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COL11A1 cDNA ORF clone, Homo sapiens (human)

Gene Symbol COL11A1
Entrez Gene ID 1301
Full Name collagen, type XI, alpha 1
Synonyms CO11A1, COLL6, STL2
General protein information
Preferred Names
collagen alpha-1(XI) chain
Names
collagen alpha-1(XI) chain
collagen XI, alpha-1 polypeptide
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

1

1p21

Summary This gene encodes one of the two alpha chains of type XI collagen, a minor fibrillar collagen. Type XI collagen is a heterotrimer but the third alpha chain is a post-translationally modified alpha 1 type II chain. Mutations in this gene are associated with type II Stickler syndrome and with Marshall syndrome. A single-nucleotide polymorphism in this gene is also associated with susceptibility to lumbar disc herniation. Multiple transcript variants have been identified for this gene. [provided by RefSeq, Nov 2009]. lac of sum
Disorder MIM:

120280

Disorder Html: Stickler syndrome, type II, 604841 (3); Marshall syndrome, 154780

mRNA and Protein(s)

mRNA Protein Name
XM_011540719 XP_011539021 collagen alpha-1(XI) chain isoform X1
XM_011540720 XP_011539022 collagen alpha-1(XI) chain isoform X2
XM_011540721 XP_011539023 collagen alpha-1(XI) chain isoform X3
NM_080630 NP_542197 collagen alpha-1(XI) chain isoform C preproprotein
NM_001190709 NP_001177638 collagen alpha-1(XI) chain isoform E preproprotein
NM_001854 NP_001845 collagen alpha-1(XI) chain isoform A preproprotein
NM_080629 NP_542196 collagen alpha-1(XI) chain isoform B preproprotein



Homo sapiens (human) COL11A1 NP_542196.2
Pan troglodytes (chimpanzee) COL11A1 XP_001139974.1
Macaca mulatta (Rhesus monkey) LOC712753 XP_002808276.1
Canis lupus familiaris (dog) COL11A1 XP_005621909.1
Bos taurus (cattle) COL11A1 NP_001159981.1
Mus musculus (house mouse) Col11a1 NP_031755.2
Rattus norvegicus (Norway rat) Col11a1 NP_037249.1
Gallus gallus (chicken) COL11A1 XP_001231624.2
Danio rerio (zebrafish) col11a1a NP_001077313.1
Xenopus (Silurana) tropicalis (western clawed frog) col5a3 XP_004913770.1


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

The following COL11A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL11A1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

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***CloneID RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OHu57006 XM_011540719 PREDICTED: Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $727.30
$1039.00
OHu57007 XM_011540720 PREDICTED: Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $643.30
$919.00
OHu57008 XM_011540721 PREDICTED: Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $559.30
$799.00
OHu23797 NM_080630 Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant C, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $923.30
$1319.00
OHu23996 NM_001190709 Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant E, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $923.30
$1319.00
OHu25477 NM_001854 Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant A, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $923.30
$1319.00
OHu25546 NM_080629 Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant B, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00

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

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


CloneID OHu57006
Clone ID Related Accession (Same CDS sequence) XM_011540719
Accession Version XM_011540719.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product collagen alpha-1(XI) chain isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_032977.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 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
ATGGAGCCGT GGTCCTCTAG GTGGAAAACG AAACGGTGGC TCTGGGATTT CACCGTAACA 
ACCCTCGCAT TGACCTTCCT CTTCCAAGCT AGAGAGGTCA GAGGAGCTGC TCCAGTTGAT
GTACTAAAAG CACTAGATTT TCACAATTCT CCAGAGGGAA TATCAAAAAC AACGGGATTT
TGCACAAACA GAAAGAATTC TAAAGGCTCA GATACTGCTT ACAGAGTTTC AAAGCAAGCA
CAACTCAGTG CCCCAACAAA ACAGTTATTT CCAGGTGGAA CTTTCCCAGA AGACTTTTCA
ATACTATTTA CAGTAAAACC AAAAAAAGGA ATTCAGTCTT TCCTTTTATC TATATATAAT
GAGCATGGTA TTCAGCAAAT TGGTGTTGAG GTTGGGAGAT CACCTGTTTT TCTGTTTGAA
GACCACACTG GAAAACCTGC CCCAGAAGAC TATCCCCTCT TCAGAACTGT TAACATCGCT
GACGGGAAGT GGCATCGGGT AGCAATCAGC GTGGAGAAGA AAACTGTGAC AATGATTGTT
GATTGTAAGA AGAAAACCAC GAAACCACTT GATAGAAGTG AGAGAGCAAT TGTTGATACC
AATGGAATCA CGGTTTTTGG AACAAGGATT TTGGATGAAG AAGTTTTTGA GGGGGACATT
CAGCAGTTTT TGATCACAGG TGATCCCAAG GCAGCATATG ACTACTGTGA GCATTATAGT
CCAGACTGTG ACTCTTCAGC ACCCAAGGCT GCTCAAGCTC AGGAACCTCA GATAGATGAG
TATGCACCAG AGGATATAAT CGAATATGAC TATGAGTATG GGGAAGCAGA GTATAAAGAG
GCTGAAAGTG TAACAGAGGG ACCCACTGTA ACTGAGGAGA CAATAGCACA GACGGAGGCA
AACATCGTTG ATGATTTTCA AGAATACAAC TATGGAACAA TGGAAAGTTA CCAGACAGAA
GCTCCTAGGC ATGTTTCTGG GACAAATGAG CCAAATCCAG TTGAAGAAAT ATTTACTGAA
GAATATCTAA CGGGAGAGGA TTATGATTCC CAGAGGAAAA ATTCTGAGGA TACACTATAT
GAAAACAAAG AAATAGACGG CAGGGATTCT GATCTTCTGG TAGATGGAGA TTTAGGCGAA
TATGATTTTT ATGAATATAA AGAATATGAA GATAAACCAA CAAGCCCCCC TAATGAAGAA
TTTGGTCCAG GTGTACCAGC AGAAACTGAT ATTACAGAAA CAAGCATAAA TGGCCATGGT
GCATATGGAG AGAAAGGACA GAAAGGAGAA CCAGCAGTGG TTGAGCCTGG TATGCTTGTC
GAAGGACCAC CAGGACCAGC AGGACCTGCA GGTATTATGG GTCCTCCAGG TCTACAAGGC
CCCACTGGAC CCCCTGGTGA CCCTGGCGAT AGGGGCCCCC CAGGACGTCC TGGCTTACCA
GGGGCTGATG GTCTACCTGG TCCTCCTGGT ACTATGTTGA TGTTACCGTT CCGTTATGGT
GGTGATGGTT CCAAAGGACC AACCATCTCT GCTCAGGAAG CTCAGGCTCA AGCTATTCTT
CAGCAGGCTC GGATTGCTCT GAGAGGCCCA CCTGGCCCAA TGGGTCTAAC TGGAAGACCA
GGTCCTGTGG GGGGGCCTGG TTCATCTGGG GCCAAAGGTG AGAGTGGTGA TCCAGGTCCT
CAGGGCCCTC GAGGCGTCCA GGGTCCCCCT GGTCCAACGG GAAAACCTGG AAAAAGGGGT
CGTCCAGGTG CAGATGGAGG AAGAGGAATG CCAGGAGAAC CTGGGGCAAA GGGAGATCGA
GGGTTTGATG GACTTCCGGG TCTGCCAGGT GACAAAGGTC ACAGGGGTGA ACGAGGTCCT
CAAGGTCCTC CAGGTCCTCC TGGTGATGAT GGAATGAGGG GAGAAGATGG AGAAATTGGA
CCAAGAGGTC TTCCAGGTGA AGCTGGCCCA CGAGGTTTGC TGGGTCCAAG GGGAACTCCA
GGAGCTCCAG GGCAGCCTGG TATGGCAGGT GTAGATGGCC CCCCAGGACC AAAAGGGAAC
ATGGGTCCCC AAGGGGAGCC TGGGCCTCCA GGTCAACAAG GGAATCCAGG ACCTCAGGGT
CTTCCTGGTC CACAAGGTCC AATTGGTCCT CCTGGTGAAA AAGGACCACA AGGAAAACCA
GGACTTGCTG GACTTCCTGG TGCTGATGGG CCTCCTGGTC ATCCTGGGAA AGAAGGCCAG
TCTGGAGAAA AGGGGGCTCT GGGTCCCCCT GGTCCACAAG GTCCTATTGG ATACCCGGGC
CCCCGGGGAG TAAAGGGAGC AGATGGTGTC AGAGGTCTCA AGGGATCTAA AGGTGAAAAG
GGTGAAGATG GTTTTCCAGG ATTCAAAGGT GACATGGGTC TAAAAGGTGA CAGAGGAGAA
GTTGGTCAAA TTGGCCCAAG AGGGGAAGAT GGCCCTGAAG GACCCAAAGG TCGAGCAGGC
CCAACTGGAG ACCCAGGTCC TTCAGGTCAA GCAGGAGAAA AGGGAAAACT TGGAGTTCCA
GGATTACCAG GATATCCAGG AAGACAAGGT CCAAAGGGTT CCACTGGATT CCCTGGGTTT
CCAGGTGCCA ATGGAGAGAA AGGTGCACGG GGAGTAGCTG GCAAACCAGG CCCTCGGGGT
CAGCGTGGTC CAACGGGTCC TCGAGGTTCA AGAGGTGCAA GAGGTCCCAC TGGGAAACCT
GGGCCAAAGG GCACTTCAGG TGGCGATGGC CCTCCTGGCC CTCCAGGTGA AAGAGGTCCT
CAAGGACCTC AGGGTCCAGT TGGATTCCCT GGACCAAAAG GCCCTCCTGG ACCACCTGGG
AAGGATGGGC TGCCAGGACA CCCTGGGCAA CGTGGGGAGA CTGGATTTCA AGGCAAGACC
GGCCCTCCTG GGCCAGGGGG AGTGGTTGGA CCACAGGGAC CAACCGGTGA GACTGGTCCA
ATAGGGGAAC GTGGGCATCC TGGCCCTCCT GGCCCTCCTG GTGAGCAAGG TCTTCCTGGT
GCTGCAGGAA AAGAAGGTGC AAAGGGTGAT CCAGGTCCTC AAGGTATCTC AGGGAAAGAT
GGACCAGCAG GATTACGTGG TTTCCCAGGG GAAAGAGGTC TTCCTGGAGC TCAGGGTGCA
CCTGGACTGA AAGGAGGGGA AGGTCCCCAG GGCCCACCAG GTCCAGTTGG CTCACCAGGA
GAACGTGGGT CAGCAGGTAC AGCTGGCCCA ATTGGTTTAC CAGGGCGCCC GGGACCTCAG
GGTCCTCCTG GTCCAGCTGG AGAGAAAGGT GCTCCTGGAG AAAAAGGTCC CCAAGGGCCT
GCAGGGAGAG ATGGAGTTCA AGGTCCTGTT GGTCTCCCAG GGCCAGCTGG TCCTGCCGGC
TCCCCTGGGG AAGACGGAGA CAAGGGTGAA ATTGGTGAGC CGGGACAAAA AGGCAGCAAG
GGTGACAAGG GAGAAAATGG CCCTCCCGGT CCCCCAGGTC TTCAAGGACC AGTTGGTGCC
CCTGGAATTG CTGGAGGTGA TGGTGAACCA GGTCCTAGAG GACAGCAGGG GATGTTTGGG
CAAAAAGGTG ATGAGGGTGC CAGAGGCTTC CCTGGACCTC CTGGTCCAAT AGGTCTTCAG
GGTCTGCCAG GCCCACCTGG TGAAAAAGGT GAAAATGGGG ATGTTGGTCC CATGGGGCCA
CCTGGTCCTC CAGGCCCAAG AGGCCCTCAA GGTCCCAATG GAGCTGATGG ACCACAAGGA
CCCCCAGGGT CTGTTGGTTC AGTTGGTGGT GTTGGAGAAA AGGGTGAACC TGGAGAAGCA
GGGAACCCAG GGCCTCCTGG GGAAGCAGGT GTAGGCGGTC CCAAAGGAGA AAGAGGAGAG
AAAGGGGAAG CTGGTCCACC TGGAGCTGCT GGACCTCCAG GTGCCAAGGG GCCACCAGGT
GATGATGGCC CTAAGGGTAA CCCGGGTCCT GTTGGTTTTC CTGGAGATCC TGGTCCTCCT
GGGGAACCTG GCCCTGCAGG TCAAGATGGT GTTGGTGGTG ACAAGGGTGA AGATGGAGAT
CCTGGTCAAC CGGGTCCTCC TGGCCCATCT GGTGAGGCTG GCCCACCAGG TCCTCCTGGA
AAACGAGGTC CTCCTGGAGC TGCAGGTGCA GAGGGAAGAC AAGGTGAAAA AGGTGCTAAG
GGGGAAGCAG GTGCAGAAGG TCCTCCTGGA AAAACCGGCC CAGTCGGTCC TCAGGGACCT
GCAGGAAAGC CTGGTCCAGA AGGTCTTCGG GGCATCCCTG GTCCTGTGGG AGAACAAGGT
CTCCCTGGAG CTGCAGGCCA AGATGGACCA CCTGGTCCTA TGAAGCTGCC TGTAACTACC
TACTGTATTG TTTCTACTGG TGAGATAAAG CTACCAAGAC ATTCCCCTTT TCCCCACCTT
TTAAATACAA CCTAG

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

RefSeq XP_011539021.1
CDS398..4792
Misc Feature(1)614..1072(+)
Misc Feature(2)2792..2965(+)
Misc Feature(3)2918..3097(+)
Misc Feature(4)3683..3832(+)
Misc Feature(5)4529..4696(+)
Translation

Target ORF information:

RefSeq Version XM_011540719
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011540719

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
ATGGAGCCGT GGTCCTCTAG GTGGAAAACG AAACGGTGGC TCTGGGATTT CACCGTAACA 
ACCCTCGCAT TGACCTTCCT CTTCCAAGCT AGAGAGGTCA GAGGAGCTGC TCCAGTTGAT
GTACTAAAAG CACTAGATTT TCACAATTCT CCAGAGGGAA TATCAAAAAC AACGGGATTT
TGCACAAACA GAAAGAATTC TAAAGGCTCA GATACTGCTT ACAGAGTTTC AAAGCAAGCA
CAACTCAGTG CCCCAACAAA ACAGTTATTT CCAGGTGGAA CTTTCCCAGA AGACTTTTCA
ATACTATTTA CAGTAAAACC AAAAAAAGGA ATTCAGTCTT TCCTTTTATC TATATATAAT
GAGCATGGTA TTCAGCAAAT TGGTGTTGAG GTTGGGAGAT CACCTGTTTT TCTGTTTGAA
GACCACACTG GAAAACCTGC CCCAGAAGAC TATCCCCTCT TCAGAACTGT TAACATCGCT
GACGGGAAGT GGCATCGGGT AGCAATCAGC GTGGAGAAGA AAACTGTGAC AATGATTGTT
GATTGTAAGA AGAAAACCAC GAAACCACTT GATAGAAGTG AGAGAGCAAT TGTTGATACC
AATGGAATCA CGGTTTTTGG AACAAGGATT TTGGATGAAG AAGTTTTTGA GGGGGACATT
CAGCAGTTTT TGATCACAGG TGATCCCAAG GCAGCATATG ACTACTGTGA GCATTATAGT
CCAGACTGTG ACTCTTCAGC ACCCAAGGCT GCTCAAGCTC AGGAACCTCA GATAGATGAG
TATGCACCAG AGGATATAAT CGAATATGAC TATGAGTATG GGGAAGCAGA GTATAAAGAG
GCTGAAAGTG TAACAGAGGG ACCCACTGTA ACTGAGGAGA CAATAGCACA GACGGAGGCA
AACATCGTTG ATGATTTTCA AGAATACAAC TATGGAACAA TGGAAAGTTA CCAGACAGAA
GCTCCTAGGC ATGTTTCTGG GACAAATGAG CCAAATCCAG TTGAAGAAAT ATTTACTGAA
GAATATCTAA CGGGAGAGGA TTATGATTCC CAGAGGAAAA ATTCTGAGGA TACACTATAT
GAAAACAAAG AAATAGACGG CAGGGATTCT GATCTTCTGG TAGATGGAGA TTTAGGCGAA
TATGATTTTT ATGAATATAA AGAATATGAA GATAAACCAA CAAGCCCCCC TAATGAAGAA
TTTGGTCCAG GTGTACCAGC AGAAACTGAT ATTACAGAAA CAAGCATAAA TGGCCATGGT
GCATATGGAG AGAAAGGACA GAAAGGAGAA CCAGCAGTGG TTGAGCCTGG TATGCTTGTC
GAAGGACCAC CAGGACCAGC AGGACCTGCA GGTATTATGG GTCCTCCAGG TCTACAAGGC
CCCACTGGAC CCCCTGGTGA CCCTGGCGAT AGGGGCCCCC CAGGACGTCC TGGCTTACCA
GGGGCTGATG GTCTACCTGG TCCTCCTGGT ACTATGTTGA TGTTACCGTT CCGTTATGGT
GGTGATGGTT CCAAAGGACC AACCATCTCT GCTCAGGAAG CTCAGGCTCA AGCTATTCTT
CAGCAGGCTC GGATTGCTCT GAGAGGCCCA CCTGGCCCAA TGGGTCTAAC TGGAAGACCA
GGTCCTGTGG GGGGGCCTGG TTCATCTGGG GCCAAAGGTG AGAGTGGTGA TCCAGGTCCT
CAGGGCCCTC GAGGCGTCCA GGGTCCCCCT GGTCCAACGG GAAAACCTGG AAAAAGGGGT
CGTCCAGGTG CAGATGGAGG AAGAGGAATG CCAGGAGAAC CTGGGGCAAA GGGAGATCGA
GGGTTTGATG GACTTCCGGG TCTGCCAGGT GACAAAGGTC ACAGGGGTGA ACGAGGTCCT
CAAGGTCCTC CAGGTCCTCC TGGTGATGAT GGAATGAGGG GAGAAGATGG AGAAATTGGA
CCAAGAGGTC TTCCAGGTGA AGCTGGCCCA CGAGGTTTGC TGGGTCCAAG GGGAACTCCA
GGAGCTCCAG GGCAGCCTGG TATGGCAGGT GTAGATGGCC CCCCAGGACC AAAAGGGAAC
ATGGGTCCCC AAGGGGAGCC TGGGCCTCCA GGTCAACAAG GGAATCCAGG ACCTCAGGGT
CTTCCTGGTC CACAAGGTCC AATTGGTCCT CCTGGTGAAA AAGGACCACA AGGAAAACCA
GGACTTGCTG GACTTCCTGG TGCTGATGGG CCTCCTGGTC ATCCTGGGAA AGAAGGCCAG
TCTGGAGAAA AGGGGGCTCT GGGTCCCCCT GGTCCACAAG GTCCTATTGG ATACCCGGGC
CCCCGGGGAG TAAAGGGAGC AGATGGTGTC AGAGGTCTCA AGGGATCTAA AGGTGAAAAG
GGTGAAGATG GTTTTCCAGG ATTCAAAGGT GACATGGGTC TAAAAGGTGA CAGAGGAGAA
GTTGGTCAAA TTGGCCCAAG AGGGGAAGAT GGCCCTGAAG GACCCAAAGG TCGAGCAGGC
CCAACTGGAG ACCCAGGTCC TTCAGGTCAA GCAGGAGAAA AGGGAAAACT TGGAGTTCCA
GGATTACCAG GATATCCAGG AAGACAAGGT CCAAAGGGTT CCACTGGATT CCCTGGGTTT
CCAGGTGCCA ATGGAGAGAA AGGTGCACGG GGAGTAGCTG GCAAACCAGG CCCTCGGGGT
CAGCGTGGTC CAACGGGTCC TCGAGGTTCA AGAGGTGCAA GAGGTCCCAC TGGGAAACCT
GGGCCAAAGG GCACTTCAGG TGGCGATGGC CCTCCTGGCC CTCCAGGTGA AAGAGGTCCT
CAAGGACCTC AGGGTCCAGT TGGATTCCCT GGACCAAAAG GCCCTCCTGG ACCACCTGGG
AAGGATGGGC TGCCAGGACA CCCTGGGCAA CGTGGGGAGA CTGGATTTCA AGGCAAGACC
GGCCCTCCTG GGCCAGGGGG AGTGGTTGGA CCACAGGGAC CAACCGGTGA GACTGGTCCA
ATAGGGGAAC GTGGGCATCC TGGCCCTCCT GGCCCTCCTG GTGAGCAAGG TCTTCCTGGT
GCTGCAGGAA AAGAAGGTGC AAAGGGTGAT CCAGGTCCTC AAGGTATCTC AGGGAAAGAT
GGACCAGCAG GATTACGTGG TTTCCCAGGG GAAAGAGGTC TTCCTGGAGC TCAGGGTGCA
CCTGGACTGA AAGGAGGGGA AGGTCCCCAG GGCCCACCAG GTCCAGTTGG CTCACCAGGA
GAACGTGGGT CAGCAGGTAC AGCTGGCCCA ATTGGTTTAC CAGGGCGCCC GGGACCTCAG
GGTCCTCCTG GTCCAGCTGG AGAGAAAGGT GCTCCTGGAG AAAAAGGTCC CCAAGGGCCT
GCAGGGAGAG ATGGAGTTCA AGGTCCTGTT GGTCTCCCAG GGCCAGCTGG TCCTGCCGGC
TCCCCTGGGG AAGACGGAGA CAAGGGTGAA ATTGGTGAGC CGGGACAAAA AGGCAGCAAG
GGTGACAAGG GAGAAAATGG CCCTCCCGGT CCCCCAGGTC TTCAAGGACC AGTTGGTGCC
CCTGGAATTG CTGGAGGTGA TGGTGAACCA GGTCCTAGAG GACAGCAGGG GATGTTTGGG
CAAAAAGGTG ATGAGGGTGC CAGAGGCTTC CCTGGACCTC CTGGTCCAAT AGGTCTTCAG
GGTCTGCCAG GCCCACCTGG TGAAAAAGGT GAAAATGGGG ATGTTGGTCC CATGGGGCCA
CCTGGTCCTC CAGGCCCAAG AGGCCCTCAA GGTCCCAATG GAGCTGATGG ACCACAAGGA
CCCCCAGGGT CTGTTGGTTC AGTTGGTGGT GTTGGAGAAA AGGGTGAACC TGGAGAAGCA
GGGAACCCAG GGCCTCCTGG GGAAGCAGGT GTAGGCGGTC CCAAAGGAGA AAGAGGAGAG
AAAGGGGAAG CTGGTCCACC TGGAGCTGCT GGACCTCCAG GTGCCAAGGG GCCACCAGGT
GATGATGGCC CTAAGGGTAA CCCGGGTCCT GTTGGTTTTC CTGGAGATCC TGGTCCTCCT
GGGGAACCTG GCCCTGCAGG TCAAGATGGT GTTGGTGGTG ACAAGGGTGA AGATGGAGAT
CCTGGTCAAC CGGGTCCTCC TGGCCCATCT GGTGAGGCTG GCCCACCAGG TCCTCCTGGA
AAACGAGGTC CTCCTGGAGC TGCAGGTGCA GAGGGAAGAC AAGGTGAAAA AGGTGCTAAG
GGGGAAGCAG GTGCAGAAGG TCCTCCTGGA AAAACCGGCC CAGTCGGTCC TCAGGGACCT
GCAGGAAAGC CTGGTCCAGA AGGTCTTCGG GGCATCCCTG GTCCTGTGGG AGAACAAGGT
CTCCCTGGAG CTGCAGGCCA AGATGGACCA CCTGGTCCTA TGAAGCTGCC TGTAACTACC
TACTGTATTG TTTCTACTGG TGAGATAAAG CTACCAAGAC ATTCCCCTTT TCCCCACCTT
TTAAATACAA CCTAG

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

CloneID OHu57007
Clone ID Related Accession (Same CDS sequence) XM_011540720
Accession Version XM_011540720.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3654bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product collagen alpha-1(XI) chain isoform X2
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_032977.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 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
ATGCCAGGAG AACCTGGGGC AAAGGGAGAT CGAGGGTTTG ATGGACTTCC GGGTCTGCCA 
GGTGACAAAG GTCACAGGGG TGAACGAGGT CCTCAAGGTC CTCCAGGTCC TCCTGGTGAT
GATGGAATGA GGGGAGAAGA TGGAGAAATT GGACCAAGAG GTCTTCCAGG TGAAGCTGGC
CCACGAGGTT TGCTGGGTCC AAGGGGAACT CCAGGAGCTC CAGGGCAGCC TGGTATGGCA
GGTGTAGATG GCCCCCCAGG ACCAAAAGGG AACATGGGTC CCCAAGGGGA GCCTGGGCCT
CCAGGTCAAC AAGGGAATCC AGGACCTCAG GGTCTTCCTG GTCCACAAGG TCCAATTGGT
CCTCCTGGTG AAAAAGGACC ACAAGGAAAA CCAGGACTTG CTGGACTTCC TGGTGCTGAT
GGGCCTCCTG GTCATCCTGG GAAAGAAGGC CAGTCTGGAG AAAAGGGGGC TCTGGGTCCC
CCTGGTCCAC AAGGTCCTAT TGGATACCCG GGCCCCCGGG GAGTAAAGGG AGCAGATGGT
GTCAGAGGTC TCAAGGGATC TAAAGGTGAA AAGGGTGAAG ATGGTTTTCC AGGATTCAAA
GGTGACATGG GTCTAAAAGG TGACAGAGGA GAAGTTGGTC AAATTGGCCC AAGAGGGGAA
GATGGCCCTG AAGGACCCAA AGGTCGAGCA GGCCCAACTG GAGACCCAGG TCCTTCAGGT
CAAGCAGGAG AAAAGGGAAA ACTTGGAGTT CCAGGATTAC CAGGATATCC AGGAAGACAA
GGTCCAAAGG GTTCCACTGG ATTCCCTGGG TTTCCAGGTG CCAATGGAGA GAAAGGTGCA
CGGGGAGTAG CTGGCAAACC AGGCCCTCGG GGTCAGCGTG GTCCAACGGG TCCTCGAGGT
TCAAGAGGTG CAAGAGGTCC CACTGGGAAA CCTGGGCCAA AGGGCACTTC AGGTGGCGAT
GGCCCTCCTG GCCCTCCAGG TGAAAGAGGT CCTCAAGGAC CTCAGGGTCC AGTTGGATTC
CCTGGACCAA AAGGCCCTCC TGGACCACCT GGGAAGGATG GGCTGCCAGG ACACCCTGGG
CAACGTGGGG AGACTGGATT TCAAGGCAAG ACCGGCCCTC CTGGGCCAGG GGGAGTGGTT
GGACCACAGG GACCAACCGG TGAGACTGGT CCAATAGGGG AACGTGGGCA TCCTGGCCCT
CCTGGCCCTC CTGGTGAGCA AGGTCTTCCT GGTGCTGCAG GAAAAGAAGG TGCAAAGGGT
GATCCAGGTC CTCAAGGTAT CTCAGGGAAA GATGGACCAG CAGGATTACG TGGTTTCCCA
GGGGAAAGAG GTCTTCCTGG AGCTCAGGGT GCACCTGGAC TGAAAGGAGG GGAAGGTCCC
CAGGGCCCAC CAGGTCCAGT TGGCTCACCA GGAGAACGTG GGTCAGCAGG TACAGCTGGC
CCAATTGGTT TACCAGGGCG CCCGGGACCT CAGGGTCCTC CTGGTCCAGC TGGAGAGAAA
GGTGCTCCTG GAGAAAAAGG TCCCCAAGGG CCTGCAGGGA GAGATGGAGT TCAAGGTCCT
GTTGGTCTCC CAGGGCCAGC TGGTCCTGCC GGCTCCCCTG GGGAAGACGG AGACAAGGGT
GAAATTGGTG AGCCGGGACA AAAAGGCAGC AAGGGTGACA AGGGAGAAAA TGGCCCTCCC
GGTCCCCCAG GTCTTCAAGG ACCAGTTGGT GCCCCTGGAA TTGCTGGAGG TGATGGTGAA
CCAGGTCCTA GAGGACAGCA GGGGATGTTT GGGCAAAAAG GTGATGAGGG TGCCAGAGGC
TTCCCTGGAC CTCCTGGTCC AATAGGTCTT CAGGGTCTGC CAGGCCCACC TGGTGAAAAA
GGTGAAAATG GGGATGTTGG TCCCATGGGG CCACCTGGTC CTCCAGGCCC AAGAGGCCCT
CAAGGTCCCA ATGGAGCTGA TGGACCACAA GGACCCCCAG GGTCTGTTGG TTCAGTTGGT
GGTGTTGGAG AAAAGGGTGA ACCTGGAGAA GCAGGGAACC CAGGGCCTCC TGGGGAAGCA
GGTGTAGGCG GTCCCAAAGG AGAAAGAGGA GAGAAAGGGG AAGCTGGTCC ACCTGGAGCT
GCTGGACCTC CAGGTGCCAA GGGGCCACCA GGTGATGATG GCCCTAAGGG TAACCCGGGT
CCTGTTGGTT TTCCTGGAGA TCCTGGTCCT CCTGGGGAAC CTGGCCCTGC AGGTCAAGAT
GGTGTTGGTG GTGACAAGGG TGAAGATGGA GATCCTGGTC AACCGGGTCC TCCTGGCCCA
TCTGGTGAGG CTGGCCCACC AGGTCCTCCT GGAAAACGAG GTCCTCCTGG AGCTGCAGGT
GCAGAGGGAA GACAAGGTGA AAAAGGTGCT AAGGGGGAAG CAGGTGCAGA AGGTCCTCCT
GGAAAAACCG GCCCAGTCGG TCCTCAGGGA CCTGCAGGAA AGCCTGGTCC AGAAGGTCTT
CGGGGCATCC CTGGTCCTGT GGGAGAACAA GGTCTCCCTG GAGCTGCAGG CCAAGATGGA
CCACCTGGTC CTATGGGACC TCCTGGCTTA CCTGGTCTCA AAGGTGACCC TGGCTCCAAG
GGTGAAAAGG GACATCCTGG TTTAATTGGC CTGATTGGTC CTCCAGGAGA ACAAGGGGAA
AAAGGTGACC GAGGGCTCCC TGGAACTCAA GGATCTCCAG GAGCAAAAGG GGATGGGGGA
ATTCCTGGTC CTGCTGGTCC CTTAGGTCCA CCTGGTCCTC CAGGTTTACC AGGTCCTCAA
GGCCCAAAGG GTAACAAAGG CTCTACTGGA CCCGCTGGCC AGAAAGGTGA CAGTGGTCTT
CCAGGGCCTC CTGGGTCTCC AGGTCCACCT GGTGAAGTCA TTCAGCCTTT ACCAATCTTG
TCCTCCAAAA AAACGAGAAG ACATACTGAA GGCATGCAAG CAGATGCAGA TGATAATATT
CTTGATTACT CGGATGGAAT GGAAGAAATA TTTGGTTCCC TCAATTCCCT GAAACAAGAC
ATTGAGCATA TGAAATTTCC AATGGGTACT CAGACCAATC CAGCCCGAAC TTGTAAAGAC
CTGCAACTCA GCCATCCTGA CTTCCCAGAT GGTGAATATT GGATTGATCC TAACCAAGGT
TGCTCAGGAG ATTCCTTCAA AGTTTACTGT AATTTCACAT CTGGTGGTGA GACTTGCATT
TATCCAGACA AAAAATCTGA GGGAGTAAGA ATTTCATCAT GGCCAAAGGA GAAACCAGGA
AGTTGGTTTA GTGAATTTAA GAGGGGAAAA CTGCTTTCAT ACTTAGATGT TGAAGGAAAT
TCCATCAATA TGGTGCAAAT GACATTCCTG AAACTTCTGA CTGCCTCTGC TCGGCAAAAT
TTCACCTACC ACTGTCATCA GTCAGCAGCC TGGTATGATG TGTCATCAGG AAGTTATGAC
AAAGCACTTC GCTTCCTGGG ATCAAATGAT GAGGAGATGT CCTATGACAA TAATCCTTTT
ATCAAAACAC TGTATGATGG TTGTGCGTCC AGAAAAGGCT ATGAAAAGAC TGTCATTGAA
ATCAATACAC CAAAAATTGA TCAAGTACCT ATTGTTGATG TCATGATCAA TGACTTTGGT
GATCAGAATC AGAAGTTCGG ATTTGAAGTT GGTCCTGTTT GTTTTCTTGG CTAA

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

RefSeq XP_011539022.1
CDS169..3822
Misc Feature(1)796..969(+)
Misc Feature(2)922..1101(+)
Misc Feature(3)1687..1836(+)
Misc Feature(4)2533..2682(+)
Misc Feature(5)3178..3813(+)
Translation

Target ORF information:

RefSeq Version XM_011540720
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant X2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011540720

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
ATGCCAGGAG AACCTGGGGC AAAGGGAGAT CGAGGGTTTG ATGGACTTCC GGGTCTGCCA 
GGTGACAAAG GTCACAGGGG TGAACGAGGT CCTCAAGGTC CTCCAGGTCC TCCTGGTGAT
GATGGAATGA GGGGAGAAGA TGGAGAAATT GGACCAAGAG GTCTTCCAGG TGAAGCTGGC
CCACGAGGTT TGCTGGGTCC AAGGGGAACT CCAGGAGCTC CAGGGCAGCC TGGTATGGCA
GGTGTAGATG GCCCCCCAGG ACCAAAAGGG AACATGGGTC CCCAAGGGGA GCCTGGGCCT
CCAGGTCAAC AAGGGAATCC AGGACCTCAG GGTCTTCCTG GTCCACAAGG TCCAATTGGT
CCTCCTGGTG AAAAAGGACC ACAAGGAAAA CCAGGACTTG CTGGACTTCC TGGTGCTGAT
GGGCCTCCTG GTCATCCTGG GAAAGAAGGC CAGTCTGGAG AAAAGGGGGC TCTGGGTCCC
CCTGGTCCAC AAGGTCCTAT TGGATACCCG GGCCCCCGGG GAGTAAAGGG AGCAGATGGT
GTCAGAGGTC TCAAGGGATC TAAAGGTGAA AAGGGTGAAG ATGGTTTTCC AGGATTCAAA
GGTGACATGG GTCTAAAAGG TGACAGAGGA GAAGTTGGTC AAATTGGCCC AAGAGGGGAA
GATGGCCCTG AAGGACCCAA AGGTCGAGCA GGCCCAACTG GAGACCCAGG TCCTTCAGGT
CAAGCAGGAG AAAAGGGAAA ACTTGGAGTT CCAGGATTAC CAGGATATCC AGGAAGACAA
GGTCCAAAGG GTTCCACTGG ATTCCCTGGG TTTCCAGGTG CCAATGGAGA GAAAGGTGCA
CGGGGAGTAG CTGGCAAACC AGGCCCTCGG GGTCAGCGTG GTCCAACGGG TCCTCGAGGT
TCAAGAGGTG CAAGAGGTCC CACTGGGAAA CCTGGGCCAA AGGGCACTTC AGGTGGCGAT
GGCCCTCCTG GCCCTCCAGG TGAAAGAGGT CCTCAAGGAC CTCAGGGTCC AGTTGGATTC
CCTGGACCAA AAGGCCCTCC TGGACCACCT GGGAAGGATG GGCTGCCAGG ACACCCTGGG
CAACGTGGGG AGACTGGATT TCAAGGCAAG ACCGGCCCTC CTGGGCCAGG GGGAGTGGTT
GGACCACAGG GACCAACCGG TGAGACTGGT CCAATAGGGG AACGTGGGCA TCCTGGCCCT
CCTGGCCCTC CTGGTGAGCA AGGTCTTCCT GGTGCTGCAG GAAAAGAAGG TGCAAAGGGT
GATCCAGGTC CTCAAGGTAT CTCAGGGAAA GATGGACCAG CAGGATTACG TGGTTTCCCA
GGGGAAAGAG GTCTTCCTGG AGCTCAGGGT GCACCTGGAC TGAAAGGAGG GGAAGGTCCC
CAGGGCCCAC CAGGTCCAGT TGGCTCACCA GGAGAACGTG GGTCAGCAGG TACAGCTGGC
CCAATTGGTT TACCAGGGCG CCCGGGACCT CAGGGTCCTC CTGGTCCAGC TGGAGAGAAA
GGTGCTCCTG GAGAAAAAGG TCCCCAAGGG CCTGCAGGGA GAGATGGAGT TCAAGGTCCT
GTTGGTCTCC CAGGGCCAGC TGGTCCTGCC GGCTCCCCTG GGGAAGACGG AGACAAGGGT
GAAATTGGTG AGCCGGGACA AAAAGGCAGC AAGGGTGACA AGGGAGAAAA TGGCCCTCCC
GGTCCCCCAG GTCTTCAAGG ACCAGTTGGT GCCCCTGGAA TTGCTGGAGG TGATGGTGAA
CCAGGTCCTA GAGGACAGCA GGGGATGTTT GGGCAAAAAG GTGATGAGGG TGCCAGAGGC
TTCCCTGGAC CTCCTGGTCC AATAGGTCTT CAGGGTCTGC CAGGCCCACC TGGTGAAAAA
GGTGAAAATG GGGATGTTGG TCCCATGGGG CCACCTGGTC CTCCAGGCCC AAGAGGCCCT
CAAGGTCCCA ATGGAGCTGA TGGACCACAA GGACCCCCAG GGTCTGTTGG TTCAGTTGGT
GGTGTTGGAG AAAAGGGTGA ACCTGGAGAA GCAGGGAACC CAGGGCCTCC TGGGGAAGCA
GGTGTAGGCG GTCCCAAAGG AGAAAGAGGA GAGAAAGGGG AAGCTGGTCC ACCTGGAGCT
GCTGGACCTC CAGGTGCCAA GGGGCCACCA GGTGATGATG GCCCTAAGGG TAACCCGGGT
CCTGTTGGTT TTCCTGGAGA TCCTGGTCCT CCTGGGGAAC CTGGCCCTGC AGGTCAAGAT
GGTGTTGGTG GTGACAAGGG TGAAGATGGA GATCCTGGTC AACCGGGTCC TCCTGGCCCA
TCTGGTGAGG CTGGCCCACC AGGTCCTCCT GGAAAACGAG GTCCTCCTGG AGCTGCAGGT
GCAGAGGGAA GACAAGGTGA AAAAGGTGCT AAGGGGGAAG CAGGTGCAGA AGGTCCTCCT
GGAAAAACCG GCCCAGTCGG TCCTCAGGGA CCTGCAGGAA AGCCTGGTCC AGAAGGTCTT
CGGGGCATCC CTGGTCCTGT GGGAGAACAA GGTCTCCCTG GAGCTGCAGG CCAAGATGGA
CCACCTGGTC CTATGGGACC TCCTGGCTTA CCTGGTCTCA AAGGTGACCC TGGCTCCAAG
GGTGAAAAGG GACATCCTGG TTTAATTGGC CTGATTGGTC CTCCAGGAGA ACAAGGGGAA
AAAGGTGACC GAGGGCTCCC TGGAACTCAA GGATCTCCAG GAGCAAAAGG GGATGGGGGA
ATTCCTGGTC CTGCTGGTCC CTTAGGTCCA CCTGGTCCTC CAGGTTTACC AGGTCCTCAA
GGCCCAAAGG GTAACAAAGG CTCTACTGGA CCCGCTGGCC AGAAAGGTGA CAGTGGTCTT
CCAGGGCCTC CTGGGTCTCC AGGTCCACCT GGTGAAGTCA TTCAGCCTTT ACCAATCTTG
TCCTCCAAAA AAACGAGAAG ACATACTGAA GGCATGCAAG CAGATGCAGA TGATAATATT
CTTGATTACT CGGATGGAAT GGAAGAAATA TTTGGTTCCC TCAATTCCCT GAAACAAGAC
ATTGAGCATA TGAAATTTCC AATGGGTACT CAGACCAATC CAGCCCGAAC TTGTAAAGAC
CTGCAACTCA GCCATCCTGA CTTCCCAGAT GGTGAATATT GGATTGATCC TAACCAAGGT
TGCTCAGGAG ATTCCTTCAA AGTTTACTGT AATTTCACAT CTGGTGGTGA GACTTGCATT
TATCCAGACA AAAAATCTGA GGGAGTAAGA ATTTCATCAT GGCCAAAGGA GAAACCAGGA
AGTTGGTTTA GTGAATTTAA GAGGGGAAAA CTGCTTTCAT ACTTAGATGT TGAAGGAAAT
TCCATCAATA TGGTGCAAAT GACATTCCTG AAACTTCTGA CTGCCTCTGC TCGGCAAAAT
TTCACCTACC ACTGTCATCA GTCAGCAGCC TGGTATGATG TGTCATCAGG AAGTTATGAC
AAAGCACTTC GCTTCCTGGG ATCAAATGAT GAGGAGATGT CCTATGACAA TAATCCTTTT
ATCAAAACAC TGTATGATGG TTGTGCGTCC AGAAAAGGCT ATGAAAAGAC TGTCATTGAA
ATCAATACAC CAAAAATTGA TCAAGTACCT ATTGTTGATG TCATGATCAA TGACTTTGGT
GATCAGAATC AGAAGTTCGG ATTTGAAGTT GGTCCTGTTT GTTTTCTTGG CTAA

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

CloneID OHu57008
Clone ID Related Accession (Same CDS sequence) XM_011540721
Accession Version XM_011540721.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3009bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product collagen alpha-1(XI) chain isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_032977.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 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
ATGGCCCTGA AGGACCCAAA GGTCGAGCAG GCCCAACTGG AGACCCAGGT CCTTCAGGTC 
AAGCAGGAGA AAAGGGAAAA CTTGGAGTTC CAGGATTACC AGGATATCCA GGAAGACAAG
GTCCAAAGGA TTTCAGATGT CATTGGTTCC ACTGGATTCC CTGGGTTTCC AGGTGCCAAT
GGAGAGAAAG GTGCACGGGG AGTAGCTGGC AAACCAGGCC CTCGGGGTCA GCGTGGTCCA
ACGGGTCCTC GAGGTTCAAG AGGTGCAAGA GGTCCCACTG GGAAACCTGG GCCAAAGGGC
ACTTCAGGTG GCGATGGCCC TCCTGGCCCT CCAGGTGAAA GAGGTCCTCA AGGACCTCAG
GGTCCAGTTG GATTCCCTGG ACCAAAAGGC CCTCCTGGAC CACCTGGGAA GGATGGGCTG
CCAGGACACC CTGGGCAACG TGGGGAGACT GGATTTCAAG GCAAGACCGG CCCTCCTGGG
CCAGGGGGAG TGGTTGGACC ACAGGGACCA ACCGGTGAGA CTGGTCCAAT AGGGGAACGT
GGGCATCCTG GCCCTCCTGG CCCTCCTGGT GAGCAAGGTC TTCCTGGTGC TGCAGGAAAA
GAAGGTGCAA AGGGTGATCC AGGTCCTCAA GGTATCTCAG GGAAAGATGG ACCAGCAGGA
TTACGTGGTT TCCCAGGGGA AAGAGGTCTT CCTGGAGCTC AGGGTGCACC TGGACTGAAA
GGAGGGGAAG GTCCCCAGGG CCCACCAGGT CCAGTTGGCT CACCAGGAGA ACGTGGGTCA
GCAGGTACAG CTGGCCCAAT TGGTTTACCA GGGCGCCCGG GACCTCAGGG TCCTCCTGGT
CCAGCTGGAG AGAAAGGTGC TCCTGGAGAA AAAGGTCCCC AAGGGCCTGC AGGGAGAGAT
GGAGTTCAAG GTCCTGTTGG TCTCCCAGGG CCAGCTGGTC CTGCCGGCTC CCCTGGGGAA
GACGGAGACA AGGGTGAAAT TGGTGAGCCG GGACAAAAAG GCAGCAAGGG TGACAAGGGA
GAAAATGGCC CTCCCGGTCC CCCAGGTCTT CAAGGACCAG TTGGTGCCCC TGGAATTGCT
GGAGGTGATG GTGAACCAGG TCCTAGAGGA CAGCAGGGGA TGTTTGGGCA AAAAGGTGAT
GAGGGTGCCA GAGGCTTCCC TGGACCTCCT GGTCCAATAG GTCTTCAGGG TCTGCCAGGC
CCACCTGGTG AAAAAGGTGA AAATGGGGAT GTTGGTCCCA TGGGGCCACC TGGTCCTCCA
GGCCCAAGAG GCCCTCAAGG TCCCAATGGA GCTGATGGAC CACAAGGACC CCCAGGGTCT
GTTGGTTCAG TTGGTGGTGT TGGAGAAAAG GGTGAACCTG GAGAAGCAGG GAACCCAGGG
CCTCCTGGGG AAGCAGGTGT AGGCGGTCCC AAAGGAGAAA GAGGAGAGAA AGGGGAAGCT
GGTCCACCTG GAGCTGCTGG ACCTCCAGGT GCCAAGGGGC CACCAGGTGA TGATGGCCCT
AAGGGTAACC CGGGTCCTGT TGGTTTTCCT GGAGATCCTG GTCCTCCTGG GGAACCTGGC
CCTGCAGGTC AAGATGGTGT TGGTGGTGAC AAGGGTGAAG ATGGAGATCC TGGTCAACCG
GGTCCTCCTG GCCCATCTGG TGAGGCTGGC CCACCAGGTC CTCCTGGAAA ACGAGGTCCT
CCTGGAGCTG CAGGTGCAGA GGGAAGACAA GGTGAAAAAG GTGCTAAGGG GGAAGCAGGT
GCAGAAGGTC CTCCTGGAAA AACCGGCCCA GTCGGTCCTC AGGGACCTGC AGGAAAGCCT
GGTCCAGAAG GTCTTCGGGG CATCCCTGGT CCTGTGGGAG AACAAGGTCT CCCTGGAGCT
GCAGGCCAAG ATGGACCACC TGGTCCTATG GGACCTCCTG GCTTACCTGG TCTCAAAGGT
GACCCTGGCT CCAAGGGTGA AAAGGGACAT CCTGGTTTAA TTGGCCTGAT TGGTCCTCCA
GGAGAACAAG GGGAAAAAGG TGACCGAGGG CTCCCTGGAA CTCAAGGATC TCCAGGAGCA
AAAGGGGATG GGGGAATTCC TGGTCCTGCT GGTCCCTTAG GTCCACCTGG TCCTCCAGGT
TTACCAGGTC CTCAAGGCCC AAAGGGTAAC AAAGGCTCTA CTGGACCCGC TGGCCAGAAA
GGTGACAGTG GTCTTCCAGG GCCTCCTGGG TCTCCAGGTC CACCTGGTGA AGTCATTCAG
CCTTTACCAA TCTTGTCCTC CAAAAAAACG AGAAGACATA CTGAAGGCAT GCAAGCAGAT
GCAGATGATA ATATTCTTGA TTACTCGGAT GGAATGGAAG AAATATTTGG TTCCCTCAAT
TCCCTGAAAC AAGACATTGA GCATATGAAA TTTCCAATGG GTACTCAGAC CAATCCAGCC
CGAACTTGTA AAGACCTGCA ACTCAGCCAT CCTGACTTCC CAGATGGTGA ATATTGGATT
GATCCTAACC AAGGTTGCTC AGGAGATTCC TTCAAAGTTT ACTGTAATTT CACATCTGGT
GGTGAGACTT GCATTTATCC AGACAAAAAA TCTGAGGGAG TAAGAATTTC ATCATGGCCA
AAGGAGAAAC CAGGAAGTTG GTTTAGTGAA TTTAAGAGGG GAAAACTGCT TTCATACTTA
GATGTTGAAG GAAATTCCAT CAATATGGTG CAAATGACAT TCCTGAAACT TCTGACTGCC
TCTGCTCGGC AAAATTTCAC CTACCACTGT CATCAGTCAG CAGCCTGGTA TGATGTGTCA
TCAGGAAGTT ATGACAAAGC ACTTCGCTTC CTGGGATCAA ATGATGAGGA GATGTCCTAT
GACAATAATC CTTTTATCAA AACACTGTAT GATGGTTGTG CGTCCAGAAA AGGCTATGAA
AAGACTGTCA TTGAAATCAA TACACCAAAA ATTGATCAAG TACCTATTGT TGATGTCATG
ATCAATGACT TTGGTGATCA GAATCAGAAG TTCGGATTTG AAGTTGGTCC TGTTTGTTTT
CTTGGCTAA

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

RefSeq XP_011539023.1
CDS1747..4755
Misc Feature(1)1891..2043(+)
Misc Feature(2)2620..2769(+)
Misc Feature(3)3466..3615(+)
Misc Feature(4)4111..4746(+)
Translation

Target ORF information:

RefSeq Version XM_011540721
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011540721

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
ATGGCCCTGA AGGACCCAAA GGTCGAGCAG GCCCAACTGG AGACCCAGGT CCTTCAGGTC 
AAGCAGGAGA AAAGGGAAAA CTTGGAGTTC CAGGATTACC AGGATATCCA GGAAGACAAG
GTCCAAAGGA TTTCAGATGT CATTGGTTCC ACTGGATTCC CTGGGTTTCC AGGTGCCAAT
GGAGAGAAAG GTGCACGGGG AGTAGCTGGC AAACCAGGCC CTCGGGGTCA GCGTGGTCCA
ACGGGTCCTC GAGGTTCAAG AGGTGCAAGA GGTCCCACTG GGAAACCTGG GCCAAAGGGC
ACTTCAGGTG GCGATGGCCC TCCTGGCCCT CCAGGTGAAA GAGGTCCTCA AGGACCTCAG
GGTCCAGTTG GATTCCCTGG ACCAAAAGGC CCTCCTGGAC CACCTGGGAA GGATGGGCTG
CCAGGACACC CTGGGCAACG TGGGGAGACT GGATTTCAAG GCAAGACCGG CCCTCCTGGG
CCAGGGGGAG TGGTTGGACC ACAGGGACCA ACCGGTGAGA CTGGTCCAAT AGGGGAACGT
GGGCATCCTG GCCCTCCTGG CCCTCCTGGT GAGCAAGGTC TTCCTGGTGC TGCAGGAAAA
GAAGGTGCAA AGGGTGATCC AGGTCCTCAA GGTATCTCAG GGAAAGATGG ACCAGCAGGA
TTACGTGGTT TCCCAGGGGA AAGAGGTCTT CCTGGAGCTC AGGGTGCACC TGGACTGAAA
GGAGGGGAAG GTCCCCAGGG CCCACCAGGT CCAGTTGGCT CACCAGGAGA ACGTGGGTCA
GCAGGTACAG CTGGCCCAAT TGGTTTACCA GGGCGCCCGG GACCTCAGGG TCCTCCTGGT
CCAGCTGGAG AGAAAGGTGC TCCTGGAGAA AAAGGTCCCC AAGGGCCTGC AGGGAGAGAT
GGAGTTCAAG GTCCTGTTGG TCTCCCAGGG CCAGCTGGTC CTGCCGGCTC CCCTGGGGAA
GACGGAGACA AGGGTGAAAT TGGTGAGCCG GGACAAAAAG GCAGCAAGGG TGACAAGGGA
GAAAATGGCC CTCCCGGTCC CCCAGGTCTT CAAGGACCAG TTGGTGCCCC TGGAATTGCT
GGAGGTGATG GTGAACCAGG TCCTAGAGGA CAGCAGGGGA TGTTTGGGCA AAAAGGTGAT
GAGGGTGCCA GAGGCTTCCC TGGACCTCCT GGTCCAATAG GTCTTCAGGG TCTGCCAGGC
CCACCTGGTG AAAAAGGTGA AAATGGGGAT GTTGGTCCCA TGGGGCCACC TGGTCCTCCA
GGCCCAAGAG GCCCTCAAGG TCCCAATGGA GCTGATGGAC CACAAGGACC CCCAGGGTCT
GTTGGTTCAG TTGGTGGTGT TGGAGAAAAG GGTGAACCTG GAGAAGCAGG GAACCCAGGG
CCTCCTGGGG AAGCAGGTGT AGGCGGTCCC AAAGGAGAAA GAGGAGAGAA AGGGGAAGCT
GGTCCACCTG GAGCTGCTGG ACCTCCAGGT GCCAAGGGGC CACCAGGTGA TGATGGCCCT
AAGGGTAACC CGGGTCCTGT TGGTTTTCCT GGAGATCCTG GTCCTCCTGG GGAACCTGGC
CCTGCAGGTC AAGATGGTGT TGGTGGTGAC AAGGGTGAAG ATGGAGATCC TGGTCAACCG
GGTCCTCCTG GCCCATCTGG TGAGGCTGGC CCACCAGGTC CTCCTGGAAA ACGAGGTCCT
CCTGGAGCTG CAGGTGCAGA GGGAAGACAA GGTGAAAAAG GTGCTAAGGG GGAAGCAGGT
GCAGAAGGTC CTCCTGGAAA AACCGGCCCA GTCGGTCCTC AGGGACCTGC AGGAAAGCCT
GGTCCAGAAG GTCTTCGGGG CATCCCTGGT CCTGTGGGAG AACAAGGTCT CCCTGGAGCT
GCAGGCCAAG ATGGACCACC TGGTCCTATG GGACCTCCTG GCTTACCTGG TCTCAAAGGT
GACCCTGGCT CCAAGGGTGA AAAGGGACAT CCTGGTTTAA TTGGCCTGAT TGGTCCTCCA
GGAGAACAAG GGGAAAAAGG TGACCGAGGG CTCCCTGGAA CTCAAGGATC TCCAGGAGCA
AAAGGGGATG GGGGAATTCC TGGTCCTGCT GGTCCCTTAG GTCCACCTGG TCCTCCAGGT
TTACCAGGTC CTCAAGGCCC AAAGGGTAAC AAAGGCTCTA CTGGACCCGC TGGCCAGAAA
GGTGACAGTG GTCTTCCAGG GCCTCCTGGG TCTCCAGGTC CACCTGGTGA AGTCATTCAG
CCTTTACCAA TCTTGTCCTC CAAAAAAACG AGAAGACATA CTGAAGGCAT GCAAGCAGAT
GCAGATGATA ATATTCTTGA TTACTCGGAT GGAATGGAAG AAATATTTGG TTCCCTCAAT
TCCCTGAAAC AAGACATTGA GCATATGAAA TTTCCAATGG GTACTCAGAC CAATCCAGCC
CGAACTTGTA AAGACCTGCA ACTCAGCCAT CCTGACTTCC CAGATGGTGA ATATTGGATT
GATCCTAACC AAGGTTGCTC AGGAGATTCC TTCAAAGTTT ACTGTAATTT CACATCTGGT
GGTGAGACTT GCATTTATCC AGACAAAAAA TCTGAGGGAG TAAGAATTTC ATCATGGCCA
AAGGAGAAAC CAGGAAGTTG GTTTAGTGAA TTTAAGAGGG GAAAACTGCT TTCATACTTA
GATGTTGAAG GAAATTCCAT CAATATGGTG CAAATGACAT TCCTGAAACT TCTGACTGCC
TCTGCTCGGC AAAATTTCAC CTACCACTGT CATCAGTCAG CAGCCTGGTA TGATGTGTCA
TCAGGAAGTT ATGACAAAGC ACTTCGCTTC CTGGGATCAA ATGATGAGGA GATGTCCTAT
GACAATAATC CTTTTATCAA AACACTGTAT GATGGTTGTG CGTCCAGAAA AGGCTATGAA
AAGACTGTCA TTGAAATCAA TACACCAAAA ATTGATCAAG TACCTATTGT TGATGTCATG
ATCAATGACT TTGGTGATCA GAATCAGAAG TTCGGATTTG AAGTTGGTCC TGTTTGTTTT
CTTGGCTAA

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

CloneID OHu23797
Clone ID Related Accession (Same CDS sequence) NM_080630
Accession Version NM_080630.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5073bp)
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 15-MAR-2015
Organism Homo sapiens (human)
Product collagen alpha-1(XI) chain isoform C preproprotein
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC093150.4, BC117697.1, AC099567.2 and CA448616.1. On or before Jun 25, 2010 this sequence version replaced gi:269914088, gi:98985807. Transcript Variant: This variant (C, previously referred to as D) includes alternate exon 6A but lacks two other alternate exons, resulting in the loss of an in-frame segment in the coding region, compared to variant A. The encoded isoform (C, previously referred to as D) is shorter than isoform A. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC117697.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968189 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

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
ATGGAGCCGT GGTCCTCTAG GTGGAAAACG AAACGGTGGC TCTGGGATTT CACCGTAACA 
ACCCTCGCAT TGACCTTCCT CTTCCAAGCT AGAGAGGTCA GAGGAGCTGC TCCAGTTGAT
GTACTAAAAG CACTAGATTT TCACAATTCT CCAGAGGGAA TATCAAAAAC AACGGGATTT
TGCACAAACA GAAAGAATTC TAAAGGCTCA GATACTGCTT ACAGAGTTTC AAAGCAAGCA
CAACTCAGTG CCCCAACAAA ACAGTTATTT CCAGGTGGAA CTTTCCCAGA AGACTTTTCA
ATACTATTTA CAGTAAAACC AAAAAAAGGA ATTCAGTCTT TCCTTTTATC TATATATAAT
GAGCATGGTA TTCAGCAAAT TGGTGTTGAG GTTGGGAGAT CACCTGTTTT TCTGTTTGAA
GACCACACTG GAAAACCTGC CCCAGAAGAC TATCCCCTCT TCAGAACTGT TAACATCGCT
GACGGGAAGT GGCATCGGGT AGCAATCAGC GTGGAGAAGA AAACTGTGAC AATGATTGTT
GATTGTAAGA AGAAAACCAC GAAACCACTT GATAGAAGTG AGAGAGCAAT TGTTGATACC
AATGGAATCA CGGTTTTTGG AACAAGGATT TTGGATGAAG AAGTTTTTGA GGGGGACATT
CAGCAGTTTT TGATCACAGG TGATCCCAAG GCAGCATATG ACTACTGTGA GCATTATAGT
CCAGACTGTG ACTCTTCAGC ACCCAAGGCT GCTCAAGCTC AGGAACCTCA GATAGATGAG
TATGCACCAG AGGATATAAT CGAATATGAC TATGAGTATG GGGAAGCAGA GTATAAAGAG
GCTGAAAGTG TAACAGAGGG ACCCACTGTA ACTGAGGAGA CAATAGCACA GACGGAGATA
AATGGCCATG GTGCATATGG AGAGAAAGGA CAGAAAGGAG AACCAGCAGT GGTTGAGCCT
GGTATGCTTG TCGAAGGACC ACCAGGACCA GCAGGACCTG CAGGTATTAT GGGTCCTCCA
GGTCTACAAG GCCCCACTGG ACCCCCTGGT GACCCTGGCG ATAGGGGCCC CCCAGGACGT
CCTGGCTTAC CAGGGGCTGA TGGTCTACCT GGTCCTCCTG GTACTATGTT GATGTTACCG
TTCCGTTATG GTGGTGATGG TTCCAAAGGA CCAACCATCT CTGCTCAGGA AGCTCAGGCT
CAAGCTATTC TTCAGCAGGC TCGGATTGCT CTGAGAGGCC CACCTGGCCC AATGGGTCTA
ACTGGAAGAC CAGGTCCTGT GGGGGGGCCT GGTTCATCTG GGGCCAAAGG TGAGAGTGGT
GATCCAGGTC CTCAGGGCCC TCGAGGCGTC CAGGGTCCCC CTGGTCCAAC GGGAAAACCT
GGAAAAAGGG GTCGTCCAGG TGCAGATGGA GGAAGAGGAA TGCCAGGAGA ACCTGGGGCA
AAGGGAGATC GAGGGTTTGA TGGACTTCCG GGTCTGCCAG GTGACAAAGG TCACAGGGGT
GAACGAGGTC CTCAAGGTCC TCCAGGTCCT CCTGGTGATG ATGGAATGAG GGGAGAAGAT
GGAGAAATTG GACCAAGAGG TCTTCCAGGT GAAGCTGGCC CACGAGGTTT GCTGGGTCCA
AGGGGAACTC CAGGAGCTCC AGGGCAGCCT GGTATGGCAG GTGTAGATGG CCCCCCAGGA
CCAAAAGGGA ACATGGGTCC CCAAGGGGAG CCTGGGCCTC CAGGTCAACA AGGGAATCCA
GGACCTCAGG GTCTTCCTGG TCCACAAGGT CCAATTGGTC CTCCTGGTGA AAAAGGACCA
CAAGGAAAAC CAGGACTTGC TGGACTTCCT GGTGCTGATG GGCCTCCTGG TCATCCTGGG
AAAGAAGGCC AGTCTGGAGA AAAGGGGGCT CTGGGTCCCC CTGGTCCACA AGGTCCTATT
GGATACCCGG GCCCCCGGGG AGTAAAGGGA GCAGATGGTG TCAGAGGTCT CAAGGGATCT
AAAGGTGAAA AGGGTGAAGA TGGTTTTCCA GGATTCAAAG GTGACATGGG TCTAAAAGGT
GACAGAGGAG AAGTTGGTCA AATTGGCCCA AGAGGGGAAG ATGGCCCTGA AGGACCCAAA
GGTCGAGCAG GCCCAACTGG AGACCCAGGT CCTTCAGGTC AAGCAGGAGA AAAGGGAAAA
CTTGGAGTTC CAGGATTACC AGGATATCCA GGAAGACAAG GTCCAAAGGG TTCCACTGGA
TTCCCTGGGT TTCCAGGTGC CAATGGAGAG AAAGGTGCAC GGGGAGTAGC TGGCAAACCA
GGCCCTCGGG GTCAGCGTGG TCCAACGGGT CCTCGAGGTT CAAGAGGTGC AAGAGGTCCC
ACTGGGAAAC CTGGGCCAAA GGGCACTTCA GGTGGCGATG GCCCTCCTGG CCCTCCAGGT
GAAAGAGGTC CTCAAGGACC TCAGGGTCCA GTTGGATTCC CTGGACCAAA AGGCCCTCCT
GGACCACCTG GGAAGGATGG GCTGCCAGGA CACCCTGGGC AACGTGGGGA GACTGGATTT
CAAGGCAAGA CCGGCCCTCC TGGGCCAGGG GGAGTGGTTG GACCACAGGG ACCAACCGGT
GAGACTGGTC CAATAGGGGA ACGTGGGCAT CCTGGCCCTC CTGGCCCTCC TGGTGAGCAA
GGTCTTCCTG GTGCTGCAGG AAAAGAAGGT GCAAAGGGTG ATCCAGGTCC TCAAGGTATC
TCAGGGAAAG ATGGACCAGC AGGATTACGT GGTTTCCCAG GGGAAAGAGG TCTTCCTGGA
GCTCAGGGTG CACCTGGACT GAAAGGAGGG GAAGGTCCCC AGGGCCCACC AGGTCCAGTT
GGCTCACCAG GAGAACGTGG GTCAGCAGGT ACAGCTGGCC CAATTGGTTT ACCAGGGCGC
CCGGGACCTC AGGGTCCTCC TGGTCCAGCT GGAGAGAAAG GTGCTCCTGG AGAAAAAGGT
CCCCAAGGGC CTGCAGGGAG AGATGGAGTT CAAGGTCCTG TTGGTCTCCC AGGGCCAGCT
GGTCCTGCCG GCTCCCCTGG GGAAGACGGA GACAAGGGTG AAATTGGTGA GCCGGGACAA
AAAGGCAGCA AGGGTGACAA GGGAGAAAAT GGCCCTCCCG GTCCCCCAGG TCTTCAAGGA
CCAGTTGGTG CCCCTGGAAT TGCTGGAGGT GATGGTGAAC CAGGTCCTAG AGGACAGCAG
GGGATGTTTG GGCAAAAAGG TGATGAGGGT GCCAGAGGCT TCCCTGGACC TCCTGGTCCA
ATAGGTCTTC AGGGTCTGCC AGGCCCACCT GGTGAAAAAG GTGAAAATGG GGATGTTGGT
CCCATGGGGC CACCTGGTCC TCCAGGCCCA AGAGGCCCTC AAGGTCCCAA TGGAGCTGAT
GGACCACAAG GACCCCCAGG GTCTGTTGGT TCAGTTGGTG GTGTTGGAGA AAAGGGTGAA
CCTGGAGAAG CAGGGAACCC AGGGCCTCCT GGGGAAGCAG GTGTAGGCGG TCCCAAAGGA
GAAAGAGGAG AGAAAGGGGA AGCTGGTCCA CCTGGAGCTG CTGGACCTCC AGGTGCCAAG
GGGCCACCAG GTGATGATGG CCCTAAGGGT AACCCGGGTC CTGTTGGTTT TCCTGGAGAT
CCTGGTCCTC CTGGGGAACC TGGCCCTGCA GGTCAAGATG GTGTTGGTGG TGACAAGGGT
GAAGATGGAG ATCCTGGTCA ACCGGGTCCT CCTGGCCCAT CTGGTGAGGC TGGCCCACCA
GGTCCTCCTG GAAAACGAGG TCCTCCTGGA GCTGCAGGTG CAGAGGGAAG ACAAGGTGAA
AAAGGTGCTA AGGGGGAAGC AGGTGCAGAA GGTCCTCCTG GAAAAACCGG CCCAGTCGGT
CCTCAGGGAC CTGCAGGAAA GCCTGGTCCA GAAGGTCTTC GGGGCATCCC TGGTCCTGTG
GGAGAACAAG GTCTCCCTGG AGCTGCAGGC CAAGATGGAC CACCTGGTCC TATGGGACCT
CCTGGCTTAC CTGGTCTCAA AGGTGACCCT GGCTCCAAGG GTGAAAAGGG ACATCCTGGT
TTAATTGGCC TGATTGGTCC TCCAGGAGAA CAAGGGGAAA AAGGTGACCG AGGGCTCCCT
GGAACTCAAG GATCTCCAGG AGCAAAAGGG GATGGGGGAA TTCCTGGTCC TGCTGGTCCC
TTAGGTCCAC CTGGTCCTCC AGGTTTACCA GGTCCTCAAG GCCCAAAGGG TAACAAAGGC
TCTACTGGAC CCGCTGGCCA GAAAGGTGAC AGTGGTCTTC CAGGGCCTCC TGGGTCTCCA
GGTCCACCTG GTGAAGTCAT TCAGCCTTTA CCAATCTTGT CCTCCAAAAA AACGAGAAGA
CATACTGAAG GCATGCAAGC AGATGCAGAT GATAATATTC TTGATTACTC GGATGGAATG
GAAGAAATAT TTGGTTCCCT CAATTCCCTG AAACAAGACA TTGAGCATAT GAAATTTCCA
ATGGGTACTC AGACCAATCC AGCCCGAACT TGTAAAGACC TGCAACTCAG CCATCCTGAC
TTCCCAGATG GTGAATATTG GATTGATCCT AACCAAGGTT GCTCAGGAGA TTCCTTCAAA
GTTTACTGTA ATTTCACATC TGGTGGTGAG ACTTGCATTT ATCCAGACAA AAAATCTGAG
GGAGTAAGAA TTTCATCATG GCCAAAGGAG AAACCAGGAA GTTGGTTTAG TGAATTTAAG
AGGGGAAAAC TGCTTTCATA CTTAGATGTT GAAGGAAATT CCATCAATAT GGTGCAAATG
ACATTCCTGA AACTTCTGAC TGCCTCTGCT CGGCAAAATT TCACCTACCA CTGTCATCAG
TCAGCAGCCT GGTATGATGT GTCATCAGGA AGTTATGACA AAGCACTTCG CTTCCTGGGA
TCAAATGATG AGGAGATGTC CTATGACAAT AATCCTTTTA TCAAAACACT GTATGATGGT
TGTGCGTCCA GAAAAGGCTA TGAAAAGACT GTCATTGAAA TCAATACACC AAAAATTGAT
CAAGTACCTA TTGTTGATGT CATGATCAAT GACTTTGGTG ATCAGAATCA GAAGTTCGGA
TTTGAAGTTG GTCCTGTTTG TTTTCTTGGC TAA

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

RefSeq NP_542197.3
CDS319..5391
Misc Feature(1)301..303(+)
Misc Feature(2)535..993(+)
Misc Feature(3)1879..>2013(+)
Misc Feature(4)2365..2538(+)
Misc Feature(5)2491..2670(+)
Misc Feature(6)3256..3405(+)
Misc Feature(7)4102..4251(+)
Misc Feature(8)4747..5382(+)
Exon (1)1..424
Gene:COL11A1
Gene Synonym:
Exon (2)425..592
Gene:COL11A1
Gene Synonym:
Exon (3)593..806
Gene:COL11A1
Gene Synonym:
Exon (4)807..969
Gene:COL11A1
Gene Synonym:
Exon (5)970..1098
Gene:COL11A1
Gene Synonym:
Exon (6)1099..1215
Gene:COL11A1
Gene Synonym:
Exon (7)1216..1278
Gene:COL11A1
Gene Synonym:
Exon (8)1279..1320
Gene:COL11A1
Gene Synonym:
Exon (9)1321..1383
Gene:COL11A1
Gene Synonym:
Exon (10)1384..1458
Gene:COL11A1
Gene Synonym:
Exon (11)1459..1542
Gene:COL11A1
Gene Synonym:
Exon (12)1543..1599
Gene:COL11A1
Gene Synonym:
Exon (13)1600..1653
Gene:COL11A1
Gene Synonym:
Exon (14)1654..1707
Gene:COL11A1
Gene Synonym:
Exon (15)1708..1761
Gene:COL11A1
Gene Synonym:
Exon (16)1762..1815
Gene:COL11A1
Gene Synonym:
Exon (17)1816..1869
Gene:COL11A1
Gene Synonym:
Exon (18)1870..1914
Gene:COL11A1
Gene Synonym:
Exon (19)1915..1968
Gene:COL11A1
Gene Synonym:
Exon (20)1969..2013
Gene:COL11A1
Gene Synonym:
Exon (21)2014..2067
Gene:COL11A1
Gene Synonym:
Exon (22)2068..2112
Gene:COL11A1
Gene Synonym:
Exon (23)2113..2166
Gene:COL11A1
Gene Synonym:
Exon (24)2167..2211
Gene:COL11A1
Gene Synonym:
Exon (25)2212..2265
Gene:COL11A1
Gene Synonym:
Exon (26)2266..2310
Gene:COL11A1
Gene Synonym:
Exon (27)2311..2364
Gene:COL11A1
Gene Synonym:
Exon (28)2365..2472
Gene:COL11A1
Gene Synonym:
Exon (29)2473..2526
Gene:COL11A1
Gene Synonym:
Exon (30)2527..2580
Gene:COL11A1
Gene Synonym:
Exon (31)2581..2625
Gene:COL11A1
Gene Synonym:
Exon (32)2626..2679
Gene:COL11A1
Gene Synonym:
Exon (33)2680..2724
Gene:COL11A1
Gene Synonym:
Exon (34)2725..2778
Gene:COL11A1
Gene Synonym:
Exon (35)2779..2832
Gene:COL11A1
Gene Synonym:
Exon (36)2833..2886
Gene:COL11A1
Gene Synonym:
Exon (37)2887..2994
Gene:COL11A1
Gene Synonym:
Exon (38)2995..3084
Gene:COL11A1
Gene Synonym:
Exon (39)3085..3138
Gene:COL11A1
Gene Synonym:
Exon (40)3139..3246
Gene:COL11A1
Gene Synonym:
Exon (41)3247..3354
Gene:COL11A1
Gene Synonym:
Exon (42)3355..3408
Gene:COL11A1
Gene Synonym:
Exon (43)3409..3462
Gene:COL11A1
Gene Synonym:
Exon (44)3463..3570
Gene:COL11A1
Gene Synonym:
Exon (45)3571..3624
Gene:COL11A1
Gene Synonym:
Exon (46)3625..3678
Gene:COL11A1
Gene Synonym:
Exon (47)3679..3732
Gene:COL11A1
Gene Synonym:
Exon (48)3733..3786
Gene:COL11A1
Gene Synonym:
Exon (49)3787..3894
Gene:COL11A1
Gene Synonym:
Exon (50)3895..3948
Gene:COL11A1
Gene Synonym:
Exon (51)3949..4002
Gene:COL11A1
Gene Synonym:
Exon (52)4003..4056
Gene:COL11A1
Gene Synonym:
Exon (53)4057..4110
Gene:COL11A1
Gene Synonym:
Exon (54)4111..4218
Gene:COL11A1
Gene Synonym:
Exon (55)4219..4272
Gene:COL11A1
Gene Synonym:
Exon (56)4273..4326
Gene:COL11A1
Gene Synonym:
Exon (57)4327..4434
Gene:COL11A1
Gene Synonym:
Exon (58)4435..4488
Gene:COL11A1
Gene Synonym:
Exon (59)4489..4524
Gene:COL11A1
Gene Synonym:
Exon (60)4525..4578
Gene:COL11A1
Gene Synonym:
Exon (61)4579..4828
Gene:COL11A1
Gene Synonym:
Exon (62)4829..4941
Gene:COL11A1
Gene Synonym:
Exon (63)4942..5010
Gene:COL11A1
Gene Synonym:
Exon (64)5011..5244
Gene:COL11A1
Gene Synonym:
Exon (65)5245..6943
Gene:COL11A1
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_080630
Organism Homo sapiens (human)
Definition Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant C, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_080630

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
ATGGAGCCGT GGTCCTCTAG GTGGAAAACG AAACGGTGGC TCTGGGATTT CACCGTAACA 
ACCCTCGCAT TGACCTTCCT CTTCCAAGCT AGAGAGGTCA GAGGAGCTGC TCCAGTTGAT
GTACTAAAAG CACTAGATTT TCACAATTCT CCAGAGGGAA TATCAAAAAC AACGGGATTT
TGCACAAACA GAAAGAATTC TAAAGGCTCA GATACTGCTT ACAGAGTTTC AAAGCAAGCA
CAACTCAGTG CCCCAACAAA ACAGTTATTT CCAGGTGGAA CTTTCCCAGA AGACTTTTCA
ATACTATTTA CAGTAAAACC AAAAAAAGGA ATTCAGTCTT TCCTTTTATC TATATATAAT
GAGCATGGTA TTCAGCAAAT TGGTGTTGAG GTTGGGAGAT CACCTGTTTT TCTGTTTGAA
GACCACACTG GAAAACCTGC CCCAGAAGAC TATCCCCTCT TCAGAACTGT TAACATCGCT
GACGGGAAGT GGCATCGGGT AGCAATCAGC GTGGAGAAGA AAACTGTGAC AATGATTGTT
GATTGTAAGA AGAAAACCAC GAAACCACTT GATAGAAGTG AGAGAGCAAT TGTTGATACC
AATGGAATCA CGGTTTTTGG AACAAGGATT TTGGATGAAG AAGTTTTTGA GGGGGACATT
CAGCAGTTTT TGATCACAGG TGATCCCAAG GCAGCATATG ACTACTGTGA GCATTATAGT
CCAGACTGTG ACTCTTCAGC ACCCAAGGCT GCTCAAGCTC AGGAACCTCA GATAGATGAG
TATGCACCAG AGGATATAAT CGAATATGAC TATGAGTATG GGGAAGCAGA GTATAAAGAG
GCTGAAAGTG TAACAGAGGG ACCCACTGTA ACTGAGGAGA CAATAGCACA GACGGAGATA
AATGGCCATG GTGCATATGG AGAGAAAGGA CAGAAAGGAG AACCAGCAGT GGTTGAGCCT
GGTATGCTTG TCGAAGGACC ACCAGGACCA GCAGGACCTG CAGGTATTAT GGGTCCTCCA
GGTCTACAAG GCCCCACTGG ACCCCCTGGT GACCCTGGCG ATAGGGGCCC CCCAGGACGT
CCTGGCTTAC CAGGGGCTGA TGGTCTACCT GGTCCTCCTG GTACTATGTT GATGTTACCG
TTCCGTTATG GTGGTGATGG TTCCAAAGGA CCAACCATCT CTGCTCAGGA AGCTCAGGCT
CAAGCTATTC TTCAGCAGGC TCGGATTGCT CTGAGAGGCC CACCTGGCCC AATGGGTCTA
ACTGGAAGAC CAGGTCCTGT GGGGGGGCCT GGTTCATCTG GGGCCAAAGG TGAGAGTGGT
GATCCAGGTC CTCAGGGCCC TCGAGGCGTC CAGGGTCCCC CTGGTCCAAC GGGAAAACCT
GGAAAAAGGG GTCGTCCAGG TGCAGATGGA GGAAGAGGAA TGCCAGGAGA ACCTGGGGCA
AAGGGAGATC GAGGGTTTGA TGGACTTCCG GGTCTGCCAG GTGACAAAGG TCACAGGGGT
GAACGAGGTC CTCAAGGTCC TCCAGGTCCT CCTGGTGATG ATGGAATGAG GGGAGAAGAT
GGAGAAATTG GACCAAGAGG TCTTCCAGGT GAAGCTGGCC CACGAGGTTT GCTGGGTCCA
AGGGGAACTC CAGGAGCTCC AGGGCAGCCT GGTATGGCAG GTGTAGATGG CCCCCCAGGA
CCAAAAGGGA ACATGGGTCC CCAAGGGGAG CCTGGGCCTC CAGGTCAACA AGGGAATCCA
GGACCTCAGG GTCTTCCTGG TCCACAAGGT CCAATTGGTC CTCCTGGTGA AAAAGGACCA
CAAGGAAAAC CAGGACTTGC TGGACTTCCT GGTGCTGATG GGCCTCCTGG TCATCCTGGG
AAAGAAGGCC AGTCTGGAGA AAAGGGGGCT CTGGGTCCCC CTGGTCCACA AGGTCCTATT
GGATACCCGG GCCCCCGGGG AGTAAAGGGA GCAGATGGTG TCAGAGGTCT CAAGGGATCT
AAAGGTGAAA AGGGTGAAGA TGGTTTTCCA GGATTCAAAG GTGACATGGG TCTAAAAGGT
GACAGAGGAG AAGTTGGTCA AATTGGCCCA AGAGGGGAAG ATGGCCCTGA AGGACCCAAA
GGTCGAGCAG GCCCAACTGG AGACCCAGGT CCTTCAGGTC AAGCAGGAGA AAAGGGAAAA
CTTGGAGTTC CAGGATTACC AGGATATCCA GGAAGACAAG GTCCAAAGGG TTCCACTGGA
TTCCCTGGGT TTCCAGGTGC CAATGGAGAG AAAGGTGCAC GGGGAGTAGC TGGCAAACCA
GGCCCTCGGG GTCAGCGTGG TCCAACGGGT CCTCGAGGTT CAAGAGGTGC AAGAGGTCCC
ACTGGGAAAC CTGGGCCAAA GGGCACTTCA GGTGGCGATG GCCCTCCTGG CCCTCCAGGT
GAAAGAGGTC CTCAAGGACC TCAGGGTCCA GTTGGATTCC CTGGACCAAA AGGCCCTCCT
GGACCACCTG GGAAGGATGG GCTGCCAGGA CACCCTGGGC AACGTGGGGA GACTGGATTT
CAAGGCAAGA CCGGCCCTCC TGGGCCAGGG GGAGTGGTTG GACCACAGGG ACCAACCGGT
GAGACTGGTC CAATAGGGGA ACGTGGGCAT CCTGGCCCTC CTGGCCCTCC TGGTGAGCAA
GGTCTTCCTG GTGCTGCAGG AAAAGAAGGT GCAAAGGGTG ATCCAGGTCC TCAAGGTATC
TCAGGGAAAG ATGGACCAGC AGGATTACGT GGTTTCCCAG GGGAAAGAGG TCTTCCTGGA
GCTCAGGGTG CACCTGGACT GAAAGGAGGG GAAGGTCCCC AGGGCCCACC AGGTCCAGTT
GGCTCACCAG GAGAACGTGG GTCAGCAGGT ACAGCTGGCC CAATTGGTTT ACCAGGGCGC
CCGGGACCTC AGGGTCCTCC TGGTCCAGCT GGAGAGAAAG GTGCTCCTGG AGAAAAAGGT
CCCCAAGGGC CTGCAGGGAG AGATGGAGTT CAAGGTCCTG TTGGTCTCCC AGGGCCAGCT
GGTCCTGCCG GCTCCCCTGG GGAAGACGGA GACAAGGGTG AAATTGGTGA GCCGGGACAA
AAAGGCAGCA AGGGTGACAA GGGAGAAAAT GGCCCTCCCG GTCCCCCAGG TCTTCAAGGA
CCAGTTGGTG CCCCTGGAAT TGCTGGAGGT GATGGTGAAC CAGGTCCTAG AGGACAGCAG
GGGATGTTTG GGCAAAAAGG TGATGAGGGT GCCAGAGGCT TCCCTGGACC TCCTGGTCCA
ATAGGTCTTC AGGGTCTGCC AGGCCCACCT GGTGAAAAAG GTGAAAATGG GGATGTTGGT
CCCATGGGGC CACCTGGTCC TCCAGGCCCA AGAGGCCCTC AAGGTCCCAA TGGAGCTGAT
GGACCACAAG GACCCCCAGG GTCTGTTGGT TCAGTTGGTG GTGTTGGAGA AAAGGGTGAA
CCTGGAGAAG CAGGGAACCC AGGGCCTCCT GGGGAAGCAG GTGTAGGCGG TCCCAAAGGA
GAAAGAGGAG AGAAAGGGGA AGCTGGTCCA CCTGGAGCTG CTGGACCTCC AGGTGCCAAG
GGGCCACCAG GTGATGATGG CCCTAAGGGT AACCCGGGTC CTGTTGGTTT TCCTGGAGAT
CCTGGTCCTC CTGGGGAACC TGGCCCTGCA GGTCAAGATG GTGTTGGTGG TGACAAGGGT
GAAGATGGAG ATCCTGGTCA ACCGGGTCCT CCTGGCCCAT CTGGTGAGGC TGGCCCACCA
GGTCCTCCTG GAAAACGAGG TCCTCCTGGA GCTGCAGGTG CAGAGGGAAG ACAAGGTGAA
AAAGGTGCTA AGGGGGAAGC AGGTGCAGAA GGTCCTCCTG GAAAAACCGG CCCAGTCGGT
CCTCAGGGAC CTGCAGGAAA GCCTGGTCCA GAAGGTCTTC GGGGCATCCC TGGTCCTGTG
GGAGAACAAG GTCTCCCTGG AGCTGCAGGC CAAGATGGAC CACCTGGTCC TATGGGACCT
CCTGGCTTAC CTGGTCTCAA AGGTGACCCT GGCTCCAAGG GTGAAAAGGG ACATCCTGGT
TTAATTGGCC TGATTGGTCC TCCAGGAGAA CAAGGGGAAA AAGGTGACCG AGGGCTCCCT
GGAACTCAAG GATCTCCAGG AGCAAAAGGG GATGGGGGAA TTCCTGGTCC TGCTGGTCCC
TTAGGTCCAC CTGGTCCTCC AGGTTTACCA GGTCCTCAAG GCCCAAAGGG TAACAAAGGC
TCTACTGGAC CCGCTGGCCA GAAAGGTGAC AGTGGTCTTC CAGGGCCTCC TGGGTCTCCA
GGTCCACCTG GTGAAGTCAT TCAGCCTTTA CCAATCTTGT CCTCCAAAAA AACGAGAAGA
CATACTGAAG GCATGCAAGC AGATGCAGAT GATAATATTC TTGATTACTC GGATGGAATG
GAAGAAATAT TTGGTTCCCT CAATTCCCTG AAACAAGACA TTGAGCATAT GAAATTTCCA
ATGGGTACTC AGACCAATCC AGCCCGAACT TGTAAAGACC TGCAACTCAG CCATCCTGAC
TTCCCAGATG GTGAATATTG GATTGATCCT AACCAAGGTT GCTCAGGAGA TTCCTTCAAA
GTTTACTGTA ATTTCACATC TGGTGGTGAG ACTTGCATTT ATCCAGACAA AAAATCTGAG
GGAGTAAGAA TTTCATCATG GCCAAAGGAG AAACCAGGAA GTTGGTTTAG TGAATTTAAG
AGGGGAAAAC TGCTTTCATA CTTAGATGTT GAAGGAAATT CCATCAATAT GGTGCAAATG
ACATTCCTGA AACTTCTGAC TGCCTCTGCT CGGCAAAATT TCACCTACCA CTGTCATCAG
TCAGCAGCCT GGTATGATGT GTCATCAGGA AGTTATGACA AAGCACTTCG CTTCCTGGGA
TCAAATGATG AGGAGATGTC CTATGACAAT AATCCTTTTA TCAAAACACT GTATGATGGT
TGTGCGTCCA GAAAAGGCTA TGAAAAGACT GTCATTGAAA TCAATACACC AAAAATTGAT
CAAGTACCTA TTGTTGATGT CATGATCAAT GACTTTGGTG ATCAGAATCA GAAGTTCGGA
TTTGAAGTTG GTCCTGTTTG TTTTCTTGGC TAA

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

CloneID OHu23996
Clone ID Related Accession (Same CDS sequence) NM_001190709
Accession Version NM_001190709.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5304bp)
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 15-MAR-2015
Organism Homo sapiens (human)
Product collagen alpha-1(XI) chain isoform E preproprotein
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC093150.4, J04177.1, AB208844.1, BX476821.1, BU159588.1, AC099567.2 and CA448616.1. Transcript Variant: This variant (E, previously referred to as C) does not utilize either alternate exon 6A or 6B. The encoded isoform (E, previously referred to as C) is shorter than isoform A. There are no publicly available transcripts representing this variant; it is supported by mRNA annotation on DNA accession AF101112.1, protein AAF04724.1, submitted by the authors of PMID:10486316. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968189 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

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
ATGGAGCCGT GGTCCTCTAG GTGGAAAACG AAACGGTGGC TCTGGGATTT CACCGTAACA 
ACCCTCGCAT TGACCTTCCT CTTCCAAGCT AGAGAGGTCA GAGGAGCTGC TCCAGTTGAT
GTACTAAAAG CACTAGATTT TCACAATTCT CCAGAGGGAA TATCAAAAAC AACGGGATTT
TGCACAAACA GAAAGAATTC TAAAGGCTCA GATACTGCTT ACAGAGTTTC AAAGCAAGCA
CAACTCAGTG CCCCAACAAA ACAGTTATTT CCAGGTGGAA CTTTCCCAGA AGACTTTTCA
ATACTATTTA CAGTAAAACC AAAAAAAGGA ATTCAGTCTT TCCTTTTATC TATATATAAT
GAGCATGGTA TTCAGCAAAT TGGTGTTGAG GTTGGGAGAT CACCTGTTTT TCTGTTTGAA
GACCACACTG GAAAACCTGC CCCAGAAGAC TATCCCCTCT TCAGAACTGT TAACATCGCT
GACGGGAAGT GGCATCGGGT AGCAATCAGC GTGGAGAAGA AAACTGTGAC AATGATTGTT
GATTGTAAGA AGAAAACCAC GAAACCACTT GATAGAAGTG AGAGAGCAAT TGTTGATACC
AATGGAATCA CGGTTTTTGG AACAAGGATT TTGGATGAAG AAGTTTTTGA GGGGGACATT
CAGCAGTTTT TGATCACAGG TGATCCCAAG GCAGCATATG ACTACTGTGA GCATTATAGT
CCAGACTGTG ACTCTTCAGC ACCCAAGGCT GCTCAAGCTC AGGAACCTCA GATAGATGAG
GCAAACATCG TTGATGATTT TCAAGAATAC AACTATGGAA CAATGGAAAG TTACCAGACA
GAAGCTCCTA GGCATGTTTC TGGGACAAAT GAGCCAAATC CAGTTGAAGA AATATTTACT
GAAGAATATC TAACGGGAGA GGATTATGAT TCCCAGAGGA AAAATTCTGA GGATACACTA
TATGAAAACA AAGAAATAGA CGGCAGGGAT TCTGATCTTC TGGTAGATGG AGATTTAGGC
GAATATGATT TTTATGAATA TAAAGAATAT GAAGATAAAC CAACAAGCCC CCCTAATGAA
GAATTTGGTC CAGGTGTACC AGCAGAAACT GATATTACAG AAACAAGCAT AAATGGCCAT
GGTGCATATG GAGAGAAAGG ACAGAAAGGA GAACCAGCAG TGGTTGAGCC TGGTATGCTT
GTCGAAGGAC CACCAGGACC AGCAGGACCT GCAGGTATTA TGGGTCCTCC AGGTCTACAA
GGCCCCACTG GACCCCCTGG TGACCCTGGC GATAGGGGCC CCCCAGGACG TCCTGGCTTA
CCAGGGGCTG ATGGTCTACC TGGTCCTCCT GGTACTATGT TGATGTTACC GTTCCGTTAT
GGTGGTGATG GTTCCAAAGG ACCAACCATC TCTGCTCAGG AAGCTCAGGC TCAAGCTATT
CTTCAGCAGG CTCGGATTGC TCTGAGAGGC CCACCTGGCC CAATGGGTCT AACTGGAAGA
CCAGGTCCTG TGGGGGGGCC TGGTTCATCT GGGGCCAAAG GTGAGAGTGG TGATCCAGGT
CCTCAGGGCC CTCGAGGCGT CCAGGGTCCC CCTGGTCCAA CGGGAAAACC TGGAAAAAGG
GGTCGTCCAG GTGCAGATGG AGGAAGAGGA ATGCCAGGAG AACCTGGGGC AAAGGGAGAT
CGAGGGTTTG ATGGACTTCC GGGTCTGCCA GGTGACAAAG GTCACAGGGG TGAACGAGGT
CCTCAAGGTC CTCCAGGTCC TCCTGGTGAT GATGGAATGA GGGGAGAAGA TGGAGAAATT
GGACCAAGAG GTCTTCCAGG TGAAGCTGGC CCACGAGGTT TGCTGGGTCC AAGGGGAACT
CCAGGAGCTC CAGGGCAGCC TGGTATGGCA GGTGTAGATG GCCCCCCAGG ACCAAAAGGG
AACATGGGTC CCCAAGGGGA GCCTGGGCCT CCAGGTCAAC AAGGGAATCC AGGACCTCAG
GGTCTTCCTG GTCCACAAGG TCCAATTGGT CCTCCTGGTG AAAAAGGACC ACAAGGAAAA
CCAGGACTTG CTGGACTTCC TGGTGCTGAT GGGCCTCCTG GTCATCCTGG GAAAGAAGGC
CAGTCTGGAG AAAAGGGGGC TCTGGGTCCC CCTGGTCCAC AAGGTCCTAT TGGATACCCG
GGCCCCCGGG GAGTAAAGGG AGCAGATGGT GTCAGAGGTC TCAAGGGATC TAAAGGTGAA
AAGGGTGAAG ATGGTTTTCC AGGATTCAAA GGTGACATGG GTCTAAAAGG TGACAGAGGA
GAAGTTGGTC AAATTGGCCC AAGAGGGGAA GATGGCCCTG AAGGACCCAA AGGTCGAGCA
GGCCCAACTG GAGACCCAGG TCCTTCAGGT CAAGCAGGAG AAAAGGGAAA ACTTGGAGTT
CCAGGATTAC CAGGATATCC AGGAAGACAA GGTCCAAAGG GTTCCACTGG ATTCCCTGGG
TTTCCAGGTG CCAATGGAGA GAAAGGTGCA CGGGGAGTAG CTGGCAAACC AGGCCCTCGG
GGTCAGCGTG GTCCAACGGG TCCTCGAGGT TCAAGAGGTG CAAGAGGTCC CACTGGGAAA
CCTGGGCCAA AGGGCACTTC AGGTGGCGAT GGCCCTCCTG GCCCTCCAGG TGAAAGAGGT
CCTCAAGGAC CTCAGGGTCC AGTTGGATTC CCTGGACCAA AAGGCCCTCC TGGACCACCT
GGGAAGGATG GGCTGCCAGG ACACCCTGGG CAACGTGGGG AGACTGGATT TCAAGGCAAG
ACCGGCCCTC CTGGGCCAGG GGGAGTGGTT GGACCACAGG GACCAACCGG TGAGACTGGT
CCAATAGGGG AACGTGGGCA TCCTGGCCCT CCTGGCCCTC CTGGTGAGCA AGGTCTTCCT
GGTGCTGCAG GAAAAGAAGG TGCAAAGGGT GATCCAGGTC CTCAAGGTAT CTCAGGGAAA
GATGGACCAG CAGGATTACG TGGTTTCCCA GGGGAAAGAG GTCTTCCTGG AGCTCAGGGT
GCACCTGGAC TGAAAGGAGG GGAAGGTCCC CAGGGCCCAC CAGGTCCAGT TGGCTCACCA
GGAGAACGTG GGTCAGCAGG TACAGCTGGC CCAATTGGTT TACCAGGGCG CCCGGGACCT
CAGGGTCCTC CTGGTCCAGC TGGAGAGAAA GGTGCTCCTG GAGAAAAAGG TCCCCAAGGG
CCTGCAGGGA GAGATGGAGT TCAAGGTCCT GTTGGTCTCC CAGGGCCAGC TGGTCCTGCC
GGCTCCCCTG GGGAAGACGG AGACAAGGGT GAAATTGGTG AGCCGGGACA AAAAGGCAGC
AAGGGTGACA AGGGAGAAAA TGGCCCTCCC GGTCCCCCAG GTCTTCAAGG ACCAGTTGGT
GCCCCTGGAA TTGCTGGAGG TGATGGTGAA CCAGGTCCTA GAGGACAGCA GGGGATGTTT
GGGCAAAAAG GTGATGAGGG TGCCAGAGGC TTCCCTGGAC CTCCTGGTCC AATAGGTCTT
CAGGGTCTGC CAGGCCCACC TGGTGAAAAA GGTGAAAATG GGGATGTTGG TCCCATGGGG
CCACCTGGTC CTCCAGGCCC AAGAGGCCCT CAAGGTCCCA ATGGAGCTGA TGGACCACAA
GGACCCCCAG GGTCTGTTGG TTCAGTTGGT GGTGTTGGAG AAAAGGGTGA ACCTGGAGAA
GCAGGGAACC CAGGGCCTCC TGGGGAAGCA GGTGTAGGCG GTCCCAAAGG AGAAAGAGGA
GAGAAAGGGG AAGCTGGTCC ACCTGGAGCT GCTGGACCTC CAGGTGCCAA GGGGCCACCA
GGTGATGATG GCCCTAAGGG TAACCCGGGT CCTGTTGGTT TTCCTGGAGA TCCTGGTCCT
CCTGGGGAAC CTGGCCCTGC AGGTCAAGAT GGTGTTGGTG GTGACAAGGG TGAAGATGGA
GATCCTGGTC AACCGGGTCC TCCTGGCCCA TCTGGTGAGG CTGGCCCACC AGGTCCTCCT
GGAAAACGAG GTCCTCCTGG AGCTGCAGGT GCAGAGGGAA GACAAGGTGA AAAAGGTGCT
AAGGGGGAAG CAGGTGCAGA AGGTCCTCCT GGAAAAACCG GCCCAGTCGG TCCTCAGGGA
CCTGCAGGAA AGCCTGGTCC AGAAGGTCTT CGGGGCATCC CTGGTCCTGT GGGAGAACAA
GGTCTCCCTG GAGCTGCAGG CCAAGATGGA CCACCTGGTC CTATGGGACC TCCTGGCTTA
CCTGGTCTCA AAGGTGACCC TGGCTCCAAG GGTGAAAAGG GACATCCTGG TTTAATTGGC
CTGATTGGTC CTCCAGGAGA ACAAGGGGAA AAAGGTGACC GAGGGCTCCC TGGAACTCAA
GGATCTCCAG GAGCAAAAGG GGATGGGGGA ATTCCTGGTC CTGCTGGTCC CTTAGGTCCA
CCTGGTCCTC CAGGTTTACC AGGTCCTCAA GGCCCAAAGG GTAACAAAGG CTCTACTGGA
CCCGCTGGCC AGAAAGGTGA CAGTGGTCTT CCAGGGCCTC CTGGGTCTCC AGGTCCACCT
GGTGAAGTCA TTCAGCCTTT ACCAATCTTG TCCTCCAAAA AAACGAGAAG ACATACTGAA
GGCATGCAAG CAGATGCAGA TGATAATATT CTTGATTACT CGGATGGAAT GGAAGAAATA
TTTGGTTCCC TCAATTCCCT GAAACAAGAC ATTGAGCATA TGAAATTTCC AATGGGTACT
CAGACCAATC CAGCCCGAAC TTGTAAAGAC CTGCAACTCA GCCATCCTGA CTTCCCAGAT
GGTGAATATT GGATTGATCC TAACCAAGGT TGCTCAGGAG ATTCCTTCAA AGTTTACTGT
AATTTCACAT CTGGTGGTGA GACTTGCATT TATCCAGACA AAAAATCTGA GGGAGTAAGA
ATTTCATCAT GGCCAAAGGA GAAACCAGGA AGTTGGTTTA GTGAATTTAA GAGGGGAAAA
CTGCTTTCAT ACTTAGATGT TGAAGGAAAT TCCATCAATA TGGTGCAAAT GACATTCCTG
AAACTTCTGA CTGCCTCTGC TCGGCAAAAT TTCACCTACC ACTGTCATCA GTCAGCAGCC
TGGTATGATG TGTCATCAGG AAGTTATGAC AAAGCACTTC GCTTCCTGGG ATCAAATGAT
GAGGAGATGT CCTATGACAA TAATCCTTTT ATCAAAACAC TGTATGATGG TTGTGCGTCC
AGAAAAGGCT ATGAAAAGAC TGTCATTGAA ATCAATACAC CAAAAATTGA TCAAGTACCT
ATTGTTGATG TCATGATCAA TGACTTTGGT GATCAGAATC AGAAGTTCGG ATTTGAAGTT
GGTCCTGTTT GTTTTCTTGG CTAA

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

RefSeq NP_001177638.1
CDS319..5622
Misc Feature(1)301..303(+)
Misc Feature(2)535..993(+)
Misc Feature(3)2110..>2244(+)
Misc Feature(4)2596..2769(+)
Misc Feature(5)2722..2901(+)
Misc Feature(6)3487..3636(+)
Misc Feature(7)4333..4482(+)
Misc Feature(8)4978..5613(+)
Exon (1)1..424
Gene:COL11A1
Gene Synonym:
Exon (2)425..592
Gene:COL11A1
Gene Synonym:
Exon (3)593..806
Gene:COL11A1
Gene Synonym:
Exon (4)807..969
Gene:COL11A1
Gene Synonym:
Exon (5)970..1098
Gene:COL11A1
Gene Synonym:
Exon (6)1099..1191
Gene:COL11A1
Gene Synonym:
Exon (7)1192..1446
Gene:COL11A1
Gene Synonym:
Exon (8)1447..1509
Gene:COL11A1
Gene Synonym:
Exon (9)1510..1551
Gene:COL11A1
Gene Synonym:
Exon (10)1552..1614
Gene:COL11A1
Gene Synonym:
Exon (11)1615..1689
Gene:COL11A1
Gene Synonym:
Exon (12)1690..1773
Gene:COL11A1
Gene Synonym:
Exon (13)1774..1830
Gene:COL11A1
Gene Synonym:
Exon (14)1831..1884
Gene:COL11A1
Gene Synonym:
Exon (15)1885..1938
Gene:COL11A1
Gene Synonym:
Exon (16)1939..1992
Gene:COL11A1
Gene Synonym:
Exon (17)1993..2046
Gene:COL11A1
Gene Synonym:
Exon (18)2047..2100
Gene:COL11A1
Gene Synonym:
Exon (19)2101..2145
Gene:COL11A1
Gene Synonym:
Exon (20)2146..2199
Gene:COL11A1
Gene Synonym:
Exon (21)2200..2244
Gene:COL11A1
Gene Synonym:
Exon (22)2245..2298
Gene:COL11A1
Gene Synonym:
Exon (23)2299..2343
Gene:COL11A1
Gene Synonym:
Exon (24)2344..2397
Gene:COL11A1
Gene Synonym:
Exon (25)2398..2442
Gene:COL11A1
Gene Synonym:
Exon (26)2443..2496
Gene:COL11A1
Gene Synonym:
Exon (27)2497..2541
Gene:COL11A1
Gene Synonym:
Exon (28)2542..2595
Gene:COL11A1
Gene Synonym:
Exon (29)2596..2703
Gene:COL11A1
Gene Synonym:
Exon (30)2704..2757
Gene:COL11A1
Gene Synonym:
Exon (31)2758..2811
Gene:COL11A1
Gene Synonym:
Exon (32)2812..2856
Gene:COL11A1
Gene Synonym:
Exon (33)2857..2910
Gene:COL11A1
Gene Synonym:
Exon (34)2911..2955
Gene:COL11A1
Gene Synonym:
Exon (35)2956..3009
Gene:COL11A1
Gene Synonym:
Exon (36)3010..3063
Gene:COL11A1
Gene Synonym:
Exon (37)3064..3117
Gene:COL11A1
Gene Synonym:
Exon (38)3118..3225
Gene:COL11A1
Gene Synonym:
Exon (39)3226..3315
Gene:COL11A1
Gene Synonym:
Exon (40)3316..3369
Gene:COL11A1
Gene Synonym:
Exon (41)3370..3477
Gene:COL11A1
Gene Synonym:
Exon (42)3478..3585
Gene:COL11A1
Gene Synonym:
Exon (43)3586..3639
Gene:COL11A1
Gene Synonym:
Exon (44)3640..3693
Gene:COL11A1
Gene Synonym:
Exon (45)3694..3801
Gene:COL11A1
Gene Synonym:
Exon (46)3802..3855
Gene:COL11A1
Gene Synonym:
Exon (47)3856..3909
Gene:COL11A1
Gene Synonym:
Exon (48)3910..3963
Gene:COL11A1
Gene Synonym:
Exon (49)3964..4017
Gene:COL11A1
Gene Synonym:
Exon (50)4018..4125
Gene:COL11A1
Gene Synonym:
Exon (51)4126..4179
Gene:COL11A1
Gene Synonym:
Exon (52)4180..4233
Gene:COL11A1
Gene Synonym:
Exon (53)4234..4287
Gene:COL11A1
Gene Synonym:
Exon (54)4288..4341
Gene:COL11A1
Gene Synonym:
Exon (55)4342..4449
Gene:COL11A1
Gene Synonym:
Exon (56)4450..4503
Gene:COL11A1
Gene Synonym:
Exon (57)4504..4557
Gene:COL11A1
Gene Synonym:
Exon (58)4558..4665
Gene:COL11A1
Gene Synonym:
Exon (59)4666..4719
Gene:COL11A1
Gene Synonym:
Exon (60)4720..4755
Gene:COL11A1
Gene Synonym:
Exon (61)4756..4809
Gene:COL11A1
Gene Synonym:
Exon (62)4810..5059
Gene:COL11A1
Gene Synonym:
Exon (63)5060..5172
Gene:COL11A1
Gene Synonym:
Exon (64)5173..5241
Gene:COL11A1
Gene Synonym:
Exon (65)5242..5475
Gene:COL11A1
Gene Synonym:
Exon (66)5476..7174
Gene:COL11A1
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001190709
Organism Homo sapiens (human)
Definition Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant E, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001190709

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
ATGGAGCCGT GGTCCTCTAG GTGGAAAACG AAACGGTGGC TCTGGGATTT CACCGTAACA 
ACCCTCGCAT TGACCTTCCT CTTCCAAGCT AGAGAGGTCA GAGGAGCTGC TCCAGTTGAT
GTACTAAAAG CACTAGATTT TCACAATTCT CCAGAGGGAA TATCAAAAAC AACGGGATTT
TGCACAAACA GAAAGAATTC TAAAGGCTCA GATACTGCTT ACAGAGTTTC AAAGCAAGCA
CAACTCAGTG CCCCAACAAA ACAGTTATTT CCAGGTGGAA CTTTCCCAGA AGACTTTTCA
ATACTATTTA CAGTAAAACC AAAAAAAGGA ATTCAGTCTT TCCTTTTATC TATATATAAT
GAGCATGGTA TTCAGCAAAT TGGTGTTGAG GTTGGGAGAT CACCTGTTTT TCTGTTTGAA
GACCACACTG GAAAACCTGC CCCAGAAGAC TATCCCCTCT TCAGAACTGT TAACATCGCT
GACGGGAAGT GGCATCGGGT AGCAATCAGC GTGGAGAAGA AAACTGTGAC AATGATTGTT
GATTGTAAGA AGAAAACCAC GAAACCACTT GATAGAAGTG AGAGAGCAAT TGTTGATACC
AATGGAATCA CGGTTTTTGG AACAAGGATT TTGGATGAAG AAGTTTTTGA GGGGGACATT
CAGCAGTTTT TGATCACAGG TGATCCCAAG GCAGCATATG ACTACTGTGA GCATTATAGT
CCAGACTGTG ACTCTTCAGC ACCCAAGGCT GCTCAAGCTC AGGAACCTCA GATAGATGAG
GCAAACATCG TTGATGATTT TCAAGAATAC AACTATGGAA CAATGGAAAG TTACCAGACA
GAAGCTCCTA GGCATGTTTC TGGGACAAAT GAGCCAAATC CAGTTGAAGA AATATTTACT
GAAGAATATC TAACGGGAGA GGATTATGAT TCCCAGAGGA AAAATTCTGA GGATACACTA
TATGAAAACA AAGAAATAGA CGGCAGGGAT TCTGATCTTC TGGTAGATGG AGATTTAGGC
GAATATGATT TTTATGAATA TAAAGAATAT GAAGATAAAC CAACAAGCCC CCCTAATGAA
GAATTTGGTC CAGGTGTACC AGCAGAAACT GATATTACAG AAACAAGCAT AAATGGCCAT
GGTGCATATG GAGAGAAAGG ACAGAAAGGA GAACCAGCAG TGGTTGAGCC TGGTATGCTT
GTCGAAGGAC CACCAGGACC AGCAGGACCT GCAGGTATTA TGGGTCCTCC AGGTCTACAA
GGCCCCACTG GACCCCCTGG TGACCCTGGC GATAGGGGCC CCCCAGGACG TCCTGGCTTA
CCAGGGGCTG ATGGTCTACC TGGTCCTCCT GGTACTATGT TGATGTTACC GTTCCGTTAT
GGTGGTGATG GTTCCAAAGG ACCAACCATC TCTGCTCAGG AAGCTCAGGC TCAAGCTATT
CTTCAGCAGG CTCGGATTGC TCTGAGAGGC CCACCTGGCC CAATGGGTCT AACTGGAAGA
CCAGGTCCTG TGGGGGGGCC TGGTTCATCT GGGGCCAAAG GTGAGAGTGG TGATCCAGGT
CCTCAGGGCC CTCGAGGCGT CCAGGGTCCC CCTGGTCCAA CGGGAAAACC TGGAAAAAGG
GGTCGTCCAG GTGCAGATGG AGGAAGAGGA ATGCCAGGAG AACCTGGGGC AAAGGGAGAT
CGAGGGTTTG ATGGACTTCC GGGTCTGCCA GGTGACAAAG GTCACAGGGG TGAACGAGGT
CCTCAAGGTC CTCCAGGTCC TCCTGGTGAT GATGGAATGA GGGGAGAAGA TGGAGAAATT
GGACCAAGAG GTCTTCCAGG TGAAGCTGGC CCACGAGGTT TGCTGGGTCC AAGGGGAACT
CCAGGAGCTC CAGGGCAGCC TGGTATGGCA GGTGTAGATG GCCCCCCAGG ACCAAAAGGG
AACATGGGTC CCCAAGGGGA GCCTGGGCCT CCAGGTCAAC AAGGGAATCC AGGACCTCAG
GGTCTTCCTG GTCCACAAGG TCCAATTGGT CCTCCTGGTG AAAAAGGACC ACAAGGAAAA
CCAGGACTTG CTGGACTTCC TGGTGCTGAT GGGCCTCCTG GTCATCCTGG GAAAGAAGGC
CAGTCTGGAG AAAAGGGGGC TCTGGGTCCC CCTGGTCCAC AAGGTCCTAT TGGATACCCG
GGCCCCCGGG GAGTAAAGGG AGCAGATGGT GTCAGAGGTC TCAAGGGATC TAAAGGTGAA
AAGGGTGAAG ATGGTTTTCC AGGATTCAAA GGTGACATGG GTCTAAAAGG TGACAGAGGA
GAAGTTGGTC AAATTGGCCC AAGAGGGGAA GATGGCCCTG AAGGACCCAA AGGTCGAGCA
GGCCCAACTG GAGACCCAGG TCCTTCAGGT CAAGCAGGAG AAAAGGGAAA ACTTGGAGTT
CCAGGATTAC CAGGATATCC AGGAAGACAA GGTCCAAAGG GTTCCACTGG ATTCCCTGGG
TTTCCAGGTG CCAATGGAGA GAAAGGTGCA CGGGGAGTAG CTGGCAAACC AGGCCCTCGG
GGTCAGCGTG GTCCAACGGG TCCTCGAGGT TCAAGAGGTG CAAGAGGTCC CACTGGGAAA
CCTGGGCCAA AGGGCACTTC AGGTGGCGAT GGCCCTCCTG GCCCTCCAGG TGAAAGAGGT
CCTCAAGGAC CTCAGGGTCC AGTTGGATTC CCTGGACCAA AAGGCCCTCC TGGACCACCT
GGGAAGGATG GGCTGCCAGG ACACCCTGGG CAACGTGGGG AGACTGGATT TCAAGGCAAG
ACCGGCCCTC CTGGGCCAGG GGGAGTGGTT GGACCACAGG GACCAACCGG TGAGACTGGT
CCAATAGGGG AACGTGGGCA TCCTGGCCCT CCTGGCCCTC CTGGTGAGCA AGGTCTTCCT
GGTGCTGCAG GAAAAGAAGG TGCAAAGGGT GATCCAGGTC CTCAAGGTAT CTCAGGGAAA
GATGGACCAG CAGGATTACG TGGTTTCCCA GGGGAAAGAG GTCTTCCTGG AGCTCAGGGT
GCACCTGGAC TGAAAGGAGG GGAAGGTCCC CAGGGCCCAC CAGGTCCAGT TGGCTCACCA
GGAGAACGTG GGTCAGCAGG TACAGCTGGC CCAATTGGTT TACCAGGGCG CCCGGGACCT
CAGGGTCCTC CTGGTCCAGC TGGAGAGAAA GGTGCTCCTG GAGAAAAAGG TCCCCAAGGG
CCTGCAGGGA GAGATGGAGT TCAAGGTCCT GTTGGTCTCC CAGGGCCAGC TGGTCCTGCC
GGCTCCCCTG GGGAAGACGG AGACAAGGGT GAAATTGGTG AGCCGGGACA AAAAGGCAGC
AAGGGTGACA AGGGAGAAAA TGGCCCTCCC GGTCCCCCAG GTCTTCAAGG ACCAGTTGGT
GCCCCTGGAA TTGCTGGAGG TGATGGTGAA CCAGGTCCTA GAGGACAGCA GGGGATGTTT
GGGCAAAAAG GTGATGAGGG TGCCAGAGGC TTCCCTGGAC CTCCTGGTCC AATAGGTCTT
CAGGGTCTGC CAGGCCCACC TGGTGAAAAA GGTGAAAATG GGGATGTTGG TCCCATGGGG
CCACCTGGTC CTCCAGGCCC AAGAGGCCCT CAAGGTCCCA ATGGAGCTGA TGGACCACAA
GGACCCCCAG GGTCTGTTGG TTCAGTTGGT GGTGTTGGAG AAAAGGGTGA ACCTGGAGAA
GCAGGGAACC CAGGGCCTCC TGGGGAAGCA GGTGTAGGCG GTCCCAAAGG AGAAAGAGGA
GAGAAAGGGG AAGCTGGTCC ACCTGGAGCT GCTGGACCTC CAGGTGCCAA GGGGCCACCA
GGTGATGATG GCCCTAAGGG TAACCCGGGT CCTGTTGGTT TTCCTGGAGA TCCTGGTCCT
CCTGGGGAAC CTGGCCCTGC AGGTCAAGAT GGTGTTGGTG GTGACAAGGG TGAAGATGGA
GATCCTGGTC AACCGGGTCC TCCTGGCCCA TCTGGTGAGG CTGGCCCACC AGGTCCTCCT
GGAAAACGAG GTCCTCCTGG AGCTGCAGGT GCAGAGGGAA GACAAGGTGA AAAAGGTGCT
AAGGGGGAAG CAGGTGCAGA AGGTCCTCCT GGAAAAACCG GCCCAGTCGG TCCTCAGGGA
CCTGCAGGAA AGCCTGGTCC AGAAGGTCTT CGGGGCATCC CTGGTCCTGT GGGAGAACAA
GGTCTCCCTG GAGCTGCAGG CCAAGATGGA CCACCTGGTC CTATGGGACC TCCTGGCTTA
CCTGGTCTCA AAGGTGACCC TGGCTCCAAG GGTGAAAAGG GACATCCTGG TTTAATTGGC
CTGATTGGTC CTCCAGGAGA ACAAGGGGAA AAAGGTGACC GAGGGCTCCC TGGAACTCAA
GGATCTCCAG GAGCAAAAGG GGATGGGGGA ATTCCTGGTC CTGCTGGTCC CTTAGGTCCA
CCTGGTCCTC CAGGTTTACC AGGTCCTCAA GGCCCAAAGG GTAACAAAGG CTCTACTGGA
CCCGCTGGCC AGAAAGGTGA CAGTGGTCTT CCAGGGCCTC CTGGGTCTCC AGGTCCACCT
GGTGAAGTCA TTCAGCCTTT ACCAATCTTG TCCTCCAAAA AAACGAGAAG ACATACTGAA
GGCATGCAAG CAGATGCAGA TGATAATATT CTTGATTACT CGGATGGAAT GGAAGAAATA
TTTGGTTCCC TCAATTCCCT GAAACAAGAC ATTGAGCATA TGAAATTTCC AATGGGTACT
CAGACCAATC CAGCCCGAAC TTGTAAAGAC CTGCAACTCA GCCATCCTGA CTTCCCAGAT
GGTGAATATT GGATTGATCC TAACCAAGGT TGCTCAGGAG ATTCCTTCAA AGTTTACTGT
AATTTCACAT CTGGTGGTGA GACTTGCATT TATCCAGACA AAAAATCTGA GGGAGTAAGA
ATTTCATCAT GGCCAAAGGA GAAACCAGGA AGTTGGTTTA GTGAATTTAA GAGGGGAAAA
CTGCTTTCAT ACTTAGATGT TGAAGGAAAT TCCATCAATA TGGTGCAAAT GACATTCCTG
AAACTTCTGA CTGCCTCTGC TCGGCAAAAT TTCACCTACC ACTGTCATCA GTCAGCAGCC
TGGTATGATG TGTCATCAGG AAGTTATGAC AAAGCACTTC GCTTCCTGGG ATCAAATGAT
GAGGAGATGT CCTATGACAA TAATCCTTTT ATCAAAACAC TGTATGATGG TTGTGCGTCC
AGAAAAGGCT ATGAAAAGAC TGTCATTGAA ATCAATACAC CAAAAATTGA TCAAGTACCT
ATTGTTGATG TCATGATCAA TGACTTTGGT GATCAGAATC AGAAGTTCGG ATTTGAAGTT
GGTCCTGTTT GTTTTCTTGG CTAA

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

CloneID OHu25477
Clone ID Related Accession (Same CDS sequence) NM_001854
Accession Version NM_001854.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5421bp)
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 15-MAR-2015
Organism Homo sapiens (human)
Product collagen alpha-1(XI) chain isoform A preproprotein
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC093150.4, J04177.1, AB208844.1, BX476821.1, BU159588.1 and AC099567.2. On May 18, 2006 this sequence version replaced gi:18375517. Transcript Variant: This variant (A) utilizes alternate exon 6, designated exon 6A. The encoded isoform (A) has a 39 aa region specified by exon 6A, that differs from the corresponding 51 aa region encoded by exon 6B in isoform B. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The extent of this transcript is supported by transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: J04177.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968189 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

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
ATGGAGCCGT GGTCCTCTAG GTGGAAAACG AAACGGTGGC TCTGGGATTT CACCGTAACA 
ACCCTCGCAT TGACCTTCCT CTTCCAAGCT AGAGAGGTCA GAGGAGCTGC TCCAGTTGAT
GTACTAAAAG CACTAGATTT TCACAATTCT CCAGAGGGAA TATCAAAAAC AACGGGATTT
TGCACAAACA GAAAGAATTC TAAAGGCTCA GATACTGCTT ACAGAGTTTC AAAGCAAGCA
CAACTCAGTG CCCCAACAAA ACAGTTATTT CCAGGTGGAA CTTTCCCAGA AGACTTTTCA
ATACTATTTA CAGTAAAACC AAAAAAAGGA ATTCAGTCTT TCCTTTTATC TATATATAAT
GAGCATGGTA TTCAGCAAAT TGGTGTTGAG GTTGGGAGAT CACCTGTTTT TCTGTTTGAA
GACCACACTG GAAAACCTGC CCCAGAAGAC TATCCCCTCT TCAGAACTGT TAACATCGCT
GACGGGAAGT GGCATCGGGT AGCAATCAGC GTGGAGAAGA AAACTGTGAC AATGATTGTT
GATTGTAAGA AGAAAACCAC GAAACCACTT GATAGAAGTG AGAGAGCAAT TGTTGATACC
AATGGAATCA CGGTTTTTGG AACAAGGATT TTGGATGAAG AAGTTTTTGA GGGGGACATT
CAGCAGTTTT TGATCACAGG TGATCCCAAG GCAGCATATG ACTACTGTGA GCATTATAGT
CCAGACTGTG ACTCTTCAGC ACCCAAGGCT GCTCAAGCTC AGGAACCTCA GATAGATGAG
TATGCACCAG AGGATATAAT CGAATATGAC TATGAGTATG GGGAAGCAGA GTATAAAGAG
GCTGAAAGTG TAACAGAGGG ACCCACTGTA ACTGAGGAGA CAATAGCACA GACGGAGGCA
AACATCGTTG ATGATTTTCA AGAATACAAC TATGGAACAA TGGAAAGTTA CCAGACAGAA
GCTCCTAGGC ATGTTTCTGG GACAAATGAG CCAAATCCAG TTGAAGAAAT ATTTACTGAA
GAATATCTAA CGGGAGAGGA TTATGATTCC CAGAGGAAAA ATTCTGAGGA TACACTATAT
GAAAACAAAG AAATAGACGG CAGGGATTCT GATCTTCTGG TAGATGGAGA TTTAGGCGAA
TATGATTTTT ATGAATATAA AGAATATGAA GATAAACCAA CAAGCCCCCC TAATGAAGAA
TTTGGTCCAG GTGTACCAGC AGAAACTGAT ATTACAGAAA CAAGCATAAA TGGCCATGGT
GCATATGGAG AGAAAGGACA GAAAGGAGAA CCAGCAGTGG TTGAGCCTGG TATGCTTGTC
GAAGGACCAC CAGGACCAGC AGGACCTGCA GGTATTATGG GTCCTCCAGG TCTACAAGGC
CCCACTGGAC CCCCTGGTGA CCCTGGCGAT AGGGGCCCCC CAGGACGTCC TGGCTTACCA
GGGGCTGATG GTCTACCTGG TCCTCCTGGT ACTATGTTGA TGTTACCGTT CCGTTATGGT
GGTGATGGTT CCAAAGGACC AACCATCTCT GCTCAGGAAG CTCAGGCTCA AGCTATTCTT
CAGCAGGCTC GGATTGCTCT GAGAGGCCCA CCTGGCCCAA TGGGTCTAAC TGGAAGACCA
GGTCCTGTGG GGGGGCCTGG TTCATCTGGG GCCAAAGGTG AGAGTGGTGA TCCAGGTCCT
CAGGGCCCTC GAGGCGTCCA GGGTCCCCCT GGTCCAACGG GAAAACCTGG AAAAAGGGGT
CGTCCAGGTG CAGATGGAGG AAGAGGAATG CCAGGAGAAC CTGGGGCAAA GGGAGATCGA
GGGTTTGATG GACTTCCGGG TCTGCCAGGT GACAAAGGTC ACAGGGGTGA ACGAGGTCCT
CAAGGTCCTC CAGGTCCTCC TGGTGATGAT GGAATGAGGG GAGAAGATGG AGAAATTGGA
CCAAGAGGTC TTCCAGGTGA AGCTGGCCCA CGAGGTTTGC TGGGTCCAAG GGGAACTCCA
GGAGCTCCAG GGCAGCCTGG TATGGCAGGT GTAGATGGCC CCCCAGGACC AAAAGGGAAC
ATGGGTCCCC AAGGGGAGCC TGGGCCTCCA GGTCAACAAG GGAATCCAGG ACCTCAGGGT
CTTCCTGGTC CACAAGGTCC AATTGGTCCT CCTGGTGAAA AAGGACCACA AGGAAAACCA
GGACTTGCTG GACTTCCTGG TGCTGATGGG CCTCCTGGTC ATCCTGGGAA AGAAGGCCAG
TCTGGAGAAA AGGGGGCTCT GGGTCCCCCT GGTCCACAAG GTCCTATTGG ATACCCGGGC
CCCCGGGGAG TAAAGGGAGC AGATGGTGTC AGAGGTCTCA AGGGATCTAA AGGTGAAAAG
GGTGAAGATG GTTTTCCAGG ATTCAAAGGT GACATGGGTC TAAAAGGTGA CAGAGGAGAA
GTTGGTCAAA TTGGCCCAAG AGGGGAAGAT GGCCCTGAAG GACCCAAAGG TCGAGCAGGC
CCAACTGGAG ACCCAGGTCC TTCAGGTCAA GCAGGAGAAA AGGGAAAACT TGGAGTTCCA
GGATTACCAG GATATCCAGG AAGACAAGGT CCAAAGGGTT CCACTGGATT CCCTGGGTTT
CCAGGTGCCA ATGGAGAGAA AGGTGCACGG GGAGTAGCTG GCAAACCAGG CCCTCGGGGT
CAGCGTGGTC CAACGGGTCC TCGAGGTTCA AGAGGTGCAA GAGGTCCCAC TGGGAAACCT
GGGCCAAAGG GCACTTCAGG TGGCGATGGC CCTCCTGGCC CTCCAGGTGA AAGAGGTCCT
CAAGGACCTC AGGGTCCAGT TGGATTCCCT GGACCAAAAG GCCCTCCTGG ACCACCTGGG
AAGGATGGGC TGCCAGGACA CCCTGGGCAA CGTGGGGAGA CTGGATTTCA AGGCAAGACC
GGCCCTCCTG GGCCAGGGGG AGTGGTTGGA CCACAGGGAC CAACCGGTGA GACTGGTCCA
ATAGGGGAAC GTGGGCATCC TGGCCCTCCT GGCCCTCCTG GTGAGCAAGG TCTTCCTGGT
GCTGCAGGAA AAGAAGGTGC AAAGGGTGAT CCAGGTCCTC AAGGTATCTC AGGGAAAGAT
GGACCAGCAG GATTACGTGG TTTCCCAGGG GAAAGAGGTC TTCCTGGAGC TCAGGGTGCA
CCTGGACTGA AAGGAGGGGA AGGTCCCCAG GGCCCACCAG GTCCAGTTGG CTCACCAGGA
GAACGTGGGT CAGCAGGTAC AGCTGGCCCA ATTGGTTTAC CAGGGCGCCC GGGACCTCAG
GGTCCTCCTG GTCCAGCTGG AGAGAAAGGT GCTCCTGGAG AAAAAGGTCC CCAAGGGCCT
GCAGGGAGAG ATGGAGTTCA AGGTCCTGTT GGTCTCCCAG GGCCAGCTGG TCCTGCCGGC
TCCCCTGGGG AAGACGGAGA CAAGGGTGAA ATTGGTGAGC CGGGACAAAA AGGCAGCAAG
GGTGACAAGG GAGAAAATGG CCCTCCCGGT CCCCCAGGTC TTCAAGGACC AGTTGGTGCC
CCTGGAATTG CTGGAGGTGA TGGTGAACCA GGTCCTAGAG GACAGCAGGG GATGTTTGGG
CAAAAAGGTG ATGAGGGTGC CAGAGGCTTC CCTGGACCTC CTGGTCCAAT AGGTCTTCAG
GGTCTGCCAG GCCCACCTGG TGAAAAAGGT GAAAATGGGG ATGTTGGTCC CATGGGGCCA
CCTGGTCCTC CAGGCCCAAG AGGCCCTCAA GGTCCCAATG GAGCTGATGG ACCACAAGGA
CCCCCAGGGT CTGTTGGTTC AGTTGGTGGT GTTGGAGAAA AGGGTGAACC TGGAGAAGCA
GGGAACCCAG GGCCTCCTGG GGAAGCAGGT GTAGGCGGTC CCAAAGGAGA AAGAGGAGAG
AAAGGGGAAG CTGGTCCACC TGGAGCTGCT GGACCTCCAG GTGCCAAGGG GCCACCAGGT
GATGATGGCC CTAAGGGTAA CCCGGGTCCT GTTGGTTTTC CTGGAGATCC TGGTCCTCCT
GGGGAACCTG GCCCTGCAGG TCAAGATGGT GTTGGTGGTG ACAAGGGTGA AGATGGAGAT
CCTGGTCAAC CGGGTCCTCC TGGCCCATCT GGTGAGGCTG GCCCACCAGG TCCTCCTGGA
AAACGAGGTC CTCCTGGAGC TGCAGGTGCA GAGGGAAGAC AAGGTGAAAA AGGTGCTAAG
GGGGAAGCAG GTGCAGAAGG TCCTCCTGGA AAAACCGGCC CAGTCGGTCC TCAGGGACCT
GCAGGAAAGC CTGGTCCAGA AGGTCTTCGG GGCATCCCTG GTCCTGTGGG AGAACAAGGT
CTCCCTGGAG CTGCAGGCCA AGATGGACCA CCTGGTCCTA TGGGACCTCC TGGCTTACCT
GGTCTCAAAG GTGACCCTGG CTCCAAGGGT GAAAAGGGAC ATCCTGGTTT AATTGGCCTG
ATTGGTCCTC CAGGAGAACA AGGGGAAAAA GGTGACCGAG GGCTCCCTGG AACTCAAGGA
TCTCCAGGAG CAAAAGGGGA TGGGGGAATT CCTGGTCCTG CTGGTCCCTT AGGTCCACCT
GGTCCTCCAG GTTTACCAGG TCCTCAAGGC CCAAAGGGTA ACAAAGGCTC TACTGGACCC
GCTGGCCAGA AAGGTGACAG TGGTCTTCCA GGGCCTCCTG GGTCTCCAGG TCCACCTGGT
GAAGTCATTC AGCCTTTACC AATCTTGTCC TCCAAAAAAA CGAGAAGACA TACTGAAGGC
ATGCAAGCAG ATGCAGATGA TAATATTCTT GATTACTCGG ATGGAATGGA AGAAATATTT
GGTTCCCTCA ATTCCCTGAA ACAAGACATT GAGCATATGA AATTTCCAAT GGGTACTCAG
ACCAATCCAG CCCGAACTTG TAAAGACCTG CAACTCAGCC ATCCTGACTT CCCAGATGGT
GAATATTGGA TTGATCCTAA CCAAGGTTGC TCAGGAGATT CCTTCAAAGT TTACTGTAAT
TTCACATCTG GTGGTGAGAC TTGCATTTAT CCAGACAAAA AATCTGAGGG AGTAAGAATT
TCATCATGGC CAAAGGAGAA ACCAGGAAGT TGGTTTAGTG AATTTAAGAG GGGAAAACTG
CTTTCATACT TAGATGTTGA AGGAAATTCC ATCAATATGG TGCAAATGAC ATTCCTGAAA
CTTCTGACTG CCTCTGCTCG GCAAAATTTC ACCTACCACT GTCATCAGTC AGCAGCCTGG
TATGATGTGT CATCAGGAAG TTATGACAAA GCACTTCGCT TCCTGGGATC AAATGATGAG
GAGATGTCCT ATGACAATAA TCCTTTTATC AAAACACTGT ATGATGGTTG TGCGTCCAGA
AAAGGCTATG AAAAGACTGT CATTGAAATC AATACACCAA AAATTGATCA AGTACCTATT
GTTGATGTCA TGATCAATGA CTTTGGTGAT CAGAATCAGA AGTTCGGATT TGAAGTTGGT
CCTGTTTGTT TTCTTGGCTA A

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

RefSeq NP_001845.3
CDS319..5739
Misc Feature(1)301..303(+)
Misc Feature(2)535..993(+)
Misc Feature(3)1006..1575(+)
Misc Feature(4)1576..1842(+)
Misc Feature(5)1843..1851(+)
Misc Feature(6)1852..1902(+)
Misc Feature(7)1903..4944(+)
Misc Feature(8)2152..2154(+)
Misc Feature(9)2227..>2361(+)
Misc Feature(10)2713..2886(+)
Misc Feature(11)2839..3018(+)
Misc Feature(12)3604..3753(+)
Misc Feature(13)4450..4599(+)
Misc Feature(14)4672..4674(+)
Misc Feature(15)4945..5007(+)
Misc Feature(16)5095..5730(+)
Exon (1)1..424
Gene:COL11A1
Gene Synonym:
Exon (2)425..592
Gene:COL11A1
Gene Synonym:
Exon (3)593..806
Gene:COL11A1
Gene Synonym:
Exon (4)807..969
Gene:COL11A1
Gene Synonym:
Exon (5)970..1098
Gene:COL11A1
Gene Synonym:
Exon (6)1099..1215
Gene:COL11A1
Gene Synonym:
Exon (7)1216..1308
Gene:COL11A1
Gene Synonym:
Exon (8)1309..1563
Gene:COL11A1
Gene Synonym:
Exon (9)1564..1626
Gene:COL11A1
Gene Synonym:
Exon (10)1627..1668
Gene:COL11A1
Gene Synonym:
Exon (11)1669..1731
Gene:COL11A1
Gene Synonym:
Exon (12)1732..1806
Gene:COL11A1
Gene Synonym:
Exon (13)1807..1890
Gene:COL11A1
Gene Synonym:
Exon (14)1891..1947
Gene:COL11A1
Gene Synonym:
Exon (15)1948..2001
Gene:COL11A1
Gene Synonym:
Exon (16)2002..2055
Gene:COL11A1
Gene Synonym:
Exon (17)2056..2109
Gene:COL11A1
Gene Synonym:
Exon (18)2110..2163
Gene:COL11A1
Gene Synonym:
Exon (19)2164..2217
Gene:COL11A1
Gene Synonym:
Exon (20)2218..2262
Gene:COL11A1
Gene Synonym:
Exon (21)2263..2316
Gene:COL11A1
Gene Synonym:
Exon (22)2317..2361
Gene:COL11A1
Gene Synonym:
Exon (23)2362..2415
Gene:COL11A1
Gene Synonym:
Exon (24)2416..2460
Gene:COL11A1
Gene Synonym:
Exon (25)2461..2514
Gene:COL11A1
Gene Synonym:
Exon (26)2515..2559
Gene:COL11A1
Gene Synonym:
Exon (27)2560..2613
Gene:COL11A1
Gene Synonym:
Exon (28)2614..2658
Gene:COL11A1
Gene Synonym:
Exon (29)2659..2712
Gene:COL11A1
Gene Synonym:
Exon (30)2713..2820
Gene:COL11A1
Gene Synonym:
Exon (31)2821..2874
Gene:COL11A1
Gene Synonym:
Exon (32)2875..2928
Gene:COL11A1
Gene Synonym:
Exon (33)2929..2973
Gene:COL11A1
Gene Synonym:
Exon (34)2974..3027
Gene:COL11A1
Gene Synonym:
Exon (35)3028..3072
Gene:COL11A1
Gene Synonym:
Exon (36)3073..3126
Gene:COL11A1
Gene Synonym:
Exon (37)3127..3180
Gene:COL11A1
Gene Synonym:
Exon (38)3181..3234
Gene:COL11A1
Gene Synonym:
Exon (39)3235..3342
Gene:COL11A1
Gene Synonym:
Exon (40)3343..3432
Gene:COL11A1
Gene Synonym:
Exon (41)3433..3486
Gene:COL11A1
Gene Synonym:
Exon (42)3487..3594
Gene:COL11A1
Gene Synonym:
Exon (43)3595..3702
Gene:COL11A1
Gene Synonym:
Exon (44)3703..3756
Gene:COL11A1
Gene Synonym:
Exon (45)3757..3810
Gene:COL11A1
Gene Synonym:
Exon (46)3811..3918
Gene:COL11A1
Gene Synonym:
Exon (47)3919..3972
Gene:COL11A1
Gene Synonym:
Exon (48)3973..4026
Gene:COL11A1
Gene Synonym:
Exon (49)4027..4080
Gene:COL11A1
Gene Synonym:
Exon (50)4081..4134
Gene:COL11A1
Gene Synonym:
Exon (51)4135..4242
Gene:COL11A1
Gene Synonym:
Exon (52)4243..4296
Gene:COL11A1
Gene Synonym:
Exon (53)4297..4350
Gene:COL11A1
Gene Synonym:
Exon (54)4351..4404
Gene:COL11A1
Gene Synonym:
Exon (55)4405..4458
Gene:COL11A1
Gene Synonym:
Exon (56)4459..4566
Gene:COL11A1
Gene Synonym:
Exon (57)4567..4620
Gene:COL11A1
Gene Synonym:
Exon (58)4621..4674
Gene:COL11A1
Gene Synonym:
Exon (59)4675..4782
Gene:COL11A1
Gene Synonym:
Exon (60)4783..4836
Gene:COL11A1
Gene Synonym:
Exon (61)4837..4872
Gene:COL11A1
Gene Synonym:
Exon (62)4873..4926
Gene:COL11A1
Gene Synonym:
Exon (63)4927..5176
Gene:COL11A1
Gene Synonym:
Exon (64)5177..5289
Gene:COL11A1
Gene Synonym:
Exon (65)5290..5358
Gene:COL11A1
Gene Synonym:
Exon (66)5359..5592
Gene:COL11A1
Gene Synonym:
Exon (67)5593..7291
Gene:COL11A1
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001854
Organism Homo sapiens (human)
Definition Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant A, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001854

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
ATGGAGCCGT GGTCCTCTAG GTGGAAAACG AAACGGTGGC TCTGGGATTT CACCGTAACA 
ACCCTCGCAT TGACCTTCCT CTTCCAAGCT AGAGAGGTCA GAGGAGCTGC TCCAGTTGAT
GTACTAAAAG CACTAGATTT TCACAATTCT CCAGAGGGAA TATCAAAAAC AACGGGATTT
TGCACAAACA GAAAGAATTC TAAAGGCTCA GATACTGCTT ACAGAGTTTC AAAGCAAGCA
CAACTCAGTG CCCCAACAAA ACAGTTATTT CCAGGTGGAA CTTTCCCAGA AGACTTTTCA
ATACTATTTA CAGTAAAACC AAAAAAAGGA ATTCAGTCTT TCCTTTTATC TATATATAAT
GAGCATGGTA TTCAGCAAAT TGGTGTTGAG GTTGGGAGAT CACCTGTTTT TCTGTTTGAA
GACCACACTG GAAAACCTGC CCCAGAAGAC TATCCCCTCT TCAGAACTGT TAACATCGCT
GACGGGAAGT GGCATCGGGT AGCAATCAGC GTGGAGAAGA AAACTGTGAC AATGATTGTT
GATTGTAAGA AGAAAACCAC GAAACCACTT GATAGAAGTG AGAGAGCAAT TGTTGATACC
AATGGAATCA CGGTTTTTGG AACAAGGATT TTGGATGAAG AAGTTTTTGA GGGGGACATT
CAGCAGTTTT TGATCACAGG TGATCCCAAG GCAGCATATG ACTACTGTGA GCATTATAGT
CCAGACTGTG ACTCTTCAGC ACCCAAGGCT GCTCAAGCTC AGGAACCTCA GATAGATGAG
TATGCACCAG AGGATATAAT CGAATATGAC TATGAGTATG GGGAAGCAGA GTATAAAGAG
GCTGAAAGTG TAACAGAGGG ACCCACTGTA ACTGAGGAGA CAATAGCACA GACGGAGGCA
AACATCGTTG ATGATTTTCA AGAATACAAC TATGGAACAA TGGAAAGTTA CCAGACAGAA
GCTCCTAGGC ATGTTTCTGG GACAAATGAG CCAAATCCAG TTGAAGAAAT ATTTACTGAA
GAATATCTAA CGGGAGAGGA TTATGATTCC CAGAGGAAAA ATTCTGAGGA TACACTATAT
GAAAACAAAG AAATAGACGG CAGGGATTCT GATCTTCTGG TAGATGGAGA TTTAGGCGAA
TATGATTTTT ATGAATATAA AGAATATGAA GATAAACCAA CAAGCCCCCC TAATGAAGAA
TTTGGTCCAG GTGTACCAGC AGAAACTGAT ATTACAGAAA CAAGCATAAA TGGCCATGGT
GCATATGGAG AGAAAGGACA GAAAGGAGAA CCAGCAGTGG TTGAGCCTGG TATGCTTGTC
GAAGGACCAC CAGGACCAGC AGGACCTGCA GGTATTATGG GTCCTCCAGG TCTACAAGGC
CCCACTGGAC CCCCTGGTGA CCCTGGCGAT AGGGGCCCCC CAGGACGTCC TGGCTTACCA
GGGGCTGATG GTCTACCTGG TCCTCCTGGT ACTATGTTGA TGTTACCGTT CCGTTATGGT
GGTGATGGTT CCAAAGGACC AACCATCTCT GCTCAGGAAG CTCAGGCTCA AGCTATTCTT
CAGCAGGCTC GGATTGCTCT GAGAGGCCCA CCTGGCCCAA TGGGTCTAAC TGGAAGACCA
GGTCCTGTGG GGGGGCCTGG TTCATCTGGG GCCAAAGGTG AGAGTGGTGA TCCAGGTCCT
CAGGGCCCTC GAGGCGTCCA GGGTCCCCCT GGTCCAACGG GAAAACCTGG AAAAAGGGGT
CGTCCAGGTG CAGATGGAGG AAGAGGAATG CCAGGAGAAC CTGGGGCAAA GGGAGATCGA
GGGTTTGATG GACTTCCGGG TCTGCCAGGT GACAAAGGTC ACAGGGGTGA ACGAGGTCCT
CAAGGTCCTC CAGGTCCTCC TGGTGATGAT GGAATGAGGG GAGAAGATGG AGAAATTGGA
CCAAGAGGTC TTCCAGGTGA AGCTGGCCCA CGAGGTTTGC TGGGTCCAAG GGGAACTCCA
GGAGCTCCAG GGCAGCCTGG TATGGCAGGT GTAGATGGCC CCCCAGGACC AAAAGGGAAC
ATGGGTCCCC AAGGGGAGCC TGGGCCTCCA GGTCAACAAG GGAATCCAGG ACCTCAGGGT
CTTCCTGGTC CACAAGGTCC AATTGGTCCT CCTGGTGAAA AAGGACCACA AGGAAAACCA
GGACTTGCTG GACTTCCTGG TGCTGATGGG CCTCCTGGTC ATCCTGGGAA AGAAGGCCAG
TCTGGAGAAA AGGGGGCTCT GGGTCCCCCT GGTCCACAAG GTCCTATTGG ATACCCGGGC
CCCCGGGGAG TAAAGGGAGC AGATGGTGTC AGAGGTCTCA AGGGATCTAA AGGTGAAAAG
GGTGAAGATG GTTTTCCAGG ATTCAAAGGT GACATGGGTC TAAAAGGTGA CAGAGGAGAA
GTTGGTCAAA TTGGCCCAAG AGGGGAAGAT GGCCCTGAAG GACCCAAAGG TCGAGCAGGC
CCAACTGGAG ACCCAGGTCC TTCAGGTCAA GCAGGAGAAA AGGGAAAACT TGGAGTTCCA
GGATTACCAG GATATCCAGG AAGACAAGGT CCAAAGGGTT CCACTGGATT CCCTGGGTTT
CCAGGTGCCA ATGGAGAGAA AGGTGCACGG GGAGTAGCTG GCAAACCAGG CCCTCGGGGT
CAGCGTGGTC CAACGGGTCC TCGAGGTTCA AGAGGTGCAA GAGGTCCCAC TGGGAAACCT
GGGCCAAAGG GCACTTCAGG TGGCGATGGC CCTCCTGGCC CTCCAGGTGA AAGAGGTCCT
CAAGGACCTC AGGGTCCAGT TGGATTCCCT GGACCAAAAG GCCCTCCTGG ACCACCTGGG
AAGGATGGGC TGCCAGGACA CCCTGGGCAA CGTGGGGAGA CTGGATTTCA AGGCAAGACC
GGCCCTCCTG GGCCAGGGGG AGTGGTTGGA CCACAGGGAC CAACCGGTGA GACTGGTCCA
ATAGGGGAAC GTGGGCATCC TGGCCCTCCT GGCCCTCCTG GTGAGCAAGG TCTTCCTGGT
GCTGCAGGAA AAGAAGGTGC AAAGGGTGAT CCAGGTCCTC AAGGTATCTC AGGGAAAGAT
GGACCAGCAG GATTACGTGG TTTCCCAGGG GAAAGAGGTC TTCCTGGAGC TCAGGGTGCA
CCTGGACTGA AAGGAGGGGA AGGTCCCCAG GGCCCACCAG GTCCAGTTGG CTCACCAGGA
GAACGTGGGT CAGCAGGTAC AGCTGGCCCA ATTGGTTTAC CAGGGCGCCC GGGACCTCAG
GGTCCTCCTG GTCCAGCTGG AGAGAAAGGT GCTCCTGGAG AAAAAGGTCC CCAAGGGCCT
GCAGGGAGAG ATGGAGTTCA AGGTCCTGTT GGTCTCCCAG GGCCAGCTGG TCCTGCCGGC
TCCCCTGGGG AAGACGGAGA CAAGGGTGAA ATTGGTGAGC CGGGACAAAA AGGCAGCAAG
GGTGACAAGG GAGAAAATGG CCCTCCCGGT CCCCCAGGTC TTCAAGGACC AGTTGGTGCC
CCTGGAATTG CTGGAGGTGA TGGTGAACCA GGTCCTAGAG GACAGCAGGG GATGTTTGGG
CAAAAAGGTG ATGAGGGTGC CAGAGGCTTC CCTGGACCTC CTGGTCCAAT AGGTCTTCAG
GGTCTGCCAG GCCCACCTGG TGAAAAAGGT GAAAATGGGG ATGTTGGTCC CATGGGGCCA
CCTGGTCCTC CAGGCCCAAG AGGCCCTCAA GGTCCCAATG GAGCTGATGG ACCACAAGGA
CCCCCAGGGT CTGTTGGTTC AGTTGGTGGT GTTGGAGAAA AGGGTGAACC TGGAGAAGCA
GGGAACCCAG GGCCTCCTGG GGAAGCAGGT GTAGGCGGTC CCAAAGGAGA AAGAGGAGAG
AAAGGGGAAG CTGGTCCACC TGGAGCTGCT GGACCTCCAG GTGCCAAGGG GCCACCAGGT
GATGATGGCC CTAAGGGTAA CCCGGGTCCT GTTGGTTTTC CTGGAGATCC TGGTCCTCCT
GGGGAACCTG GCCCTGCAGG TCAAGATGGT GTTGGTGGTG ACAAGGGTGA AGATGGAGAT
CCTGGTCAAC CGGGTCCTCC TGGCCCATCT GGTGAGGCTG GCCCACCAGG TCCTCCTGGA
AAACGAGGTC CTCCTGGAGC TGCAGGTGCA GAGGGAAGAC AAGGTGAAAA AGGTGCTAAG
GGGGAAGCAG GTGCAGAAGG TCCTCCTGGA AAAACCGGCC CAGTCGGTCC TCAGGGACCT
GCAGGAAAGC CTGGTCCAGA AGGTCTTCGG GGCATCCCTG GTCCTGTGGG AGAACAAGGT
CTCCCTGGAG CTGCAGGCCA AGATGGACCA CCTGGTCCTA TGGGACCTCC TGGCTTACCT
GGTCTCAAAG GTGACCCTGG CTCCAAGGGT GAAAAGGGAC ATCCTGGTTT AATTGGCCTG
ATTGGTCCTC CAGGAGAACA AGGGGAAAAA GGTGACCGAG GGCTCCCTGG AACTCAAGGA
TCTCCAGGAG CAAAAGGGGA TGGGGGAATT CCTGGTCCTG CTGGTCCCTT AGGTCCACCT
GGTCCTCCAG GTTTACCAGG TCCTCAAGGC CCAAAGGGTA ACAAAGGCTC TACTGGACCC
GCTGGCCAGA AAGGTGACAG TGGTCTTCCA GGGCCTCCTG GGTCTCCAGG TCCACCTGGT
GAAGTCATTC AGCCTTTACC AATCTTGTCC TCCAAAAAAA CGAGAAGACA TACTGAAGGC
ATGCAAGCAG ATGCAGATGA TAATATTCTT GATTACTCGG ATGGAATGGA AGAAATATTT
GGTTCCCTCA ATTCCCTGAA ACAAGACATT GAGCATATGA AATTTCCAAT GGGTACTCAG
ACCAATCCAG CCCGAACTTG TAAAGACCTG CAACTCAGCC ATCCTGACTT CCCAGATGGT
GAATATTGGA TTGATCCTAA CCAAGGTTGC TCAGGAGATT CCTTCAAAGT TTACTGTAAT
TTCACATCTG GTGGTGAGAC TTGCATTTAT CCAGACAAAA AATCTGAGGG AGTAAGAATT
TCATCATGGC CAAAGGAGAA ACCAGGAAGT TGGTTTAGTG AATTTAAGAG GGGAAAACTG
CTTTCATACT TAGATGTTGA AGGAAATTCC ATCAATATGG TGCAAATGAC ATTCCTGAAA
CTTCTGACTG CCTCTGCTCG GCAAAATTTC ACCTACCACT GTCATCAGTC AGCAGCCTGG
TATGATGTGT CATCAGGAAG TTATGACAAA GCACTTCGCT TCCTGGGATC AAATGATGAG
GAGATGTCCT ATGACAATAA TCCTTTTATC AAAACACTGT ATGATGGTTG TGCGTCCAGA
AAAGGCTATG AAAAGACTGT CATTGAAATC AATACACCAA AAATTGATCA AGTACCTATT
GTTGATGTCA TGATCAATGA CTTTGGTGAT CAGAATCAGA AGTTCGGATT TGAAGTTGGT
CCTGTTTGTT TTCTTGGCTA A

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

CloneID OHu25546
Clone ID Related Accession (Same CDS sequence) NM_080629
Accession Version NM_080629.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5457bp)
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 15-MAR-2015
Organism Homo sapiens (human)
Product collagen alpha-1(XI) chain isoform B preproprotein
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC093150.4, J04177.1, AB208844.1, BX476821.1, BU159588.1 and AC099567.2. This sequence is a reference standard in the RefSeqGene project. On May 18, 2006 this sequence version replaced gi:18375519. Transcript Variant: This variant (B) utilizes alternate exon 6, designated exon 6B, and encodes the longest isoform (B). There are no publicly available transcripts representing this variant; it is supported by mRNA annotation on DNA accession AF101112.1, protein AAF04726.1, submitted by the authors of PMID:10486316. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The extent of this transcript is supported by transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968189 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

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
ATGGAGCCGT GGTCCTCTAG GTGGAAAACG AAACGGTGGC TCTGGGATTT CACCGTAACA 
ACCCTCGCAT TGACCTTCCT CTTCCAAGCT AGAGAGGTCA GAGGAGCTGC TCCAGTTGAT
GTACTAAAAG CACTAGATTT TCACAATTCT CCAGAGGGAA TATCAAAAAC AACGGGATTT
TGCACAAACA GAAAGAATTC TAAAGGCTCA GATACTGCTT ACAGAGTTTC AAAGCAAGCA
CAACTCAGTG CCCCAACAAA ACAGTTATTT CCAGGTGGAA CTTTCCCAGA AGACTTTTCA
ATACTATTTA CAGTAAAACC AAAAAAAGGA ATTCAGTCTT TCCTTTTATC TATATATAAT
GAGCATGGTA TTCAGCAAAT TGGTGTTGAG GTTGGGAGAT CACCTGTTTT TCTGTTTGAA
GACCACACTG GAAAACCTGC CCCAGAAGAC TATCCCCTCT TCAGAACTGT TAACATCGCT
GACGGGAAGT GGCATCGGGT AGCAATCAGC GTGGAGAAGA AAACTGTGAC AATGATTGTT
GATTGTAAGA AGAAAACCAC GAAACCACTT GATAGAAGTG AGAGAGCAAT TGTTGATACC
AATGGAATCA CGGTTTTTGG AACAAGGATT TTGGATGAAG AAGTTTTTGA GGGGGACATT
CAGCAGTTTT TGATCACAGG TGATCCCAAG GCAGCATATG ACTACTGTGA GCATTATAGT
CCAGACTGTG ACTCTTCAGC ACCCAAGGCT GCTCAAGCTC AGGAACCTCA GATAGATGAG
AAAAAGAAAT CCAATTTCAA AAAGAAGATG AGGACAGTGG CTACTAAATC AAAGGAAAAA
TCCAAAAAGT TTACACCCCC CAAATCTGAA AAATTTTCAT CCAAGAAGAA GAAAAGTTAT
CAAGCATCAG CAAAAGCCAA ACTAGGGGTA AAGGCAAACA TCGTTGATGA TTTTCAAGAA
TACAACTATG GAACAATGGA AAGTTACCAG ACAGAAGCTC CTAGGCATGT TTCTGGGACA
AATGAGCCAA ATCCAGTTGA AGAAATATTT ACTGAAGAAT ATCTAACGGG AGAGGATTAT
GATTCCCAGA GGAAAAATTC TGAGGATACA CTATATGAAA ACAAAGAAAT AGACGGCAGG
GATTCTGATC TTCTGGTAGA TGGAGATTTA GGCGAATATG ATTTTTATGA ATATAAAGAA
TATGAAGATA AACCAACAAG CCCCCCTAAT GAAGAATTTG GTCCAGGTGT ACCAGCAGAA
ACTGATATTA CAGAAACAAG CATAAATGGC CATGGTGCAT ATGGAGAGAA AGGACAGAAA
GGAGAACCAG CAGTGGTTGA GCCTGGTATG CTTGTCGAAG GACCACCAGG ACCAGCAGGA
CCTGCAGGTA TTATGGGTCC TCCAGGTCTA CAAGGCCCCA CTGGACCCCC TGGTGACCCT
GGCGATAGGG GCCCCCCAGG ACGTCCTGGC TTACCAGGGG CTGATGGTCT ACCTGGTCCT
CCTGGTACTA TGTTGATGTT ACCGTTCCGT TATGGTGGTG ATGGTTCCAA AGGACCAACC
ATCTCTGCTC AGGAAGCTCA GGCTCAAGCT ATTCTTCAGC AGGCTCGGAT TGCTCTGAGA
GGCCCACCTG GCCCAATGGG TCTAACTGGA AGACCAGGTC CTGTGGGGGG GCCTGGTTCA
TCTGGGGCCA AAGGTGAGAG TGGTGATCCA GGTCCTCAGG GCCCTCGAGG CGTCCAGGGT
CCCCCTGGTC CAACGGGAAA ACCTGGAAAA AGGGGTCGTC CAGGTGCAGA TGGAGGAAGA
GGAATGCCAG GAGAACCTGG GGCAAAGGGA GATCGAGGGT TTGATGGACT TCCGGGTCTG
CCAGGTGACA AAGGTCACAG GGGTGAACGA GGTCCTCAAG GTCCTCCAGG TCCTCCTGGT
GATGATGGAA TGAGGGGAGA AGATGGAGAA ATTGGACCAA GAGGTCTTCC AGGTGAAGCT
GGCCCACGAG GTTTGCTGGG TCCAAGGGGA ACTCCAGGAG CTCCAGGGCA GCCTGGTATG
GCAGGTGTAG ATGGCCCCCC AGGACCAAAA GGGAACATGG GTCCCCAAGG GGAGCCTGGG
CCTCCAGGTC AACAAGGGAA TCCAGGACCT CAGGGTCTTC CTGGTCCACA AGGTCCAATT
GGTCCTCCTG GTGAAAAAGG ACCACAAGGA AAACCAGGAC TTGCTGGACT TCCTGGTGCT
GATGGGCCTC CTGGTCATCC TGGGAAAGAA GGCCAGTCTG GAGAAAAGGG GGCTCTGGGT
CCCCCTGGTC CACAAGGTCC TATTGGATAC CCGGGCCCCC GGGGAGTAAA GGGAGCAGAT
GGTGTCAGAG GTCTCAAGGG ATCTAAAGGT GAAAAGGGTG AAGATGGTTT TCCAGGATTC
AAAGGTGACA TGGGTCTAAA AGGTGACAGA GGAGAAGTTG GTCAAATTGG CCCAAGAGGG
GAAGATGGCC CTGAAGGACC CAAAGGTCGA GCAGGCCCAA CTGGAGACCC AGGTCCTTCA
GGTCAAGCAG GAGAAAAGGG AAAACTTGGA GTTCCAGGAT TACCAGGATA TCCAGGAAGA
CAAGGTCCAA AGGGTTCCAC TGGATTCCCT GGGTTTCCAG GTGCCAATGG AGAGAAAGGT
GCACGGGGAG TAGCTGGCAA ACCAGGCCCT CGGGGTCAGC GTGGTCCAAC GGGTCCTCGA
GGTTCAAGAG GTGCAAGAGG TCCCACTGGG AAACCTGGGC CAAAGGGCAC TTCAGGTGGC
GATGGCCCTC CTGGCCCTCC AGGTGAAAGA GGTCCTCAAG GACCTCAGGG TCCAGTTGGA
TTCCCTGGAC CAAAAGGCCC TCCTGGACCA CCTGGGAAGG ATGGGCTGCC AGGACACCCT
GGGCAACGTG GGGAGACTGG ATTTCAAGGC AAGACCGGCC CTCCTGGGCC AGGGGGAGTG
GTTGGACCAC AGGGACCAAC CGGTGAGACT GGTCCAATAG GGGAACGTGG GCATCCTGGC
CCTCCTGGCC CTCCTGGTGA GCAAGGTCTT CCTGGTGCTG CAGGAAAAGA AGGTGCAAAG
GGTGATCCAG GTCCTCAAGG TATCTCAGGG AAAGATGGAC CAGCAGGATT ACGTGGTTTC
CCAGGGGAAA GAGGTCTTCC TGGAGCTCAG GGTGCACCTG GACTGAAAGG AGGGGAAGGT
CCCCAGGGCC CACCAGGTCC AGTTGGCTCA CCAGGAGAAC GTGGGTCAGC AGGTACAGCT
GGCCCAATTG GTTTACCAGG GCGCCCGGGA CCTCAGGGTC CTCCTGGTCC AGCTGGAGAG
AAAGGTGCTC CTGGAGAAAA AGGTCCCCAA GGGCCTGCAG GGAGAGATGG AGTTCAAGGT
CCTGTTGGTC TCCCAGGGCC AGCTGGTCCT GCCGGCTCCC CTGGGGAAGA CGGAGACAAG
GGTGAAATTG GTGAGCCGGG ACAAAAAGGC AGCAAGGGTG ACAAGGGAGA AAATGGCCCT
CCCGGTCCCC CAGGTCTTCA AGGACCAGTT GGTGCCCCTG GAATTGCTGG AGGTGATGGT
GAACCAGGTC CTAGAGGACA GCAGGGGATG TTTGGGCAAA AAGGTGATGA GGGTGCCAGA
GGCTTCCCTG GACCTCCTGG TCCAATAGGT CTTCAGGGTC TGCCAGGCCC ACCTGGTGAA
AAAGGTGAAA ATGGGGATGT TGGTCCCATG GGGCCACCTG GTCCTCCAGG CCCAAGAGGC
CCTCAAGGTC CCAATGGAGC TGATGGACCA CAAGGACCCC CAGGGTCTGT TGGTTCAGTT
GGTGGTGTTG GAGAAAAGGG TGAACCTGGA GAAGCAGGGA ACCCAGGGCC TCCTGGGGAA
GCAGGTGTAG GCGGTCCCAA AGGAGAAAGA GGAGAGAAAG GGGAAGCTGG TCCACCTGGA
GCTGCTGGAC CTCCAGGTGC CAAGGGGCCA CCAGGTGATG ATGGCCCTAA GGGTAACCCG
GGTCCTGTTG GTTTTCCTGG AGATCCTGGT CCTCCTGGGG AACCTGGCCC TGCAGGTCAA
GATGGTGTTG GTGGTGACAA GGGTGAAGAT GGAGATCCTG GTCAACCGGG TCCTCCTGGC
CCATCTGGTG AGGCTGGCCC ACCAGGTCCT CCTGGAAAAC GAGGTCCTCC TGGAGCTGCA
GGTGCAGAGG GAAGACAAGG TGAAAAAGGT GCTAAGGGGG AAGCAGGTGC AGAAGGTCCT
CCTGGAAAAA CCGGCCCAGT CGGTCCTCAG GGACCTGCAG GAAAGCCTGG TCCAGAAGGT
CTTCGGGGCA TCCCTGGTCC TGTGGGAGAA CAAGGTCTCC CTGGAGCTGC AGGCCAAGAT
GGACCACCTG GTCCTATGGG ACCTCCTGGC TTACCTGGTC TCAAAGGTGA CCCTGGCTCC
AAGGGTGAAA AGGGACATCC TGGTTTAATT GGCCTGATTG GTCCTCCAGG AGAACAAGGG
GAAAAAGGTG ACCGAGGGCT CCCTGGAACT CAAGGATCTC CAGGAGCAAA AGGGGATGGG
GGAATTCCTG GTCCTGCTGG TCCCTTAGGT CCACCTGGTC CTCCAGGTTT ACCAGGTCCT
CAAGGCCCAA AGGGTAACAA AGGCTCTACT GGACCCGCTG GCCAGAAAGG TGACAGTGGT
CTTCCAGGGC CTCCTGGGTC TCCAGGTCCA CCTGGTGAAG TCATTCAGCC TTTACCAATC
TTGTCCTCCA AAAAAACGAG AAGACATACT GAAGGCATGC AAGCAGATGC AGATGATAAT
ATTCTTGATT ACTCGGATGG AATGGAAGAA ATATTTGGTT CCCTCAATTC CCTGAAACAA
GACATTGAGC ATATGAAATT TCCAATGGGT ACTCAGACCA ATCCAGCCCG AACTTGTAAA
GACCTGCAAC TCAGCCATCC TGACTTCCCA GATGGTGAAT ATTGGATTGA TCCTAACCAA
GGTTGCTCAG GAGATTCCTT CAAAGTTTAC TGTAATTTCA CATCTGGTGG TGAGACTTGC
ATTTATCCAG ACAAAAAATC TGAGGGAGTA AGAATTTCAT CATGGCCAAA GGAGAAACCA
GGAAGTTGGT TTAGTGAATT TAAGAGGGGA AAACTGCTTT CATACTTAGA TGTTGAAGGA
AATTCCATCA ATATGGTGCA AATGACATTC CTGAAACTTC TGACTGCCTC TGCTCGGCAA
AATTTCACCT ACCACTGTCA TCAGTCAGCA GCCTGGTATG ATGTGTCATC AGGAAGTTAT
GACAAAGCAC TTCGCTTCCT GGGATCAAAT GATGAGGAGA TGTCCTATGA CAATAATCCT
TTTATCAAAA CACTGTATGA TGGTTGTGCG TCCAGAAAAG GCTATGAAAA GACTGTCATT
GAAATCAATA CACCAAAAAT TGATCAAGTA CCTATTGTTG ATGTCATGAT CAATGACTTT
GGTGATCAGA ATCAGAAGTT CGGATTTGAA GTTGGTCCTG TTTGTTTTCT TGGCTAA

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

RefSeq NP_542196.2
CDS319..5775
Misc Feature(1)301..303(+)
Misc Feature(2)535..993(+)
Misc Feature(3)2263..>2397(+)
Misc Feature(4)2749..2922(+)
Misc Feature(5)2875..3054(+)
Misc Feature(6)3640..3789(+)
Misc Feature(7)4486..4635(+)
Misc Feature(8)5131..5766(+)
Exon (1)1..424
Gene:COL11A1
Gene Synonym:
Exon (2)425..592
Gene:COL11A1
Gene Synonym:
Exon (3)593..806
Gene:COL11A1
Gene Synonym:
Exon (4)807..969
Gene:COL11A1
Gene Synonym:
Exon (5)970..1098
Gene:COL11A1
Gene Synonym:
Exon (6)1099..1251
Gene:COL11A1
Gene Synonym:
Exon (7)1252..1344
Gene:COL11A1
Gene Synonym:
Exon (8)1345..1599
Gene:COL11A1
Gene Synonym:
Exon (9)1600..1662
Gene:COL11A1
Gene Synonym:
Exon (10)1663..1704
Gene:COL11A1
Gene Synonym:
Exon (11)1705..1767
Gene:COL11A1
Gene Synonym:
Exon (12)1768..1842
Gene:COL11A1
Gene Synonym:
Exon (13)1843..1926
Gene:COL11A1
Gene Synonym:
Exon (14)1927..1983
Gene:COL11A1
Gene Synonym:
Exon (15)1984..2037
Gene:COL11A1
Gene Synonym:
Exon (16)2038..2091
Gene:COL11A1
Gene Synonym:
Exon (17)2092..2145
Gene:COL11A1
Gene Synonym:
Exon (18)2146..2199
Gene:COL11A1
Gene Synonym:
Exon (19)2200..2253
Gene:COL11A1
Gene Synonym:
Exon (20)2254..2298
Gene:COL11A1
Gene Synonym:
Exon (21)2299..2352
Gene:COL11A1
Gene Synonym:
Exon (22)2353..2397
Gene:COL11A1
Gene Synonym:
Exon (23)2398..2451
Gene:COL11A1
Gene Synonym:
Exon (24)2452..2496
Gene:COL11A1
Gene Synonym:
Exon (25)2497..2550
Gene:COL11A1
Gene Synonym:
Exon (26)2551..2595
Gene:COL11A1
Gene Synonym:
Exon (27)2596..2649
Gene:COL11A1
Gene Synonym:
Exon (28)2650..2694
Gene:COL11A1
Gene Synonym:
Exon (29)2695..2748
Gene:COL11A1
Gene Synonym:
Exon (30)2749..2856
Gene:COL11A1
Gene Synonym:
Exon (31)2857..2910
Gene:COL11A1
Gene Synonym:
Exon (32)2911..2964
Gene:COL11A1
Gene Synonym:
Exon (33)2965..3009
Gene:COL11A1
Gene Synonym:
Exon (34)3010..3063
Gene:COL11A1
Gene Synonym:
Exon (35)3064..3108
Gene:COL11A1
Gene Synonym:
Exon (36)3109..3162
Gene:COL11A1
Gene Synonym:
Exon (37)3163..3216
Gene:COL11A1
Gene Synonym:
Exon (38)3217..3270
Gene:COL11A1
Gene Synonym:
Exon (39)3271..3378
Gene:COL11A1
Gene Synonym:
Exon (40)3379..3468
Gene:COL11A1
Gene Synonym:
Exon (41)3469..3522
Gene:COL11A1
Gene Synonym:
Exon (42)3523..3630
Gene:COL11A1
Gene Synonym:
Exon (43)3631..3738
Gene:COL11A1
Gene Synonym:
Exon (44)3739..3792
Gene:COL11A1
Gene Synonym:
Exon (45)3793..3846
Gene:COL11A1
Gene Synonym:
Exon (46)3847..3954
Gene:COL11A1
Gene Synonym:
Exon (47)3955..4008
Gene:COL11A1
Gene Synonym:
Exon (48)4009..4062
Gene:COL11A1
Gene Synonym:
Exon (49)4063..4116
Gene:COL11A1
Gene Synonym:
Exon (50)4117..4170
Gene:COL11A1
Gene Synonym:
Exon (51)4171..4278
Gene:COL11A1
Gene Synonym:
Exon (52)4279..4332
Gene:COL11A1
Gene Synonym:
Exon (53)4333..4386
Gene:COL11A1
Gene Synonym:
Exon (54)4387..4440
Gene:COL11A1
Gene Synonym:
Exon (55)4441..4494
Gene:COL11A1
Gene Synonym:
Exon (56)4495..4602
Gene:COL11A1
Gene Synonym:
Exon (57)4603..4656
Gene:COL11A1
Gene Synonym:
Exon (58)4657..4710
Gene:COL11A1
Gene Synonym:
Exon (59)4711..4818
Gene:COL11A1
Gene Synonym:
Exon (60)4819..4872
Gene:COL11A1
Gene Synonym:
Exon (61)4873..4908
Gene:COL11A1
Gene Synonym:
Exon (62)4909..4962
Gene:COL11A1
Gene Synonym:
Exon (63)4963..5212
Gene:COL11A1
Gene Synonym:
Exon (64)5213..5325
Gene:COL11A1
Gene Synonym:
Exon (65)5326..5394
Gene:COL11A1
Gene Synonym:
Exon (66)5395..5628
Gene:COL11A1
Gene Synonym:
Exon (67)5629..7327
Gene:COL11A1
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_080629
Organism Homo sapiens (human)
Definition Homo sapiens collagen, type XI, alpha 1 (COL11A1), transcript variant B, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_080629

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
ATGGAGCCGT GGTCCTCTAG GTGGAAAACG AAACGGTGGC TCTGGGATTT CACCGTAACA 
ACCCTCGCAT TGACCTTCCT CTTCCAAGCT AGAGAGGTCA GAGGAGCTGC TCCAGTTGAT
GTACTAAAAG CACTAGATTT TCACAATTCT CCAGAGGGAA TATCAAAAAC AACGGGATTT
TGCACAAACA GAAAGAATTC TAAAGGCTCA GATACTGCTT ACAGAGTTTC AAAGCAAGCA
CAACTCAGTG CCCCAACAAA ACAGTTATTT CCAGGTGGAA CTTTCCCAGA AGACTTTTCA
ATACTATTTA CAGTAAAACC AAAAAAAGGA ATTCAGTCTT TCCTTTTATC TATATATAAT
GAGCATGGTA TTCAGCAAAT TGGTGTTGAG GTTGGGAGAT CACCTGTTTT TCTGTTTGAA
GACCACACTG GAAAACCTGC CCCAGAAGAC TATCCCCTCT TCAGAACTGT TAACATCGCT
GACGGGAAGT GGCATCGGGT AGCAATCAGC GTGGAGAAGA AAACTGTGAC AATGATTGTT
GATTGTAAGA AGAAAACCAC GAAACCACTT GATAGAAGTG AGAGAGCAAT TGTTGATACC
AATGGAATCA CGGTTTTTGG AACAAGGATT TTGGATGAAG AAGTTTTTGA GGGGGACATT
CAGCAGTTTT TGATCACAGG TGATCCCAAG GCAGCATATG ACTACTGTGA GCATTATAGT
CCAGACTGTG ACTCTTCAGC ACCCAAGGCT GCTCAAGCTC AGGAACCTCA GATAGATGAG
AAAAAGAAAT CCAATTTCAA AAAGAAGATG AGGACAGTGG CTACTAAATC AAAGGAAAAA
TCCAAAAAGT TTACACCCCC CAAATCTGAA AAATTTTCAT CCAAGAAGAA GAAAAGTTAT
CAAGCATCAG CAAAAGCCAA ACTAGGGGTA AAGGCAAACA TCGTTGATGA TTTTCAAGAA
TACAACTATG GAACAATGGA AAGTTACCAG ACAGAAGCTC CTAGGCATGT TTCTGGGACA
AATGAGCCAA ATCCAGTTGA AGAAATATTT ACTGAAGAAT ATCTAACGGG AGAGGATTAT
GATTCCCAGA GGAAAAATTC TGAGGATACA CTATATGAAA ACAAAGAAAT AGACGGCAGG
GATTCTGATC TTCTGGTAGA TGGAGATTTA GGCGAATATG ATTTTTATGA ATATAAAGAA
TATGAAGATA AACCAACAAG CCCCCCTAAT GAAGAATTTG GTCCAGGTGT ACCAGCAGAA
ACTGATATTA CAGAAACAAG CATAAATGGC CATGGTGCAT ATGGAGAGAA AGGACAGAAA
GGAGAACCAG CAGTGGTTGA GCCTGGTATG CTTGTCGAAG GACCACCAGG ACCAGCAGGA
CCTGCAGGTA TTATGGGTCC TCCAGGTCTA CAAGGCCCCA CTGGACCCCC TGGTGACCCT
GGCGATAGGG GCCCCCCAGG ACGTCCTGGC TTACCAGGGG CTGATGGTCT ACCTGGTCCT
CCTGGTACTA TGTTGATGTT ACCGTTCCGT TATGGTGGTG ATGGTTCCAA AGGACCAACC
ATCTCTGCTC AGGAAGCTCA GGCTCAAGCT ATTCTTCAGC AGGCTCGGAT TGCTCTGAGA
GGCCCACCTG GCCCAATGGG TCTAACTGGA AGACCAGGTC CTGTGGGGGG GCCTGGTTCA
TCTGGGGCCA AAGGTGAGAG TGGTGATCCA GGTCCTCAGG GCCCTCGAGG CGTCCAGGGT
CCCCCTGGTC CAACGGGAAA ACCTGGAAAA AGGGGTCGTC CAGGTGCAGA TGGAGGAAGA
GGAATGCCAG GAGAACCTGG GGCAAAGGGA GATCGAGGGT TTGATGGACT TCCGGGTCTG
CCAGGTGACA AAGGTCACAG GGGTGAACGA GGTCCTCAAG GTCCTCCAGG TCCTCCTGGT
GATGATGGAA TGAGGGGAGA AGATGGAGAA ATTGGACCAA GAGGTCTTCC AGGTGAAGCT
GGCCCACGAG GTTTGCTGGG TCCAAGGGGA ACTCCAGGAG CTCCAGGGCA GCCTGGTATG
GCAGGTGTAG ATGGCCCCCC AGGACCAAAA GGGAACATGG GTCCCCAAGG GGAGCCTGGG
CCTCCAGGTC AACAAGGGAA TCCAGGACCT CAGGGTCTTC CTGGTCCACA AGGTCCAATT
GGTCCTCCTG GTGAAAAAGG ACCACAAGGA AAACCAGGAC TTGCTGGACT TCCTGGTGCT
GATGGGCCTC CTGGTCATCC TGGGAAAGAA GGCCAGTCTG GAGAAAAGGG GGCTCTGGGT
CCCCCTGGTC CACAAGGTCC TATTGGATAC CCGGGCCCCC GGGGAGTAAA GGGAGCAGAT
GGTGTCAGAG GTCTCAAGGG ATCTAAAGGT GAAAAGGGTG AAGATGGTTT TCCAGGATTC
AAAGGTGACA TGGGTCTAAA AGGTGACAGA GGAGAAGTTG GTCAAATTGG CCCAAGAGGG
GAAGATGGCC CTGAAGGACC CAAAGGTCGA GCAGGCCCAA CTGGAGACCC AGGTCCTTCA
GGTCAAGCAG GAGAAAAGGG AAAACTTGGA GTTCCAGGAT TACCAGGATA TCCAGGAAGA
CAAGGTCCAA AGGGTTCCAC TGGATTCCCT GGGTTTCCAG GTGCCAATGG AGAGAAAGGT
GCACGGGGAG TAGCTGGCAA ACCAGGCCCT CGGGGTCAGC GTGGTCCAAC GGGTCCTCGA
GGTTCAAGAG GTGCAAGAGG TCCCACTGGG AAACCTGGGC CAAAGGGCAC TTCAGGTGGC
GATGGCCCTC CTGGCCCTCC AGGTGAAAGA GGTCCTCAAG GACCTCAGGG TCCAGTTGGA
TTCCCTGGAC CAAAAGGCCC TCCTGGACCA CCTGGGAAGG ATGGGCTGCC AGGACACCCT
GGGCAACGTG GGGAGACTGG ATTTCAAGGC AAGACCGGCC CTCCTGGGCC AGGGGGAGTG
GTTGGACCAC AGGGACCAAC CGGTGAGACT GGTCCAATAG GGGAACGTGG GCATCCTGGC
CCTCCTGGCC CTCCTGGTGA GCAAGGTCTT CCTGGTGCTG CAGGAAAAGA AGGTGCAAAG
GGTGATCCAG GTCCTCAAGG TATCTCAGGG AAAGATGGAC CAGCAGGATT ACGTGGTTTC
CCAGGGGAAA GAGGTCTTCC TGGAGCTCAG GGTGCACCTG GACTGAAAGG AGGGGAAGGT
CCCCAGGGCC CACCAGGTCC AGTTGGCTCA CCAGGAGAAC GTGGGTCAGC AGGTACAGCT
GGCCCAATTG GTTTACCAGG GCGCCCGGGA CCTCAGGGTC CTCCTGGTCC AGCTGGAGAG
AAAGGTGCTC CTGGAGAAAA AGGTCCCCAA GGGCCTGCAG GGAGAGATGG AGTTCAAGGT
CCTGTTGGTC TCCCAGGGCC AGCTGGTCCT GCCGGCTCCC CTGGGGAAGA CGGAGACAAG
GGTGAAATTG GTGAGCCGGG ACAAAAAGGC AGCAAGGGTG ACAAGGGAGA AAATGGCCCT
CCCGGTCCCC CAGGTCTTCA AGGACCAGTT GGTGCCCCTG GAATTGCTGG AGGTGATGGT
GAACCAGGTC CTAGAGGACA GCAGGGGATG TTTGGGCAAA AAGGTGATGA GGGTGCCAGA
GGCTTCCCTG GACCTCCTGG TCCAATAGGT CTTCAGGGTC TGCCAGGCCC ACCTGGTGAA
AAAGGTGAAA ATGGGGATGT TGGTCCCATG GGGCCACCTG GTCCTCCAGG CCCAAGAGGC
CCTCAAGGTC CCAATGGAGC TGATGGACCA CAAGGACCCC CAGGGTCTGT TGGTTCAGTT
GGTGGTGTTG GAGAAAAGGG TGAACCTGGA GAAGCAGGGA ACCCAGGGCC TCCTGGGGAA
GCAGGTGTAG GCGGTCCCAA AGGAGAAAGA GGAGAGAAAG GGGAAGCTGG TCCACCTGGA
GCTGCTGGAC CTCCAGGTGC CAAGGGGCCA CCAGGTGATG ATGGCCCTAA GGGTAACCCG
GGTCCTGTTG GTTTTCCTGG AGATCCTGGT CCTCCTGGGG AACCTGGCCC TGCAGGTCAA
GATGGTGTTG GTGGTGACAA GGGTGAAGAT GGAGATCCTG GTCAACCGGG TCCTCCTGGC
CCATCTGGTG AGGCTGGCCC ACCAGGTCCT CCTGGAAAAC GAGGTCCTCC TGGAGCTGCA
GGTGCAGAGG GAAGACAAGG TGAAAAAGGT GCTAAGGGGG AAGCAGGTGC AGAAGGTCCT
CCTGGAAAAA CCGGCCCAGT CGGTCCTCAG GGACCTGCAG GAAAGCCTGG TCCAGAAGGT
CTTCGGGGCA TCCCTGGTCC TGTGGGAGAA CAAGGTCTCC CTGGAGCTGC AGGCCAAGAT
GGACCACCTG GTCCTATGGG ACCTCCTGGC TTACCTGGTC TCAAAGGTGA CCCTGGCTCC
AAGGGTGAAA AGGGACATCC TGGTTTAATT GGCCTGATTG GTCCTCCAGG AGAACAAGGG
GAAAAAGGTG ACCGAGGGCT CCCTGGAACT CAAGGATCTC CAGGAGCAAA AGGGGATGGG
GGAATTCCTG GTCCTGCTGG TCCCTTAGGT CCACCTGGTC CTCCAGGTTT ACCAGGTCCT
CAAGGCCCAA AGGGTAACAA AGGCTCTACT GGACCCGCTG GCCAGAAAGG TGACAGTGGT
CTTCCAGGGC CTCCTGGGTC TCCAGGTCCA CCTGGTGAAG TCATTCAGCC TTTACCAATC
TTGTCCTCCA AAAAAACGAG AAGACATACT GAAGGCATGC AAGCAGATGC AGATGATAAT
ATTCTTGATT ACTCGGATGG AATGGAAGAA ATATTTGGTT CCCTCAATTC CCTGAAACAA
GACATTGAGC ATATGAAATT TCCAATGGGT ACTCAGACCA ATCCAGCCCG AACTTGTAAA
GACCTGCAAC TCAGCCATCC TGACTTCCCA GATGGTGAAT ATTGGATTGA TCCTAACCAA
GGTTGCTCAG GAGATTCCTT CAAAGTTTAC TGTAATTTCA CATCTGGTGG TGAGACTTGC
ATTTATCCAG ACAAAAAATC TGAGGGAGTA AGAATTTCAT CATGGCCAAA GGAGAAACCA
GGAAGTTGGT TTAGTGAATT TAAGAGGGGA AAACTGCTTT CATACTTAGA TGTTGAAGGA
AATTCCATCA ATATGGTGCA AATGACATTC CTGAAACTTC TGACTGCCTC TGCTCGGCAA
AATTTCACCT ACCACTGTCA TCAGTCAGCA GCCTGGTATG ATGTGTCATC AGGAAGTTAT
GACAAAGCAC TTCGCTTCCT GGGATCAAAT GATGAGGAGA TGTCCTATGA CAATAATCCT
TTTATCAAAA CACTGTATGA TGGTTGTGCG TCCAGAAAAG GCTATGAAAA GACTGTCATT
GAAATCAATA CACCAAAAAT TGATCAAGTA CCTATTGTTG ATGTCATGAT CAATGACTTT
GGTGATCAGA ATCAGAAGTT CGGATTTGAA GTTGGTCCTG TTTGTTTTCT TGGCTAA

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

 
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