACC
CAGATTGGGG AACGGGGCAT CAACCTGTCT GGTGGTCAAC GCCAGCGAAT CAGTGTGGCC
CGAGCCCTCT ACCAGCACGC CAACGTTGTC TTCTTGGATG ACCCCTTCTC AGCTCTGGAT
ATCCATCTGA GTGACCACTT AATGCAGGCC GGCATCCTTG AGCTGCTCCG GGACGACAAG
AGGACAGTGG TCTTAGTGAC CCACAAGCTA CAGTACCTGC CCCATGCAGA CTGGATCATT
GCCATGAAGG ATGGCACCAT CCAGAGGGAG GGTACCCTCA AGGACTTCCA GAGGTCTGAA
TGCCAGCTCT TTGAGCACTG GAAGACCCTC ATGAACCGAC AGGACCAAGA GCTGGAGAAG
GAGACTGTCA CAGAGAGAAA AGCCACAGAG CCACCCCAGG GCCTATCTCG TGCCATGTCC
TCGAGGGATG GCCTTCTGCA GGATGAGGAA GAGGAGGAAG AGGAGGCAGC TGAGAGCGAG
GAGGATGACA ACCTGTCGTC CATGCTGCAC CAGCGTGCTG AGATCCCATG GCGAGCCTGC
GCCAAGTACC TGTCCTCCGC CGGCATCCTG CTCCTGTCGT TGCTGGTCTT CTCACAGCTG
CTCAAGCACA TGGTCCTGGT GGCCATCGAC TACTGGCTGG CCAAGTGGAC CGACAGCGCC
CTGACCCTGA CCCCTGCAGC CAGGAACTGC TCCCTCAGCC AGGAGTGCAC CCTCGACCAG
ACTGTCTATG CCATGGTGTT CACGGTGCTC TGCAGCCTGG GCATTGTGCT GTGCCTCGTC
ACGTCTGTCA CTGTGGAGTG GACAGGGCTG AAGGTGGCCA AGAGACTGCA CCGCAGCCTG
CTAAACCGGA TCATCCTAGC CCCCATGAGG TTTTTTGAGA CCACGCCCCT TGGGAGCATC
CTGAACAGAT TTTCATCTGA CTGTAACACC ATCGACCAGC ACATCCCATC CACGCTGGAG
TGCCTGAGCC GCTCCACCCT GCTCTGTGTC TCAGCCCTGG CCGTCATCTC CTATGTCACA
CCTGTGTTCC TCGTGGCCCT CTTGCCCCTG GCCATCGTGT GCTACTTCAT CCAGAAGTAC
TTCCGGGTGG CGTCCAGGGA CCTGCAGCAG CTGGATGACA CCACCCAGCT TCCACTTCTC
TCACACTTTG CCGAAACCGT AGAAGGACTC ACCACCATCC GGGCCTTCAG GTATGAGGCC
CGGTTCCAGC AGAAGCTTCT CGAATACACA GACTCCAACA ACATTGCTTC CCTCTTCCTC
ACAGCTGCCA ACAGATGGCT GGAAGTCCGA ATGGAGTACA TCGGTGCATG TGTGGTGCTC
ATCGCAGCGG TGACCTCCAT CTCCAACTCC CTGCACAGGG AGCTCTCTGC TGGCCTGGTG
GGCCTGGGCC TTACCTACGC CCTAATGGTC TCCAACTACC TCAACTGGAT GGTGAGGAAC
CTGGCAGACA TGGAGCTCCA GCTGGGGGCT GTGAAGCGCA TCCATGGGCT CCTGAAAACC
GAGGCAGAGA GCTACGAGGG GCTCCTGGCA CCATCGCTGA TCCCAAAGAA CTGGCCAGAC
CAAGGGAAGA TCCAGATCCA GAACCTGAGC GTGCGCTACG ACAGCTCCCT GAAGCCGGTG
CTGAAGCACG TCAATGCCCT CATCGCCCCT GGACAGAAGA TCGGGATCTG CGGCCGCACC
GGCAGTGGGA AGTCCTCCTT CTCTCTTGCC TTCTTCCGCA TGGTGGACAC GTTCGAAGGG
CACATCATCA TTGATGGCAT TGACATCGCC AAACTGCCGC TGCACACCCT GCGCTCACGC
CTCTCCATCA TCCTGCAGGA CCCCGTCCTC TTCAGCGGCA CCATCCGATT TAACCTGGAC
CCTGAGAGGA AGTGCTCAGA TAGCACACTG TGGGAGGCCC TGGAAATCGC CCAGCTGAAG
CTGGTGGTGA AGGCACTGCC AGGAGGCCTC GATGCCATCA TCACAGAAGG CGGGGAGAAT
TTCAGCCAGG GACAGAGGCA GCTGTTCTGC CTGGCCCGGG CCTTCGTGAG GAAGACCAGC
ATCTTCATCA TGGACGAGGC CACGGCTTCC ATTGACATGG CCACGGAAAA CATCCTCCAA
AAGGTGGTGA TGACAGCCTT CGCAGACCGC ACTGTGGTCA CCATCGCGCA TCGAGTGCAC
ACCATCCTGA GTGCAGACCT GGTGATCGTC CTGAAGCGGG GTGCCATCCT TGAGTTCGAT
AAGCCAGAGA AGCTGCTCAG CCGGAAGGAC AGCGTCTTCG CCTCCTTCGT CCGTGCAGAC
AAGTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu60816
Clone ID Related Accession (Same CDS sequence) NM_001351296.1
Accession Version NM_001351296.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4746bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2017-05-05
Organism Homo sapiens(Human)
Product ATP-binding cassette sub-family C member 8 isoform 4
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC124798.5. On May 5, 2017 this sequence version replaced XM_011520331.2. Transcript Variant: This variant (4) encodes isoform (4). Isoforms 2 and 4 are the same length but differ in sequence. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.229752.1, SRR1803615.177470.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGC GGAAGGACAT TCAGGGCACT
CAAGGTGCCC GGGCCATCTG GCAGGCACTC AGCCATGCCT TCGGGAGGCG CCTGGTCCTC
AGCAGCACTT TCCGCATCTT GGCCGACCTG CTGGGCTTCG CCGGGCCACT GTGCATCTTT
GGGATCGTGG ACCACCTTGG GAAGGAGAAC GACGTCTTCC AGCCCAAGAC ACAATTTCTC
GGGGTTTACT TTGTCTCATC CCAAGAGTTC CTTGCCAATG CCTACGTCTT AGCTGTGCTT
CTGTTCCTTG CCCTCCTACT GCAAAGGACA TTTCTGCAAG CATCCTACTA TGTGGCCATT
GAAACTGGAA TTAACTTGAG AGGAGCAATA CAGACCAAGA TTTACAATAA AATTATGCAC
CTGTCCACCT CCAACCTGTC CATGGGAGAA ATGACTGCTG GACAGATCTG TAATCTGGTT
GCCATCGACA CCAATCAGCT CATGTGGTTT TTCTTCTTGT GCCCAAACCT CTGGGCTATG
CCAGTACAGA TCATTGTGGG TGTGATTCTC CTCTACTACA TACTCGGAGT CAGTGCCTTA
ATTGGAGCAG CTGTCATCAT TCTACTGGCT CCTGTCCAGT ACTTCGTGGC CACCAAGCTG
TCTCAGGCCC AGCGGAGCAC ACTGGAGTAT TCCAATGAGC GGCTGAAGCA GACCAACGAG
ATGCTCCGCG GCATCAAGCT GCTGAAGCTG TACGCCTGGG AGAACATCTT CCGCACGCGG
GTGGAGACGA CCCGCAGGAA GGAGATGACC AGCCTCAGGG CCTTTGCCAT CTATACCTCC
ATCTCCATTT TCATGAACAC GGCCATCCCC ATTGCAGCTG TCCTCATAAC TTTCGTGGGC
CACGTCAGCT TCTTCAAAGA GGCCGACTTC TCGCCCTCCG TGGCCTTTGC CTCCCTCTCC
CTCTTCCATA TCTTGGTCAC ACCGCTGTTC CTGCTGTCCA GTGTGGTCCG ATCTACCGTC
AAAGCTCTAG TGAGCGTGCA AAAGCTAAGC GAGTTCCTGT CCAGTGCAGA GATCCGTGAG
GAGCAGTGTG CCCCCCATGA GCCCACACCT CAGGGCCCAG CCAGCAAGTA CCAGGCGGTG
CCCCTCAGGG TTGTGAACCG CAAGCGTCCA GCCCGGGAGG ATTGTCGGGG CCTCACCGGC
CCACTGCAGA GCCTGGTCCC CAGTGCAGAT GGCGATGCTG ACAACTGCTG TGTCCAGATC
ATGGGAGGCT ACTTCACGTG GACCCCAGAT GGAATCCCCA CACTGTCCAA CATCACCATT
CGTATCCCCC GAGGCCAGCT GACTATGATC GTGGGGCAGG TGGGCTGCGG CAAGTCCTCG
CTCCTTCTAG CCGCACTGGG GGAGATGCAG AAGGTCTCAG GGGCTGTCTT CTGGAGCAGC
AGCCTTCCTG ACAGCGAGAT AGGAGAGGAC CCCAGCCCAG AGCGGGAGAC AGCGACCGAC
TTGGATATCA GGAAGAGAGG CCCCGTGGCC TATGCTTCGC AGAAACCATG GCTGCTAAAT
GCCACTGTGG AGGAGAACAT CATCTTTGAG AGTCCCTTCA ACAAACAACG GTACAAGATG
GTCATTGAAG CCTGCTCTCT GCAGCCAGAC ATCGACATCC TGCCCCATGG AGACCAGACC
CAGATTGGGG AACGGGGCAT CAACCTGTCT GGTGGTCAAC GCCAGCGAAT CAGTGTGGCC
CGAGCCCTCT ACCAGCACGC CAACGTTGTC TTCTTGGATG ACCCCTTCTC AGCTCTGGAT
ATCCATCTGA GTGACCACTT AATGCAGGCC GGCATCCTTG AGCTGCTCCG GGACGACAAG
AGGACAGTGG TCTTAGTGAC CCACAAGCTA CAGTACCTGC CCCATGCAGA CTGGATCATT
GCCATGAAGG ATGGCACCAT CCAGAGGGAG GGTACCCTCA AGGACTTCCA GAGGTCTGAA
TGCCAGCTCT TTGAGCACTG GAAGACCCTC ATGAACCGAC AGGACCAAGA GCTGGAGAAG
GAGACTGTCA CAGAGAGAAA AGCCACAGAG CCACCCCAGG GCCTATCTCG TGCCATGTCC
TCGAGGGATG GCCTTCTGCA GGATGAGGAA GAGGAGGAAG AGGAGGCAGC TGAGAGCGAG
GAGGATGACA ACCTGTCGTC CATGCTGCAC CAGCGTGCTG AGATCCCATG GCGAGCCTGC
GCCAAGTACC TGTCCTCCGC CGGCATCCTG CTCCTGTCGT TGCTGGTCTT CTCACAGCTG
CTCAAGCACA TGGTCCTGGT GGCCATCGAC TACTGGCTGG CCAAGTGGAC CGACAGCGCC
CTGACCCTGA CCCCTGCAGC CAGGAACTGC TCCCTCAGCC AGGAGTGCAC CCTCGACCAG
ACTGTCTATG CCATGGTGTT CACGGTGCTC TGCAGCCTGG GCATTGTGCT GTGCCTCGTC
ACGTCTGTCA CTGTGGAGTG GACAGGGCTG AAGGTGGCCA AGAGACTGCA CCGCAGCCTG
CTAAACCGGA TCATCCTAGC CCCCATGAGG TTTTTTGAGA CCACGCCCCT TGGGAGCATC
CTGAACAGAT TTTCATCTGA CTGTAACACC ATCGACCAGC ACATCCCATC CACGCTGGAG
TGCCTGAGCC GCTCCACCCT GCTCTGTGTC TCAGCCCTGG CCGTCATCTC CTATGTCACA
CCTGTGTTCC TCGTGGCCCT CTTGCCCCTG GCCATCGTGT GCTACTTCAT CCAGAAGTAC
TTCCGGGTGG CGTCCAGGGA CCTGCAGCAG CTGGATGACA CCACCCAGCT TCCACTTCTC
TCACACTTTG CCGAAACCGT AGAAGGACTC ACCACCATCC GGGCCTTCAG GTATGAGGCC
CGGTTCCAGC AGAAGCTTCT CGAATACACA GACTCCAACA ACATTGCTTC CCTCTTCCTC
ACAGCTGCCA ACAGATGGCT GGAAGTCCGA ATGGAGTACA TCGGTGCATG TGTGGTGCTC
ATCGCAGCGG TGACCTCCAT CTCCAACTCC CTGCACAGGG AGCTCTCTGC TGGCCTGGTG
GGCCTGGGCC TTACCTACGC CCTAATGGTC TCCAACTACC TCAACTGGAT GGTGAGGAAC
CTGGCAGACA TGGAGCTCCA GCTGGGGGCT GTGAAGCGCA TCCATGGGCT CCTGAAAACC
GAGGCAGAGA GCTACGAGGG GCTCCTGGCA CCATCGCTGA TCCCAAAGAA CTGGCCAGAC
CAAGGGAAGA TCCAGATCCA GAACCTGAGC GTGCGCTACG ACAGCTCCCT GAAGCCGGTG
CTGAAGCACG TCAATGCCCT CATCGCCCCT GGACAGAAGA TCGGGATCTG CGGCCGCACC
GGCAGTGGGA AGTCCTCCTT CTCTCTTGCC TTCTTCCGCA TGGTGGACAC GTTCGAAGGG
CACATCATCA TTGATGGCAT TGACATCGCC AAACTGCCGC TGCACACCCT GCGCTCACGC
CTCTCCATCA TCCTGCAGGA CCCCGTCCTC TTCAGCGGCA CCATCCGATT TAACCTGGAC
CCTGAGAGGA AGTGCTCAGA TAGCACACTG TGGGAGGCCC TGGAAATCGC CCAGCTGAAG
CTGGTGGTGA AGGCACTGCC AGGAGGCCTC GATGCCATCA TCACAGAAGG CGGGGAGAAT
TTCAGCCAGG GACAGAGGCA GCTGTTCTGC CTGGCCCGGG CCTTCGTGAG GAAGACCAGC
ATCTTCATCA TGGACGAGGC CACGGCTTCC ATTGACATGG CCACGGAAAA CATCCTCCAA
AAGGTGGTGA TGACAGCCTT CGCAGACCGC ACTGTGGTCA CCATCGCGCA TCGAGTGCAC
ACCATCCTGA GTGCAGACCT GGTGATCGTC CTGAAGCGGG GTGCCATCCT TGAGTTCGAT
AAGCCAGAGA AGCTGCTCAG CCGGAAGGAC AGCGTCTTCG CCTCCTTCGT CCGTGCAGAC
AAGTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq NP_001338225.1
CDS70..4815
Exon (1)1..217
Translation

Target ORF information:

RefSeq Version NM_001351296.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATP binding cassette subfamily C member 8 (ABCC8), transcript variant 4, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001351296.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
ATGCCCCTGG CCTTCTGCGG CAGCGAGAAC CACTCGGCCG CCTACCGGGT GGACCAGGGG 
GTCCTCAACA ACGGCTGCTT TGTGGACGCG CTCAACGTGG TGCCGCACGT CTTCCTACTC
TTCATCACCT TCCCCATCCT CTTCATTGGA TGGGGAAGTC AGAGCTCCAA GGTGCACATC
CACCACAGCA CATGGCTTCA TTTCCCTGGG CACAACCTGC GGTGGATCCT GACCTTCATG
CTGCTCTTCG TCCTGGTGTG TGAGATTGCA GAGGGCATCC TGTCTGATGG GGTGACCGAA
TCCCACCATC TGCACCTGTA CATGCCAGCC GGGATGGCGT TCATGGCTGC TGTCACCTCC
GTGGTCTACT ATCACAACAT CGAGACTTCC AACTTCCCCA AGCTGCTAAT TGCCCTGCTG
GTGTATTGGA CCCTGGCCTT CATCACCAAG ACCATCAAGT TTGTCAAGTT CTTGGACCAC
GCCATCGGCT TCTCGCAGCT ACGCTTCTGC CTCACAGGGC TGCTGGTGAT CCTCTATGGG
ATGCTGCTCC TCGTGGAGGT CAATGTCATC AGGGTGAGGA GATACATCTT CTTCAAGACA
CCGAGGGAGG TGAAGCCTCC CGAGGACCTG CAAGACCTGG GGGTACGCTT CCTGCAGCCC
TTCGTGAATC TGCTGTCCAA AGGCACCTAC TGGTGGATGA ACGCCTTCAT CAAGACTGCC
CACAAGAAGC CCATCGACTT GCGAGCCATC GGGAAGCTGC CCATCGCCAT GAGGGCCCTC
ACCAACTACC AACGGCTCTG CGAGGCCTTT GACGCCCAGC GGAAGGACAT TCAGGGCACT
CAAGGTGCCC GGGCCATCTG GCAGGCACTC AGCCATGCCT TCGGGAGGCG CCTGGTCCTC
AGCAGCACTT TCCGCATCTT GGCCGACCTG CTGGGCTTCG CCGGGCCACT GTGCATCTTT
GGGATCGTGG ACCACCTTGG GAAGGAGAAC GACGTCTTCC AGCCCAAGAC ACAATTTCTC
GGGGTTTACT TTGTCTCATC CCAAGAGTTC CTTGCCAATG CCTACGTCTT AGCTGTGCTT
CTGTTCCTTG CCCTCCTACT GCAAAGGACA TTTCTGCAAG CATCCTACTA TGTGGCCATT
GAAACTGGAA TTAACTTGAG AGGAGCAATA CAGACCAAGA TTTACAATAA AATTATGCAC
CTGTCCACCT CCAACCTGTC CATGGGAGAA ATGACTGCTG GACAGATCTG TAATCTGGTT
GCCATCGACA CCAATCAGCT CATGTGGTTT TTCTTCTTGT GCCCAAACCT CTGGGCTATG
CCAGTACAGA TCATTGTGGG TGTGATTCTC CTCTACTACA TACTCGGAGT CAGTGCCTTA
ATTGGAGCAG CTGTCATCAT TCTACTGGCT CCTGTCCAGT ACTTCGTGGC CACCAAGCTG
TCTCAGGCCC AGCGGAGCAC ACTGGAGTAT TCCAATGAGC GGCTGAAGCA GACCAACGAG
ATGCTCCGCG GCATCAAGCT GCTGAAGCTG TACGCCTGGG AGAACATCTT CCGCACGCGG
GTGGAGACGA CCCGCAGGAA GGAGATGACC AGCCTCAGGG CCTTTGCCAT CTATACCTCC
ATCTCCATTT TCATGAACAC GGCCATCCCC ATTGCAGCTG TCCTCATAAC TTTCGTGGGC
CACGTCAGCT TCTTCAAAGA GGCCGACTTC TCGCCCTCCG TGGCCTTTGC CTCCCTCTCC
CTCTTCCATA TCTTGGTCAC ACCGCTGTTC CTGCTGTCCA GTGTGGTCCG ATCTACCGTC
AAAGCTCTAG TGAGCGTGCA AAAGCTAAGC GAGTTCCTGT CCAGTGCAGA GATCCGTGAG
GAGCAGTGTG CCCCCCATGA GCCCACACCT CAGGGCCCAG CCAGCAAGTA CCAGGCGGTG
CCCCTCAGGG TTGTGAACCG CAAGCGTCCA GCCCGGGAGG ATTGTCGGGG CCTCACCGGC
CCACTGCAGA GCCTGGTCCC CAGTGCAGAT GGCGATGCTG ACAACTGCTG TGTCCAGATC
ATGGGAGGCT ACTTCACGTG GACCCCAGAT GGAATCCCCA CACTGTCCAA CATCACCATT
CGTATCCCCC GAGGCCAGCT GACTATGATC GTGGGGCAGG TGGGCTGCGG CAAGTCCTCG
CTCCTTCTAG CCGCACTGGG GGAGATGCAG AAGGTCTCAG GGGCTGTCTT CTGGAGCAGC
AGCCTTCCTG ACAGCGAGAT AGGAGAGGAC CCCAGCCCAG AGCGGGAGAC AGCGACCGAC
TTGGATATCA GGAAGAGAGG CCCCGTGGCC TATGCTTCGC AGAAACCATG GCTGCTAAAT
GCCACTGTGG AGGAGAACAT CATCTTTGAG AGTCCCTTCA ACAAACAACG GTACAAGATG
GTCATTGAAG CCTGCTCTCT GCAGCCAGAC ATCGACATCC TGCCCCATGG AGACCAGACC
CAGATTGGGG AACGGGGCAT CAACCTGTCT GGTGGTCAAC GCCAGCGAAT CAGTGTGGCC
CGAGCCCTCT ACCAGCACGC CAACGTTGTC TTCTTGGATG ACCCCTTCTC AGCTCTGGAT
ATCCATCTGA GTGACCACTT AATGCAGGCC GGCATCCTTG AGCTGCTCCG GGACGACAAG
AGGACAGTGG TCTTAGTGAC CCACAAGCTA CAGTACCTGC CCCATGCAGA CTGGATCATT
GCCATGAAGG ATGGCACCAT CCAGAGGGAG GGTACCCTCA AGGACTTCCA GAGGTCTGAA
TGCCAGCTCT TTGAGCACTG GAAGACCCTC ATGAACCGAC AGGACCAAGA GCTGGAGAAG
GAGACTGTCA CAGAGAGAAA AGCCACAGAG CCACCCCAGG GCCTATCTCG TGCCATGTCC
TCGAGGGATG GCCTTCTGCA GGATGAGGAA GAGGAGGAAG AGGAGGCAGC TGAGAGCGAG
GAGGATGACA ACCTGTCGTC CATGCTGCAC CAGCGTGCTG AGATCCCATG GCGAGCCTGC
GCCAAGTACC TGTCCTCCGC CGGCATCCTG CTCCTGTCGT TGCTGGTCTT CTCACAGCTG
CTCAAGCACA TGGTCCTGGT GGCCATCGAC TACTGGCTGG CCAAGTGGAC CGACAGCGCC
CTGACCCTGA CCCCTGCAGC CAGGAACTGC TCCCTCAGCC AGGAGTGCAC CCTCGACCAG
ACTGTCTATG CCATGGTGTT CACGGTGCTC TGCAGCCTGG GCATTGTGCT GTGCCTCGTC
ACGTCTGTCA CTGTGGAGTG GACAGGGCTG AAGGTGGCCA AGAGACTGCA CCGCAGCCTG
CTAAACCGGA TCATCCTAGC CCCCATGAGG TTTTTTGAGA CCACGCCCCT TGGGAGCATC
CTGAACAGAT TTTCATCTGA CTGTAACACC ATCGACCAGC ACATCCCATC CACGCTGGAG
TGCCTGAGCC GCTCCACCCT GCTCTGTGTC TCAGCCCTGG CCGTCATCTC CTATGTCACA
CCTGTGTTCC TCGTGGCCCT CTTGCCCCTG GCCATCGTGT GCTACTTCAT CCAGAAGTAC
TTCCGGGTGG CGTCCAGGGA CCTGCAGCAG CTGGATGACA CCACCCAGCT TCCACTTCTC
TCACACTTTG CCGAAACCGT AGAAGGACTC ACCACCATCC GGGCCTTCAG GTATGAGGCC
CGGTTCCAGC AGAAGCTTCT CGAATACACA GACTCCAACA ACATTGCTTC CCTCTTCCTC
ACAGCTGCCA ACAGATGGCT GGAAGTCCGA ATGGAGTACA TCGGTGCATG TGTGGTGCTC
ATCGCAGCGG TGACCTCCAT CTCCAACTCC CTGCACAGGG AGCTCTCTGC TGGCCTGGTG
GGCCTGGGCC TTACCTACGC CCTAATGGTC TCCAACTACC TCAACTGGAT GGTGAGGAAC
CTGGCAGACA TGGAGCTCCA GCTGGGGGCT GTGAAGCGCA TCCATGGGCT CCTGAAAACC
GAGGCAGAGA GCTACGAGGG GCTCCTGGCA CCATCGCTGA TCCCAAAGAA CTGGCCAGAC
CAAGGGAAGA TCCAGATCCA GAACCTGAGC GTGCGCTACG ACAGCTCCCT GAAGCCGGTG
CTGAAGCACG TCAATGCCCT CATCGCCCCT GGACAGAAGA TCGGGATCTG CGGCCGCACC
GGCAGTGGGA AGTCCTCCTT CTCTCTTGCC TTCTTCCGCA TGGTGGACAC GTTCGAAGGG
CACATCATCA TTGATGGCAT TGACATCGCC AAACTGCCGC TGCACACCCT GCGCTCACGC
CTCTCCATCA TCCTGCAGGA CCCCGTCCTC TTCAGCGGCA CCATCCGATT TAACCTGGAC
CCTGAGAGGA AGTGCTCAGA TAGCACACTG TGGGAGGCCC TGGAAATCGC CCAGCTGAAG
CTGGTGGTGA AGGCACTGCC AGGAGGCCTC GATGCCATCA TCACAGAAGG CGGGGAGAAT
TTCAGCCAGG GACAGAGGCA GCTGTTCTGC CTGGCCCGGG CCTTCGTGAG GAAGACCAGC
ATCTTCATCA TGGACGAGGC CACGGCTTCC ATTGACATGG CCACGGAAAA CATCCTCCAA
AAGGTGGTGA TGACAGCCTT CGCAGACCGC ACTGTGGTCA CCATCGCGCA TCGAGTGCAC
ACCATCCTGA GTGCAGACCT GGTGATCGTC CTGAAGCGGG GTGCCATCCT TGAGTTCGAT
AAGCCAGAGA AGCTGCTCAG CCGGAAGGAC AGCGTCTTCG CCTCCTTCGT CCGTGCAGAC
AAGTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

book

Current Status of Childhood Hyperinsulinemic Hypoglycemia in Turkey.
Journal of clinical research in pediatric endocrinology8(4)375-380(2016 12)
Şıklar Z,Berberoğlu M


book

Successful transition to sulfonylurea therapy in two Iraqi siblings with neonatal diabetes mellitus and iDEND syndrome due to ABCC8 mutation.
Journal of pediatric endocrinology & metabolism : JPEM29(12)1403-1406(2016 Dec)
Ozsu E,Giri D,Seymen Karabulut G,Senniappan S


book

Genetic characteristics and long-term follow-up of 11 patients with congenital hyperinsulinism followed in a single center.
Journal of pediatric endocrinology & metabolism : JPEM29(10)1187-1194(2016 Oct)
Warncke K,Falco F,Rabl W,Engelsberger I,Saier J,Flores-Rodriguez D,Burdach S,Bonfig W


book

Clinical and Genetic Characteristics, Management and Long-Term Follow-Up of Turkish Patients with Congenital Hyperinsulinism.
Journal of clinical research in pediatric endocrinology8(2)197-204(2016 Jun)
Güven A,Cebeci AN,Ellard S,Flanagan SE


 
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