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NOTCH1 cDNA ORF clone, Homo sapiens (human)

Gene Symbol NOTCH1
Entrez Gene ID 4851
Full Name notch 1
Synonyms AOS5, AOVD1, TAN1, hN1
General protein information
Preferred Names
neurogenic locus notch homolog protein 1
Names
neurogenic locus notch homolog protein 1
Notch homolog 1, translocation-associated
translocation-associated notch protein TAN-1
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

9

9q34.3

Summary This gene encodes a member of the Notch family. Members of this Type 1 transmembrane protein family share structural characteristics including an extracellular domain consisting of multiple epidermal growth factor-like (EGF) repeats, and an intracellular domain consisting of multiple, different domain types. Notch family members play a role in a variety of developmental processes by controlling cell fate decisions. The Notch signaling network is an evolutionarily conserved intercellular signaling pathway which regulates interactions between physically adjacent cells. In Drosophilia, notch interaction with its cell-bound ligands (delta, serrate) establishes an intercellular signaling pathway that plays a key role in development. Homologues of the notch-ligands have also been identified in human, but precise interactions between these ligands and the human notch homologues remain to be determined. This protein is cleaved in the trans-Golgi network, and presented on the cell surface as a heterodimer. This protein functions as a receptor for membrane bound ligands, and may play multiple roles during development. [provided by RefSeq, Jul 2008]. lac of sum
Disorder MIM:

190198

Disorder Html: Aortic valve disease, 109730 (3); Leukemia, T-cell acute

mRNA and Protein(s)

mRNA Protein Name
XM_011518717 XP_011517019 neurogenic locus notch homolog protein 1 isoform X1
NM_017617 NP_060087 neurogenic locus notch homolog protein 1 preproprotein



Homo sapiens (human) NOTCH1 NP_060087.3
Pan troglodytes (chimpanzee) NOTCH1 XP_520371.2
Macaca mulatta (Rhesus monkey) LOC709947 XP_002808138.1
Canis lupus familiaris (dog) NOTCH1 XP_005625490.1
Bos taurus (cattle) NOTCH1 XP_002691666.2
Mus musculus (house mouse) Notch1 NP_032740.3
Rattus norvegicus (Norway rat) Notch1 NP_001099191.1
Gallus gallus (chicken) NOTCH1 XP_415420.4
Danio rerio (zebrafish) notch1b NP_571377.2
Drosophila melanogaster (fruit fly) N NP_001245510.1
Xenopus (Silurana) tropicalis (western clawed frog) notch1 NP_001090757.1


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

The following NOTCH1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NOTCH1 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 RefSeq Accession Definition **Vector *Turnaround time Price Select
OHu59297 XM_011518717 PREDICTED: Homo sapiens notch 1 (NOTCH1), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $1091.30
$1559.00
OHu25580 NM_017617 Homo sapiens notch 1 (NOTCH1), mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $923.30
$1319.00
Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
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*Business Day

** 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.


CloneID OHu59297
Clone ID Related Accession (Same CDS sequence) XM_011518717
Accession Version XM_011518717.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 6969bp)
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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product neurogenic locus notch homolog protein 1 isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_008470.20) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
ATGGCGGGAA GTGTGAAGCG GCCAATGGCA CGGAGGCCTG CGTGCTTCAC CGGCCAGAAC 
TGTGAGGAAA ATATCGACGA TTGTCCAGGA AACAACTGCA AGAACGGGGG TGCCTGTGTG
GACGGCGTGA ACACCTACAA CTGCCGCTGC CCGCCAGAGT GGACAGGTCA GTACTGTACC
GAGGATGTGG ACGAGTGCCA GCTGATGCCA AATGCCTGCC AGAACGGCGG GACCTGCCAC
AACACCCACG GTGGCTACAA CTGCGTGTGT GTCAACGGCT GGACTGGTGA GGACTGCAGC
GAGAACATTG ATGACTGTGC CAGCGCCGCC TGCTTCCACG GCGCCACCTG CCATGACCGT
GTGGCCTCCT TCTACTGCGA GTGTCCCCAT GGCCGCACAG GTCTGCTGTG CCACCTCAAC
GACGCATGCA TCAGCAACCC CTGTAACGAG GGCTCCAACT GCGACACCAA CCCTGTCAAT
GGCAAGGCCA TCTGCACCTG CCCCTCGGGG TACACGGGCC CGGCCTGCAG CCAGGACGTG
GATGAGTGCT CGCTGGGTGC CAACCCCTGC GAGCATGCGG GCAAGTGCAT CAACACGCTG
GGCTCCTTCG AGTGCCAGTG TCTGCAGGGC TACACGGGCC CCCGATGCGA GATCGACGTC
AACGAGTGCG TCTCGAACCC GTGCCAGAAC GACGCCACCT GCCTGGACCA GATTGGGGAG
TTCCAGTGCA TCTGCATGCC CGGCTACGAG GGTGTGCACT GCGAGGTCAA CACAGACGAG
TGTGCCAGCA GCCCCTGCCT GCACAATGGC CGCTGCCTGG ACAAGATCAA TGAGTTCCAG
TGCGAGTGCC CCACGGGCTT CACTGGGCAT CTGTGCCAGT ACGATGTGGA CGAGTGTGCC
AGCACCCCCT GCAAGAATGG TGCCAAGTGC CTGGACGGAC CCAACACTTA CACCTGTGTG
TGCACGGAAG GGTACACGGG GACGCACTGC GAGGTGGACA TCGATGAGTG CGACCCCGAC
CCCTGCCACT ACGGCTCCTG CAAGGACGGC GTCGCCACCT TCACCTGCCT CTGCCGCCCA
GGCTACACGG GCCACCACTG CGAGACCAAC ATCAACGAGT GCTCCAGCCA GCCCTGCCGC
CACGGGGGCA CCTGCCAGGA CCGCGACAAC GCCTACCTCT GCTTCTGCCT GAAGGGGACC
ACAGGACCCA ACTGCGAGAT CAACCTGGAT GACTGTGCCA GCAGCCCCTG CGACTCGGGC
ACCTGTCTGG ACAAGATCGA TGGCTACGAG TGTGCCTGTG AGCCGGGCTA CACAGGGAGC
ATGTGTAACA TCAACATCGA TGAGTGTGCG GGCAACCCCT GCCACAACGG GGGCACCTGC
GAGGACGGCA TCAATGGCTT CACCTGCCGC TGCCCCGAGG GCTACCACGA CCCCACCTGC
CTGTCTGAGG TCAATGAGTG CAACAGCAAC CCCTGCGTCC ACGGGGCCTG CCGGGACAGC
CTCAACGGGT ACAAGTGCGA CTGTGACCCT GGGTGGAGTG GGACCAACTG TGACATCAAC
AACAATGAGT GTGAATCCAA CCCTTGTGTC AACGGCGGCA CCTGCAAAGA CATGACCAGT
GGCTACGTGT GCACCTGCCG GGAGGGCTTC AGCGGTCCCA ACTGCCAGAC CAACATCAAC
GAGTGTGCGT CCAACCCATG TCTGAACCAG GGCACGTGTA TTGACGACGT TGCCGGGTAC
AAGTGCAACT GCCTGCTGCC CTACACAGGT GCCACGTGTG AGGTGGTGCT GGCCCCGTGT
GCCCCCAGCC CCTGCAGAAA CGGCGGGGAG TGCAGGCAAT CCGAGGACTA TGAGAGCTTC
TCCTGTGTCT GCCCCACGGG CTGGCAAGGG CAGACCTGTG AGGTCGACAT CAACGAGTGC
GTTCTGAGCC CGTGCCGGCA CGGCGCATCC TGCCAGAACA CCCACGGCGG CTACCGCTGC
CACTGCCAGG CCGGCTACAG TGGGCGCAAC TGCGAGACCG ACATCGACGA CTGCCGGCCC
AACCCGTGTC ACAACGGGGG CTCCTGCACA GACGGCATCA ACACGGCCTT CTGCGACTGC
CTGCCCGGCT TCCGGGGCAC TTTCTGTGAG GAGGACATCA ACGAGTGTGC CAGTGACCCC
TGCCGCAACG GGGCCAACTG CACGGACTGC GTGGACAGCT ACACGTGCAC CTGCCCCGCA
GGCTTCAGCG GGATCCACTG TGAGAACAAC ACGCCTGACT GCACAGAGAG CTCCTGCTTC
AACGGTGGCA CCTGCGTGGA CGGCATCAAC TCGTTCACCT GCCTGTGTCC ACCCGGCTTC
ACGGGCAGCT ACTGCCAGCA CGATGTCAAT GAGTGCGACT CACAGCCCTG CCTGCATGGC
GGCACCTGTC AGGACGGCTG CGGCTCCTAC AGGTGCACCT GCCCCCAGGG CTACACTGGC
CCCAACTGCC AGAACCTTGT GCACTGGTGT GACTCCTCGC CCTGCAAGAA CGGCGGCAAA
TGCTGGCAGA CCCACACCCA GTACCGCTGC GAGTGCCCCA GCGGCTGGAC CGGCCTTTAC
TGCGACGTGC CCAGCGTGTC CTGTGAGGTG GCTGCGCAGC GACAAGGTGT TGACGTTGCC
CGCCTGTGCC AGCATGGAGG GCTCTGTGTG GACGCGGGCA ACACGCACCA CTGCCGCTGC
CAGGCGGGCT ACACAGGCAG CTACTGTGAG GACCTGGTGG ACGAGTGCTC ACCCAGCCCC
TGCCAGAACG GGGCCACCTG CACGGACTAC CTGGGCGGCT ACTCCTGCAA GTGCGTGGCC
GGCTACCACG GGGTGAACTG CTCTGAGGAG ATCGACGAGT GCCTCTCCCA CCCCTGCCAG
AACGGGGGCA CCTGCCTCGA CCTCCCCAAC ACCTACAAGT GCTCCTGCCC ACGGGGCACT
CAGGGTGTGC ACTGTGAGAT CAACGTGGAC GACTGCAATC CCCCCGTTGA CCCCGTGTCC
CGGAGCCCCA AGTGCTTTAA CAACGGCACC TGCGTGGACC AGGTGGGCGG CTACAGCTGC
ACCTGCCCGC CGGGCTTCGT GGGTGAGCGC TGTGAGGGGG ATGTCAACGA GTGCCTGTCC
AATCCCTGCG ACGCCCGTGG CACCCAGAAC TGCGTGCAGC GCGTCAATGA CTTCCACTGC
GAGTGCCGTG CTGGTCACAC CGGGCGCCGC TGCGAGTCCG TCATCAATGG CTGCAAAGGC
AAGCCCTGCA AGAATGGGGG CACCTGCGCC GTGGCCTCCA ACACCGCCCG CGGGTTCATC
TGCAAGTGCC CTGCGGGCTT CGAGGGCGCC ACGTGTGAGA ATGACGCTCG TACCTGCGGC
AGCCTGCGCT GCCTCAACGG CGGCACATGC ATCTCCGGCC CGCGCAGCCC CACCTGCCTG
TGCCTGGGCC CCTTCACGGG CCCCGAATGC CAGTTCCCGG CCAGCAGCCC CTGCCTGGGC
GGCAACCCCT GCTACAACCA GGGGACCTGT GAGCCCACAT CCGAGAGCCC CTTCTACCGT
TGCCTGTGCC CCGCCAAATT CAACGGGCTC TTGTGCCACA TCCTGGACTA CAGCTTCGGG
GGTGGGGCCG GGCGCGACAT CCCCCCGCCG CTGATCGAGG AGGCGTGCGA GCTGCCCGAG
TGCCAGGAGG ACGCGGGCAA CAAGGTCTGC AGCCTGCAGT GCAACAACCA CGCGTGCGGC
TGGGACGGCG GTGACTGCTC CCTCAACTTC AATGACCCCT GGAAGAACTG CACGCAGTCT
CTGCAGTGCT GGAAGTACTT CAGTGACGGC CACTGTGACA GCCAGTGCAA CTCAGCCGGC
TGCCTCTTCG ACGGCTTTGA CTGCCAGCGT GCGGAAGGCC AGTGCAACCC CCTGTACGAC
CAGTACTGCA AGGACCACTT CAGCGACGGG CACTGCGACC AGGGCTGCAA CAGCGCGGAG
TGCGAGTGGG ACGGGCTGGA CTGTGCGGAG CATGTACCCG AGAGGCTGGC GGCCGGCACG
CTGGTGGTGG TGGTGCTGAT GCCGCCGGAG CAGCTGCGCA ACAGCTCCTT CCACTTCCTG
CGGGAGCTCA GCCGCGTGCT GCACACCAAC GTGGTCTTCA AGCGTGACGC ACACGGCCAG
CAGATGATCT TCCCCTACTA CGGCCGCGAG GAGGAGCTGC GCAAGCACCC CATCAAGCGT
GCCGCCGAGG GCTGGGCCGC ACCTGACGCC CTGCTGGGCC AGGTGAAGGC CTCGCTGCTC
CCTGGTGGCA GCGAGGGTGG GCGGCGGCGG AGGGAGCTGG ACCCCATGGA CGTCCGCGGC
TCCATCGTCT ACCTGGAGAT TGACAACCGG CAGTGTGTGC AGGCCTCCTC GCAGTGCTTC
CAGAGTGCCA CCGACGTGGC CGCATTCCTG GGAGCGCTCG CCTCGCTGGG CAGCCTCAAC
ATCCCCTACA AGATCGAGGC CGTGCAGAGT GAGACCGTGG AGCCGCCCCC GCCGGCGCAG
CTGCACTTCA TGTACGTGGC GGCGGCCGCC TTTGTGCTTC TGTTCTTCGT GGGCTGCGGG
GTGCTGCTGT CCCGCAAGCG CCGGCGGCAG CATGGCCAGC TCTGGTTCCC TGAGGGCTTC
AAAGTGTCTG AGGCCAGCAA GAAGAAGCGG CGGGAGCCCC TCGGCGAGGA CTCCGTGGGC
CTCAAGCCCC TGAAGAACGC TTCAGACGGT GCCCTCATGG ACGACAACCA GAATGAGTGG
GGGGACGAGG ACCTGGAGAC CAAGAAGTTC CGGTTCGAGG AGCCCGTGGT TCTGCCTGAC
CTGGACGACC AGACAGACCA CCGGCAGTGG ACTCAGCAGC ACCTGGATGC CGCTGACCTG
CGCATGTCTG CCATGGCCCC CACACCGCCC CAGGGTGAGG TTGACGCCGA CTGCATGGAC
GTCAATGTCC GCGGGCCTGA TGGCTTCACC CCGCTCATGA TCGCCTCCTG CAGCGGGGGC
GGCCTGGAGA CGGGCAACAG CGAGGAAGAG GAGGACGCGC CGGCCGTCAT CTCCGACTTC
ATCTACCAGG GCGCCAGCCT GCACAACCAG ACAGACCGCA CGGGCGAGAC CGCCTTGCAC
CTGGCCGCCC GCTACTCACG CTCTGATGCC GCCAAGCGCC TGCTGGAGGC CAGCGCAGAT
GCCAACATCC AGGACAACAT GGGCCGCACC CCGCTGCATG CGGCTGTGTC TGCCGACGCA
CAAGGTGTCT TCCAGATCCT GATCCGGAAC CGAGCCACAG ACCTGGATGC CCGCATGCAT
GATGGCACGA CGCCACTGAT CCTGGCTGCC CGCCTGGCCG TGGAGGGCAT GCTGGAGGAC
CTCATCAACT CACACGCCGA CGTCAACGCC GTAGATGACC TGGGCAAGTC CGCCCTGCAC
TGGGCCGCCG CCGTGAACAA TGTGGATGCC GCAGTTGTGC TCCTGAAGAA CGGGGCTAAC
AAAGATATGC AGAACAACAG GGAGGAGACA CCCCTGTTTC TGGCCGCCCG GGAGGGCAGC
TACGAGACCG CCAAGGTGCT GCTGGACCAC TTTGCCAACC GGGACATCAC GGATCATATG
GACCGCCTGC CGCGCGACAT CGCACAGGAG CGCATGCATC ACGACATCGT GAGGCTGCTG
GACGAGTACA ACCTGGTGCG CAGCCCGCAG CTGCACGGAG CCCCGCTGGG GGGCACGCCC
ACCCTGTCGC CCCCGCTCTG CTCGCCCAAC GGCTACCTGG GCAGCCTCAA GCCCGGCGTG
CAGGGCAAGA AGGTCCGCAA GCCCAGCAGC AAAGGCCTGG CCTGTGGAAG CAAGGAGGCC
AAGGACCTCA AGGCACGGAG GAAGAAGTCC CAGGACGGCA AGGGCTGCCT GCTGGACAGC
TCCGGCATGC TCTCGCCCGT GGACTCCCTG GAGTCACCCC ATGGCTACCT GTCAGACGTG
GCCTCGCCGC CACTGCTGCC CTCCCCGTTC CAGCAGTCTC CGTCCGTGCC CCTCAACCAC
CTGCCTGGGA TGCCCGACAC CCACCTGGGC ATCGGGCACC TGAACGTGGC GGCCAAGCCC
GAGATGGCGG CGCTGGGTGG GGGCGGCCGG CTGGCCTTTG AGACTGGCCC ACCTCGTCTC
TCCCACCTGC CTGTGGCCTC TGGCACCAGC ACCGTCCTGG GCTCCAGCAG CGGAGGGGCC
CTGAATTTCA CTGTGGGCGG GTCCACCAGT TTGAATGGTC AATGCGAGTG GCTGTCCCGG
CTGCAGAGCG GCATGGTGCC GAACCAATAC AACCCTCTGC GGGGGAGTGT GGCACCAGGC
CCCCTGAGCA CACAGGCCCC CTCCCTGCAG CATGGCATGG TAGGCCCGCT GCACAGTAGC
CTTGCTGCCA GCGCCCTGTC CCAGATGATG AGCTACCAGG GCCTGCCCAG CACCCGGCTG
GCCACCCAGC CTCACCTGGT GCAGACCCAG CAGGTGCAGC CACAAAACTT ACAGATGCAG
CAGCAGAACC TGCAGCCAGC AAACATCCAG CAGCAGCAAA GCCTGCAGCC GCCACCACCA
CCACCACAGC CGCACCTTGG CGTGAGCTCA GCAGCCAGCG GCCACCTGGG CCGGAGCTTC
CTGAGTGGAG AGCCGAGCCA GGCAGACGTG CAGCCACTGG GCCCCAGCAG CCTGGCGGTG
CACACTATTC TGCCCCAGGA GAGCCCCGCC CTGCCCACGT CGCTGCCATC CTCGCTGGTC
CCACCCGTGA CCGCAGCCCA GTTCCTGACG CCCCCCTCGC AGCACAGCTA CTCCTCGCCT
GTGGACAACA CCCCCAGCCA CCAGCTACAG GTGCCTGAGC ACCCCTTCCT CACCCCGTCC
CCTGAGTCCC CTGACCAGTG GTCCAGCTCG TCCCCGCATT CCAACGTCTC CGACTGGTCC
GAGGGCGTCT CCAGCCCTCC CACCAGCATG CAGTCCCAGA TCGCCCGCAT TCCGGAGGCC
TTCAAGTAA

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

RefSeq XP_011517019.1
CDS20..6988
Misc Feature(1)89..199(+)
Misc Feature(2)89..142(+)
Misc Feature(3)203..316(+)
Misc Feature(4)203..262(+)
Misc Feature(5)323..430(+)
Misc Feature(6)323..376(+)
Misc Feature(7)554..670(+)
Misc Feature(8)554..613(+)
Misc Feature(9)674..784(+)
Misc Feature(10)674..727(+)
Misc Feature(11)788..898(+)
Misc Feature(12)788..841(+)
Misc Feature(13)902..1012(+)
Misc Feature(14)902..955(+)
Misc Feature(15)1016..1123(+)
Misc Feature(16)1016..1066(+)
Misc Feature(17)1127..1237(+)
Misc Feature(18)1127..1180(+)
Misc Feature(19)1352..1459(+)
Misc Feature(20)1352..1405(+)
Misc Feature(21)1469..1570(+)
Misc Feature(22)1475..1516(+)
Misc Feature(23)1583..1687(+)
Misc Feature(24)1586..1630(+)
Misc Feature(25)1691..1801(+)
Misc Feature(26)1691..1744(+)
Misc Feature(27)1925..2035(+)
Misc Feature(28)1925..1978(+)
Misc Feature(29)2039..2149(+)
Misc Feature(30)2039..2092(+)
Misc Feature(31)2153..2263(+)
Misc Feature(32)2153..2206(+)
Misc Feature(33)2282..2377(+)
Misc Feature(34)2381..2491(+)
Misc Feature(35)2381..2434(+)
Misc Feature(36)2510..2602(+)
Misc Feature(37)2756..2860(+)
Misc Feature(38)2762..2806(+)
Misc Feature(39)2870..2977(+)
Misc Feature(40)2876..2920(+)
Misc Feature(41)3032..3115(+)
Misc Feature(42)3119..3235(+)
Misc Feature(43)3119..3178(+)
Misc Feature(44)3263..3358(+)
Misc Feature(45)3644..3757(+)
Misc Feature(46)3773..3886(+)
Misc Feature(47)3893..4003(+)
Misc Feature(48)4016..4183(+)
Misc Feature(49)4328..4513(+)
Misc Feature(50)4940..5194(+)
Misc Feature(51)5084..5422(+)
Misc Feature(52)5114..5395(+)
Misc Feature(53)5285..5659(+)
Misc Feature(54)5507..5659(+)
Misc Feature(55)6758..6943(+)
Translation

Target ORF information:

RefSeq Version XM_011518717
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens notch 1 (NOTCH1), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011518717

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
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
ATGGCGGGAA GTGTGAAGCG GCCAATGGCA CGGAGGCCTG CGTGCTTCAC CGGCCAGAAC 
TGTGAGGAAA ATATCGACGA TTGTCCAGGA AACAACTGCA AGAACGGGGG TGCCTGTGTG
GACGGCGTGA ACACCTACAA CTGCCGCTGC CCGCCAGAGT GGACAGGTCA GTACTGTACC
GAGGATGTGG ACGAGTGCCA GCTGATGCCA AATGCCTGCC AGAACGGCGG GACCTGCCAC
AACACCCACG GTGGCTACAA CTGCGTGTGT GTCAACGGCT GGACTGGTGA GGACTGCAGC
GAGAACATTG ATGACTGTGC CAGCGCCGCC TGCTTCCACG GCGCCACCTG CCATGACCGT
GTGGCCTCCT TCTACTGCGA GTGTCCCCAT GGCCGCACAG GTCTGCTGTG CCACCTCAAC
GACGCATGCA TCAGCAACCC CTGTAACGAG GGCTCCAACT GCGACACCAA CCCTGTCAAT
GGCAAGGCCA TCTGCACCTG CCCCTCGGGG TACACGGGCC CGGCCTGCAG CCAGGACGTG
GATGAGTGCT CGCTGGGTGC CAACCCCTGC GAGCATGCGG GCAAGTGCAT CAACACGCTG
GGCTCCTTCG AGTGCCAGTG TCTGCAGGGC TACACGGGCC CCCGATGCGA GATCGACGTC
AACGAGTGCG TCTCGAACCC GTGCCAGAAC GACGCCACCT GCCTGGACCA GATTGGGGAG
TTCCAGTGCA TCTGCATGCC CGGCTACGAG GGTGTGCACT GCGAGGTCAA CACAGACGAG
TGTGCCAGCA GCCCCTGCCT GCACAATGGC CGCTGCCTGG ACAAGATCAA TGAGTTCCAG
TGCGAGTGCC CCACGGGCTT CACTGGGCAT CTGTGCCAGT ACGATGTGGA CGAGTGTGCC
AGCACCCCCT GCAAGAATGG TGCCAAGTGC CTGGACGGAC CCAACACTTA CACCTGTGTG
TGCACGGAAG GGTACACGGG GACGCACTGC GAGGTGGACA TCGATGAGTG CGACCCCGAC
CCCTGCCACT ACGGCTCCTG CAAGGACGGC GTCGCCACCT TCACCTGCCT CTGCCGCCCA
GGCTACACGG GCCACCACTG CGAGACCAAC ATCAACGAGT GCTCCAGCCA GCCCTGCCGC
CACGGGGGCA CCTGCCAGGA CCGCGACAAC GCCTACCTCT GCTTCTGCCT GAAGGGGACC
ACAGGACCCA ACTGCGAGAT CAACCTGGAT GACTGTGCCA GCAGCCCCTG CGACTCGGGC
ACCTGTCTGG ACAAGATCGA TGGCTACGAG TGTGCCTGTG AGCCGGGCTA CACAGGGAGC
ATGTGTAACA TCAACATCGA TGAGTGTGCG GGCAACCCCT GCCACAACGG GGGCACCTGC
GAGGACGGCA TCAATGGCTT CACCTGCCGC TGCCCCGAGG GCTACCACGA CCCCACCTGC
CTGTCTGAGG TCAATGAGTG CAACAGCAAC CCCTGCGTCC ACGGGGCCTG CCGGGACAGC
CTCAACGGGT ACAAGTGCGA CTGTGACCCT GGGTGGAGTG GGACCAACTG TGACATCAAC
AACAATGAGT GTGAATCCAA CCCTTGTGTC AACGGCGGCA CCTGCAAAGA CATGACCAGT
GGCTACGTGT GCACCTGCCG GGAGGGCTTC AGCGGTCCCA ACTGCCAGAC CAACATCAAC
GAGTGTGCGT CCAACCCATG TCTGAACCAG GGCACGTGTA TTGACGACGT TGCCGGGTAC
AAGTGCAACT GCCTGCTGCC CTACACAGGT GCCACGTGTG AGGTGGTGCT GGCCCCGTGT
GCCCCCAGCC CCTGCAGAAA CGGCGGGGAG TGCAGGCAAT CCGAGGACTA TGAGAGCTTC
TCCTGTGTCT GCCCCACGGG CTGGCAAGGG CAGACCTGTG AGGTCGACAT CAACGAGTGC
GTTCTGAGCC CGTGCCGGCA CGGCGCATCC TGCCAGAACA CCCACGGCGG CTACCGCTGC
CACTGCCAGG CCGGCTACAG TGGGCGCAAC TGCGAGACCG ACATCGACGA CTGCCGGCCC
AACCCGTGTC ACAACGGGGG CTCCTGCACA GACGGCATCA ACACGGCCTT CTGCGACTGC
CTGCCCGGCT TCCGGGGCAC TTTCTGTGAG GAGGACATCA ACGAGTGTGC CAGTGACCCC
TGCCGCAACG GGGCCAACTG CACGGACTGC GTGGACAGCT ACACGTGCAC CTGCCCCGCA
GGCTTCAGCG GGATCCACTG TGAGAACAAC ACGCCTGACT GCACAGAGAG CTCCTGCTTC
AACGGTGGCA CCTGCGTGGA CGGCATCAAC TCGTTCACCT GCCTGTGTCC ACCCGGCTTC
ACGGGCAGCT ACTGCCAGCA CGATGTCAAT GAGTGCGACT CACAGCCCTG CCTGCATGGC
GGCACCTGTC AGGACGGCTG CGGCTCCTAC AGGTGCACCT GCCCCCAGGG CTACACTGGC
CCCAACTGCC AGAACCTTGT GCACTGGTGT GACTCCTCGC CCTGCAAGAA CGGCGGCAAA
TGCTGGCAGA CCCACACCCA GTACCGCTGC GAGTGCCCCA GCGGCTGGAC CGGCCTTTAC
TGCGACGTGC CCAGCGTGTC CTGTGAGGTG GCTGCGCAGC GACAAGGTGT TGACGTTGCC
CGCCTGTGCC AGCATGGAGG GCTCTGTGTG GACGCGGGCA ACACGCACCA CTGCCGCTGC
CAGGCGGGCT ACACAGGCAG CTACTGTGAG GACCTGGTGG ACGAGTGCTC ACCCAGCCCC
TGCCAGAACG GGGCCACCTG CACGGACTAC CTGGGCGGCT ACTCCTGCAA GTGCGTGGCC
GGCTACCACG GGGTGAACTG CTCTGAGGAG ATCGACGAGT GCCTCTCCCA CCCCTGCCAG
AACGGGGGCA CCTGCCTCGA CCTCCCCAAC ACCTACAAGT GCTCCTGCCC ACGGGGCACT
CAGGGTGTGC ACTGTGAGAT CAACGTGGAC GACTGCAATC CCCCCGTTGA CCCCGTGTCC
CGGAGCCCCA AGTGCTTTAA CAACGGCACC TGCGTGGACC AGGTGGGCGG CTACAGCTGC
ACCTGCCCGC CGGGCTTCGT GGGTGAGCGC TGTGAGGGGG ATGTCAACGA GTGCCTGTCC
AATCCCTGCG ACGCCCGTGG CACCCAGAAC TGCGTGCAGC GCGTCAATGA CTTCCACTGC
GAGTGCCGTG CTGGTCACAC CGGGCGCCGC TGCGAGTCCG TCATCAATGG CTGCAAAGGC
AAGCCCTGCA AGAATGGGGG CACCTGCGCC GTGGCCTCCA ACACCGCCCG CGGGTTCATC
TGCAAGTGCC CTGCGGGCTT CGAGGGCGCC ACGTGTGAGA ATGACGCTCG TACCTGCGGC
AGCCTGCGCT GCCTCAACGG CGGCACATGC ATCTCCGGCC CGCGCAGCCC CACCTGCCTG
TGCCTGGGCC CCTTCACGGG CCCCGAATGC CAGTTCCCGG CCAGCAGCCC CTGCCTGGGC
GGCAACCCCT GCTACAACCA GGGGACCTGT GAGCCCACAT CCGAGAGCCC CTTCTACCGT
TGCCTGTGCC CCGCCAAATT CAACGGGCTC TTGTGCCACA TCCTGGACTA CAGCTTCGGG
GGTGGGGCCG GGCGCGACAT CCCCCCGCCG CTGATCGAGG AGGCGTGCGA GCTGCCCGAG
TGCCAGGAGG ACGCGGGCAA CAAGGTCTGC AGCCTGCAGT GCAACAACCA CGCGTGCGGC
TGGGACGGCG GTGACTGCTC CCTCAACTTC AATGACCCCT GGAAGAACTG CACGCAGTCT
CTGCAGTGCT GGAAGTACTT CAGTGACGGC CACTGTGACA GCCAGTGCAA CTCAGCCGGC
TGCCTCTTCG ACGGCTTTGA CTGCCAGCGT GCGGAAGGCC AGTGCAACCC CCTGTACGAC
CAGTACTGCA AGGACCACTT CAGCGACGGG CACTGCGACC AGGGCTGCAA CAGCGCGGAG
TGCGAGTGGG ACGGGCTGGA CTGTGCGGAG CATGTACCCG AGAGGCTGGC GGCCGGCACG
CTGGTGGTGG TGGTGCTGAT GCCGCCGGAG CAGCTGCGCA ACAGCTCCTT CCACTTCCTG
CGGGAGCTCA GCCGCGTGCT GCACACCAAC GTGGTCTTCA AGCGTGACGC ACACGGCCAG
CAGATGATCT TCCCCTACTA CGGCCGCGAG GAGGAGCTGC GCAAGCACCC CATCAAGCGT
GCCGCCGAGG GCTGGGCCGC ACCTGACGCC CTGCTGGGCC AGGTGAAGGC CTCGCTGCTC
CCTGGTGGCA GCGAGGGTGG GCGGCGGCGG AGGGAGCTGG ACCCCATGGA CGTCCGCGGC
TCCATCGTCT ACCTGGAGAT TGACAACCGG CAGTGTGTGC AGGCCTCCTC GCAGTGCTTC
CAGAGTGCCA CCGACGTGGC CGCATTCCTG GGAGCGCTCG CCTCGCTGGG CAGCCTCAAC
ATCCCCTACA AGATCGAGGC CGTGCAGAGT GAGACCGTGG AGCCGCCCCC GCCGGCGCAG
CTGCACTTCA TGTACGTGGC GGCGGCCGCC TTTGTGCTTC TGTTCTTCGT GGGCTGCGGG
GTGCTGCTGT CCCGCAAGCG CCGGCGGCAG CATGGCCAGC TCTGGTTCCC TGAGGGCTTC
AAAGTGTCTG AGGCCAGCAA GAAGAAGCGG CGGGAGCCCC TCGGCGAGGA CTCCGTGGGC
CTCAAGCCCC TGAAGAACGC TTCAGACGGT GCCCTCATGG ACGACAACCA GAATGAGTGG
GGGGACGAGG ACCTGGAGAC CAAGAAGTTC CGGTTCGAGG AGCCCGTGGT TCTGCCTGAC
CTGGACGACC AGACAGACCA CCGGCAGTGG ACTCAGCAGC ACCTGGATGC CGCTGACCTG
CGCATGTCTG CCATGGCCCC CACACCGCCC CAGGGTGAGG TTGACGCCGA CTGCATGGAC
GTCAATGTCC GCGGGCCTGA TGGCTTCACC CCGCTCATGA TCGCCTCCTG CAGCGGGGGC
GGCCTGGAGA CGGGCAACAG CGAGGAAGAG GAGGACGCGC CGGCCGTCAT CTCCGACTTC
ATCTACCAGG GCGCCAGCCT GCACAACCAG ACAGACCGCA CGGGCGAGAC CGCCTTGCAC
CTGGCCGCCC GCTACTCACG CTCTGATGCC GCCAAGCGCC TGCTGGAGGC CAGCGCAGAT
GCCAACATCC AGGACAACAT GGGCCGCACC CCGCTGCATG CGGCTGTGTC TGCCGACGCA
CAAGGTGTCT TCCAGATCCT GATCCGGAAC CGAGCCACAG ACCTGGATGC CCGCATGCAT
GATGGCACGA CGCCACTGAT CCTGGCTGCC CGCCTGGCCG TGGAGGGCAT GCTGGAGGAC
CTCATCAACT CACACGCCGA CGTCAACGCC GTAGATGACC TGGGCAAGTC CGCCCTGCAC
TGGGCCGCCG CCGTGAACAA TGTGGATGCC GCAGTTGTGC TCCTGAAGAA CGGGGCTAAC
AAAGATATGC AGAACAACAG GGAGGAGACA CCCCTGTTTC TGGCCGCCCG GGAGGGCAGC
TACGAGACCG CCAAGGTGCT GCTGGACCAC TTTGCCAACC GGGACATCAC GGATCATATG
GACCGCCTGC CGCGCGACAT CGCACAGGAG CGCATGCATC ACGACATCGT GAGGCTGCTG
GACGAGTACA ACCTGGTGCG CAGCCCGCAG CTGCACGGAG CCCCGCTGGG GGGCACGCCC
ACCCTGTCGC CCCCGCTCTG CTCGCCCAAC GGCTACCTGG GCAGCCTCAA GCCCGGCGTG
CAGGGCAAGA AGGTCCGCAA GCCCAGCAGC AAAGGCCTGG CCTGTGGAAG CAAGGAGGCC
AAGGACCTCA AGGCACGGAG GAAGAAGTCC CAGGACGGCA AGGGCTGCCT GCTGGACAGC
TCCGGCATGC TCTCGCCCGT GGACTCCCTG GAGTCACCCC ATGGCTACCT GTCAGACGTG
GCCTCGCCGC CACTGCTGCC CTCCCCGTTC CAGCAGTCTC CGTCCGTGCC CCTCAACCAC
CTGCCTGGGA TGCCCGACAC CCACCTGGGC ATCGGGCACC TGAACGTGGC GGCCAAGCCC
GAGATGGCGG CGCTGGGTGG GGGCGGCCGG CTGGCCTTTG AGACTGGCCC ACCTCGTCTC
TCCCACCTGC CTGTGGCCTC TGGCACCAGC ACCGTCCTGG GCTCCAGCAG CGGAGGGGCC
CTGAATTTCA CTGTGGGCGG GTCCACCAGT TTGAATGGTC AATGCGAGTG GCTGTCCCGG
CTGCAGAGCG GCATGGTGCC GAACCAATAC AACCCTCTGC GGGGGAGTGT GGCACCAGGC
CCCCTGAGCA CACAGGCCCC CTCCCTGCAG CATGGCATGG TAGGCCCGCT GCACAGTAGC
CTTGCTGCCA GCGCCCTGTC CCAGATGATG AGCTACCAGG GCCTGCCCAG CACCCGGCTG
GCCACCCAGC CTCACCTGGT GCAGACCCAG CAGGTGCAGC CACAAAACTT ACAGATGCAG
CAGCAGAACC TGCAGCCAGC AAACATCCAG CAGCAGCAAA GCCTGCAGCC GCCACCACCA
CCACCACAGC CGCACCTTGG CGTGAGCTCA GCAGCCAGCG GCCACCTGGG CCGGAGCTTC
CTGAGTGGAG AGCCGAGCCA GGCAGACGTG CAGCCACTGG GCCCCAGCAG CCTGGCGGTG
CACACTATTC TGCCCCAGGA GAGCCCCGCC CTGCCCACGT CGCTGCCATC CTCGCTGGTC
CCACCCGTGA CCGCAGCCCA GTTCCTGACG CCCCCCTCGC AGCACAGCTA CTCCTCGCCT
GTGGACAACA CCCCCAGCCA CCAGCTACAG GTGCCTGAGC ACCCCTTCCT CACCCCGTCC
CCTGAGTCCC CTGACCAGTG GTCCAGCTCG TCCCCGCATT CCAACGTCTC CGACTGGTCC
GAGGGCGTCT CCAGCCCTCC CACCAGCATG CAGTCCCAGA TCGCCCGCAT TCCGGAGGCC
TTCAAGTAA

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

CloneID OHu25580
Clone ID Related Accession (Same CDS sequence) NM_017617
Accession Version NM_017617.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 7668bp)
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
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product neurogenic locus notch homolog protein 1 preproprotein
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF308602.1, AL592301.14, CN431067.1, DA324222.1, AB209873.1 and BC013208.1. This sequence is a reference standard in the RefSeqGene project. On Jun 14, 2007 this sequence version replaced gi:27894367. 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 :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
ATGCCGCCGC TCCTGGCGCC CCTGCTCTGC CTGGCGCTGC TGCCCGCGCT CGCCGCACGA 
GGCCCGCGAT GCTCCCAGCC CGGTGAGACC TGCCTGAATG GCGGGAAGTG TGAAGCGGCC
AATGGCACGG AGGCCTGCGT CTGTGGCGGG GCCTTCGTGG GCCCGCGATG CCAGGACCCC
AACCCGTGCC TCAGCACCCC CTGCAAGAAC GCCGGGACAT GCCACGTGGT GGACCGCAGA
GGCGTGGCAG ACTATGCCTG CAGCTGTGCC CTGGGCTTCT CTGGGCCCCT CTGCCTGACA
CCCCTGGACA ATGCCTGCCT CACCAACCCC TGCCGCAACG GGGGCACCTG CGACCTGCTC
ACGCTGACGG AGTACAAGTG CCGCTGCCCG CCCGGCTGGT CAGGGAAATC GTGCCAGCAG
GCTGACCCGT GCGCCTCCAA CCCCTGCGCC AACGGTGGCC AGTGCCTGCC CTTCGAGGCC
TCCTACATCT GCCACTGCCC ACCCAGCTTC CATGGCCCCA CCTGCCGGCA GGATGTCAAC
GAGTGTGGCC AGAAGCCCGG GCTTTGCCGC CACGGAGGCA CCTGCCACAA CGAGGTCGGC
TCCTACCGCT GCGTCTGCCG CGCCACCCAC ACTGGCCCCA ACTGCGAGCG GCCCTACGTG
CCCTGCAGCC CCTCGCCCTG CCAGAACGGG GGCACCTGCC GCCCCACGGG CGACGTCACC
CACGAGTGTG CCTGCCTGCC AGGCTTCACC GGCCAGAACT GTGAGGAAAA TATCGACGAT
TGTCCAGGAA ACAACTGCAA GAACGGGGGT GCCTGTGTGG ACGGCGTGAA CACCTACAAC
TGCCGCTGCC CGCCAGAGTG GACAGGTCAG TACTGTACCG AGGATGTGGA CGAGTGCCAG
CTGATGCCAA ATGCCTGCCA GAACGGCGGG ACCTGCCACA ACACCCACGG TGGCTACAAC
TGCGTGTGTG TCAACGGCTG GACTGGTGAG GACTGCAGCG AGAACATTGA TGACTGTGCC
AGCGCCGCCT GCTTCCACGG CGCCACCTGC CATGACCGTG TGGCCTCCTT CTACTGCGAG
TGTCCCCATG GCCGCACAGG TCTGCTGTGC CACCTCAACG ACGCATGCAT CAGCAACCCC
TGTAACGAGG GCTCCAACTG CGACACCAAC CCTGTCAATG GCAAGGCCAT CTGCACCTGC
CCCTCGGGGT ACACGGGCCC GGCCTGCAGC CAGGACGTGG ATGAGTGCTC GCTGGGTGCC
AACCCCTGCG AGCATGCGGG CAAGTGCATC AACACGCTGG GCTCCTTCGA GTGCCAGTGT
CTGCAGGGCT ACACGGGCCC CCGATGCGAG ATCGACGTCA ACGAGTGCGT CTCGAACCCG
TGCCAGAACG ACGCCACCTG CCTGGACCAG ATTGGGGAGT TCCAGTGCAT CTGCATGCCC
GGCTACGAGG GTGTGCACTG CGAGGTCAAC ACAGACGAGT GTGCCAGCAG CCCCTGCCTG
CACAATGGCC GCTGCCTGGA CAAGATCAAT GAGTTCCAGT GCGAGTGCCC CACGGGCTTC
ACTGGGCATC TGTGCCAGTA CGATGTGGAC GAGTGTGCCA GCACCCCCTG CAAGAATGGT
GCCAAGTGCC TGGACGGACC CAACACTTAC ACCTGTGTGT GCACGGAAGG GTACACGGGG
ACGCACTGCG AGGTGGACAT CGATGAGTGC GACCCCGACC CCTGCCACTA CGGCTCCTGC
AAGGACGGCG TCGCCACCTT CACCTGCCTC TGCCGCCCAG GCTACACGGG CCACCACTGC
GAGACCAACA TCAACGAGTG CTCCAGCCAG CCCTGCCGCC ACGGGGGCAC CTGCCAGGAC
CGCGACAACG CCTACCTCTG CTTCTGCCTG AAGGGGACCA CAGGACCCAA CTGCGAGATC
AACCTGGATG ACTGTGCCAG CAGCCCCTGC GACTCGGGCA CCTGTCTGGA CAAGATCGAT
GGCTACGAGT GTGCCTGTGA GCCGGGCTAC ACAGGGAGCA TGTGTAACAT CAACATCGAT
GAGTGTGCGG GCAACCCCTG CCACAACGGG GGCACCTGCG AGGACGGCAT CAATGGCTTC
ACCTGCCGCT GCCCCGAGGG CTACCACGAC CCCACCTGCC TGTCTGAGGT CAATGAGTGC
AACAGCAACC CCTGCGTCCA CGGGGCCTGC CGGGACAGCC TCAACGGGTA CAAGTGCGAC
TGTGACCCTG GGTGGAGTGG GACCAACTGT GACATCAACA ACAATGAGTG TGAATCCAAC
CCTTGTGTCA ACGGCGGCAC CTGCAAAGAC ATGACCAGTG GCTACGTGTG CACCTGCCGG
GAGGGCTTCA GCGGTCCCAA CTGCCAGACC AACATCAACG AGTGTGCGTC CAACCCATGT
CTGAACCAGG GCACGTGTAT TGACGACGTT GCCGGGTACA AGTGCAACTG CCTGCTGCCC
TACACAGGTG CCACGTGTGA GGTGGTGCTG GCCCCGTGTG CCCCCAGCCC CTGCAGAAAC
GGCGGGGAGT GCAGGCAATC CGAGGACTAT GAGAGCTTCT CCTGTGTCTG CCCCACGGGC
TGGCAAGGGC AGACCTGTGA GGTCGACATC AACGAGTGCG TTCTGAGCCC GTGCCGGCAC
GGCGCATCCT GCCAGAACAC CCACGGCGGC TACCGCTGCC ACTGCCAGGC CGGCTACAGT
GGGCGCAACT GCGAGACCGA CATCGACGAC TGCCGGCCCA ACCCGTGTCA CAACGGGGGC
TCCTGCACAG ACGGCATCAA CACGGCCTTC TGCGACTGCC TGCCCGGCTT CCGGGGCACT
TTCTGTGAGG AGGACATCAA CGAGTGTGCC AGTGACCCCT GCCGCAACGG GGCCAACTGC
ACGGACTGCG TGGACAGCTA CACGTGCACC TGCCCCGCAG GCTTCAGCGG GATCCACTGT
GAGAACAACA CGCCTGACTG CACAGAGAGC TCCTGCTTCA ACGGTGGCAC CTGCGTGGAC
GGCATCAACT CGTTCACCTG CCTGTGTCCA CCCGGCTTCA CGGGCAGCTA CTGCCAGCAC
GATGTCAATG AGTGCGACTC ACAGCCCTGC CTGCATGGCG GCACCTGTCA GGACGGCTGC
GGCTCCTACA GGTGCACCTG CCCCCAGGGC TACACTGGCC CCAACTGCCA GAACCTTGTG
CACTGGTGTG ACTCCTCGCC CTGCAAGAAC GGCGGCAAAT GCTGGCAGAC CCACACCCAG
TACCGCTGCG AGTGCCCCAG CGGCTGGACC GGCCTTTACT GCGACGTGCC CAGCGTGTCC
TGTGAGGTGG CTGCGCAGCG ACAAGGTGTT GACGTTGCCC GCCTGTGCCA GCATGGAGGG
CTCTGTGTGG ACGCGGGCAA CACGCACCAC TGCCGCTGCC AGGCGGGCTA CACAGGCAGC
TACTGTGAGG ACCTGGTGGA CGAGTGCTCA CCCAGCCCCT GCCAGAACGG GGCCACCTGC
ACGGACTACC TGGGCGGCTA CTCCTGCAAG TGCGTGGCCG GCTACCACGG GGTGAACTGC
TCTGAGGAGA TCGACGAGTG CCTCTCCCAC CCCTGCCAGA ACGGGGGCAC CTGCCTCGAC
CTCCCCAACA CCTACAAGTG CTCCTGCCCA CGGGGCACTC AGGGTGTGCA CTGTGAGATC
AACGTGGACG ACTGCAATCC CCCCGTTGAC CCCGTGTCCC GGAGCCCCAA GTGCTTTAAC
AACGGCACCT GCGTGGACCA GGTGGGCGGC TACAGCTGCA CCTGCCCGCC GGGCTTCGTG
GGTGAGCGCT GTGAGGGGGA TGTCAACGAG TGCCTGTCCA ATCCCTGCGA CGCCCGTGGC
ACCCAGAACT GCGTGCAGCG CGTCAATGAC TTCCACTGCG AGTGCCGTGC TGGTCACACC
GGGCGCCGCT GCGAGTCCGT CATCAATGGC TGCAAAGGCA AGCCCTGCAA GAATGGGGGC
ACCTGCGCCG TGGCCTCCAA CACCGCCCGC GGGTTCATCT GCAAGTGCCC TGCGGGCTTC
GAGGGCGCCA CGTGTGAGAA TGACGCTCGT ACCTGCGGCA GCCTGCGCTG CCTCAACGGC
GGCACATGCA TCTCCGGCCC GCGCAGCCCC ACCTGCCTGT GCCTGGGCCC CTTCACGGGC
CCCGAATGCC AGTTCCCGGC CAGCAGCCCC TGCCTGGGCG GCAACCCCTG CTACAACCAG
GGGACCTGTG AGCCCACATC CGAGAGCCCC TTCTACCGTT GCCTGTGCCC CGCCAAATTC
AACGGGCTCT TGTGCCACAT CCTGGACTAC AGCTTCGGGG GTGGGGCCGG GCGCGACATC
CCCCCGCCGC TGATCGAGGA GGCGTGCGAG CTGCCCGAGT GCCAGGAGGA CGCGGGCAAC
AAGGTCTGCA GCCTGCAGTG CAACAACCAC GCGTGCGGCT GGGACGGCGG TGACTGCTCC
CTCAACTTCA ATGACCCCTG GAAGAACTGC ACGCAGTCTC TGCAGTGCTG GAAGTACTTC
AGTGACGGCC ACTGTGACAG CCAGTGCAAC TCAGCCGGCT GCCTCTTCGA CGGCTTTGAC
TGCCAGCGTG CGGAAGGCCA GTGCAACCCC CTGTACGACC AGTACTGCAA GGACCACTTC
AGCGACGGGC ACTGCGACCA GGGCTGCAAC AGCGCGGAGT GCGAGTGGGA CGGGCTGGAC
TGTGCGGAGC ATGTACCCGA GAGGCTGGCG GCCGGCACGC TGGTGGTGGT GGTGCTGATG
CCGCCGGAGC AGCTGCGCAA CAGCTCCTTC CACTTCCTGC GGGAGCTCAG CCGCGTGCTG
CACACCAACG TGGTCTTCAA GCGTGACGCA CACGGCCAGC AGATGATCTT CCCCTACTAC
GGCCGCGAGG AGGAGCTGCG CAAGCACCCC ATCAAGCGTG CCGCCGAGGG CTGGGCCGCA
CCTGACGCCC TGCTGGGCCA GGTGAAGGCC TCGCTGCTCC CTGGTGGCAG CGAGGGTGGG
CGGCGGCGGA GGGAGCTGGA CCCCATGGAC GTCCGCGGCT CCATCGTCTA CCTGGAGATT
GACAACCGGC AGTGTGTGCA GGCCTCCTCG CAGTGCTTCC AGAGTGCCAC CGACGTGGCC
GCATTCCTGG GAGCGCTCGC CTCGCTGGGC AGCCTCAACA TCCCCTACAA GATCGAGGCC
GTGCAGAGTG AGACCGTGGA GCCGCCCCCG CCGGCGCAGC TGCACTTCAT GTACGTGGCG
GCGGCCGCCT TTGTGCTTCT GTTCTTCGTG GGCTGCGGGG TGCTGCTGTC CCGCAAGCGC
CGGCGGCAGC ATGGCCAGCT CTGGTTCCCT GAGGGCTTCA AAGTGTCTGA GGCCAGCAAG
AAGAAGCGGC GGGAGCCCCT CGGCGAGGAC TCCGTGGGCC TCAAGCCCCT GAAGAACGCT
TCAGACGGTG CCCTCATGGA CGACAACCAG AATGAGTGGG GGGACGAGGA CCTGGAGACC
AAGAAGTTCC GGTTCGAGGA GCCCGTGGTT CTGCCTGACC TGGACGACCA GACAGACCAC
CGGCAGTGGA CTCAGCAGCA CCTGGATGCC GCTGACCTGC GCATGTCTGC CATGGCCCCC
ACACCGCCCC AGGGTGAGGT TGACGCCGAC TGCATGGACG TCAATGTCCG CGGGCCTGAT
GGCTTCACCC CGCTCATGAT CGCCTCCTGC AGCGGGGGCG GCCTGGAGAC GGGCAACAGC
GAGGAAGAGG AGGACGCGCC GGCCGTCATC TCCGACTTCA TCTACCAGGG CGCCAGCCTG
CACAACCAGA CAGACCGCAC GGGCGAGACC GCCTTGCACC TGGCCGCCCG CTACTCACGC
TCTGATGCCG CCAAGCGCCT GCTGGAGGCC AGCGCAGATG CCAACATCCA GGACAACATG
GGCCGCACCC CGCTGCATGC GGCTGTGTCT GCCGACGCAC AAGGTGTCTT CCAGATCCTG
ATCCGGAACC GAGCCACAGA CCTGGATGCC CGCATGCATG ATGGCACGAC GCCACTGATC
CTGGCTGCCC GCCTGGCCGT GGAGGGCATG CTGGAGGACC TCATCAACTC ACACGCCGAC
GTCAACGCCG TAGATGACCT GGGCAAGTCC GCCCTGCACT GGGCCGCCGC CGTGAACAAT
GTGGATGCCG CAGTTGTGCT CCTGAAGAAC GGGGCTAACA AAGATATGCA GAACAACAGG
GAGGAGACAC CCCTGTTTCT GGCCGCCCGG GAGGGCAGCT ACGAGACCGC CAAGGTGCTG
CTGGACCACT TTGCCAACCG GGACATCACG GATCATATGG ACCGCCTGCC GCGCGACATC
GCACAGGAGC GCATGCATCA CGACATCGTG AGGCTGCTGG ACGAGTACAA CCTGGTGCGC
AGCCCGCAGC TGCACGGAGC CCCGCTGGGG GGCACGCCCA CCCTGTCGCC CCCGCTCTGC
TCGCCCAACG GCTACCTGGG CAGCCTCAAG CCCGGCGTGC AGGGCAAGAA GGTCCGCAAG
CCCAGCAGCA AAGGCCTGGC CTGTGGAAGC AAGGAGGCCA AGGACCTCAA GGCACGGAGG
AAGAAGTCCC AGGACGGCAA GGGCTGCCTG CTGGACAGCT CCGGCATGCT CTCGCCCGTG
GACTCCCTGG AGTCACCCCA TGGCTACCTG TCAGACGTGG CCTCGCCGCC ACTGCTGCCC
TCCCCGTTCC AGCAGTCTCC GTCCGTGCCC CTCAACCACC TGCCTGGGAT GCCCGACACC
CACCTGGGCA TCGGGCACCT GAACGTGGCG GCCAAGCCCG AGATGGCGGC GCTGGGTGGG
GGCGGCCGGC TGGCCTTTGA GACTGGCCCA CCTCGTCTCT CCCACCTGCC TGTGGCCTCT
GGCACCAGCA CCGTCCTGGG CTCCAGCAGC GGAGGGGCCC TGAATTTCAC TGTGGGCGGG
TCCACCAGTT TGAATGGTCA ATGCGAGTGG CTGTCCCGGC TGCAGAGCGG CATGGTGCCG
AACCAATACA ACCCTCTGCG GGGGAGTGTG GCACCAGGCC CCCTGAGCAC ACAGGCCCCC
TCCCTGCAGC ATGGCATGGT AGGCCCGCTG CACAGTAGCC TTGCTGCCAG CGCCCTGTCC
CAGATGATGA GCTACCAGGG CCTGCCCAGC ACCCGGCTGG CCACCCAGCC TCACCTGGTG
CAGACCCAGC AGGTGCAGCC ACAAAACTTA CAGATGCAGC AGCAGAACCT GCAGCCAGCA
AACATCCAGC AGCAGCAAAG CCTGCAGCCG CCACCACCAC CACCACAGCC GCACCTTGGC
GTGAGCTCAG CAGCCAGCGG CCACCTGGGC CGGAGCTTCC TGAGTGGAGA GCCGAGCCAG
GCAGACGTGC AGCCACTGGG CCCCAGCAGC CTGGCGGTGC ACACTATTCT GCCCCAGGAG
AGCCCCGCCC TGCCCACGTC GCTGCCATCC TCGCTGGTCC CACCCGTGAC CGCAGCCCAG
TTCCTGACGC CCCCCTCGCA GCACAGCTAC TCCTCGCCTG TGGACAACAC CCCCAGCCAC
CAGCTACAGG TGCCTGAGCA CCCCTTCCTC ACCCCGTCCC CTGAGTCCCC TGACCAGTGG
TCCAGCTCGT CCCCGCATTC CAACGTCTCC GACTGGTCCG AGGGCGTCTC CAGCCCTCCC
ACCAGCATGC AGTCCCAGAT CGCCCGCATT CCGGAGGCCT TCAAGTAA

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

RefSeq NP_060087.3
CDS1..7668
Misc Feature(1)424..525(+)
Misc Feature(2)427..471(+)
Misc Feature(3)532..648(+)
Misc Feature(4)532..591(+)
Misc Feature(5)667..765(+)
Misc Feature(6)769..879(+)
Misc Feature(7)769..822(+)
Misc Feature(8)883..996(+)
Misc Feature(9)883..942(+)
Misc Feature(10)1003..1110(+)
Misc Feature(11)1003..1056(+)
Misc Feature(12)1234..1350(+)
Misc Feature(13)1234..1293(+)
Misc Feature(14)1354..1464(+)
Misc Feature(15)1354..1407(+)
Misc Feature(16)1468..1578(+)
Misc Feature(17)1468..1521(+)
Misc Feature(18)1582..1692(+)
Misc Feature(19)1582..1635(+)
Misc Feature(20)1696..1803(+)
Misc Feature(21)1696..1746(+)
Misc Feature(22)1807..1917(+)
Misc Feature(23)1807..1860(+)
Misc Feature(24)2032..2139(+)
Misc Feature(25)2032..2085(+)
Misc Feature(26)2149..2250(+)
Misc Feature(27)2155..2196(+)
Misc Feature(28)2263..2367(+)
Misc Feature(29)2266..2310(+)
Misc Feature(30)2371..2481(+)
Misc Feature(31)2371..2424(+)
Misc Feature(32)2605..2715(+)
Misc Feature(33)2605..2658(+)
Misc Feature(34)2719..2829(+)
Misc Feature(35)2719..2772(+)
Misc Feature(36)2833..2943(+)
Misc Feature(37)2833..2886(+)
Misc Feature(38)2962..3057(+)
Misc Feature(39)3061..3171(+)
Misc Feature(40)3061..3114(+)
Misc Feature(41)3190..3282(+)
Misc Feature(42)3436..3540(+)
Misc Feature(43)3442..3486(+)
Misc Feature(44)3550..3657(+)
Misc Feature(45)3556..3600(+)
Misc Feature(46)3712..3795(+)
Misc Feature(47)3721..4191(+)
Misc Feature(48)3799..3915(+)
Misc Feature(49)3799..3858(+)
Misc Feature(50)4324..4437(+)
Misc Feature(51)4345..4467(+)
Misc Feature(52)4453..4566(+)
Misc Feature(53)4468..4593(+)
Misc Feature(54)4573..4683(+)
Misc Feature(55)4594..4713(+)
Misc Feature(56)4696..4863(+)
Misc Feature(57)4990..4995(+)
Misc Feature(58)5008..5193(+)
Misc Feature(59)5128..5133(+)
Misc Feature(60)5158..5163(+)
Misc Feature(61)5206..5268(+)
Misc Feature(62)5620..5874(+)
Misc Feature(63)5764..6102(+)
Misc Feature(64)5779..5868(+)
Misc Feature(65)5794..6075(+)
Misc Feature(66)5839..5865(+)
Misc Feature(67)5863..5865(+)
Misc Feature(68)5878..5970(+)
Misc Feature(69)5965..6339(+)
Misc Feature(70)5980..6069(+)
Misc Feature(71)6040..6066(+)
Misc Feature(72)6079..6168(+)
Misc Feature(73)6178..6267(+)
Misc Feature(74)6187..6339(+)
Misc Feature(75)7438..7623(+)
Exon (1)1..61
Gene:NOTCH1
Gene Synonym:
Exon (2)62..140
Gene:NOTCH1
Gene Synonym:
Exon (3)141..403
Gene:NOTCH1
Gene Synonym:
Exon (4)404..742
Gene:NOTCH1
Gene Synonym:
Exon (5)743..865
Gene:NOTCH1
Gene Synonym:
Exon (6)866..1099
Gene:NOTCH1
Gene Synonym:
Exon (7)1100..1255
Gene:NOTCH1
Gene Synonym:
Exon (8)1256..1441
Gene:NOTCH1
Gene Synonym:
Exon (9)1442..1555
Gene:NOTCH1
Gene Synonym:
Exon (10)1556..1669
Gene:NOTCH1
Gene Synonym:
Exon (11)1670..1903
Gene:NOTCH1
Gene Synonym:
Exon (12)1904..2014
Gene:NOTCH1
Gene Synonym:
Exon (13)2015..2207
Gene:NOTCH1
Gene Synonym:
Exon (14)2208..2353
Gene:NOTCH1
Gene Synonym:
Exon (15)2354..2467
Gene:NOTCH1
Gene Synonym:
Exon (16)2468..2587
Gene:NOTCH1
Gene Synonym:
Exon (17)2588..2740
Gene:NOTCH1
Gene Synonym:
Exon (18)2741..2969
Gene:NOTCH1
Gene Synonym:
Exon (19)2970..3171
Gene:NOTCH1
Gene Synonym:
Exon (20)3172..3325
Gene:NOTCH1
Gene Synonym:
Exon (21)3326..3510
Gene:NOTCH1
Gene Synonym:
Exon (22)3511..3643
Gene:NOTCH1
Gene Synonym:
Exon (23)3644..3901
Gene:NOTCH1
Gene Synonym:
Exon (24)3902..4014
Gene:NOTCH1
Gene Synonym:
Exon (25)4015..4586
Gene:NOTCH1
Gene Synonym:
Exon (26)4587..5018
Gene:NOTCH1
Gene Synonym:
Exon (27)5019..5167
Gene:NOTCH1
Gene Synonym:
Exon (28)5168..5384
Gene:NOTCH1
Gene Synonym:
Exon (29)5385..5472
Gene:NOTCH1
Gene Synonym:
Exon (30)5473..5638
Gene:NOTCH1
Gene Synonym:
Exon (31)5639..5934
Gene:NOTCH1
Gene Synonym:
Exon (32)5935..6082
Gene:NOTCH1
Gene Synonym:
Exon (33)6083..6180
Gene:NOTCH1
Gene Synonym:
Exon (34)6181..9295
Gene:NOTCH1
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_017617
Organism Homo sapiens (human)
Definition Homo sapiens notch 1 (NOTCH1), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_017617

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
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
ATGCCGCCGC TCCTGGCGCC CCTGCTCTGC CTGGCGCTGC TGCCCGCGCT CGCCGCACGA 
GGCCCGCGAT GCTCCCAGCC CGGTGAGACC TGCCTGAATG GCGGGAAGTG TGAAGCGGCC
AATGGCACGG AGGCCTGCGT CTGTGGCGGG GCCTTCGTGG GCCCGCGATG CCAGGACCCC
AACCCGTGCC TCAGCACCCC CTGCAAGAAC GCCGGGACAT GCCACGTGGT GGACCGCAGA
GGCGTGGCAG ACTATGCCTG CAGCTGTGCC CTGGGCTTCT CTGGGCCCCT CTGCCTGACA
CCCCTGGACA ATGCCTGCCT CACCAACCCC TGCCGCAACG GGGGCACCTG CGACCTGCTC
ACGCTGACGG AGTACAAGTG CCGCTGCCCG CCCGGCTGGT CAGGGAAATC GTGCCAGCAG
GCTGACCCGT GCGCCTCCAA CCCCTGCGCC AACGGTGGCC AGTGCCTGCC CTTCGAGGCC
TCCTACATCT GCCACTGCCC ACCCAGCTTC CATGGCCCCA CCTGCCGGCA GGATGTCAAC
GAGTGTGGCC AGAAGCCCGG GCTTTGCCGC CACGGAGGCA CCTGCCACAA CGAGGTCGGC
TCCTACCGCT GCGTCTGCCG CGCCACCCAC ACTGGCCCCA ACTGCGAGCG GCCCTACGTG
CCCTGCAGCC CCTCGCCCTG CCAGAACGGG GGCACCTGCC GCCCCACGGG CGACGTCACC
CACGAGTGTG CCTGCCTGCC AGGCTTCACC GGCCAGAACT GTGAGGAAAA TATCGACGAT
TGTCCAGGAA ACAACTGCAA GAACGGGGGT GCCTGTGTGG ACGGCGTGAA CACCTACAAC
TGCCGCTGCC CGCCAGAGTG GACAGGTCAG TACTGTACCG AGGATGTGGA CGAGTGCCAG
CTGATGCCAA ATGCCTGCCA GAACGGCGGG ACCTGCCACA ACACCCACGG TGGCTACAAC
TGCGTGTGTG TCAACGGCTG GACTGGTGAG GACTGCAGCG AGAACATTGA TGACTGTGCC
AGCGCCGCCT GCTTCCACGG CGCCACCTGC CATGACCGTG TGGCCTCCTT CTACTGCGAG
TGTCCCCATG GCCGCACAGG TCTGCTGTGC CACCTCAACG ACGCATGCAT CAGCAACCCC
TGTAACGAGG GCTCCAACTG CGACACCAAC CCTGTCAATG GCAAGGCCAT CTGCACCTGC
CCCTCGGGGT ACACGGGCCC GGCCTGCAGC CAGGACGTGG ATGAGTGCTC GCTGGGTGCC
AACCCCTGCG AGCATGCGGG CAAGTGCATC AACACGCTGG GCTCCTTCGA GTGCCAGTGT
CTGCAGGGCT ACACGGGCCC CCGATGCGAG ATCGACGTCA ACGAGTGCGT CTCGAACCCG
TGCCAGAACG ACGCCACCTG CCTGGACCAG ATTGGGGAGT TCCAGTGCAT CTGCATGCCC
GGCTACGAGG GTGTGCACTG CGAGGTCAAC ACAGACGAGT GTGCCAGCAG CCCCTGCCTG
CACAATGGCC GCTGCCTGGA CAAGATCAAT GAGTTCCAGT GCGAGTGCCC CACGGGCTTC
ACTGGGCATC TGTGCCAGTA CGATGTGGAC GAGTGTGCCA GCACCCCCTG CAAGAATGGT
GCCAAGTGCC TGGACGGACC CAACACTTAC ACCTGTGTGT GCACGGAAGG GTACACGGGG
ACGCACTGCG AGGTGGACAT CGATGAGTGC GACCCCGACC CCTGCCACTA CGGCTCCTGC
AAGGACGGCG TCGCCACCTT CACCTGCCTC TGCCGCCCAG GCTACACGGG CCACCACTGC
GAGACCAACA TCAACGAGTG CTCCAGCCAG CCCTGCCGCC ACGGGGGCAC CTGCCAGGAC
CGCGACAACG CCTACCTCTG CTTCTGCCTG AAGGGGACCA CAGGACCCAA CTGCGAGATC
AACCTGGATG ACTGTGCCAG CAGCCCCTGC GACTCGGGCA CCTGTCTGGA CAAGATCGAT
GGCTACGAGT GTGCCTGTGA GCCGGGCTAC ACAGGGAGCA TGTGTAACAT CAACATCGAT
GAGTGTGCGG GCAACCCCTG CCACAACGGG GGCACCTGCG AGGACGGCAT CAATGGCTTC
ACCTGCCGCT GCCCCGAGGG CTACCACGAC CCCACCTGCC TGTCTGAGGT CAATGAGTGC
AACAGCAACC CCTGCGTCCA CGGGGCCTGC CGGGACAGCC TCAACGGGTA CAAGTGCGAC
TGTGACCCTG GGTGGAGTGG GACCAACTGT GACATCAACA ACAATGAGTG TGAATCCAAC
CCTTGTGTCA ACGGCGGCAC CTGCAAAGAC ATGACCAGTG GCTACGTGTG CACCTGCCGG
GAGGGCTTCA GCGGTCCCAA CTGCCAGACC AACATCAACG AGTGTGCGTC CAACCCATGT
CTGAACCAGG GCACGTGTAT TGACGACGTT GCCGGGTACA AGTGCAACTG CCTGCTGCCC
TACACAGGTG CCACGTGTGA GGTGGTGCTG GCCCCGTGTG CCCCCAGCCC CTGCAGAAAC
GGCGGGGAGT GCAGGCAATC CGAGGACTAT GAGAGCTTCT CCTGTGTCTG CCCCACGGGC
TGGCAAGGGC AGACCTGTGA GGTCGACATC AACGAGTGCG TTCTGAGCCC GTGCCGGCAC
GGCGCATCCT GCCAGAACAC CCACGGCGGC TACCGCTGCC ACTGCCAGGC CGGCTACAGT
GGGCGCAACT GCGAGACCGA CATCGACGAC TGCCGGCCCA ACCCGTGTCA CAACGGGGGC
TCCTGCACAG ACGGCATCAA CACGGCCTTC TGCGACTGCC TGCCCGGCTT CCGGGGCACT
TTCTGTGAGG AGGACATCAA CGAGTGTGCC AGTGACCCCT GCCGCAACGG GGCCAACTGC
ACGGACTGCG TGGACAGCTA CACGTGCACC TGCCCCGCAG GCTTCAGCGG GATCCACTGT
GAGAACAACA CGCCTGACTG CACAGAGAGC TCCTGCTTCA ACGGTGGCAC CTGCGTGGAC
GGCATCAACT CGTTCACCTG CCTGTGTCCA CCCGGCTTCA CGGGCAGCTA CTGCCAGCAC
GATGTCAATG AGTGCGACTC ACAGCCCTGC CTGCATGGCG GCACCTGTCA GGACGGCTGC
GGCTCCTACA GGTGCACCTG CCCCCAGGGC TACACTGGCC CCAACTGCCA GAACCTTGTG
CACTGGTGTG ACTCCTCGCC CTGCAAGAAC GGCGGCAAAT GCTGGCAGAC CCACACCCAG
TACCGCTGCG AGTGCCCCAG CGGCTGGACC GGCCTTTACT GCGACGTGCC CAGCGTGTCC
TGTGAGGTGG CTGCGCAGCG ACAAGGTGTT GACGTTGCCC GCCTGTGCCA GCATGGAGGG
CTCTGTGTGG ACGCGGGCAA CACGCACCAC TGCCGCTGCC AGGCGGGCTA CACAGGCAGC
TACTGTGAGG ACCTGGTGGA CGAGTGCTCA CCCAGCCCCT GCCAGAACGG GGCCACCTGC
ACGGACTACC TGGGCGGCTA CTCCTGCAAG TGCGTGGCCG GCTACCACGG GGTGAACTGC
TCTGAGGAGA TCGACGAGTG CCTCTCCCAC CCCTGCCAGA ACGGGGGCAC CTGCCTCGAC
CTCCCCAACA CCTACAAGTG CTCCTGCCCA CGGGGCACTC AGGGTGTGCA CTGTGAGATC
AACGTGGACG ACTGCAATCC CCCCGTTGAC CCCGTGTCCC GGAGCCCCAA GTGCTTTAAC
AACGGCACCT GCGTGGACCA GGTGGGCGGC TACAGCTGCA CCTGCCCGCC GGGCTTCGTG
GGTGAGCGCT GTGAGGGGGA TGTCAACGAG TGCCTGTCCA ATCCCTGCGA CGCCCGTGGC
ACCCAGAACT GCGTGCAGCG CGTCAATGAC TTCCACTGCG AGTGCCGTGC TGGTCACACC
GGGCGCCGCT GCGAGTCCGT CATCAATGGC TGCAAAGGCA AGCCCTGCAA GAATGGGGGC
ACCTGCGCCG TGGCCTCCAA CACCGCCCGC GGGTTCATCT GCAAGTGCCC TGCGGGCTTC
GAGGGCGCCA CGTGTGAGAA TGACGCTCGT ACCTGCGGCA GCCTGCGCTG CCTCAACGGC
GGCACATGCA TCTCCGGCCC GCGCAGCCCC ACCTGCCTGT GCCTGGGCCC CTTCACGGGC
CCCGAATGCC AGTTCCCGGC CAGCAGCCCC TGCCTGGGCG GCAACCCCTG CTACAACCAG
GGGACCTGTG AGCCCACATC CGAGAGCCCC TTCTACCGTT GCCTGTGCCC CGCCAAATTC
AACGGGCTCT TGTGCCACAT CCTGGACTAC AGCTTCGGGG GTGGGGCCGG GCGCGACATC
CCCCCGCCGC TGATCGAGGA GGCGTGCGAG CTGCCCGAGT GCCAGGAGGA CGCGGGCAAC
AAGGTCTGCA GCCTGCAGTG CAACAACCAC GCGTGCGGCT GGGACGGCGG TGACTGCTCC
CTCAACTTCA ATGACCCCTG GAAGAACTGC ACGCAGTCTC TGCAGTGCTG GAAGTACTTC
AGTGACGGCC ACTGTGACAG CCAGTGCAAC TCAGCCGGCT GCCTCTTCGA CGGCTTTGAC
TGCCAGCGTG CGGAAGGCCA GTGCAACCCC CTGTACGACC AGTACTGCAA GGACCACTTC
AGCGACGGGC ACTGCGACCA GGGCTGCAAC AGCGCGGAGT GCGAGTGGGA CGGGCTGGAC
TGTGCGGAGC ATGTACCCGA GAGGCTGGCG GCCGGCACGC TGGTGGTGGT GGTGCTGATG
CCGCCGGAGC AGCTGCGCAA CAGCTCCTTC CACTTCCTGC GGGAGCTCAG CCGCGTGCTG
CACACCAACG TGGTCTTCAA GCGTGACGCA CACGGCCAGC AGATGATCTT CCCCTACTAC
GGCCGCGAGG AGGAGCTGCG CAAGCACCCC ATCAAGCGTG CCGCCGAGGG CTGGGCCGCA
CCTGACGCCC TGCTGGGCCA GGTGAAGGCC TCGCTGCTCC CTGGTGGCAG CGAGGGTGGG
CGGCGGCGGA GGGAGCTGGA CCCCATGGAC GTCCGCGGCT CCATCGTCTA CCTGGAGATT
GACAACCGGC AGTGTGTGCA GGCCTCCTCG CAGTGCTTCC AGAGTGCCAC CGACGTGGCC
GCATTCCTGG GAGCGCTCGC CTCGCTGGGC AGCCTCAACA TCCCCTACAA GATCGAGGCC
GTGCAGAGTG AGACCGTGGA GCCGCCCCCG CCGGCGCAGC TGCACTTCAT GTACGTGGCG
GCGGCCGCCT TTGTGCTTCT GTTCTTCGTG GGCTGCGGGG TGCTGCTGTC CCGCAAGCGC
CGGCGGCAGC ATGGCCAGCT CTGGTTCCCT GAGGGCTTCA AAGTGTCTGA GGCCAGCAAG
AAGAAGCGGC GGGAGCCCCT CGGCGAGGAC TCCGTGGGCC TCAAGCCCCT GAAGAACGCT
TCAGACGGTG CCCTCATGGA CGACAACCAG AATGAGTGGG GGGACGAGGA CCTGGAGACC
AAGAAGTTCC GGTTCGAGGA GCCCGTGGTT CTGCCTGACC TGGACGACCA GACAGACCAC
CGGCAGTGGA CTCAGCAGCA CCTGGATGCC GCTGACCTGC GCATGTCTGC CATGGCCCCC
ACACCGCCCC AGGGTGAGGT TGACGCCGAC TGCATGGACG TCAATGTCCG CGGGCCTGAT
GGCTTCACCC CGCTCATGAT CGCCTCCTGC AGCGGGGGCG GCCTGGAGAC GGGCAACAGC
GAGGAAGAGG AGGACGCGCC GGCCGTCATC TCCGACTTCA TCTACCAGGG CGCCAGCCTG
CACAACCAGA CAGACCGCAC GGGCGAGACC GCCTTGCACC TGGCCGCCCG CTACTCACGC
TCTGATGCCG CCAAGCGCCT GCTGGAGGCC AGCGCAGATG CCAACATCCA GGACAACATG
GGCCGCACCC CGCTGCATGC GGCTGTGTCT GCCGACGCAC AAGGTGTCTT CCAGATCCTG
ATCCGGAACC GAGCCACAGA CCTGGATGCC CGCATGCATG ATGGCACGAC GCCACTGATC
CTGGCTGCCC GCCTGGCCGT GGAGGGCATG CTGGAGGACC TCATCAACTC ACACGCCGAC
GTCAACGCCG TAGATGACCT GGGCAAGTCC GCCCTGCACT GGGCCGCCGC CGTGAACAAT
GTGGATGCCG CAGTTGTGCT CCTGAAGAAC GGGGCTAACA AAGATATGCA GAACAACAGG
GAGGAGACAC CCCTGTTTCT GGCCGCCCGG GAGGGCAGCT ACGAGACCGC CAAGGTGCTG
CTGGACCACT TTGCCAACCG GGACATCACG GATCATATGG ACCGCCTGCC GCGCGACATC
GCACAGGAGC GCATGCATCA CGACATCGTG AGGCTGCTGG ACGAGTACAA CCTGGTGCGC
AGCCCGCAGC TGCACGGAGC CCCGCTGGGG GGCACGCCCA CCCTGTCGCC CCCGCTCTGC
TCGCCCAACG GCTACCTGGG CAGCCTCAAG CCCGGCGTGC AGGGCAAGAA GGTCCGCAAG
CCCAGCAGCA AAGGCCTGGC CTGTGGAAGC AAGGAGGCCA AGGACCTCAA GGCACGGAGG
AAGAAGTCCC AGGACGGCAA GGGCTGCCTG CTGGACAGCT CCGGCATGCT CTCGCCCGTG
GACTCCCTGG AGTCACCCCA TGGCTACCTG TCAGACGTGG CCTCGCCGCC ACTGCTGCCC
TCCCCGTTCC AGCAGTCTCC GTCCGTGCCC CTCAACCACC TGCCTGGGAT GCCCGACACC
CACCTGGGCA TCGGGCACCT GAACGTGGCG GCCAAGCCCG AGATGGCGGC GCTGGGTGGG
GGCGGCCGGC TGGCCTTTGA GACTGGCCCA CCTCGTCTCT CCCACCTGCC TGTGGCCTCT
GGCACCAGCA CCGTCCTGGG CTCCAGCAGC GGAGGGGCCC TGAATTTCAC TGTGGGCGGG
TCCACCAGTT TGAATGGTCA ATGCGAGTGG CTGTCCCGGC TGCAGAGCGG CATGGTGCCG
AACCAATACA ACCCTCTGCG GGGGAGTGTG GCACCAGGCC CCCTGAGCAC ACAGGCCCCC
TCCCTGCAGC ATGGCATGGT AGGCCCGCTG CACAGTAGCC TTGCTGCCAG CGCCCTGTCC
CAGATGATGA GCTACCAGGG CCTGCCCAGC ACCCGGCTGG CCACCCAGCC TCACCTGGTG
CAGACCCAGC AGGTGCAGCC ACAAAACTTA CAGATGCAGC AGCAGAACCT GCAGCCAGCA
AACATCCAGC AGCAGCAAAG CCTGCAGCCG CCACCACCAC CACCACAGCC GCACCTTGGC
GTGAGCTCAG CAGCCAGCGG CCACCTGGGC CGGAGCTTCC TGAGTGGAGA GCCGAGCCAG
GCAGACGTGC AGCCACTGGG CCCCAGCAGC CTGGCGGTGC ACACTATTCT GCCCCAGGAG
AGCCCCGCCC TGCCCACGTC GCTGCCATCC TCGCTGGTCC CACCCGTGAC CGCAGCCCAG
TTCCTGACGC CCCCCTCGCA GCACAGCTAC TCCTCGCCTG TGGACAACAC CCCCAGCCAC
CAGCTACAGG TGCCTGAGCA CCCCTTCCTC ACCCCGTCCC CTGAGTCCCC TGACCAGTGG
TCCAGCTCGT CCCCGCATTC CAACGTCTCC GACTGGTCCG AGGGCGTCTC CAGCCCTCCC
ACCAGCATGC AGTCCCAGAT CGCCCGCATT CCGGAGGCCT TCAAGTAA

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

 
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