ABCB1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	ABCB1
Entrez Gene ID	100221908
Full Name	ATP binding cassette subfamily B member 1
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030264625.1	XP_030120485.1	ATP-dependent translocase ABCB1 isoform X2
XM_030264623.1	XP_030120483.1	ATP-dependent translocase ABCB1 isoform X1
XM_030264624.1	XP_030120484.1	ATP-dependent translocase ABCB1 isoform X1
XM_004186218.3	XP_004186266.2	ATP-dependent translocase ABCB1 isoform X1
XM_030264626.1	XP_030120486.1	ATP-dependent translocase ABCB1 isoform X3
XM_004186218.2	XP_004186266.1	LOW QUALITY PROTEIN: multidrug resistance protein 1

Pathways from BioSystems
Gene Ontology

The following ABCB1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ABCB1 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.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OTd34593	XM_030264626.1 Latest version!	Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	9-11	$223.30 $319.00
OTd34592	XM_030264625.1 Latest version!	Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd34591	XM_030264623.1 Latest version!	Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd34591	XM_030264624.1 Latest version!	Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd34591	XM_004186218.3 Latest version!	Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd07017	XM_004186218.2 Latest version!	Taeniopygia guttata ATP-binding cassette, sub-family B (MDR/TAP), member 1 (ABCB1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	Quote Price

ORF Online Only Promotion

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** 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.

Reference Sequences (Refseq)

ABCB1 ( XM_030264626.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030120486.1 Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OTd34593
Clone ID Related Accession (Same CDS sequence)	XM_030264626.1
Accession Version	XM_030264626.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1221bp) 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	2019-08-08
Organism	Taeniopygia guttata(zebra finch)
Product	ATP-dependent translocase ABCB1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCACTTC ATTCCAAAAA TCCTTTTGGA ACAGAACAAC TATTTCATCA CTTCCCAGAC 
ACTGCTTTCT TCAAGATTGC CACAGAAGCA ATAGAAAATA TTAGAACTGT TGTTAGCTTG 
ACACTAGAAA GAAAATTTGA GTTGATGTAT GGAGAACATC TGATTCTACC CTACAGAAAT 
TCTGTGAAGA AGGCACATAT ATTTGGCTTT TGTTTTGCCC TTTCACAAGC AATGATGTTC 
TTTACCTATG CCGGCTGTTT CCGGTTTGGT GCCTATCTAG TGGTAAATGA TCACACGGAG 
TATAAAAGAG TATTTTTAGT GTTTTCAGCT GTTGTATTTG GTGCAATGGC ACTAGGACAG 
ACCAGTTCTT TTGCTCCAGA CTATGCCAAA GCCAAGATAT CAGCAGCCCA CTTGTTTCTG 
CTGTTTGAAA GAGTGCCCTC AATAGACAGT TACAGTGAGG AAGGAGACAA GCCTGAAACA 
TTTGAGGGAA ACATAACAAT GAAAGATGTG GCATTTAACT ACCCAAACCG ACCAGAAGTC 
AAAATCCTGC AAGGGTTGAA TCTAAAAGTA GAAAAGGGAC AAACTCTGGC TCTTGTTGGC 
AGCAGTGGCT GTGGAAAGAG CACTGTTGTT CAGCTGCTGG AGAGATTTTA TGACCCACTT 
GATGGAGAAA TGATTTTTGA TGGCAAAAAT GCAAAGGCAC TGAATATCCA GTGGTTGAGA 
GCTCAGATTG GTATTGTCTC ACAAGAACCA ATCCTGTTTG ACTGCACTAT TGCCGAAAAC 
ATCGCCTATG GAGATAACAG CCGGGAGGTG TCCTTTGAGG AAATTGTTAG TGCAGCAAAA 
CAAGCCAATA TTCATTCCTT CATTGACTCA CTGCCAGATA AATACAACAC CCGTGTAGGA 
GACAAGGGAA CCCAGCTTTC TGGTGGCCAG AAACAACGCA TCGCGATTGC CCGAGCTCTT 
GTACGCAAGC CCCAAATTCT GCTTCTGGAT GAAGCTACTT CTGCCTTAGA CACAGAAAGT 
GAAAAGATTG TCCAGGAAGC GCTGGATAAA GCTCGAGAAG GTCGCACGTG CATCATGATA 
GCTCACCGCC TCTCCACCAT CCAAAATGCT GACAAGATCA GCGTCGTCCA GAATGGCAGA 
GTCGTAGAGC AGGGCACCCA CCAGCAGCTT CTGGCTGAAA AAGGCATCTA CTATTCCCTG 
GTCAATGTTC AAAGTGGCTA A

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

RefSeq	XP_030120486.1
CDS	125..1345
Translation	MSLHSKNPFGTEQLFHHFPDTAFFKIATEAIENIRTVVSLTLERKFELMYGEHLILPYRNSVKKAHIFGFCFALSQAMMFFTYAGCFRFGAYLVVNDHTEYKRVFLVFSAVVFGAMALGQTSSFAPDYAKAKISAAHLFLLFERVPSIDSYSEEGDKPETFEGNITMKDVAFNYPNRPEVKILQGLNLKVEKGQTLALVGSSGCGKSTVVQLLERFYDPLDGEMIFDGKNAKALNIQWLRAQIGIVSQEPILFDCTIAENIAYGDNSREVSFEEIVSAAKQANIHSFIDSLPDKYNTRVGDKGTQLSGGQKQRIAIARALVRKPQILLLDEATSALDTESEKIVQEALDKAREGRTCIMIAHRLSTIQNADKISVVQNGRVVEQGTHQQLLAEKGIYYSLVNVQSG

Target ORF information:

RefSeq Version	XM_030264626.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X5, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_030264626.1

ORF Insert Sequence:

ATGTCACTTC ATTCCAAAAA TCCTTTTGGA ACAGAACAAC TATTTCATCA CTTCCCAGAC 
ACTGCTTTCT TCAAGATTGC CACAGAAGCA ATAGAAAATA TTAGAACTGT TGTTAGCTTG 
ACACTAGAAA GAAAATTTGA GTTGATGTAT GGAGAACATC TGATTCTACC CTACAGAAAT 
TCTGTGAAGA AGGCACATAT ATTTGGCTTT TGTTTTGCCC TTTCACAAGC AATGATGTTC 
TTTACCTATG CCGGCTGTTT CCGGTTTGGT GCCTATCTAG TGGTAAATGA TCACACGGAG 
TATAAAAGAG TATTTTTAGT GTTTTCAGCT GTTGTATTTG GTGCAATGGC ACTAGGACAG 
ACCAGTTCTT TTGCTCCAGA CTATGCCAAA GCCAAGATAT CAGCAGCCCA CTTGTTTCTG 
CTGTTTGAAA GAGTGCCCTC AATAGACAGT TACAGTGAGG AAGGAGACAA GCCTGAAACA 
TTTGAGGGAA ACATAACAAT GAAAGATGTG GCATTTAACT ACCCAAACCG ACCAGAAGTC 
AAAATCCTGC AAGGGTTGAA TCTAAAAGTA GAAAAGGGAC AAACTCTGGC TCTTGTTGGC 
AGCAGTGGCT GTGGAAAGAG CACTGTTGTT CAGCTGCTGG AGAGATTTTA TGACCCACTT 
GATGGAGAAA TGATTTTTGA TGGCAAAAAT GCAAAGGCAC TGAATATCCA GTGGTTGAGA 
GCTCAGATTG GTATTGTCTC ACAAGAACCA ATCCTGTTTG ACTGCACTAT TGCCGAAAAC 
ATCGCCTATG GAGATAACAG CCGGGAGGTG TCCTTTGAGG AAATTGTTAG TGCAGCAAAA 
CAAGCCAATA TTCATTCCTT CATTGACTCA CTGCCAGATA AATACAACAC CCGTGTAGGA 
GACAAGGGAA CCCAGCTTTC TGGTGGCCAG AAACAACGCA TCGCGATTGC CCGAGCTCTT 
GTACGCAAGC CCCAAATTCT GCTTCTGGAT GAAGCTACTT CTGCCTTAGA CACAGAAAGT 
GAAAAGATTG TCCAGGAAGC GCTGGATAAA GCTCGAGAAG GTCGCACGTG CATCATGATA 
GCTCACCGCC TCTCCACCAT CCAAAATGCT GACAAGATCA GCGTCGTCCA GAATGGCAGA 
GTCGTAGAGC AGGGCACCCA CCAGCAGCTT CTGGCTGAAA AAGGCATCTA CTATTCCCTG 
GTCAATGTTC AAAGTGGCTA A

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

ABCB1 ( XM_030264625.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030120485.1 Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OTd34592
Clone ID Related Accession (Same CDS sequence)	XM_030264625.1
Accession Version	XM_030264625.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2745bp) 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	2019-08-08
Organism	Taeniopygia guttata(zebra finch)
Product	ATP-dependent translocase ABCB1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCATTCTG AAGATGAGAA GAAGTATACC GAAGATGGAA ATAGTCATGG AATCGCTGCT 
TCCAGCCAGG GTCATGAATT AGAAGACAAA GACAAGGCAA AGAAGAAGCA GAAGAAAGGT 
GAAAAACCTA AGGTGGTCAG CCCTTTCACA CTGTTTCGAT ACTCCAGCTG GTCAGATAAA 
TTATTAATGA TACTAGGCAC TCTGCTGGCA ATAGCCCATG GAAGCAGTCT CCCTTTTGCG 
ATGATAATTT TTGGTGATAT GACTGATAGC TTTGTTTCAT CTGGAGACAA AAATCCTACA 
GGAGATTTTT CACAGAATTT CACTTCAGAT ATGCTTCACA AGCTGGAAGA AGATATGACA 
AGATATGCAT ACTACTATTC TGGAATAGCA GCTGGTGTTC TTCTTGCTGC TTATATTCAG 
ACTTCATTCT GGACCTTAGC AGCAGGTCGG CAAATAAAGA AAATTAGAGA AAAATTTTTT 
CATGCAATTA TGAGACAGGA AATTGGATGG TTTGATGTAA ATGATGTGGG AGAACTTAAC 
ACTCGTCTTC TAGATGATGT CTCCAAGATT AATGAAGGAA TAGGTGACAA GATTGGATTG 
CTTGTTCAAT CACTAACAAC ATTTGTGACA GGATTTATTG TTGGTCTCAT AAGAGGATGG 
AAATTAACCC TTGTAATACT AGCAGTTAGC CCTGTCCTGG GACTTTCAGC AGCCCTCTGG 
GCAAAGGTTC TCTCTGCATT CACTGACAAA GAACAGGCTG CGTATGCAAA AGCAGGTGCT 
GTTGCAGAAG AAGTTCTGGC AGCAATCCGT ACTGTAATAG CTTTTGGAGG ACAGGAAAAA 
GAAATTAAAA GATACCATAA AAATTTAGAA GATGCTAAAC GGATTGGAAT AAGAAAGTCT 
ATTACAGCAA ATATTTCTAT GGGTGCTGCT TTCTTACTGA TATATGCATC GTATGCACTG 
GCATTCTGGT ATGGAACTAC TTTGATCTTA ACTGATGATT ACACTATTGG CAAAGTTCTT 
ACAGTCTTTT TCTCTGTATT GATTGGAGCT TTCAGCATTG GACAGACTGC TCCAAGCATA 
GAGGCATTTG CAAGTGCAAG AGGAGCTGCC TACACCATCT TTAATATAAT AGACAATGAA 
CCTCAAATTG ACAGCTATTC AGAGACAGGT TACAAACCAG ACCACATAAA AGGGAACTTG 
GAATTAAAAA ATGTTTACTT CAATTATCCA TCCAGACCAG ATGTTGAGAT ACTGAAGGGC 
TTGAATCTCA AGATTAATTC TGGCCAGACA GTGGCCCTGG TTGGTGGCAG TGGCTGTGGG 
AAAAGCACAA CTGTTCAGCT CATCCAGAGA TTTTATGATC CCAAGGAAGG CACGATTACC 
ATTGATGGGC AGGATATTAA GACCTTAAAC GTAAGGTATC TGCGGGAAGT TATTGGTGTG 
GTGAATCAGG AGCCCGTGCT CTTTGCCACT ACTATTGCAG AAAATATCCG TTATGGCCGT 
GAGGATGTCA CCATGGAGGA GATTGAAAAA GCCACCAAGG AGGCAAATGC TTATGACTTC 
ATCATGAAGC TACCCAATAA GTTTGAAACT GTGGTTGGAG AAAGAGGGGC ACAGCTCAGT 
GGAGGCCAGA AGCAAAGAAT AGCAATTGCC AGAGCTCTGG TTCGCAATCC TAAAATTCTT 
CTGCTTGATG AGGCAACATC AGCTTTGGAT ACTGAGAGTG AATCAGTTGT GCAGGCAGCA 
CTGGACAAGG CAAGGGAAGG ACGCACCACG GTTGTGGTAG CTCATCGACT GTCAACAGTC 
CGAAATGCAG ATGTGATAGC TGTGTTTGAA GGTGGAGTAA TCACAGAGCT AGGCAATCAT 
GCTAAATTGC TAGAGAAAAA GGGAATCTAC TACAAACTCG TTAACATGCA GGCAGTAGAA 
GCTGAAGTTC CATCATCAGA AAATTATGAG AATGTACTTC CACCATCAGA AAATTATGAG 
AATGTATATA GTGTCAAAAA CAGTGAATTT GAACCAGAAT CTGAAGAATC CTTAACTAGG 
GGATTGAGAA GACGGTCAAC TCGGAGAAGC ATGAAAAAGC CAGGAGAGCA AAATTATAGT 
CCTGATGAGG AAAAAACTTC ACCTGCTGAA GAACTACCTC CAGCTTCATT TCTGAAAATT 
ATGAAGTTGA ACAAAACTGA GTGGCCATAC TTTGTAGCTG GAACCTTGTG TGCAATTATC 
AATGGAGGTT TGCAACCTGC ATTTGCAGTC ATATTTTCTG AAATTATAGG GATTTTTTCA 
GAGACTGACA AGGATGTCTT AAGAAAACAG AGCAACTTAT ATTCACTGCT GTTTTTAGCA 
CTTGGGATAA TTTCCTTTTT TACTTTCTTT TTTCAGGGTT TCACATTTGG CAAAGCTGGA 
GAAATTCTTA CAATGAGGCT TCGATTCATG GCATTTAAAG CAATGCTTAG ACAGGATATG 
GCCTGGTTTG ATAATCCTAA AAATAGCACT GGAGCATTAA CTACAAGACT TGCTAATGAT 
GCCTCTAATG TGAAAGGAGC AACTGGTGTC AGACTAGCAT TAATTGCCCA AAACATAGCC 
AACCTGGGGA CTGGAATTAT TATATCATTA ATTTATGTCT GGAAGCTGAC CCTGCTACTT 
TTAGCTGTTG TGCCCATCAT TGCAGTGGCA GGAATGATTG AAATGAAGAT GTTGGCTGGG 
CATGCTAAGA AAGATAAACG AGAGCTGGAA GCTGCAGGAA AGTGA

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

RefSeq	XP_030120485.1
CDS	569..3313
Translation	MHSEDEKKYTEDGNSHGIAASSQGHELEDKDKAKKKQKKGEKPKVVSPFTLFRYSSWSDKLLMILGTLLAIAHGSSLPFAMIIFGDMTDSFVSSGDKNPTGDFSQNFTSDMLHKLEEDMTRYAYYYSGIAAGVLLAAYIQTSFWTLAAGRQIKKIREKFFHAIMRQEIGWFDVNDVGELNTRLLDDVSKINEGIGDKIGLLVQSLTTFVTGFIVGLIRGWKLTLVILAVSPVLGLSAALWAKVLSAFTDKEQAAYAKAGAVAEEVLAAIRTVIAFGGQEKEIKRYHKNLEDAKRIGIRKSITANISMGAAFLLIYASYALAFWYGTTLILTDDYTIGKVLTVFFSVLIGAFSIGQTAPSIEAFASARGAAYTIFNIIDNEPQIDSYSETGYKPDHIKGNLELKNVYFNYPSRPDVEILKGLNLKINSGQTVALVGGSGCGKSTTVQLIQRFYDPKEGTITIDGQDIKTLNVRYLREVIGVVNQEPVLFATTIAENIRYGREDVTMEEIEKATKEANAYDFIMKLPNKFETVVGERGAQLSGGQKQRIAIARALVRNPKILLLDEATSALDTESESVVQAALDKAREGRTTVVVAHRLSTVRNADVIAVFEGGVITELGNHAKLLEKKGIYYKLVNMQAVEAEVPSSENYENVLPPSENYENVYSVKNSEFEPESEESLTRGLRRRSTRRSMKKPGEQNYSPDEEKTSPAEELPPASFLKIMKLNKTEWPYFVAGTLCAIINGGLQPAFAVIFSEIIGIFSETDKDVLRKQSNLYSLLFLALGIISFFTFFFQGFTFGKAGEILTMRLRFMAFKAMLRQDMAWFDNPKNSTGALTTRLANDASNVKGATGVRLALIAQNIANLGTGIIISLIYVWKLTLLLLAVVPIIAVAGMIEMKMLAGHAKKDKRELEAAGK

Target ORF information:

RefSeq Version	XM_030264625.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_030264625.1

ORF Insert Sequence:

ATGCATTCTG AAGATGAGAA GAAGTATACC GAAGATGGAA ATAGTCATGG AATCGCTGCT 
TCCAGCCAGG GTCATGAATT AGAAGACAAA GACAAGGCAA AGAAGAAGCA GAAGAAAGGT 
GAAAAACCTA AGGTGGTCAG CCCTTTCACA CTGTTTCGAT ACTCCAGCTG GTCAGATAAA 
TTATTAATGA TACTAGGCAC TCTGCTGGCA ATAGCCCATG GAAGCAGTCT CCCTTTTGCG 
ATGATAATTT TTGGTGATAT GACTGATAGC TTTGTTTCAT CTGGAGACAA AAATCCTACA 
GGAGATTTTT CACAGAATTT CACTTCAGAT ATGCTTCACA AGCTGGAAGA AGATATGACA 
AGATATGCAT ACTACTATTC TGGAATAGCA GCTGGTGTTC TTCTTGCTGC TTATATTCAG 
ACTTCATTCT GGACCTTAGC AGCAGGTCGG CAAATAAAGA AAATTAGAGA AAAATTTTTT 
CATGCAATTA TGAGACAGGA AATTGGATGG TTTGATGTAA ATGATGTGGG AGAACTTAAC 
ACTCGTCTTC TAGATGATGT CTCCAAGATT AATGAAGGAA TAGGTGACAA GATTGGATTG 
CTTGTTCAAT CACTAACAAC ATTTGTGACA GGATTTATTG TTGGTCTCAT AAGAGGATGG 
AAATTAACCC TTGTAATACT AGCAGTTAGC CCTGTCCTGG GACTTTCAGC AGCCCTCTGG 
GCAAAGGTTC TCTCTGCATT CACTGACAAA GAACAGGCTG CGTATGCAAA AGCAGGTGCT 
GTTGCAGAAG AAGTTCTGGC AGCAATCCGT ACTGTAATAG CTTTTGGAGG ACAGGAAAAA 
GAAATTAAAA GATACCATAA AAATTTAGAA GATGCTAAAC GGATTGGAAT AAGAAAGTCT 
ATTACAGCAA ATATTTCTAT GGGTGCTGCT TTCTTACTGA TATATGCATC GTATGCACTG 
GCATTCTGGT ATGGAACTAC TTTGATCTTA ACTGATGATT ACACTATTGG CAAAGTTCTT 
ACAGTCTTTT TCTCTGTATT GATTGGAGCT TTCAGCATTG GACAGACTGC TCCAAGCATA 
GAGGCATTTG CAAGTGCAAG AGGAGCTGCC TACACCATCT TTAATATAAT AGACAATGAA 
CCTCAAATTG ACAGCTATTC AGAGACAGGT TACAAACCAG ACCACATAAA AGGGAACTTG 
GAATTAAAAA ATGTTTACTT CAATTATCCA TCCAGACCAG ATGTTGAGAT ACTGAAGGGC 
TTGAATCTCA AGATTAATTC TGGCCAGACA GTGGCCCTGG TTGGTGGCAG TGGCTGTGGG 
AAAAGCACAA CTGTTCAGCT CATCCAGAGA TTTTATGATC CCAAGGAAGG CACGATTACC 
ATTGATGGGC AGGATATTAA GACCTTAAAC GTAAGGTATC TGCGGGAAGT TATTGGTGTG 
GTGAATCAGG AGCCCGTGCT CTTTGCCACT ACTATTGCAG AAAATATCCG TTATGGCCGT 
GAGGATGTCA CCATGGAGGA GATTGAAAAA GCCACCAAGG AGGCAAATGC TTATGACTTC 
ATCATGAAGC TACCCAATAA GTTTGAAACT GTGGTTGGAG AAAGAGGGGC ACAGCTCAGT 
GGAGGCCAGA AGCAAAGAAT AGCAATTGCC AGAGCTCTGG TTCGCAATCC TAAAATTCTT 
CTGCTTGATG AGGCAACATC AGCTTTGGAT ACTGAGAGTG AATCAGTTGT GCAGGCAGCA 
CTGGACAAGG CAAGGGAAGG ACGCACCACG GTTGTGGTAG CTCATCGACT GTCAACAGTC 
CGAAATGCAG ATGTGATAGC TGTGTTTGAA GGTGGAGTAA TCACAGAGCT AGGCAATCAT 
GCTAAATTGC TAGAGAAAAA GGGAATCTAC TACAAACTCG TTAACATGCA GGCAGTAGAA 
GCTGAAGTTC CATCATCAGA AAATTATGAG AATGTACTTC CACCATCAGA AAATTATGAG 
AATGTATATA GTGTCAAAAA CAGTGAATTT GAACCAGAAT CTGAAGAATC CTTAACTAGG 
GGATTGAGAA GACGGTCAAC TCGGAGAAGC ATGAAAAAGC CAGGAGAGCA AAATTATAGT 
CCTGATGAGG AAAAAACTTC ACCTGCTGAA GAACTACCTC CAGCTTCATT TCTGAAAATT 
ATGAAGTTGA ACAAAACTGA GTGGCCATAC TTTGTAGCTG GAACCTTGTG TGCAATTATC 
AATGGAGGTT TGCAACCTGC ATTTGCAGTC ATATTTTCTG AAATTATAGG GATTTTTTCA 
GAGACTGACA AGGATGTCTT AAGAAAACAG AGCAACTTAT ATTCACTGCT GTTTTTAGCA 
CTTGGGATAA TTTCCTTTTT TACTTTCTTT TTTCAGGGTT TCACATTTGG CAAAGCTGGA 
GAAATTCTTA CAATGAGGCT TCGATTCATG GCATTTAAAG CAATGCTTAG ACAGGATATG 
GCCTGGTTTG ATAATCCTAA AAATAGCACT GGAGCATTAA CTACAAGACT TGCTAATGAT 
GCCTCTAATG TGAAAGGAGC AACTGGTGTC AGACTAGCAT TAATTGCCCA AAACATAGCC 
AACCTGGGGA CTGGAATTAT TATATCATTA ATTTATGTCT GGAAGCTGAC CCTGCTACTT 
TTAGCTGTTG TGCCCATCAT TGCAGTGGCA GGAATGATTG AAATGAAGAT GTTGGCTGGG 
CATGCTAAGA AAGATAAACG AGAGCTGGAA GCTGCAGGAA AGTGA

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

ABCB1 ( XM_030264623.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030120483.1 Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd34591
Clone ID Related Accession (Same CDS sequence)	XM_030264623.1 , XM_030264624.1 , XM_004186218.3
Accession Version	XM_030264623.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3888bp) 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	2019-08-08
Organism	Taeniopygia guttata(zebra finch)
Product	ATP-dependent translocase ABCB1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCATTCTG AAGATGAGAA GAAGTATACC GAAGATGGAA ATAGTCATGG AATCGCTGCT 
TCCAGCCAGG GTCATGAATT AGAAGACAAA GACAAGGCAA AGAAGAAGCA GAAGAAAGGT 
GAAAAACCTA AGGTGGTCAG CCCTTTCACA CTGTTTCGAT ACTCCAGCTG GTCAGATAAA 
TTATTAATGA TACTAGGCAC TCTGCTGGCA ATAGCCCATG GAAGCAGTCT CCCTTTTGCG 
ATGATAATTT TTGGTGATAT GACTGATAGC TTTGTTTCAT CTGGAGACAA AAATCCTACA 
GGAGATTTTT CACAGAATTT CACTTCAGAT ATGCTTCACA AGCTGGAAGA AGATATGACA 
AGATATGCAT ACTACTATTC TGGAATAGCA GCTGGTGTTC TTCTTGCTGC TTATATTCAG 
ACTTCATTCT GGACCTTAGC AGCAGGTCGG CAAATAAAGA AAATTAGAGA AAAATTTTTT 
CATGCAATTA TGAGACAGGA AATTGGATGG TTTGATGTAA ATGATGTGGG AGAACTTAAC 
ACTCGTCTTC TAGATGATGT CTCCAAGATT AATGAAGGAA TAGGTGACAA GATTGGATTG 
CTTGTTCAAT CACTAACAAC ATTTGTGACA GGATTTATTG TTGGTCTCAT AAGAGGATGG 
AAATTAACCC TTGTAATACT AGCAGTTAGC CCTGTCCTGG GACTTTCAGC AGCCCTCTGG 
GCAAAGGTTC TCTCTGCATT CACTGACAAA GAACAGGCTG CGTATGCAAA AGCAGGTGCT 
GTTGCAGAAG AAGTTCTGGC AGCAATCCGT ACTGTAATAG CTTTTGGAGG ACAGGAAAAA 
GAAATTAAAA GATACCATAA AAATTTAGAA GATGCTAAAC GGATTGGAAT AAGAAAGTCT 
ATTACAGCAA ATATTTCTAT GGGTGCTGCT TTCTTACTGA TATATGCATC GTATGCACTG 
GCATTCTGGT ATGGAACTAC TTTGATCTTA ACTGATGATT ACACTATTGG CAAAGTTCTT 
ACAGTCTTTT TCTCTGTATT GATTGGAGCT TTCAGCATTG GACAGACTGC TCCAAGCATA 
GAGGCATTTG CAAGTGCAAG AGGAGCTGCC TACACCATCT TTAATATAAT AGACAATGAA 
CCTCAAATTG ACAGCTATTC AGAGACAGGT TACAAACCAG ACCACATAAA AGGGAACTTG 
GAATTAAAAA ATGTTTACTT CAATTATCCA TCCAGACCAG ATGTTGAGAT ACTGAAGGGC 
TTGAATCTCA AGATTAATTC TGGCCAGACA GTGGCCCTGG TTGGTGGCAG TGGCTGTGGG 
AAAAGCACAA CTGTTCAGCT CATCCAGAGA TTTTATGATC CCAAGGAAGG CACGATTACC 
ATTGATGGGC AGGATATTAA GACCTTAAAC GTAAGGTATC TGCGGGAAGT TATTGGTGTG 
GTGAATCAGG AGCCCGTGCT CTTTGCCACT ACTATTGCAG AAAATATCCG TTATGGCCGT 
GAGGATGTCA CCATGGAGGA GATTGAAAAA GCCACCAAGG AGGCAAATGC TTATGACTTC 
ATCATGAAGC TACCCAATAA GTTTGAAACT GTGGTTGGAG AAAGAGGGGC ACAGCTCAGT 
GGAGGCCAGA AGCAAAGAAT AGCAATTGCC AGAGCTCTGG TTCGCAATCC TAAAATTCTT 
CTGCTTGATG AGGCAACATC AGCTTTGGAT ACTGAGAGTG AATCAGTTGT GCAGGCAGCA 
CTGGACAAGG CAAGGGAAGG ACGCACCACG GTTGTGGTAG CTCATCGACT GTCAACAGTC 
CGAAATGCAG ATGTGATAGC TGTGTTTGAA GGTGGAGTAA TCACAGAGCT AGGCAATCAT 
GCTAAATTGC TAGAGAAAAA GGGAATCTAC TACAAACTCG TTAACATGCA GGCAGTAGAA 
GCTGAAGTTC CATCATCAGA AAATTATGAG AATGTACTTC CACCATCAGA AAATTATGAG 
AATGTATATA GTGTCAAAAA CAGTGAATTT GAACCAGAAT CTGAAGAATC CTTAACTAGG 
GGATTGAGAA GACGGTCAAC TCGGAGAAGC ATGAAAAAGC CAGGAGAGCA AAATTATAGT 
CCTGATGAGG AAAAAACTTC ACCTGCTGAA GAACTACCTC CAGCTTCATT TCTGAAAATT 
ATGAAGTTGA ACAAAACTGA GTGGCCATAC TTTGTAGCTG GAACCTTGTG TGCAATTATC 
AATGGAGGTT TGCAACCTGC ATTTGCAGTC ATATTTTCTG AAATTATAGG GATTTTTTCA 
GAGACTGACA AGGATGTCTT AAGAAAACAG AGCAACTTAT ATTCACTGCT GTTTTTAGCA 
CTTGGGATAA TTTCCTTTTT TACTTTCTTT TTTCAGGGTT TCACATTTGG CAAAGCTGGA 
GAAATTCTTA CAATGAGGCT TCGATTCATG GCATTTAAAG CAATGCTTAG ACAGGATATG 
GCCTGGTTTG ATAATCCTAA AAATAGCACT GGAGCATTAA CTACAAGACT TGCTAATGAT 
GCCTCTAATG TGAAAGGAGC AACTGGTGTC AGACTAGCAT TAATTGCCCA AAACATAGCC 
AACCTGGGGA CTGGAATTAT TATATCATTA ATTTATGTCT GGAAGCTGAC CCTGCTACTT 
TTAGCTGTTG TGCCCATCAT TGCAGTGGCA GGAATGATTG AAATGAAGAT GTTGGCTGGG 
CATGCTAAGA AAGATAAACG AGAGCTGGAA GCTGCAGGAA AGATTGCCAC AGAAGCAATA 
GAAAATATTA GAACTGTTGT TAGCTTGACA CTAGAAAGAA AATTTGAGTT GATGTATGGA 
GAACATCTGA TTCTACCCTA CAGAAATTCT GTGAAGAAGG CACATATATT TGGCTTTTGT 
TTTGCCCTTT CACAAGCAAT GATGTTCTTT ACCTATGCCG GCTGTTTCCG GTTTGGTGCC 
TATCTAGTGG TAAATGATCA CACGGAGTAT AAAAGAGTAT TTTTAGTGTT TTCAGCTGTT 
GTATTTGGTG CAATGGCACT AGGACAGACC AGTTCTTTTG CTCCAGACTA TGCCAAAGCC 
AAGATATCAG CAGCCCACTT GTTTCTGCTG TTTGAAAGAG TGCCCTCAAT AGACAGTTAC 
AGTGAGGAAG GAGACAAGCC TGAAACATTT GAGGGAAACA TAACAATGAA AGATGTGGCA 
TTTAACTACC CAAACCGACC AGAAGTCAAA ATCCTGCAAG GGTTGAATCT AAAAGTAGAA 
AAGGGACAAA CTCTGGCTCT TGTTGGCAGC AGTGGCTGTG GAAAGAGCAC TGTTGTTCAG 
CTGCTGGAGA GATTTTATGA CCCACTTGAT GGAGAAATGA TTTTTGATGG CAAAAATGCA 
AAGGCACTGA ATATCCAGTG GTTGAGAGCT CAGATTGGTA TTGTCTCACA AGAACCAATC 
CTGTTTGACT GCACTATTGC CGAAAACATC GCCTATGGAG ATAACAGCCG GGAGGTGTCC 
TTTGAGGAAA TTGTTAGTGC AGCAAAACAA GCCAATATTC ATTCCTTCAT TGACTCACTG 
CCAGATAAAT ACAACACCCG TGTAGGAGAC AAGGGAACCC AGCTTTCTGG TGGCCAGAAA 
CAACGCATCG CGATTGCCCG AGCTCTTGTA CGCAAGCCCC AAATTCTGCT TCTGGATGAA 
GCTACTTCTG CCTTAGACAC AGAAAGTGAA AAGATTGTCC AGGAAGCGCT GGATAAAGCT 
CGAGAAGGTC GCACGTGCAT CATGATAGCT CACCGCCTCT CCACCATCCA AAATGCTGAC 
AAGATCAGCG TCGTCCAGAA TGGCAGAGTC GTAGAGCAGG GCACCCACCA GCAGCTTCTG 
GCTGAAAAAG GCATCTACTA TTCCCTGGTC AATGTTCAAA GTGGCTAA

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

RefSeq	XP_030120483.1
CDS	515..4402
Translation	MHSEDEKKYTEDGNSHGIAASSQGHELEDKDKAKKKQKKGEKPKVVSPFTLFRYSSWSDKLLMILGTLLAIAHGSSLPFAMIIFGDMTDSFVSSGDKNPTGDFSQNFTSDMLHKLEEDMTRYAYYYSGIAAGVLLAAYIQTSFWTLAAGRQIKKIREKFFHAIMRQEIGWFDVNDVGELNTRLLDDVSKINEGIGDKIGLLVQSLTTFVTGFIVGLIRGWKLTLVILAVSPVLGLSAALWAKVLSAFTDKEQAAYAKAGAVAEEVLAAIRTVIAFGGQEKEIKRYHKNLEDAKRIGIRKSITANISMGAAFLLIYASYALAFWYGTTLILTDDYTIGKVLTVFFSVLIGAFSIGQTAPSIEAFASARGAAYTIFNIIDNEPQIDSYSETGYKPDHIKGNLELKNVYFNYPSRPDVEILKGLNLKINSGQTVALVGGSGCGKSTTVQLIQRFYDPKEGTITIDGQDIKTLNVRYLREVIGVVNQEPVLFATTIAENIRYGREDVTMEEIEKATKEANAYDFIMKLPNKFETVVGERGAQLSGGQKQRIAIARALVRNPKILLLDEATSALDTESESVVQAALDKAREGRTTVVVAHRLSTVRNADVIAVFEGGVITELGNHAKLLEKKGIYYKLVNMQAVEAEVPSSENYENVLPPSENYENVYSVKNSEFEPESEESLTRGLRRRSTRRSMKKPGEQNYSPDEEKTSPAEELPPASFLKIMKLNKTEWPYFVAGTLCAIINGGLQPAFAVIFSEIIGIFSETDKDVLRKQSNLYSLLFLALGIISFFTFFFQGFTFGKAGEILTMRLRFMAFKAMLRQDMAWFDNPKNSTGALTTRLANDASNVKGATGVRLALIAQNIANLGTGIIISLIYVWKLTLLLLAVVPIIAVAGMIEMKMLAGHAKKDKRELEAAGKIATEAIENIRTVVSLTLERKFELMYGEHLILPYRNSVKKAHIFGFCFALSQAMMFFTYAGCFRFGAYLVVNDHTEYKRVFLVFSAVVFGAMALGQTSSFAPDYAKAKISAAHLFLLFERVPSIDSYSEEGDKPETFEGNITMKDVAFNYPNRPEVKILQGLNLKVEKGQTLALVGSSGCGKSTVVQLLERFYDPLDGEMIFDGKNAKALNIQWLRAQIGIVSQEPILFDCTIAENIAYGDNSREVSFEEIVSAAKQANIHSFIDSLPDKYNTRVGDKGTQLSGGQKQRIAIARALVRKPQILLLDEATSALDTESEKIVQEALDKAREGRTCIMIAHRLSTIQNADKISVVQNGRVVEQGTHQQLLAEKGIYYSLVNVQSG

Target ORF information:

RefSeq Version	XM_030264623.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_030264623.1

ORF Insert Sequence:

ATGCATTCTG AAGATGAGAA GAAGTATACC GAAGATGGAA ATAGTCATGG AATCGCTGCT 
TCCAGCCAGG GTCATGAATT AGAAGACAAA GACAAGGCAA AGAAGAAGCA GAAGAAAGGT 
GAAAAACCTA AGGTGGTCAG CCCTTTCACA CTGTTTCGAT ACTCCAGCTG GTCAGATAAA 
TTATTAATGA TACTAGGCAC TCTGCTGGCA ATAGCCCATG GAAGCAGTCT CCCTTTTGCG 
ATGATAATTT TTGGTGATAT GACTGATAGC TTTGTTTCAT CTGGAGACAA AAATCCTACA 
GGAGATTTTT CACAGAATTT CACTTCAGAT ATGCTTCACA AGCTGGAAGA AGATATGACA 
AGATATGCAT ACTACTATTC TGGAATAGCA GCTGGTGTTC TTCTTGCTGC TTATATTCAG 
ACTTCATTCT GGACCTTAGC AGCAGGTCGG CAAATAAAGA AAATTAGAGA AAAATTTTTT 
CATGCAATTA TGAGACAGGA AATTGGATGG TTTGATGTAA ATGATGTGGG AGAACTTAAC 
ACTCGTCTTC TAGATGATGT CTCCAAGATT AATGAAGGAA TAGGTGACAA GATTGGATTG 
CTTGTTCAAT CACTAACAAC ATTTGTGACA GGATTTATTG TTGGTCTCAT AAGAGGATGG 
AAATTAACCC TTGTAATACT AGCAGTTAGC CCTGTCCTGG GACTTTCAGC AGCCCTCTGG 
GCAAAGGTTC TCTCTGCATT CACTGACAAA GAACAGGCTG CGTATGCAAA AGCAGGTGCT 
GTTGCAGAAG AAGTTCTGGC AGCAATCCGT ACTGTAATAG CTTTTGGAGG ACAGGAAAAA 
GAAATTAAAA GATACCATAA AAATTTAGAA GATGCTAAAC GGATTGGAAT AAGAAAGTCT 
ATTACAGCAA ATATTTCTAT GGGTGCTGCT TTCTTACTGA TATATGCATC GTATGCACTG 
GCATTCTGGT ATGGAACTAC TTTGATCTTA ACTGATGATT ACACTATTGG CAAAGTTCTT 
ACAGTCTTTT TCTCTGTATT GATTGGAGCT TTCAGCATTG GACAGACTGC TCCAAGCATA 
GAGGCATTTG CAAGTGCAAG AGGAGCTGCC TACACCATCT TTAATATAAT AGACAATGAA 
CCTCAAATTG ACAGCTATTC AGAGACAGGT TACAAACCAG ACCACATAAA AGGGAACTTG 
GAATTAAAAA ATGTTTACTT CAATTATCCA TCCAGACCAG ATGTTGAGAT ACTGAAGGGC 
TTGAATCTCA AGATTAATTC TGGCCAGACA GTGGCCCTGG TTGGTGGCAG TGGCTGTGGG 
AAAAGCACAA CTGTTCAGCT CATCCAGAGA TTTTATGATC CCAAGGAAGG CACGATTACC 
ATTGATGGGC AGGATATTAA GACCTTAAAC GTAAGGTATC TGCGGGAAGT TATTGGTGTG 
GTGAATCAGG AGCCCGTGCT CTTTGCCACT ACTATTGCAG AAAATATCCG TTATGGCCGT 
GAGGATGTCA CCATGGAGGA GATTGAAAAA GCCACCAAGG AGGCAAATGC TTATGACTTC 
ATCATGAAGC TACCCAATAA GTTTGAAACT GTGGTTGGAG AAAGAGGGGC ACAGCTCAGT 
GGAGGCCAGA AGCAAAGAAT AGCAATTGCC AGAGCTCTGG TTCGCAATCC TAAAATTCTT 
CTGCTTGATG AGGCAACATC AGCTTTGGAT ACTGAGAGTG AATCAGTTGT GCAGGCAGCA 
CTGGACAAGG CAAGGGAAGG ACGCACCACG GTTGTGGTAG CTCATCGACT GTCAACAGTC 
CGAAATGCAG ATGTGATAGC TGTGTTTGAA GGTGGAGTAA TCACAGAGCT AGGCAATCAT 
GCTAAATTGC TAGAGAAAAA GGGAATCTAC TACAAACTCG TTAACATGCA GGCAGTAGAA 
GCTGAAGTTC CATCATCAGA AAATTATGAG AATGTACTTC CACCATCAGA AAATTATGAG 
AATGTATATA GTGTCAAAAA CAGTGAATTT GAACCAGAAT CTGAAGAATC CTTAACTAGG 
GGATTGAGAA GACGGTCAAC TCGGAGAAGC ATGAAAAAGC CAGGAGAGCA AAATTATAGT 
CCTGATGAGG AAAAAACTTC ACCTGCTGAA GAACTACCTC CAGCTTCATT TCTGAAAATT 
ATGAAGTTGA ACAAAACTGA GTGGCCATAC TTTGTAGCTG GAACCTTGTG TGCAATTATC 
AATGGAGGTT TGCAACCTGC ATTTGCAGTC ATATTTTCTG AAATTATAGG GATTTTTTCA 
GAGACTGACA AGGATGTCTT AAGAAAACAG AGCAACTTAT ATTCACTGCT GTTTTTAGCA 
CTTGGGATAA TTTCCTTTTT TACTTTCTTT TTTCAGGGTT TCACATTTGG CAAAGCTGGA 
GAAATTCTTA CAATGAGGCT TCGATTCATG GCATTTAAAG CAATGCTTAG ACAGGATATG 
GCCTGGTTTG ATAATCCTAA AAATAGCACT GGAGCATTAA CTACAAGACT TGCTAATGAT 
GCCTCTAATG TGAAAGGAGC AACTGGTGTC AGACTAGCAT TAATTGCCCA AAACATAGCC 
AACCTGGGGA CTGGAATTAT TATATCATTA ATTTATGTCT GGAAGCTGAC CCTGCTACTT 
TTAGCTGTTG TGCCCATCAT TGCAGTGGCA GGAATGATTG AAATGAAGAT GTTGGCTGGG 
CATGCTAAGA AAGATAAACG AGAGCTGGAA GCTGCAGGAA AGATTGCCAC AGAAGCAATA 
GAAAATATTA GAACTGTTGT TAGCTTGACA CTAGAAAGAA AATTTGAGTT GATGTATGGA 
GAACATCTGA TTCTACCCTA CAGAAATTCT GTGAAGAAGG CACATATATT TGGCTTTTGT 
TTTGCCCTTT CACAAGCAAT GATGTTCTTT ACCTATGCCG GCTGTTTCCG GTTTGGTGCC 
TATCTAGTGG TAAATGATCA CACGGAGTAT AAAAGAGTAT TTTTAGTGTT TTCAGCTGTT 
GTATTTGGTG CAATGGCACT AGGACAGACC AGTTCTTTTG CTCCAGACTA TGCCAAAGCC 
AAGATATCAG CAGCCCACTT GTTTCTGCTG TTTGAAAGAG TGCCCTCAAT AGACAGTTAC 
AGTGAGGAAG GAGACAAGCC TGAAACATTT GAGGGAAACA TAACAATGAA AGATGTGGCA 
TTTAACTACC CAAACCGACC AGAAGTCAAA ATCCTGCAAG GGTTGAATCT AAAAGTAGAA 
AAGGGACAAA CTCTGGCTCT TGTTGGCAGC AGTGGCTGTG GAAAGAGCAC TGTTGTTCAG 
CTGCTGGAGA GATTTTATGA CCCACTTGAT GGAGAAATGA TTTTTGATGG CAAAAATGCA 
AAGGCACTGA ATATCCAGTG GTTGAGAGCT CAGATTGGTA TTGTCTCACA AGAACCAATC 
CTGTTTGACT GCACTATTGC CGAAAACATC GCCTATGGAG ATAACAGCCG GGAGGTGTCC 
TTTGAGGAAA TTGTTAGTGC AGCAAAACAA GCCAATATTC ATTCCTTCAT TGACTCACTG 
CCAGATAAAT ACAACACCCG TGTAGGAGAC AAGGGAACCC AGCTTTCTGG TGGCCAGAAA 
CAACGCATCG CGATTGCCCG AGCTCTTGTA CGCAAGCCCC AAATTCTGCT TCTGGATGAA 
GCTACTTCTG CCTTAGACAC AGAAAGTGAA AAGATTGTCC AGGAAGCGCT GGATAAAGCT 
CGAGAAGGTC GCACGTGCAT CATGATAGCT CACCGCCTCT CCACCATCCA AAATGCTGAC 
AAGATCAGCG TCGTCCAGAA TGGCAGAGTC GTAGAGCAGG GCACCCACCA GCAGCTTCTG 
GCTGAAAAAG GCATCTACTA TTCCCTGGTC AATGTTCAAA GTGGCTAA

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

ABCB1 ( XM_030264624.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030120484.1 Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X3, mRNA.

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CloneID	OTd34591
Clone ID Related Accession (Same CDS sequence)	XM_030264623.1 , XM_030264624.1 , XM_004186218.3
Accession Version	XM_030264624.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3888bp) 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	2019-08-08
Organism	Taeniopygia guttata(zebra finch)
Product	ATP-dependent translocase ABCB1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCATTCTG AAGATGAGAA GAAGTATACC GAAGATGGAA ATAGTCATGG AATCGCTGCT 
TCCAGCCAGG GTCATGAATT AGAAGACAAA GACAAGGCAA AGAAGAAGCA GAAGAAAGGT 
GAAAAACCTA AGGTGGTCAG CCCTTTCACA CTGTTTCGAT ACTCCAGCTG GTCAGATAAA 
TTATTAATGA TACTAGGCAC TCTGCTGGCA ATAGCCCATG GAAGCAGTCT CCCTTTTGCG 
ATGATAATTT TTGGTGATAT GACTGATAGC TTTGTTTCAT CTGGAGACAA AAATCCTACA 
GGAGATTTTT CACAGAATTT CACTTCAGAT ATGCTTCACA AGCTGGAAGA AGATATGACA 
AGATATGCAT ACTACTATTC TGGAATAGCA GCTGGTGTTC TTCTTGCTGC TTATATTCAG 
ACTTCATTCT GGACCTTAGC AGCAGGTCGG CAAATAAAGA AAATTAGAGA AAAATTTTTT 
CATGCAATTA TGAGACAGGA AATTGGATGG TTTGATGTAA ATGATGTGGG AGAACTTAAC 
ACTCGTCTTC TAGATGATGT CTCCAAGATT AATGAAGGAA TAGGTGACAA GATTGGATTG 
CTTGTTCAAT CACTAACAAC ATTTGTGACA GGATTTATTG TTGGTCTCAT AAGAGGATGG 
AAATTAACCC TTGTAATACT AGCAGTTAGC CCTGTCCTGG GACTTTCAGC AGCCCTCTGG 
GCAAAGGTTC TCTCTGCATT CACTGACAAA GAACAGGCTG CGTATGCAAA AGCAGGTGCT 
GTTGCAGAAG AAGTTCTGGC AGCAATCCGT ACTGTAATAG CTTTTGGAGG ACAGGAAAAA 
GAAATTAAAA GATACCATAA AAATTTAGAA GATGCTAAAC GGATTGGAAT AAGAAAGTCT 
ATTACAGCAA ATATTTCTAT GGGTGCTGCT TTCTTACTGA TATATGCATC GTATGCACTG 
GCATTCTGGT ATGGAACTAC TTTGATCTTA ACTGATGATT ACACTATTGG CAAAGTTCTT 
ACAGTCTTTT TCTCTGTATT GATTGGAGCT TTCAGCATTG GACAGACTGC TCCAAGCATA 
GAGGCATTTG CAAGTGCAAG AGGAGCTGCC TACACCATCT TTAATATAAT AGACAATGAA 
CCTCAAATTG ACAGCTATTC AGAGACAGGT TACAAACCAG ACCACATAAA AGGGAACTTG 
GAATTAAAAA ATGTTTACTT CAATTATCCA TCCAGACCAG ATGTTGAGAT ACTGAAGGGC 
TTGAATCTCA AGATTAATTC TGGCCAGACA GTGGCCCTGG TTGGTGGCAG TGGCTGTGGG 
AAAAGCACAA CTGTTCAGCT CATCCAGAGA TTTTATGATC CCAAGGAAGG CACGATTACC 
ATTGATGGGC AGGATATTAA GACCTTAAAC GTAAGGTATC TGCGGGAAGT TATTGGTGTG 
GTGAATCAGG AGCCCGTGCT CTTTGCCACT ACTATTGCAG AAAATATCCG TTATGGCCGT 
GAGGATGTCA CCATGGAGGA GATTGAAAAA GCCACCAAGG AGGCAAATGC TTATGACTTC 
ATCATGAAGC TACCCAATAA GTTTGAAACT GTGGTTGGAG AAAGAGGGGC ACAGCTCAGT 
GGAGGCCAGA AGCAAAGAAT AGCAATTGCC AGAGCTCTGG TTCGCAATCC TAAAATTCTT 
CTGCTTGATG AGGCAACATC AGCTTTGGAT ACTGAGAGTG AATCAGTTGT GCAGGCAGCA 
CTGGACAAGG CAAGGGAAGG ACGCACCACG GTTGTGGTAG CTCATCGACT GTCAACAGTC 
CGAAATGCAG ATGTGATAGC TGTGTTTGAA GGTGGAGTAA TCACAGAGCT AGGCAATCAT 
GCTAAATTGC TAGAGAAAAA GGGAATCTAC TACAAACTCG TTAACATGCA GGCAGTAGAA 
GCTGAAGTTC CATCATCAGA AAATTATGAG AATGTACTTC CACCATCAGA AAATTATGAG 
AATGTATATA GTGTCAAAAA CAGTGAATTT GAACCAGAAT CTGAAGAATC CTTAACTAGG 
GGATTGAGAA GACGGTCAAC TCGGAGAAGC ATGAAAAAGC CAGGAGAGCA AAATTATAGT 
CCTGATGAGG AAAAAACTTC ACCTGCTGAA GAACTACCTC CAGCTTCATT TCTGAAAATT 
ATGAAGTTGA ACAAAACTGA GTGGCCATAC TTTGTAGCTG GAACCTTGTG TGCAATTATC 
AATGGAGGTT TGCAACCTGC ATTTGCAGTC ATATTTTCTG AAATTATAGG GATTTTTTCA 
GAGACTGACA AGGATGTCTT AAGAAAACAG AGCAACTTAT ATTCACTGCT GTTTTTAGCA 
CTTGGGATAA TTTCCTTTTT TACTTTCTTT TTTCAGGGTT TCACATTTGG CAAAGCTGGA 
GAAATTCTTA CAATGAGGCT TCGATTCATG GCATTTAAAG CAATGCTTAG ACAGGATATG 
GCCTGGTTTG ATAATCCTAA AAATAGCACT GGAGCATTAA CTACAAGACT TGCTAATGAT 
GCCTCTAATG TGAAAGGAGC AACTGGTGTC AGACTAGCAT TAATTGCCCA AAACATAGCC 
AACCTGGGGA CTGGAATTAT TATATCATTA ATTTATGTCT GGAAGCTGAC CCTGCTACTT 
TTAGCTGTTG TGCCCATCAT TGCAGTGGCA GGAATGATTG AAATGAAGAT GTTGGCTGGG 
CATGCTAAGA AAGATAAACG AGAGCTGGAA GCTGCAGGAA AGATTGCCAC AGAAGCAATA 
GAAAATATTA GAACTGTTGT TAGCTTGACA CTAGAAAGAA AATTTGAGTT GATGTATGGA 
GAACATCTGA TTCTACCCTA CAGAAATTCT GTGAAGAAGG CACATATATT TGGCTTTTGT 
TTTGCCCTTT CACAAGCAAT GATGTTCTTT ACCTATGCCG GCTGTTTCCG GTTTGGTGCC 
TATCTAGTGG TAAATGATCA CACGGAGTAT AAAAGAGTAT TTTTAGTGTT TTCAGCTGTT 
GTATTTGGTG CAATGGCACT AGGACAGACC AGTTCTTTTG CTCCAGACTA TGCCAAAGCC 
AAGATATCAG CAGCCCACTT GTTTCTGCTG TTTGAAAGAG TGCCCTCAAT AGACAGTTAC 
AGTGAGGAAG GAGACAAGCC TGAAACATTT GAGGGAAACA TAACAATGAA AGATGTGGCA 
TTTAACTACC CAAACCGACC AGAAGTCAAA ATCCTGCAAG GGTTGAATCT AAAAGTAGAA 
AAGGGACAAA CTCTGGCTCT TGTTGGCAGC AGTGGCTGTG GAAAGAGCAC TGTTGTTCAG 
CTGCTGGAGA GATTTTATGA CCCACTTGAT GGAGAAATGA TTTTTGATGG CAAAAATGCA 
AAGGCACTGA ATATCCAGTG GTTGAGAGCT CAGATTGGTA TTGTCTCACA AGAACCAATC 
CTGTTTGACT GCACTATTGC CGAAAACATC GCCTATGGAG ATAACAGCCG GGAGGTGTCC 
TTTGAGGAAA TTGTTAGTGC AGCAAAACAA GCCAATATTC ATTCCTTCAT TGACTCACTG 
CCAGATAAAT ACAACACCCG TGTAGGAGAC AAGGGAACCC AGCTTTCTGG TGGCCAGAAA 
CAACGCATCG CGATTGCCCG AGCTCTTGTA CGCAAGCCCC AAATTCTGCT TCTGGATGAA 
GCTACTTCTG CCTTAGACAC AGAAAGTGAA AAGATTGTCC AGGAAGCGCT GGATAAAGCT 
CGAGAAGGTC GCACGTGCAT CATGATAGCT CACCGCCTCT CCACCATCCA AAATGCTGAC 
AAGATCAGCG TCGTCCAGAA TGGCAGAGTC GTAGAGCAGG GCACCCACCA GCAGCTTCTG 
GCTGAAAAAG GCATCTACTA TTCCCTGGTC AATGTTCAAA GTGGCTAA

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

RefSeq	XP_030120484.1
CDS	574..4461
Translation	MHSEDEKKYTEDGNSHGIAASSQGHELEDKDKAKKKQKKGEKPKVVSPFTLFRYSSWSDKLLMILGTLLAIAHGSSLPFAMIIFGDMTDSFVSSGDKNPTGDFSQNFTSDMLHKLEEDMTRYAYYYSGIAAGVLLAAYIQTSFWTLAAGRQIKKIREKFFHAIMRQEIGWFDVNDVGELNTRLLDDVSKINEGIGDKIGLLVQSLTTFVTGFIVGLIRGWKLTLVILAVSPVLGLSAALWAKVLSAFTDKEQAAYAKAGAVAEEVLAAIRTVIAFGGQEKEIKRYHKNLEDAKRIGIRKSITANISMGAAFLLIYASYALAFWYGTTLILTDDYTIGKVLTVFFSVLIGAFSIGQTAPSIEAFASARGAAYTIFNIIDNEPQIDSYSETGYKPDHIKGNLELKNVYFNYPSRPDVEILKGLNLKINSGQTVALVGGSGCGKSTTVQLIQRFYDPKEGTITIDGQDIKTLNVRYLREVIGVVNQEPVLFATTIAENIRYGREDVTMEEIEKATKEANAYDFIMKLPNKFETVVGERGAQLSGGQKQRIAIARALVRNPKILLLDEATSALDTESESVVQAALDKAREGRTTVVVAHRLSTVRNADVIAVFEGGVITELGNHAKLLEKKGIYYKLVNMQAVEAEVPSSENYENVLPPSENYENVYSVKNSEFEPESEESLTRGLRRRSTRRSMKKPGEQNYSPDEEKTSPAEELPPASFLKIMKLNKTEWPYFVAGTLCAIINGGLQPAFAVIFSEIIGIFSETDKDVLRKQSNLYSLLFLALGIISFFTFFFQGFTFGKAGEILTMRLRFMAFKAMLRQDMAWFDNPKNSTGALTTRLANDASNVKGATGVRLALIAQNIANLGTGIIISLIYVWKLTLLLLAVVPIIAVAGMIEMKMLAGHAKKDKRELEAAGKIATEAIENIRTVVSLTLERKFELMYGEHLILPYRNSVKKAHIFGFCFALSQAMMFFTYAGCFRFGAYLVVNDHTEYKRVFLVFSAVVFGAMALGQTSSFAPDYAKAKISAAHLFLLFERVPSIDSYSEEGDKPETFEGNITMKDVAFNYPNRPEVKILQGLNLKVEKGQTLALVGSSGCGKSTVVQLLERFYDPLDGEMIFDGKNAKALNIQWLRAQIGIVSQEPILFDCTIAENIAYGDNSREVSFEEIVSAAKQANIHSFIDSLPDKYNTRVGDKGTQLSGGQKQRIAIARALVRKPQILLLDEATSALDTESEKIVQEALDKAREGRTCIMIAHRLSTIQNADKISVVQNGRVVEQGTHQQLLAEKGIYYSLVNVQSG

Target ORF information:

RefSeq Version	XM_030264624.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_030264624.1

ORF Insert Sequence:

ATGCATTCTG AAGATGAGAA GAAGTATACC GAAGATGGAA ATAGTCATGG AATCGCTGCT 
TCCAGCCAGG GTCATGAATT AGAAGACAAA GACAAGGCAA AGAAGAAGCA GAAGAAAGGT 
GAAAAACCTA AGGTGGTCAG CCCTTTCACA CTGTTTCGAT ACTCCAGCTG GTCAGATAAA 
TTATTAATGA TACTAGGCAC TCTGCTGGCA ATAGCCCATG GAAGCAGTCT CCCTTTTGCG 
ATGATAATTT TTGGTGATAT GACTGATAGC TTTGTTTCAT CTGGAGACAA AAATCCTACA 
GGAGATTTTT CACAGAATTT CACTTCAGAT ATGCTTCACA AGCTGGAAGA AGATATGACA 
AGATATGCAT ACTACTATTC TGGAATAGCA GCTGGTGTTC TTCTTGCTGC TTATATTCAG 
ACTTCATTCT GGACCTTAGC AGCAGGTCGG CAAATAAAGA AAATTAGAGA AAAATTTTTT 
CATGCAATTA TGAGACAGGA AATTGGATGG TTTGATGTAA ATGATGTGGG AGAACTTAAC 
ACTCGTCTTC TAGATGATGT CTCCAAGATT AATGAAGGAA TAGGTGACAA GATTGGATTG 
CTTGTTCAAT CACTAACAAC ATTTGTGACA GGATTTATTG TTGGTCTCAT AAGAGGATGG 
AAATTAACCC TTGTAATACT AGCAGTTAGC CCTGTCCTGG GACTTTCAGC AGCCCTCTGG 
GCAAAGGTTC TCTCTGCATT CACTGACAAA GAACAGGCTG CGTATGCAAA AGCAGGTGCT 
GTTGCAGAAG AAGTTCTGGC AGCAATCCGT ACTGTAATAG CTTTTGGAGG ACAGGAAAAA 
GAAATTAAAA GATACCATAA AAATTTAGAA GATGCTAAAC GGATTGGAAT AAGAAAGTCT 
ATTACAGCAA ATATTTCTAT GGGTGCTGCT TTCTTACTGA TATATGCATC GTATGCACTG 
GCATTCTGGT ATGGAACTAC TTTGATCTTA ACTGATGATT ACACTATTGG CAAAGTTCTT 
ACAGTCTTTT TCTCTGTATT GATTGGAGCT TTCAGCATTG GACAGACTGC TCCAAGCATA 
GAGGCATTTG CAAGTGCAAG AGGAGCTGCC TACACCATCT TTAATATAAT AGACAATGAA 
CCTCAAATTG ACAGCTATTC AGAGACAGGT TACAAACCAG ACCACATAAA AGGGAACTTG 
GAATTAAAAA ATGTTTACTT CAATTATCCA TCCAGACCAG ATGTTGAGAT ACTGAAGGGC 
TTGAATCTCA AGATTAATTC TGGCCAGACA GTGGCCCTGG TTGGTGGCAG TGGCTGTGGG 
AAAAGCACAA CTGTTCAGCT CATCCAGAGA TTTTATGATC CCAAGGAAGG CACGATTACC 
ATTGATGGGC AGGATATTAA GACCTTAAAC GTAAGGTATC TGCGGGAAGT TATTGGTGTG 
GTGAATCAGG AGCCCGTGCT CTTTGCCACT ACTATTGCAG AAAATATCCG TTATGGCCGT 
GAGGATGTCA CCATGGAGGA GATTGAAAAA GCCACCAAGG AGGCAAATGC TTATGACTTC 
ATCATGAAGC TACCCAATAA GTTTGAAACT GTGGTTGGAG AAAGAGGGGC ACAGCTCAGT 
GGAGGCCAGA AGCAAAGAAT AGCAATTGCC AGAGCTCTGG TTCGCAATCC TAAAATTCTT 
CTGCTTGATG AGGCAACATC AGCTTTGGAT ACTGAGAGTG AATCAGTTGT GCAGGCAGCA 
CTGGACAAGG CAAGGGAAGG ACGCACCACG GTTGTGGTAG CTCATCGACT GTCAACAGTC 
CGAAATGCAG ATGTGATAGC TGTGTTTGAA GGTGGAGTAA TCACAGAGCT AGGCAATCAT 
GCTAAATTGC TAGAGAAAAA GGGAATCTAC TACAAACTCG TTAACATGCA GGCAGTAGAA 
GCTGAAGTTC CATCATCAGA AAATTATGAG AATGTACTTC CACCATCAGA AAATTATGAG 
AATGTATATA GTGTCAAAAA CAGTGAATTT GAACCAGAAT CTGAAGAATC CTTAACTAGG 
GGATTGAGAA GACGGTCAAC TCGGAGAAGC ATGAAAAAGC CAGGAGAGCA AAATTATAGT 
CCTGATGAGG AAAAAACTTC ACCTGCTGAA GAACTACCTC CAGCTTCATT TCTGAAAATT 
ATGAAGTTGA ACAAAACTGA GTGGCCATAC TTTGTAGCTG GAACCTTGTG TGCAATTATC 
AATGGAGGTT TGCAACCTGC ATTTGCAGTC ATATTTTCTG AAATTATAGG GATTTTTTCA 
GAGACTGACA AGGATGTCTT AAGAAAACAG AGCAACTTAT ATTCACTGCT GTTTTTAGCA 
CTTGGGATAA TTTCCTTTTT TACTTTCTTT TTTCAGGGTT TCACATTTGG CAAAGCTGGA 
GAAATTCTTA CAATGAGGCT TCGATTCATG GCATTTAAAG CAATGCTTAG ACAGGATATG 
GCCTGGTTTG ATAATCCTAA AAATAGCACT GGAGCATTAA CTACAAGACT TGCTAATGAT 
GCCTCTAATG TGAAAGGAGC AACTGGTGTC AGACTAGCAT TAATTGCCCA AAACATAGCC 
AACCTGGGGA CTGGAATTAT TATATCATTA ATTTATGTCT GGAAGCTGAC CCTGCTACTT 
TTAGCTGTTG TGCCCATCAT TGCAGTGGCA GGAATGATTG AAATGAAGAT GTTGGCTGGG 
CATGCTAAGA AAGATAAACG AGAGCTGGAA GCTGCAGGAA AGATTGCCAC AGAAGCAATA 
GAAAATATTA GAACTGTTGT TAGCTTGACA CTAGAAAGAA AATTTGAGTT GATGTATGGA 
GAACATCTGA TTCTACCCTA CAGAAATTCT GTGAAGAAGG CACATATATT TGGCTTTTGT 
TTTGCCCTTT CACAAGCAAT GATGTTCTTT ACCTATGCCG GCTGTTTCCG GTTTGGTGCC 
TATCTAGTGG TAAATGATCA CACGGAGTAT AAAAGAGTAT TTTTAGTGTT TTCAGCTGTT 
GTATTTGGTG CAATGGCACT AGGACAGACC AGTTCTTTTG CTCCAGACTA TGCCAAAGCC 
AAGATATCAG CAGCCCACTT GTTTCTGCTG TTTGAAAGAG TGCCCTCAAT AGACAGTTAC 
AGTGAGGAAG GAGACAAGCC TGAAACATTT GAGGGAAACA TAACAATGAA AGATGTGGCA 
TTTAACTACC CAAACCGACC AGAAGTCAAA ATCCTGCAAG GGTTGAATCT AAAAGTAGAA 
AAGGGACAAA CTCTGGCTCT TGTTGGCAGC AGTGGCTGTG GAAAGAGCAC TGTTGTTCAG 
CTGCTGGAGA GATTTTATGA CCCACTTGAT GGAGAAATGA TTTTTGATGG CAAAAATGCA 
AAGGCACTGA ATATCCAGTG GTTGAGAGCT CAGATTGGTA TTGTCTCACA AGAACCAATC 
CTGTTTGACT GCACTATTGC CGAAAACATC GCCTATGGAG ATAACAGCCG GGAGGTGTCC 
TTTGAGGAAA TTGTTAGTGC AGCAAAACAA GCCAATATTC ATTCCTTCAT TGACTCACTG 
CCAGATAAAT ACAACACCCG TGTAGGAGAC AAGGGAACCC AGCTTTCTGG TGGCCAGAAA 
CAACGCATCG CGATTGCCCG AGCTCTTGTA CGCAAGCCCC AAATTCTGCT TCTGGATGAA 
GCTACTTCTG CCTTAGACAC AGAAAGTGAA AAGATTGTCC AGGAAGCGCT GGATAAAGCT 
CGAGAAGGTC GCACGTGCAT CATGATAGCT CACCGCCTCT CCACCATCCA AAATGCTGAC 
AAGATCAGCG TCGTCCAGAA TGGCAGAGTC GTAGAGCAGG GCACCCACCA GCAGCTTCTG 
GCTGAAAAAG GCATCTACTA TTCCCTGGTC AATGTTCAAA GTGGCTAA

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

ABCB1 ( XM_004186218.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_004186266.2 Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X1, mRNA.

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CloneID	OTd34591
Clone ID Related Accession (Same CDS sequence)	XM_030264623.1 , XM_030264624.1 , XM_004186218.3
Accession Version	XM_004186218.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3888bp) 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	2019-08-08
Organism	Taeniopygia guttata(zebra finch)
Product	ATP-dependent translocase ABCB1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_004186218.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCATTCTG AAGATGAGAA GAAGTATACC GAAGATGGAA ATAGTCATGG AATCGCTGCT 
TCCAGCCAGG GTCATGAATT AGAAGACAAA GACAAGGCAA AGAAGAAGCA GAAGAAAGGT 
GAAAAACCTA AGGTGGTCAG CCCTTTCACA CTGTTTCGAT ACTCCAGCTG GTCAGATAAA 
TTATTAATGA TACTAGGCAC TCTGCTGGCA ATAGCCCATG GAAGCAGTCT CCCTTTTGCG 
ATGATAATTT TTGGTGATAT GACTGATAGC TTTGTTTCAT CTGGAGACAA AAATCCTACA 
GGAGATTTTT CACAGAATTT CACTTCAGAT ATGCTTCACA AGCTGGAAGA AGATATGACA 
AGATATGCAT ACTACTATTC TGGAATAGCA GCTGGTGTTC TTCTTGCTGC TTATATTCAG 
ACTTCATTCT GGACCTTAGC AGCAGGTCGG CAAATAAAGA AAATTAGAGA AAAATTTTTT 
CATGCAATTA TGAGACAGGA AATTGGATGG TTTGATGTAA ATGATGTGGG AGAACTTAAC 
ACTCGTCTTC TAGATGATGT CTCCAAGATT AATGAAGGAA TAGGTGACAA GATTGGATTG 
CTTGTTCAAT CACTAACAAC ATTTGTGACA GGATTTATTG TTGGTCTCAT AAGAGGATGG 
AAATTAACCC TTGTAATACT AGCAGTTAGC CCTGTCCTGG GACTTTCAGC AGCCCTCTGG 
GCAAAGGTTC TCTCTGCATT CACTGACAAA GAACAGGCTG CGTATGCAAA AGCAGGTGCT 
GTTGCAGAAG AAGTTCTGGC AGCAATCCGT ACTGTAATAG CTTTTGGAGG ACAGGAAAAA 
GAAATTAAAA GATACCATAA AAATTTAGAA GATGCTAAAC GGATTGGAAT AAGAAAGTCT 
ATTACAGCAA ATATTTCTAT GGGTGCTGCT TTCTTACTGA TATATGCATC GTATGCACTG 
GCATTCTGGT ATGGAACTAC TTTGATCTTA ACTGATGATT ACACTATTGG CAAAGTTCTT 
ACAGTCTTTT TCTCTGTATT GATTGGAGCT TTCAGCATTG GACAGACTGC TCCAAGCATA 
GAGGCATTTG CAAGTGCAAG AGGAGCTGCC TACACCATCT TTAATATAAT AGACAATGAA 
CCTCAAATTG ACAGCTATTC AGAGACAGGT TACAAACCAG ACCACATAAA AGGGAACTTG 
GAATTAAAAA ATGTTTACTT CAATTATCCA TCCAGACCAG ATGTTGAGAT ACTGAAGGGC 
TTGAATCTCA AGATTAATTC TGGCCAGACA GTGGCCCTGG TTGGTGGCAG TGGCTGTGGG 
AAAAGCACAA CTGTTCAGCT CATCCAGAGA TTTTATGATC CCAAGGAAGG CACGATTACC 
ATTGATGGGC AGGATATTAA GACCTTAAAC GTAAGGTATC TGCGGGAAGT TATTGGTGTG 
GTGAATCAGG AGCCCGTGCT CTTTGCCACT ACTATTGCAG AAAATATCCG TTATGGCCGT 
GAGGATGTCA CCATGGAGGA GATTGAAAAA GCCACCAAGG AGGCAAATGC TTATGACTTC 
ATCATGAAGC TACCCAATAA GTTTGAAACT GTGGTTGGAG AAAGAGGGGC ACAGCTCAGT 
GGAGGCCAGA AGCAAAGAAT AGCAATTGCC AGAGCTCTGG TTCGCAATCC TAAAATTCTT 
CTGCTTGATG AGGCAACATC AGCTTTGGAT ACTGAGAGTG AATCAGTTGT GCAGGCAGCA 
CTGGACAAGG CAAGGGAAGG ACGCACCACG GTTGTGGTAG CTCATCGACT GTCAACAGTC 
CGAAATGCAG ATGTGATAGC TGTGTTTGAA GGTGGAGTAA TCACAGAGCT AGGCAATCAT 
GCTAAATTGC TAGAGAAAAA GGGAATCTAC TACAAACTCG TTAACATGCA GGCAGTAGAA 
GCTGAAGTTC CATCATCAGA AAATTATGAG AATGTACTTC CACCATCAGA AAATTATGAG 
AATGTATATA GTGTCAAAAA CAGTGAATTT GAACCAGAAT CTGAAGAATC CTTAACTAGG 
GGATTGAGAA GACGGTCAAC TCGGAGAAGC ATGAAAAAGC CAGGAGAGCA AAATTATAGT 
CCTGATGAGG AAAAAACTTC ACCTGCTGAA GAACTACCTC CAGCTTCATT TCTGAAAATT 
ATGAAGTTGA ACAAAACTGA GTGGCCATAC TTTGTAGCTG GAACCTTGTG TGCAATTATC 
AATGGAGGTT TGCAACCTGC ATTTGCAGTC ATATTTTCTG AAATTATAGG GATTTTTTCA 
GAGACTGACA AGGATGTCTT AAGAAAACAG AGCAACTTAT ATTCACTGCT GTTTTTAGCA 
CTTGGGATAA TTTCCTTTTT TACTTTCTTT TTTCAGGGTT TCACATTTGG CAAAGCTGGA 
GAAATTCTTA CAATGAGGCT TCGATTCATG GCATTTAAAG CAATGCTTAG ACAGGATATG 
GCCTGGTTTG ATAATCCTAA AAATAGCACT GGAGCATTAA CTACAAGACT TGCTAATGAT 
GCCTCTAATG TGAAAGGAGC AACTGGTGTC AGACTAGCAT TAATTGCCCA AAACATAGCC 
AACCTGGGGA CTGGAATTAT TATATCATTA ATTTATGTCT GGAAGCTGAC CCTGCTACTT 
TTAGCTGTTG TGCCCATCAT TGCAGTGGCA GGAATGATTG AAATGAAGAT GTTGGCTGGG 
CATGCTAAGA AAGATAAACG AGAGCTGGAA GCTGCAGGAA AGATTGCCAC AGAAGCAATA 
GAAAATATTA GAACTGTTGT TAGCTTGACA CTAGAAAGAA AATTTGAGTT GATGTATGGA 
GAACATCTGA TTCTACCCTA CAGAAATTCT GTGAAGAAGG CACATATATT TGGCTTTTGT 
TTTGCCCTTT CACAAGCAAT GATGTTCTTT ACCTATGCCG GCTGTTTCCG GTTTGGTGCC 
TATCTAGTGG TAAATGATCA CACGGAGTAT AAAAGAGTAT TTTTAGTGTT TTCAGCTGTT 
GTATTTGGTG CAATGGCACT AGGACAGACC AGTTCTTTTG CTCCAGACTA TGCCAAAGCC 
AAGATATCAG CAGCCCACTT GTTTCTGCTG TTTGAAAGAG TGCCCTCAAT AGACAGTTAC 
AGTGAGGAAG GAGACAAGCC TGAAACATTT GAGGGAAACA TAACAATGAA AGATGTGGCA 
TTTAACTACC CAAACCGACC AGAAGTCAAA ATCCTGCAAG GGTTGAATCT AAAAGTAGAA 
AAGGGACAAA CTCTGGCTCT TGTTGGCAGC AGTGGCTGTG GAAAGAGCAC TGTTGTTCAG 
CTGCTGGAGA GATTTTATGA CCCACTTGAT GGAGAAATGA TTTTTGATGG CAAAAATGCA 
AAGGCACTGA ATATCCAGTG GTTGAGAGCT CAGATTGGTA TTGTCTCACA AGAACCAATC 
CTGTTTGACT GCACTATTGC CGAAAACATC GCCTATGGAG ATAACAGCCG GGAGGTGTCC 
TTTGAGGAAA TTGTTAGTGC AGCAAAACAA GCCAATATTC ATTCCTTCAT TGACTCACTG 
CCAGATAAAT ACAACACCCG TGTAGGAGAC AAGGGAACCC AGCTTTCTGG TGGCCAGAAA 
CAACGCATCG CGATTGCCCG AGCTCTTGTA CGCAAGCCCC AAATTCTGCT TCTGGATGAA 
GCTACTTCTG CCTTAGACAC AGAAAGTGAA AAGATTGTCC AGGAAGCGCT GGATAAAGCT 
CGAGAAGGTC GCACGTGCAT CATGATAGCT CACCGCCTCT CCACCATCCA AAATGCTGAC 
AAGATCAGCG TCGTCCAGAA TGGCAGAGTC GTAGAGCAGG GCACCCACCA GCAGCTTCTG 
GCTGAAAAAG GCATCTACTA TTCCCTGGTC AATGTTCAAA GTGGCTAA

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

RefSeq	XP_004186266.2
CDS	567..4454
Translation	MHSEDEKKYTEDGNSHGIAASSQGHELEDKDKAKKKQKKGEKPKVVSPFTLFRYSSWSDKLLMILGTLLAIAHGSSLPFAMIIFGDMTDSFVSSGDKNPTGDFSQNFTSDMLHKLEEDMTRYAYYYSGIAAGVLLAAYIQTSFWTLAAGRQIKKIREKFFHAIMRQEIGWFDVNDVGELNTRLLDDVSKINEGIGDKIGLLVQSLTTFVTGFIVGLIRGWKLTLVILAVSPVLGLSAALWAKVLSAFTDKEQAAYAKAGAVAEEVLAAIRTVIAFGGQEKEIKRYHKNLEDAKRIGIRKSITANISMGAAFLLIYASYALAFWYGTTLILTDDYTIGKVLTVFFSVLIGAFSIGQTAPSIEAFASARGAAYTIFNIIDNEPQIDSYSETGYKPDHIKGNLELKNVYFNYPSRPDVEILKGLNLKINSGQTVALVGGSGCGKSTTVQLIQRFYDPKEGTITIDGQDIKTLNVRYLREVIGVVNQEPVLFATTIAENIRYGREDVTMEEIEKATKEANAYDFIMKLPNKFETVVGERGAQLSGGQKQRIAIARALVRNPKILLLDEATSALDTESESVVQAALDKAREGRTTVVVAHRLSTVRNADVIAVFEGGVITELGNHAKLLEKKGIYYKLVNMQAVEAEVPSSENYENVLPPSENYENVYSVKNSEFEPESEESLTRGLRRRSTRRSMKKPGEQNYSPDEEKTSPAEELPPASFLKIMKLNKTEWPYFVAGTLCAIINGGLQPAFAVIFSEIIGIFSETDKDVLRKQSNLYSLLFLALGIISFFTFFFQGFTFGKAGEILTMRLRFMAFKAMLRQDMAWFDNPKNSTGALTTRLANDASNVKGATGVRLALIAQNIANLGTGIIISLIYVWKLTLLLLAVVPIIAVAGMIEMKMLAGHAKKDKRELEAAGKIATEAIENIRTVVSLTLERKFELMYGEHLILPYRNSVKKAHIFGFCFALSQAMMFFTYAGCFRFGAYLVVNDHTEYKRVFLVFSAVVFGAMALGQTSSFAPDYAKAKISAAHLFLLFERVPSIDSYSEEGDKPETFEGNITMKDVAFNYPNRPEVKILQGLNLKVEKGQTLALVGSSGCGKSTVVQLLERFYDPLDGEMIFDGKNAKALNIQWLRAQIGIVSQEPILFDCTIAENIAYGDNSREVSFEEIVSAAKQANIHSFIDSLPDKYNTRVGDKGTQLSGGQKQRIAIARALVRKPQILLLDEATSALDTESEKIVQEALDKAREGRTCIMIAHRLSTIQNADKISVVQNGRVVEQGTHQQLLAEKGIYYSLVNVQSG

Target ORF information:

RefSeq Version	XM_004186218.3
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata ATP binding cassette subfamily B member 1 (ABCB1), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_004186218.3

ORF Insert Sequence:

ATGCATTCTG AAGATGAGAA GAAGTATACC GAAGATGGAA ATAGTCATGG AATCGCTGCT 
TCCAGCCAGG GTCATGAATT AGAAGACAAA GACAAGGCAA AGAAGAAGCA GAAGAAAGGT 
GAAAAACCTA AGGTGGTCAG CCCTTTCACA CTGTTTCGAT ACTCCAGCTG GTCAGATAAA 
TTATTAATGA TACTAGGCAC TCTGCTGGCA ATAGCCCATG GAAGCAGTCT CCCTTTTGCG 
ATGATAATTT TTGGTGATAT GACTGATAGC TTTGTTTCAT CTGGAGACAA AAATCCTACA 
GGAGATTTTT CACAGAATTT CACTTCAGAT ATGCTTCACA AGCTGGAAGA AGATATGACA 
AGATATGCAT ACTACTATTC TGGAATAGCA GCTGGTGTTC TTCTTGCTGC TTATATTCAG 
ACTTCATTCT GGACCTTAGC AGCAGGTCGG CAAATAAAGA AAATTAGAGA AAAATTTTTT 
CATGCAATTA TGAGACAGGA AATTGGATGG TTTGATGTAA ATGATGTGGG AGAACTTAAC 
ACTCGTCTTC TAGATGATGT CTCCAAGATT AATGAAGGAA TAGGTGACAA GATTGGATTG 
CTTGTTCAAT CACTAACAAC ATTTGTGACA GGATTTATTG TTGGTCTCAT AAGAGGATGG 
AAATTAACCC TTGTAATACT AGCAGTTAGC CCTGTCCTGG GACTTTCAGC AGCCCTCTGG 
GCAAAGGTTC TCTCTGCATT CACTGACAAA GAACAGGCTG CGTATGCAAA AGCAGGTGCT 
GTTGCAGAAG AAGTTCTGGC AGCAATCCGT ACTGTAATAG CTTTTGGAGG ACAGGAAAAA 
GAAATTAAAA GATACCATAA AAATTTAGAA GATGCTAAAC GGATTGGAAT AAGAAAGTCT 
ATTACAGCAA ATATTTCTAT GGGTGCTGCT TTCTTACTGA TATATGCATC GTATGCACTG 
GCATTCTGGT ATGGAACTAC TTTGATCTTA ACTGATGATT ACACTATTGG CAAAGTTCTT 
ACAGTCTTTT TCTCTGTATT GATTGGAGCT TTCAGCATTG GACAGACTGC TCCAAGCATA 
GAGGCATTTG CAAGTGCAAG AGGAGCTGCC TACACCATCT TTAATATAAT AGACAATGAA 
CCTCAAATTG ACAGCTATTC AGAGACAGGT TACAAACCAG ACCACATAAA AGGGAACTTG 
GAATTAAAAA ATGTTTACTT CAATTATCCA TCCAGACCAG ATGTTGAGAT ACTGAAGGGC 
TTGAATCTCA AGATTAATTC TGGCCAGACA GTGGCCCTGG TTGGTGGCAG TGGCTGTGGG 
AAAAGCACAA CTGTTCAGCT CATCCAGAGA TTTTATGATC CCAAGGAAGG CACGATTACC 
ATTGATGGGC AGGATATTAA GACCTTAAAC GTAAGGTATC TGCGGGAAGT TATTGGTGTG 
GTGAATCAGG AGCCCGTGCT CTTTGCCACT ACTATTGCAG AAAATATCCG TTATGGCCGT 
GAGGATGTCA CCATGGAGGA GATTGAAAAA GCCACCAAGG AGGCAAATGC TTATGACTTC 
ATCATGAAGC TACCCAATAA GTTTGAAACT GTGGTTGGAG AAAGAGGGGC ACAGCTCAGT 
GGAGGCCAGA AGCAAAGAAT AGCAATTGCC AGAGCTCTGG TTCGCAATCC TAAAATTCTT 
CTGCTTGATG AGGCAACATC AGCTTTGGAT ACTGAGAGTG AATCAGTTGT GCAGGCAGCA 
CTGGACAAGG CAAGGGAAGG ACGCACCACG GTTGTGGTAG CTCATCGACT GTCAACAGTC 
CGAAATGCAG ATGTGATAGC TGTGTTTGAA GGTGGAGTAA TCACAGAGCT AGGCAATCAT 
GCTAAATTGC TAGAGAAAAA GGGAATCTAC TACAAACTCG TTAACATGCA GGCAGTAGAA 
GCTGAAGTTC CATCATCAGA AAATTATGAG AATGTACTTC CACCATCAGA AAATTATGAG 
AATGTATATA GTGTCAAAAA CAGTGAATTT GAACCAGAAT CTGAAGAATC CTTAACTAGG 
GGATTGAGAA GACGGTCAAC TCGGAGAAGC ATGAAAAAGC CAGGAGAGCA AAATTATAGT 
CCTGATGAGG AAAAAACTTC ACCTGCTGAA GAACTACCTC CAGCTTCATT TCTGAAAATT 
ATGAAGTTGA ACAAAACTGA GTGGCCATAC TTTGTAGCTG GAACCTTGTG TGCAATTATC 
AATGGAGGTT TGCAACCTGC ATTTGCAGTC ATATTTTCTG AAATTATAGG GATTTTTTCA 
GAGACTGACA AGGATGTCTT AAGAAAACAG AGCAACTTAT ATTCACTGCT GTTTTTAGCA 
CTTGGGATAA TTTCCTTTTT TACTTTCTTT TTTCAGGGTT TCACATTTGG CAAAGCTGGA 
GAAATTCTTA CAATGAGGCT TCGATTCATG GCATTTAAAG CAATGCTTAG ACAGGATATG 
GCCTGGTTTG ATAATCCTAA AAATAGCACT GGAGCATTAA CTACAAGACT TGCTAATGAT 
GCCTCTAATG TGAAAGGAGC AACTGGTGTC AGACTAGCAT TAATTGCCCA AAACATAGCC 
AACCTGGGGA CTGGAATTAT TATATCATTA ATTTATGTCT GGAAGCTGAC CCTGCTACTT 
TTAGCTGTTG TGCCCATCAT TGCAGTGGCA GGAATGATTG AAATGAAGAT GTTGGCTGGG 
CATGCTAAGA AAGATAAACG AGAGCTGGAA GCTGCAGGAA AGATTGCCAC AGAAGCAATA 
GAAAATATTA GAACTGTTGT TAGCTTGACA CTAGAAAGAA AATTTGAGTT GATGTATGGA 
GAACATCTGA TTCTACCCTA CAGAAATTCT GTGAAGAAGG CACATATATT TGGCTTTTGT 
TTTGCCCTTT CACAAGCAAT GATGTTCTTT ACCTATGCCG GCTGTTTCCG GTTTGGTGCC 
TATCTAGTGG TAAATGATCA CACGGAGTAT AAAAGAGTAT TTTTAGTGTT TTCAGCTGTT 
GTATTTGGTG CAATGGCACT AGGACAGACC AGTTCTTTTG CTCCAGACTA TGCCAAAGCC 
AAGATATCAG CAGCCCACTT GTTTCTGCTG TTTGAAAGAG TGCCCTCAAT AGACAGTTAC 
AGTGAGGAAG GAGACAAGCC TGAAACATTT GAGGGAAACA TAACAATGAA AGATGTGGCA 
TTTAACTACC CAAACCGACC AGAAGTCAAA ATCCTGCAAG GGTTGAATCT AAAAGTAGAA 
AAGGGACAAA CTCTGGCTCT TGTTGGCAGC AGTGGCTGTG GAAAGAGCAC TGTTGTTCAG 
CTGCTGGAGA GATTTTATGA CCCACTTGAT GGAGAAATGA TTTTTGATGG CAAAAATGCA 
AAGGCACTGA ATATCCAGTG GTTGAGAGCT CAGATTGGTA TTGTCTCACA AGAACCAATC 
CTGTTTGACT GCACTATTGC CGAAAACATC GCCTATGGAG ATAACAGCCG GGAGGTGTCC 
TTTGAGGAAA TTGTTAGTGC AGCAAAACAA GCCAATATTC ATTCCTTCAT TGACTCACTG 
CCAGATAAAT ACAACACCCG TGTAGGAGAC AAGGGAACCC AGCTTTCTGG TGGCCAGAAA 
CAACGCATCG CGATTGCCCG AGCTCTTGTA CGCAAGCCCC AAATTCTGCT TCTGGATGAA 
GCTACTTCTG CCTTAGACAC AGAAAGTGAA AAGATTGTCC AGGAAGCGCT GGATAAAGCT 
CGAGAAGGTC GCACGTGCAT CATGATAGCT CACCGCCTCT CCACCATCCA AAATGCTGAC 
AAGATCAGCG TCGTCCAGAA TGGCAGAGTC GTAGAGCAGG GCACCCACCA GCAGCTTCTG 
GCTGAAAAAG GCATCTACTA TTCCCTGGTC AATGTTCAAA GTGGCTAA

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

ABCB1 ( XM_004186218.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_004186266.1 Taeniopygia guttata ATP-binding cassette, sub-family B (MDR/TAP), member 1 (ABCB1), mRNA.

Price & Availability↑

CloneID	OTd07017
Clone ID Related Accession (Same CDS sequence)	XM_004186218.2
Accession Version	XM_004186218.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3972bp) 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	2015-05-25
Organism	Taeniopygia guttata(zebra finch)
Product	LOW QUALITY PROTEIN: multidrug resistance protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198269.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_004186218.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases frameshifts :: corrected 1 indel internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END##

ATGCATTCTG AAGATGAGAA GAAGTATACC GAAGATGGAA ATAGTCATGG AATCGCTGCT 
TCCAGCCAGG GTCATGAATT AGAAGACAAA GACAAGGCAA AGAAGAAGCA GAAGAAAGGT 
GAAAAACCTA AGGTGGTCAG CCCTTTCACA CTGTTTCGAT ACTCCAGCTG GTCAGATAAA 
TTATTAATGA TACTAGGCAC TCTGCTGGCA ATAGCCCATG GAAGCAGTCT CCCTTTTGCG 
ATGATAATTT TTGGTGATAT GACTGATAGC TTTGTTTCAT CTGGAGACAA AAATCCTACA 
GGAGATTTTT CACAGAATTT CACTTCAGAT ATGCTTCACA AGCTGGAAGA AGATATGACA 
AGATATGCAT ACTACTATTC TGGAATAGCA GCTGGTGTTC TTCTTGCTGC TTATATTCAG 
ACTTCATTCT GGACCTTAGC AGCAGGTCGG CAAATAAAGA AAATTAGAGA AAAATTTTTT 
CATGCAATTA TGAGACAGGA AATTGGATGG TTTGATGTAA ATGATGTGGG AGAACTTAAC 
ACTCGTCTTC TAGATGATGT CTCCAAGATT AATGAAGGAA TAGGTGACAA GATTGGATTG 
CTTGTTCAAT CACTAACAAC ATTTGTGACA GGATTTATTG TTGGTCTCAT AAGAGGATGG 
AAATTAACCC TTGTAATACT AGCAGTTAGC CCTGTCCTGG GACTTTCAGC AGCCCTCTGG 
GCAAAGGTTC TCTCTGCATT CACTGACAAA GAACAGGCTG CGTATGCAAA AGCAGGTGCT 
GTTGCAGAAG AAGTTCTGGC AGCAATCCGT ACTGTAATAG CTTTTGGAGG ACAGGAAAAA 
GAAATTAAAA GATACCATAA AAATTTAGAA GATGCTAAAC GGATTGGAAT AAGAAAGGCT 
ATTACAGCAA ATATTTCTAT GGGTGCTGCT TTCNNATCAT ATGCACTGGC ATTCTGGTAT 
GGAACTACTT TGATCTTAAA TGATGATTAC ACTATTGGCA AAGTTCTTAC AGTCTTTTTC 
TCTGTATTGA TTGGAGCTTT CAGCATTGGA CAGACTGCTC CAAGCATAGA GGCATTTGCA 
AGTGCAAGAG GAGCTGCCTA CACCATCTTT AATATAATAG ACAATGAACC TCAAATTGAC 
AGCTATTCAG AGACAGGTTA CAAACCAGAC CACATAAAAG GGAACTTGGA ATTAAAAAAT 
GTTTACTTCA ATTATCCATC CAGACCAGAT GTTGAGATAC TGAAGGGCTT GAATCTCAAG 
ATTAATTCTG GCCAGACAGT GGCCCTGGTT GGTGGCAGTG GCTGTGGGAA AAGCACAACT 
GTTCAGCTCA TCCAGAGATT TTATGATCCC AAGGAAGGCA CGATTACCAT TGATGGGCAG 
GATATTAAGA CCTTAAACGT AAGGTATCTG CGGGAAGTTA TTGGTGTGGT GAATCAGGAG 
CCCGTGCTCT TTGCCACTAC TATTGCAGAA AATATCCGTT ATGGCCGTGA GGATGTCACC 
ATGGAGGAGA TTGAAAAAGC CACCAAGGAG GCAAATGCTT ATGACTTCAT CATGAAGCTA 
CCCAATAAGT TTGAAACTGT GGTTGGAGAA AGAGGGGCAC AGCTCAGTGG AGGCCAGAAG 
CAAAGAATAG CAATTGCCAG AGCTCTGGTT CGCAATCCTA AAATTCTTCT GCTTGATGAG 
GCAACATCAG CTTTGGATAC TGAGAGTGAA TCAGTTGTGC AGGCAGCACT GGACAAGGCA 
AGGGAAGGAC GCACCACGGT TGTGGTAGCT CATCGACTGT CAACAGTCCG AAATGCAGAT 
GTGATAGCTG TGTTTGAAGG TGGAGTAATC ACAGAGCTAG GCAATCATGC TAAATTGCTA 
GAGAAAAAGG GAATCTACTA CAAACTCGTT AACATGCAGG CAGTAGAAGC TGAAGTTCCA 
TCATCAGAAA ATTATGAGAA TGTACTTCCA CCATCAGAAA ATTATGAGAA TGTATATAGT 
GTCAAAAACA GTGAATTTGA ACCAGAATCT GAAGAATCCT TAACTAGGGG ATTGAGAAGA 
CGGTCAACTC GGAGAAGCAT GAAAAAGCCA GGAGAGCAAA ATTATAGTCC TGATGAGGAA 
AAAACTTCAC CTGCTGAAGA ACTACCTCCA GCTTCATTTC TGAAAATTAT GAAGTTGAAC 
AAAACTGAGT GGCCATACTT TGTAGCTGGA ACCTTGTGTG CAATTATCAA TGGAGGTTTG 
CAACCTGCAT TTGCAGTCAT ATTTTCTGAA ATTATAGGGA TTTTTTCAGA GACTGACAAG 
GATGTCTTAA GAAAACAGAG CAACTTATAT TCACTGCTGT TTTTAGCACT TGGGATAATT 
TCCTTTTTTA CTTTCTTTTT TCAGGGTTTC ACATTTGGCA AAGCTGGAGA AATTCTTACA 
ATGAGGCTTC GATTCATGGC ATTTAAAGCA ATGCTTAGAC AGGATATGGC CTGGTTTGAT 
AATCCTAAAA ATAGCACTGG AGCATTAACT ACAAGACTTG CTAATGATGC CTCTAATGTG 
AAAGGAGCAA CTGGTGTCAG ACTAGCATTA ATTGCCCAAA ACATAGCCAA CCTGGGGACT 
GGAATTATTA TATCATTAAT TTATGTCTGG AAGCTGACCC TGCTACTTTT AGCTGTTGTG 
CCCATCATTG CAGTGGCAGG AATGATTGAA ATGAAGATGT TGGCTGGGCA TGCTAAGAAA 
GATAAACGAG AGCTGGAAGC TGCAGGAAAG ATTGCCACAG AAGCAATAGA AAATATTAGA 
ACTGTTGTTA GCTTGACACT AGAAAGAAAA TTTGAGTTGA TGTATGGAGA ACATCTGATT 
CTACCCTACA GAAATTCTGT GAAGAAGGCA CATATATTTG GCTTTTGTTT TGCCCTTTCA 
CAAGCAATGA TGTTCTTTAC CTATGCCGGC TGTTTCCGGT TTGGTGCCTA TCTAGTGGTA 
AATGATCACA CGGAGTATAA AAGAGTATTT TTAGTGTTTT CAGCTGTTGT ATTTGGTGCA 
ATGGCACTAG GACAGACCAG TTCTTTTGCT CCAGACTATG CCAAAGCCAA GATATCAGCA 
GCCCACTTGT TTCTGCTGTT TGAAAGAGTG CCCTCAATAG ACAGTTACAG TGAGGAAGGA 
GACAAGCCTG AAACATTTGA GGGAAACATA ACAATGAAAG ATGTGGCATT TAACTACCCA 
AACCGACCAG AAGTCAAAAT CCTGCAAGGG TTGAATCTAA AAGTAGAAAA GGGACAAACT 
CTGGCTCTTG TTGGCAGCAG TGGCTGTGGA AAGAGCACTG TTGTTCAGCT GCTGGAGAGA 
TTTTATGACC CACTTGATGG AGAAATGATT TTTGATGGCA AAAATGCAAA GGCACTGAAT 
ATCCAGTGGT TGAGAGCTCA GATTGGTATT GTCTCACAAG AACCAATCCT GTTTGACTGC 
ACTATTGCCG AAAACATCGC CTATGGAGAT AACAGCCGGG AGGTGTCCTT TGAGGAAATT 
GTTAGTGCAG CAAAACAAGC CAATATTCAT TCCTTCATTG ACTCACTGCC AGATAAATAC 
AACACCCGTG TAGGAGACAA GGGAACCCAG CTTTCTGGTG GCCAGAAACA ACGCATCGCG 
ATTGCCCGAG CTCTTGTACG CAAGCCCCAA ATTCTGCTTC TGGATGAAGC TACTTCTGCC 
TTAGACACAG AAAGTGAAAA GATTGTCCAG GAAGCGCTGG ATAAAGCTCG AGAAGGTCGC 
ACGTGCATCA TGATAGCTCA CCGCCTCTCC ACCATCCAAA ATGCTGACAA GATCAGCGTC 
GTCCAGAATG GCAGAGTCGT AGAGCAGGGC ACCCACCAGC AGCTTCTGGC TGAAAAAGGC 
ATCTACTATT CCCTGGTCAA TGTTCAAAGT GGCTAATGCA ACATCTCAAT TCAAGGCAGT 
ACTTATCTCT GCATTGTCAC TGTGGCTATT ATTGTCTTTG TAATTATTTC AATATCAACA 
GTCAAGTCTT GA

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

RefSeq	XP_004186266.1
CDS	65..4036
Translation	MHSEDEKKYTEDGNSHGIAASSQGHELEDKDKAKKKQKKGEKPKVVSPFTLFRYSSWSDKLLMILGTLLAIAHGSSLPFAMIIFGDMTDSFVSSGDKNPTGDFSQNFTSDMLHKLEEDMTRYAYYYSGIAAGVLLAAYIQTSFWTLAAGRQIKKIREKFFHAIMRQEIGWFDVNDVGELNTRLLDDVSKINEGIGDKIGLLVQSLTTFVTGFIVGLIRGWKLTLVILAVSPVLGLSAALWAKVLSAFTDKEQAAYAKAGAVAEEVLAAIRTVIAFGGQEKEIKRYHKNLEDAKRIGIRKAITANISMGAAFnullSYALAFWYGTTLILNDDYTIGKVLTVFFSVLIGAFSIGQTAPSIEAFASARGAAYTIFNIIDNEPQIDSYSETGYKPDHIKGNLELKNVYFNYPSRPDVEILKGLNLKINSGQTVALVGGSGCGKSTTVQLIQRFYDPKEGTITIDGQDIKTLNVRYLREVIGVVNQEPVLFATTIAENIRYGREDVTMEEIEKATKEANAYDFIMKLPNKFETVVGERGAQLSGGQKQRIAIARALVRNPKILLLDEATSALDTESESVVQAALDKAREGRTTVVVAHRLSTVRNADVIAVFEGGVITELGNHAKLLEKKGIYYKLVNMQAVEAEVPSSENYENVLPPSENYENVYSVKNSEFEPESEESLTRGLRRRSTRRSMKKPGEQNYSPDEEKTSPAEELPPASFLKIMKLNKTEWPYFVAGTLCAIINGGLQPAFAVIFSEIIGIFSETDKDVLRKQSNLYSLLFLALGIISFFTFFFQGFTFGKAGEILTMRLRFMAFKAMLRQDMAWFDNPKNSTGALTTRLANDASNVKGATGVRLALIAQNIANLGTGIIISLIYVWKLTLLLLAVVPIIAVAGMIEMKMLAGHAKKDKRELEAAGKIATEAIENIRTVVSLTLERKFELMYGEHLILPYRNSVKKAHIFGFCFALSQAMMFFTYAGCFRFGAYLVVNDHTEYKRVFLVFSAVVFGAMALGQTSSFAPDYAKAKISAAHLFLLFERVPSIDSYSEEGDKPETFEGNITMKDVAFNYPNRPEVKILQGLNLKVEKGQTLALVGSSGCGKSTVVQLLERFYDPLDGEMIFDGKNAKALNIQWLRAQIGIVSQEPILFDCTIAENIAYGDNSREVSFEEIVSAAKQANIHSFIDSLPDKYNTRVGDKGTQLSGGQKQRIAIARALVRKPQILLLDEATSALDTESEKIVQEALDKAREGRTCIMIAHRLSTIQNADKISVVQNGRVVEQGTHQQLLAEKGIYYSLVNVQSG*CNISIQGSTYLCIVTVAIIVFVIISISTVKS

Target ORF information:

RefSeq Version	XM_004186218.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata ATP-binding cassette, sub-family B (MDR/TAP), member 1 (ABCB1), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_004186218.2

ORF Insert Sequence:

ATGCATTCTG AAGATGAGAA GAAGTATACC GAAGATGGAA ATAGTCATGG AATCGCTGCT 
TCCAGCCAGG GTCATGAATT AGAAGACAAA GACAAGGCAA AGAAGAAGCA GAAGAAAGGT 
GAAAAACCTA AGGTGGTCAG CCCTTTCACA CTGTTTCGAT ACTCCAGCTG GTCAGATAAA 
TTATTAATGA TACTAGGCAC TCTGCTGGCA ATAGCCCATG GAAGCAGTCT CCCTTTTGCG 
ATGATAATTT TTGGTGATAT GACTGATAGC TTTGTTTCAT CTGGAGACAA AAATCCTACA 
GGAGATTTTT CACAGAATTT CACTTCAGAT ATGCTTCACA AGCTGGAAGA AGATATGACA 
AGATATGCAT ACTACTATTC TGGAATAGCA GCTGGTGTTC TTCTTGCTGC TTATATTCAG 
ACTTCATTCT GGACCTTAGC AGCAGGTCGG CAAATAAAGA AAATTAGAGA AAAATTTTTT 
CATGCAATTA TGAGACAGGA AATTGGATGG TTTGATGTAA ATGATGTGGG AGAACTTAAC 
ACTCGTCTTC TAGATGATGT CTCCAAGATT AATGAAGGAA TAGGTGACAA GATTGGATTG 
CTTGTTCAAT CACTAACAAC ATTTGTGACA GGATTTATTG TTGGTCTCAT AAGAGGATGG 
AAATTAACCC TTGTAATACT AGCAGTTAGC CCTGTCCTGG GACTTTCAGC AGCCCTCTGG 
GCAAAGGTTC TCTCTGCATT CACTGACAAA GAACAGGCTG CGTATGCAAA AGCAGGTGCT 
GTTGCAGAAG AAGTTCTGGC AGCAATCCGT ACTGTAATAG CTTTTGGAGG ACAGGAAAAA 
GAAATTAAAA GATACCATAA AAATTTAGAA GATGCTAAAC GGATTGGAAT AAGAAAGGCT 
ATTACAGCAA ATATTTCTAT GGGTGCTGCT TTCNNATCAT ATGCACTGGC ATTCTGGTAT 
GGAACTACTT TGATCTTAAA TGATGATTAC ACTATTGGCA AAGTTCTTAC AGTCTTTTTC 
TCTGTATTGA TTGGAGCTTT CAGCATTGGA CAGACTGCTC CAAGCATAGA GGCATTTGCA 
AGTGCAAGAG GAGCTGCCTA CACCATCTTT AATATAATAG ACAATGAACC TCAAATTGAC 
AGCTATTCAG AGACAGGTTA CAAACCAGAC CACATAAAAG GGAACTTGGA ATTAAAAAAT 
GTTTACTTCA ATTATCCATC CAGACCAGAT GTTGAGATAC TGAAGGGCTT GAATCTCAAG 
ATTAATTCTG GCCAGACAGT GGCCCTGGTT GGTGGCAGTG GCTGTGGGAA AAGCACAACT 
GTTCAGCTCA TCCAGAGATT TTATGATCCC AAGGAAGGCA CGATTACCAT TGATGGGCAG 
GATATTAAGA CCTTAAACGT AAGGTATCTG CGGGAAGTTA TTGGTGTGGT GAATCAGGAG 
CCCGTGCTCT TTGCCACTAC TATTGCAGAA AATATCCGTT ATGGCCGTGA GGATGTCACC 
ATGGAGGAGA TTGAAAAAGC CACCAAGGAG GCAAATGCTT ATGACTTCAT CATGAAGCTA 
CCCAATAAGT TTGAAACTGT GGTTGGAGAA AGAGGGGCAC AGCTCAGTGG AGGCCAGAAG 
CAAAGAATAG CAATTGCCAG AGCTCTGGTT CGCAATCCTA AAATTCTTCT GCTTGATGAG 
GCAACATCAG CTTTGGATAC TGAGAGTGAA TCAGTTGTGC AGGCAGCACT GGACAAGGCA 
AGGGAAGGAC GCACCACGGT TGTGGTAGCT CATCGACTGT CAACAGTCCG AAATGCAGAT 
GTGATAGCTG TGTTTGAAGG TGGAGTAATC ACAGAGCTAG GCAATCATGC TAAATTGCTA 
GAGAAAAAGG GAATCTACTA CAAACTCGTT AACATGCAGG CAGTAGAAGC TGAAGTTCCA 
TCATCAGAAA ATTATGAGAA TGTACTTCCA CCATCAGAAA ATTATGAGAA TGTATATAGT 
GTCAAAAACA GTGAATTTGA ACCAGAATCT GAAGAATCCT TAACTAGGGG ATTGAGAAGA 
CGGTCAACTC GGAGAAGCAT GAAAAAGCCA GGAGAGCAAA ATTATAGTCC TGATGAGGAA 
AAAACTTCAC CTGCTGAAGA ACTACCTCCA GCTTCATTTC TGAAAATTAT GAAGTTGAAC 
AAAACTGAGT GGCCATACTT TGTAGCTGGA ACCTTGTGTG CAATTATCAA TGGAGGTTTG 
CAACCTGCAT TTGCAGTCAT ATTTTCTGAA ATTATAGGGA TTTTTTCAGA GACTGACAAG 
GATGTCTTAA GAAAACAGAG CAACTTATAT TCACTGCTGT TTTTAGCACT TGGGATAATT 
TCCTTTTTTA CTTTCTTTTT TCAGGGTTTC ACATTTGGCA AAGCTGGAGA AATTCTTACA 
ATGAGGCTTC GATTCATGGC ATTTAAAGCA ATGCTTAGAC AGGATATGGC CTGGTTTGAT 
AATCCTAAAA ATAGCACTGG AGCATTAACT ACAAGACTTG CTAATGATGC CTCTAATGTG 
AAAGGAGCAA CTGGTGTCAG ACTAGCATTA ATTGCCCAAA ACATAGCCAA CCTGGGGACT 
GGAATTATTA TATCATTAAT TTATGTCTGG AAGCTGACCC TGCTACTTTT AGCTGTTGTG 
CCCATCATTG CAGTGGCAGG AATGATTGAA ATGAAGATGT TGGCTGGGCA TGCTAAGAAA 
GATAAACGAG AGCTGGAAGC TGCAGGAAAG ATTGCCACAG AAGCAATAGA AAATATTAGA 
ACTGTTGTTA GCTTGACACT AGAAAGAAAA TTTGAGTTGA TGTATGGAGA ACATCTGATT 
CTACCCTACA GAAATTCTGT GAAGAAGGCA CATATATTTG GCTTTTGTTT TGCCCTTTCA 
CAAGCAATGA TGTTCTTTAC CTATGCCGGC TGTTTCCGGT TTGGTGCCTA TCTAGTGGTA 
AATGATCACA CGGAGTATAA AAGAGTATTT TTAGTGTTTT CAGCTGTTGT ATTTGGTGCA 
ATGGCACTAG GACAGACCAG TTCTTTTGCT CCAGACTATG CCAAAGCCAA GATATCAGCA 
GCCCACTTGT TTCTGCTGTT TGAAAGAGTG CCCTCAATAG ACAGTTACAG TGAGGAAGGA 
GACAAGCCTG AAACATTTGA GGGAAACATA ACAATGAAAG ATGTGGCATT TAACTACCCA 
AACCGACCAG AAGTCAAAAT CCTGCAAGGG TTGAATCTAA AAGTAGAAAA GGGACAAACT 
CTGGCTCTTG TTGGCAGCAG TGGCTGTGGA AAGAGCACTG TTGTTCAGCT GCTGGAGAGA 
TTTTATGACC CACTTGATGG AGAAATGATT TTTGATGGCA AAAATGCAAA GGCACTGAAT 
ATCCAGTGGT TGAGAGCTCA GATTGGTATT GTCTCACAAG AACCAATCCT GTTTGACTGC 
ACTATTGCCG AAAACATCGC CTATGGAGAT AACAGCCGGG AGGTGTCCTT TGAGGAAATT 
GTTAGTGCAG CAAAACAAGC CAATATTCAT TCCTTCATTG ACTCACTGCC AGATAAATAC 
AACACCCGTG TAGGAGACAA GGGAACCCAG CTTTCTGGTG GCCAGAAACA ACGCATCGCG 
ATTGCCCGAG CTCTTGTACG CAAGCCCCAA ATTCTGCTTC TGGATGAAGC TACTTCTGCC 
TTAGACACAG AAAGTGAAAA GATTGTCCAG GAAGCGCTGG ATAAAGCTCG AGAAGGTCGC 
ACGTGCATCA TGATAGCTCA CCGCCTCTCC ACCATCCAAA ATGCTGACAA GATCAGCGTC 
GTCCAGAATG GCAGAGTCGT AGAGCAGGGC ACCCACCAGC AGCTTCTGGC TGAAAAAGGC 
ATCTACTATT CCCTGGTCAA TGTTCAAAGT GGCTAATGCA ACATCTCAAT TCAAGGCAGT 
ACTTATCTCT GCATTGTCAC TGTGGCTATT ATTGTCTTTG TAATTATTTC AATATCAACA 
GTCAAGTCTT GA

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

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ABCB1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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