Col15a1 cDNA ORF clone, Mesocricetus auratus(golden hamster)

Gene
Clones
gRNAs

Summary

Gene Symbol	Col15a1
Entrez Gene ID	101828569
Full Name	collagen type XV alpha 1 chain
Gene Type	protein-coding
Organism	Mesocricetus auratus(golden hamster)

mRNA and Protein(s)

mRNA	Protein	Name
XM_013119558.1	XP_012975012.1	collagen alpha-1(XV) chain
XM_013119558.2	XP_012975012.2	collagen alpha-1(XV) chain

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Transcriptome sequencing and development of an expression microarray platform for liver infection in adenovirus type 5-infected Syrian golden hamsters.
Ying B, Toth K, Spencer JF, Aurora R, Wold WS
Virology485305-12(2015 Nov)

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

The following Col15a1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Col15a1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OMe132621	XM_013119558.1 Latest version!	Mesocricetus auratus collagen, type XV, alpha 1 (Col15a1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OMe251932	XM_013119558.2 Latest version!	Mesocricetus auratus collagen type XV alpha 1 chain (Col15a1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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

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

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

Reference Sequences (Refseq)

Col15a1 ( XM_013119558.1 ) cDNA ORF clone, Mesocricetus auratus(golden hamster) -> XP_012975012.1 Mesocricetus auratus collagen, type XV, alpha 1 (Col15a1), mRNA.

Price & Availability↑

CloneID	OMe132621
Clone ID Related Accession (Same CDS sequence)	XM_013119558.1
Accession Version	XM_013119558.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4038bp) 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	1436630400000
Organism	Mesocricetus auratus(Golden hamster)
Product	collagen alpha-1(XV) chain
Comment	MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004801690.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mesocricetus auratus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGCACCCA GGAGGACCGC GCAGGGCCAG CGCCCGCGGT GGCTGCTCTC CATCATCTCC 
TCAGCGCTGC TCTCCGCTGT ACTGCAGACG CGCACCGCAA CAGGCTCAGC TGCCCAGGAC 
CATCTGGACC TCACAGAGCT CATTGGTGTC CCCTTGCCCT CATCTGTGTC CTTTGTCACG 
GGCTATGGTG GTTTCCCGGC TTACAGCTTT GGGCCTGGTG CCAATGTTGG CCGCCCAGCC 
AGGACCCTCA TCCCGCCGAC CTTCTTCAGG GACTTCGCCA TTAGTGTGGC GGTGAAGCCC 
AGTAGTTCCC AAGGAGGTGT GCTCTTCGCC GTTACTGATG CTTTCCAGAA AGTCATCTAC 
CTGGGCCTGC GGCTTTCCAG GGTGGAGGAC GGCCACCAGC GGGTTATCCT GTACTACACG 
GAACCAGGCT CCCACGTGTC CCGTGAAGCG GCTGCCTTTT CAGTGCCTGT GATGACCAAC 
AGGTGGAATC GTTTTGCTGT GACCGTCCAG GGCGAGGAAG TGGCCCTTCT CATGGACTGT 
GAGGAGCTCG GCCACGTCCT TTTCCAGAGA TCTTCCCGGC CTCTGATGTT CGAGCCCAGT 
GCCGGTGTAT TTGTAGGCAA TGCAGGAGCC ACGGGCCTGG AGAGATTTAC GGGCTCCATA 
CAGCAGCTTA CCATCTACAC GGACCCCAGG ACCCCCGAGG AGCTGTGTGA AGCCCAAGAG 
TCCTCGGCAT CTGGAGAAGC CAGTGGGCTT CAGGAGATGG ATGAAGTCGC TGAGATCATG 
GAAGCTGTCA CCTACACTCA AACCCCGCCT AAAGAAGTAC ACGTTGATCC CATAAGCATG 
CCTCCTACTT CATCCTCTCC TGCTGAGGAC ACGGAGTTTT CCGGGGAACC TGTGCCAGAA 
GGAACCCCAG AAACCAACTT GAGCATCATT GGGCATAGCA GCCCTGAGCA AGGGTCTGGT 
GAGATTCTGA ATGACACACT GGAGGTCCAT GTTGTGGATG GGGACCCCAG TACTGATGAT 
GGTTCAGGGA ATGGGGCCTT GCTGAATGTC ACTGATGGTC AGGTGCTATC AGCAACGGCC 
ACTGAGGAGG CCAAGGTGCC TGTCACTACC ACCCTGAAAG CAGAGACTGG CAGTGTTCCT 
ACTGGGAGCC CCACCCTGGC CGCGTCCACC CAAAACTCCA GGGAAGTGGC CACTCTGGGT 
CCAAACGGTG AAGAATGGCT AACCCCAGCT GTGTCTAAAG AACCCCTTGG CGCTTTTGAG 
GAAGAAGAAG CCAGCGGGAC TGCCATTGAC AGCCTGGATG CCTTCACACC CACAATGGCC 
CTTGAGAAAG CCAGCGGGAC CCCTGCAGAC ATCCAGAATA CTCTCACACC CACAGTGGCC 
CTTGAGCAAG CCAGTGGAAC CCCTGCAGAC ATCCAGGATG CTCTCACACC CACGGTGGTC 
CTTGAGCAAG CCAGCAGGGG TCCTACAGAC ACCCAGGATG CTCTCCCAGC CACAGTGGCT 
CCTGAGCAAG TGTTTACTGC TGCACCAACT GATGGAGAAC GCCAGGCGGC ATCCACCGAG 
GAAGCTGAGG AGGAGGGTTC CGACAGCATA CTCCCCAGTG GGCCTCCACT ACCCACACCC 
ACAGTGGCTC CCGAGAGGCC GGTCACTCCG GTAGCAGTGG AGGCTGAAGG CTCAGGCCAT 
GTTTGGGGCT TGGATGTGGG CTCAGGCTCT GGAGACATTG TGAGCAATGA GGATTTGTTG 
AGAGGTCCTC CGGGCCCTCC AGGCCCCCCT GGATCACCTG GGATTCCAGG AAAACCAGGA 
ACAGATGTTT TCATAGGACC CCCTGGCTCT CCTGGAGAGG ACGGAGCTAC TGGTGAGCCA 
GGACCTCCGG GCCCTGAGGG ACAGCCTGGA CTTGATGGAG CCTCTGGCAA GCCTGGGATG 
AAAGGAGAGA AGGGAGCAAG AGGACCTAAT GGCTCTGTCG GCGAGAAGGG AGACCCTGGC 
AATCGAGGCT TGCCAGGGCC CCCGGGGAAA AATGGACAAG TTGGCACTCC TGGGGTCATG 
GGACCACCAG GGCCTCCTGG ACCCCCGGGA CCCCCAGGCC CTGGATGTAC AACCGAACTT 
GGATTTGAGG ACATCGAAGG CTCGGGGGAC ATCCAGCTGC TGAGCAAACC CAGAATCTCG 
GGACCCGCTT CTCCAAGTGG TCCCAAAGGA GAGAAAGGAG AGCAAGGACC CAAGGGTGAA 
CGGGGAATGG ATGGAACCAG CACTGTGGGA CCCCCTGGGC CCAGGGGACC ACCTGGGCGT 
GTCCAGGTCC TGTCCAGTTC TTTGATCAAC ATCACTAATG GATCCATGAA TTTCTCCAAC 
ATTCCTGAGC TTGTGGGACC TCCGGGGCCG GATGGTATGC CCGGGCTACC AGGATTTCCA 
GGCCCCAGAG GACCAAAAGG TGACACCGGT GTGCCTGGAT TCCCAGGTCT AAAAGGAGAA 
CAGGGCGAGA AGGGAGAGCC GGGTGCGATC CTGACAGGGG ACATTCCTCT GGAAATGGTG 
AAGGGGAGAA AGGGTGAACC TGGAATGCAT GGAGCCCCAG GACCCATGGG ACCCAAGGGA 
CCACCAGGTC ATAAAGGAGA ATTTGGCCTC CCGGGACGAC CTGGTCGTCC AGGATTGAAT 
GGTCTCAAGG GTGCCAAAGG AGATCGAGGG ATCATGATGC CAGGTCCACC TGGCCTACCT 
GGACCCCCAG GACCTCCAGG ACCCCCTGGA GCTGTGGTTA ACATCAAAGG TGCTGTTTTC 
CCAATACCTG CCCGGCCACA CTGCAAGACT CCAGTTGGTA CGGCTCACCC TGGAGACCCA 
GAGCTTGTCA CTTTCCACGG TGTTAAAGGA GAGAAAGGTT CCTGGGGTCT TCCTGGTTCA 
AAAGGAGAAA AGGGGGACCA AGGAGCCCAA GGACCACCAG GCCCTCCGGT TGATCCCGCT 
TACCTGAGAC ATTTTCTCCA CAGCTTGAAG GGAGAGAATG GAGATGCAGC ATTCAGAGGA 
GAGTCCAGCA ACAACCTCCT TGTCTCTGGG CCTCCAGGCC TACCGGGACA CCCAGGCCTG 
GTTGGACAGA AAGGAGAGGC TGTTGTGGGG CCCCAGGGCC CCCCAGGAAT TCCAGGTCTG 
CCTGGGCCAC CTGGCTTTGG GAGACCTGGT GTCCCTGGAC CACCGGGACC CCCTGGGCCA 
CCAGGACCTC CTGCCATCCT GGGTGCAGCT GTGGCCCTTC CAGGCCCGCC TGGCCCTCCG 
GGACAGCCAG GACTCCCAGG ATCCAGAAAC TTGGTCACGG CACTCAGCGA CATGGGTGAC 
ATGTTGCAGA AAGCTCACTT GGTCATAGAA GGGACGTTTA TCTACCTGAG GGACAGTGCA 
GAGTTCTTCA TCCGTGTCCG AGATGGCTGG AAAAAATTAC AGTTGGGAGA ACTGATCCCC 
ATCCCTGCTG ACAGCCCCCC ACCGCCGGCG CTTTCCAGCA ATCCATACCA GCCACAGCCT 
CCGCTGAACC CCATTTTAAG TGCCAATTAT GAGAGGCCTG TTCTGCATCT GGTTGCTCTG 
AACACACCGG TGGCTGGAGA CGTCCGGGCT GATTTCCAGT GCTTCCAGCA GGCCAGGGCT 
GCAGGGCTGC TGTCCACGTT CCGAGCGTTC CTGTCATCCC ACCTGCAGGA CCTCTCCACG 
GTTGTGAGGA AAGCAGAGAG ACTCAGCCTT CCAGTTGTGA ACCTCAAGGG CCAAGTGCTT 
TTTAAAAATT GGGACTCAAT ATTTTCTGGT GATGGAGGTC AGTTCAACAC CCACATTCCG 
ATATACTCTT TTGATGGTCG AGACGTGATG ACCGATCCTT CTTGGCCCCA GAAAGTCGTT 
TGGCATGGAT CCAACCCCCA TGGTGTCCGT CTTGTGGATA AGTACTGTGA AGCCTGGCGA 
ACCACAGACA TGGCAGTAAC GGGATTTGCC TCCCCACTGA GCACAGGGAA GATTCTGGAC 
CAGAAAGCTT ATAGCTGTGC TAATAGGCTA ATCGTCCTGT GTATCGAAAA CAGCTTCATG 
ACAGACGCTA GGAAGTAA

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

RefSeq	XP_012975012.1
CDS	131..4168
Translation	MAPRRTAQGQRPRWLLSIISSALLSAVLQTRTATGSAAQDHLDLTELIGVPLPSSVSFVTGYGGFPAYSFGPGANVGRPARTLIPPTFFRDFAISVAVKPSSSQGGVLFAVTDAFQKVIYLGLRLSRVEDGHQRVILYYTEPGSHVSREAAAFSVPVMTNRWNRFAVTVQGEEVALLMDCEELGHVLFQRSSRPLMFEPSAGVFVGNAGATGLERFTGSIQQLTIYTDPRTPEELCEAQESSASGEASGLQEMDEVAEIMEAVTYTQTPPKEVHVDPISMPPTSSSPAEDTEFSGEPVPEGTPETNLSIIGHSSPEQGSGEILNDTLEVHVVDGDPSTDDGSGNGALLNVTDGQVLSATATEEAKVPVTTTLKAETGSVPTGSPTLAASTQNSREVATLGPNGEEWLTPAVSKEPLGAFEEEEASGTAIDSLDAFTPTMALEKASGTPADIQNTLTPTVALEQASGTPADIQDALTPTVVLEQASRGPTDTQDALPATVAPEQVFTAAPTDGERQAASTEEAEEEGSDSILPSGPPLPTPTVAPERPVTPVAVEAEGSGHVWGLDVGSGSGDIVSNEDLLRGPPGPPGPPGSPGIPGKPGTDVFIGPPGSPGEDGATGEPGPPGPEGQPGLDGASGKPGMKGEKGARGPNGSVGEKGDPGNRGLPGPPGKNGQVGTPGVMGPPGPPGPPGPPGPGCTTELGFEDIEGSGDIQLLSKPRISGPASPSGPKGEKGEQGPKGERGMDGTSTVGPPGPRGPPGRVQVLSSSLINITNGSMNFSNIPELVGPPGPDGMPGLPGFPGPRGPKGDTGVPGFPGLKGEQGEKGEPGAILTGDIPLEMVKGRKGEPGMHGAPGPMGPKGPPGHKGEFGLPGRPGRPGLNGLKGAKGDRGIMMPGPPGLPGPPGPPGPPGAVVNIKGAVFPIPARPHCKTPVGTAHPGDPELVTFHGVKGEKGSWGLPGSKGEKGDQGAQGPPGPPVDPAYLRHFLHSLKGENGDAAFRGESSNNLLVSGPPGLPGHPGLVGQKGEAVVGPQGPPGIPGLPGPPGFGRPGVPGPPGPPGPPGPPAILGAAVALPGPPGPPGQPGLPGSRNLVTALSDMGDMLQKAHLVIEGTFIYLRDSAEFFIRVRDGWKKLQLGELIPIPADSPPPPALSSNPYQPQPPLNPILSANYERPVLHLVALNTPVAGDVRADFQCFQQARAAGLLSTFRAFLSSHLQDLSTVVRKAERLSLPVVNLKGQVLFKNWDSIFSGDGGQFNTHIPIYSFDGRDVMTDPSWPQKVVWHGSNPHGVRLVDKYCEAWRTTDMAVTGFASPLSTGKILDQKAYSCANRLIVLCIENSFMTDARK

Target ORF information:

RefSeq Version	XM_013119558.1
Organism	Mesocricetus auratus(Golden hamster)
Definition	Mesocricetus auratus collagen, type XV, alpha 1 (Col15a1), mRNA.

Target ORF information:

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

XM_013119558.1

ORF Insert Sequence:

ATGGCACCCA GGAGGACCGC GCAGGGCCAG CGCCCGCGGT GGCTGCTCTC CATCATCTCC 
TCAGCGCTGC TCTCCGCTGT ACTGCAGACG CGCACCGCAA CAGGCTCAGC TGCCCAGGAC 
CATCTGGACC TCACAGAGCT CATTGGTGTC CCCTTGCCCT CATCTGTGTC CTTTGTCACG 
GGCTATGGTG GTTTCCCGGC TTACAGCTTT GGGCCTGGTG CCAATGTTGG CCGCCCAGCC 
AGGACCCTCA TCCCGCCGAC CTTCTTCAGG GACTTCGCCA TTAGTGTGGC GGTGAAGCCC 
AGTAGTTCCC AAGGAGGTGT GCTCTTCGCC GTTACTGATG CTTTCCAGAA AGTCATCTAC 
CTGGGCCTGC GGCTTTCCAG GGTGGAGGAC GGCCACCAGC GGGTTATCCT GTACTACACG 
GAACCAGGCT CCCACGTGTC CCGTGAAGCG GCTGCCTTTT CAGTGCCTGT GATGACCAAC 
AGGTGGAATC GTTTTGCTGT GACCGTCCAG GGCGAGGAAG TGGCCCTTCT CATGGACTGT 
GAGGAGCTCG GCCACGTCCT TTTCCAGAGA TCTTCCCGGC CTCTGATGTT CGAGCCCAGT 
GCCGGTGTAT TTGTAGGCAA TGCAGGAGCC ACGGGCCTGG AGAGATTTAC GGGCTCCATA 
CAGCAGCTTA CCATCTACAC GGACCCCAGG ACCCCCGAGG AGCTGTGTGA AGCCCAAGAG 
TCCTCGGCAT CTGGAGAAGC CAGTGGGCTT CAGGAGATGG ATGAAGTCGC TGAGATCATG 
GAAGCTGTCA CCTACACTCA AACCCCGCCT AAAGAAGTAC ACGTTGATCC CATAAGCATG 
CCTCCTACTT CATCCTCTCC TGCTGAGGAC ACGGAGTTTT CCGGGGAACC TGTGCCAGAA 
GGAACCCCAG AAACCAACTT GAGCATCATT GGGCATAGCA GCCCTGAGCA AGGGTCTGGT 
GAGATTCTGA ATGACACACT GGAGGTCCAT GTTGTGGATG GGGACCCCAG TACTGATGAT 
GGTTCAGGGA ATGGGGCCTT GCTGAATGTC ACTGATGGTC AGGTGCTATC AGCAACGGCC 
ACTGAGGAGG CCAAGGTGCC TGTCACTACC ACCCTGAAAG CAGAGACTGG CAGTGTTCCT 
ACTGGGAGCC CCACCCTGGC CGCGTCCACC CAAAACTCCA GGGAAGTGGC CACTCTGGGT 
CCAAACGGTG AAGAATGGCT AACCCCAGCT GTGTCTAAAG AACCCCTTGG CGCTTTTGAG 
GAAGAAGAAG CCAGCGGGAC TGCCATTGAC AGCCTGGATG CCTTCACACC CACAATGGCC 
CTTGAGAAAG CCAGCGGGAC CCCTGCAGAC ATCCAGAATA CTCTCACACC CACAGTGGCC 
CTTGAGCAAG CCAGTGGAAC CCCTGCAGAC ATCCAGGATG CTCTCACACC CACGGTGGTC 
CTTGAGCAAG CCAGCAGGGG TCCTACAGAC ACCCAGGATG CTCTCCCAGC CACAGTGGCT 
CCTGAGCAAG TGTTTACTGC TGCACCAACT GATGGAGAAC GCCAGGCGGC ATCCACCGAG 
GAAGCTGAGG AGGAGGGTTC CGACAGCATA CTCCCCAGTG GGCCTCCACT ACCCACACCC 
ACAGTGGCTC CCGAGAGGCC GGTCACTCCG GTAGCAGTGG AGGCTGAAGG CTCAGGCCAT 
GTTTGGGGCT TGGATGTGGG CTCAGGCTCT GGAGACATTG TGAGCAATGA GGATTTGTTG 
AGAGGTCCTC CGGGCCCTCC AGGCCCCCCT GGATCACCTG GGATTCCAGG AAAACCAGGA 
ACAGATGTTT TCATAGGACC CCCTGGCTCT CCTGGAGAGG ACGGAGCTAC TGGTGAGCCA 
GGACCTCCGG GCCCTGAGGG ACAGCCTGGA CTTGATGGAG CCTCTGGCAA GCCTGGGATG 
AAAGGAGAGA AGGGAGCAAG AGGACCTAAT GGCTCTGTCG GCGAGAAGGG AGACCCTGGC 
AATCGAGGCT TGCCAGGGCC CCCGGGGAAA AATGGACAAG TTGGCACTCC TGGGGTCATG 
GGACCACCAG GGCCTCCTGG ACCCCCGGGA CCCCCAGGCC CTGGATGTAC AACCGAACTT 
GGATTTGAGG ACATCGAAGG CTCGGGGGAC ATCCAGCTGC TGAGCAAACC CAGAATCTCG 
GGACCCGCTT CTCCAAGTGG TCCCAAAGGA GAGAAAGGAG AGCAAGGACC CAAGGGTGAA 
CGGGGAATGG ATGGAACCAG CACTGTGGGA CCCCCTGGGC CCAGGGGACC ACCTGGGCGT 
GTCCAGGTCC TGTCCAGTTC TTTGATCAAC ATCACTAATG GATCCATGAA TTTCTCCAAC 
ATTCCTGAGC TTGTGGGACC TCCGGGGCCG GATGGTATGC CCGGGCTACC AGGATTTCCA 
GGCCCCAGAG GACCAAAAGG TGACACCGGT GTGCCTGGAT TCCCAGGTCT AAAAGGAGAA 
CAGGGCGAGA AGGGAGAGCC GGGTGCGATC CTGACAGGGG ACATTCCTCT GGAAATGGTG 
AAGGGGAGAA AGGGTGAACC TGGAATGCAT GGAGCCCCAG GACCCATGGG ACCCAAGGGA 
CCACCAGGTC ATAAAGGAGA ATTTGGCCTC CCGGGACGAC CTGGTCGTCC AGGATTGAAT 
GGTCTCAAGG GTGCCAAAGG AGATCGAGGG ATCATGATGC CAGGTCCACC TGGCCTACCT 
GGACCCCCAG GACCTCCAGG ACCCCCTGGA GCTGTGGTTA ACATCAAAGG TGCTGTTTTC 
CCAATACCTG CCCGGCCACA CTGCAAGACT CCAGTTGGTA CGGCTCACCC TGGAGACCCA 
GAGCTTGTCA CTTTCCACGG TGTTAAAGGA GAGAAAGGTT CCTGGGGTCT TCCTGGTTCA 
AAAGGAGAAA AGGGGGACCA AGGAGCCCAA GGACCACCAG GCCCTCCGGT TGATCCCGCT 
TACCTGAGAC ATTTTCTCCA CAGCTTGAAG GGAGAGAATG GAGATGCAGC ATTCAGAGGA 
GAGTCCAGCA ACAACCTCCT TGTCTCTGGG CCTCCAGGCC TACCGGGACA CCCAGGCCTG 
GTTGGACAGA AAGGAGAGGC TGTTGTGGGG CCCCAGGGCC CCCCAGGAAT TCCAGGTCTG 
CCTGGGCCAC CTGGCTTTGG GAGACCTGGT GTCCCTGGAC CACCGGGACC CCCTGGGCCA 
CCAGGACCTC CTGCCATCCT GGGTGCAGCT GTGGCCCTTC CAGGCCCGCC TGGCCCTCCG 
GGACAGCCAG GACTCCCAGG ATCCAGAAAC TTGGTCACGG CACTCAGCGA CATGGGTGAC 
ATGTTGCAGA AAGCTCACTT GGTCATAGAA GGGACGTTTA TCTACCTGAG GGACAGTGCA 
GAGTTCTTCA TCCGTGTCCG AGATGGCTGG AAAAAATTAC AGTTGGGAGA ACTGATCCCC 
ATCCCTGCTG ACAGCCCCCC ACCGCCGGCG CTTTCCAGCA ATCCATACCA GCCACAGCCT 
CCGCTGAACC CCATTTTAAG TGCCAATTAT GAGAGGCCTG TTCTGCATCT GGTTGCTCTG 
AACACACCGG TGGCTGGAGA CGTCCGGGCT GATTTCCAGT GCTTCCAGCA GGCCAGGGCT 
GCAGGGCTGC TGTCCACGTT CCGAGCGTTC CTGTCATCCC ACCTGCAGGA CCTCTCCACG 
GTTGTGAGGA AAGCAGAGAG ACTCAGCCTT CCAGTTGTGA ACCTCAAGGG CCAAGTGCTT 
TTTAAAAATT GGGACTCAAT ATTTTCTGGT GATGGAGGTC AGTTCAACAC CCACATTCCG 
ATATACTCTT TTGATGGTCG AGACGTGATG ACCGATCCTT CTTGGCCCCA GAAAGTCGTT 
TGGCATGGAT CCAACCCCCA TGGTGTCCGT CTTGTGGATA AGTACTGTGA AGCCTGGCGA 
ACCACAGACA TGGCAGTAAC GGGATTTGCC TCCCCACTGA GCACAGGGAA GATTCTGGAC 
CAGAAAGCTT ATAGCTGTGC TAATAGGCTA ATCGTCCTGT GTATCGAAAA CAGCTTCATG 
ACAGACGCTA GGAAGTAA

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

Col15a1 ( XM_013119558.2 ) cDNA ORF clone, Mesocricetus auratus(golden hamster) -> XP_012975012.2 Mesocricetus auratus collagen type XV alpha 1 chain (Col15a1), mRNA.

Price & Availability↑

CloneID	OMe251932
Clone ID Related Accession (Same CDS sequence)	XM_013119558.2
Accession Version	XM_013119558.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4191bp) 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	1495296000000
Organism	Mesocricetus auratus(golden hamster)
Product	collagen alpha-1(XV) chain
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004801690.1) and transcript sequence (GDQJ01001760.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 22, 2017 this sequence version replaced XM_013119558.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mesocricetus auratus Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 153 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCACCCA GGAGGACCGC GCAGGGCCAG CGCCCGCGGT GGCTGCTCTC CATCATCTCC 
TCAGCGCTGC TCTCCGCTGT ACTGCAGACG CGCACCGCAA CAGGCTCAGC TGCCCAGGAC 
CATCTGGACC TCACAGAGCT CATTGGTGTC CCCTTGCCCT CATCTGTGTC CTTTGTCACG 
GGCTATGGTG GTTTCCCGGC TTACAGCTTT GGGCCTGGTG CCAATGTTGG CCGCCCAGCC 
AGGACCCTCA TCCCGCCGAC CTTCTTCAGG GACTTCGCCA TTAGTGTGGC GGTGAAGCCC 
AGTAGTTCCC AAGGAGGTGT GCTCTTCGCC GTTACTGATG CTTTCCAGAA AGTCATCTAC 
CTGGGCCTGC GGCTTTCCAG GGTGGAGGAC GGCCACCAGC GGGTTATCCT GTACTACACG 
GAACCAGGCT CCCACGTGTC CCGTGAAGCG GCTGCCTTTT CAGTGCCTGT GATGACCAAC 
AGGTGGAATC GTTTTGCTGT GACCGTCCAG GGCGAGGAAG TGGCCCTTCT CATGGACTGT 
GAGGAGCTCG GCCACGTCCT TTTCCAGAGA TCTTCCCGGC CTCTGATGTT CGAGCCCAGT 
GCCGGTGTAT TTGTAGGCAA TGCAGGAGCC ACGGGCCTGG AGAGATTTAC GGGCTCCATA 
CAGCAGCTTA CCATCTACAC GGACCCCAGG ACCCCCGAGG AGCTGTGTGA AGCCCAAGAG 
TCCTCGGCAT CTGGAGAAGC CAGTGGGCTT CAGGAGATGG ATGAAGTCGC TGAGATCATG 
GAAGCTGTCA CCTACACTCA AACCCCGCCT AAAGAAGTAC ACGTTGATCC CATAAGCATG 
CCTCCTACTT CATCCTCTCC TGCTGAGGAC ACGGAGTTTT CCGGGGAACC TGTGCCAGAA 
GGAACCCCAG AAACCAACTT GAGCATCATT GGGCATAGCA GCCCTGAGCA AGGGTCTGGT 
GAGATTCTGA ATGACACACT GGAGGTCCAT GTTGTGGATG GGGACCCCAG TACTGATGAT 
GGTTCAGGGA ATGGGGCCTT GCTGAATGTC ACTGATGGTC AGGTGCTATC AGCAACGGCC 
ACTGAGGAGG CCAAGGTGCC TGTCACTACC ACCCTGAAAG CAGAGACTGG CAGTGTTCCT 
ACTGGGAGCC CCACCCTGGC CGCGTCCACC CAAAACTCCA GGGAAGTGGC CACTCTGGGT 
CCTGAGAGTG AAGAAAATCT GACAGCCGAA GCATCAGGGG ATGGTGAGGT GCCCGCCAGC 
ACTGCTGGGG ACGCAGAGGC CGCCACGATG CCTGCTACAG AGCCACCTCT GTCCCTGCTA 
AGCCAGAAGC CAAGGCAAGA GGCCACTCTG GGTCCAAACG GTGAAGAATG GCTAACCCCA 
GCTGTGTCTA AAGAACCCCT TGGCGCTTTT GAGGAAGAAG AAGCCAGCGG GACTGCCATT 
GACAGCCTGG ATGCCTTCAC ACCCACAATG GCCCTTGAGA AAGCCAGCGG GACCCCTGCA 
GACATCCAGA ATACTCTCAC ACCCACAGTG GCCCTTGAGC AAGCCAGTGG AACCCCTGCA 
GACATCCAGG ATGCTCTCAC ACCCACGGTG GTCCTTGAGC AAGCCAGCAG GGGTCCTACA 
GACACCCAGG ATGCTCTCCC AGCCACAGTG GCTCCTGAGC AAGTGTTTAC TGCTGCACCA 
ACTGATGGAG AACGCCAGGC GGCATCCACC GAGGAAGCTG AGGAGGAGGG TTCCGACAGC 
ATACTCCCCA GTGGGCCTCC ACTACCCACA CCCACAGTGG CTCCCGAGAG GCCGGTCACT 
CCGGTAGCAG TGGAGGCTGA AGGCTCAGGC CATGTTTGGG GCTTGGATGT GGGCTCAGGC 
TCTGGAGACA TTGTGAGCAA TGAGGATTTG TTGAGAGGTC CTCCGGGCCC TCCAGGCCCC 
CCTGGATCAC CTGGGATTCC AGGAAAACCA GGAACAGATG TTTTCATAGG ACCCCCTGGC 
TCTCCTGGAG AGGACGGAGC TACTGGTGAG CCAGGACCTC CGGGCCCTGA GGGACAGCCT 
GGACTTGATG GAGCCTCTGG CAAGCCTGGG ATGAAAGGAG AGAAGGGAGC AAGAGGACCT 
AATGGCTCTG TCGGCGAGAA GGGAGACCCT GGCAATCGAG GCTTGCCAGG GCCCCCGGGG 
AAAAATGGAC AAGTTGGCAC TCCTGGGGTC ATGGGACCAC CAGGGCCTCC TGGACCCCCG 
GGACCCCCAG GCCCTGGATG TACAACCGAA CTTGGATTTG AGGACATCGA AGGCTCGGGG 
GACATCCAGC TGCTGAGCAA ACCCAGAATC TCGGGACCCG CTTCTCCAAG TGGTCCCAAA 
GGAGAGAAAG GAGAGCAAGG ACCCAAGGGT GAACGGGGAA TGGATGGAAC CAGCACTGTG 
GGACCCCCTG GGCCCAGGGG ACCACCTGGG CGTGTCCAGG TCCTGTCCAG TTCTTTGATC 
AACATCACTA ATGGATCCAT GAATTTCTCC AACATTCCTG AGCTTGTGGG ACCTCCGGGG 
CCGGATGGTA TGCCCGGGCT ACCAGGATTT CCAGGCCCCA GAGGACCAAA AGGTGACACC 
GGTGTGCCTG GATTCCCAGG TCTAAAAGGA GAACAGGGCG AGAAGGGAGA GCCGGGTGCG 
ATCCTGACAG GGGACATTCC TCTGGAAATG GTGAAGGGGA GAAAGGGTGA ACCTGGAATG 
CATGGAGCCC CAGGACCCAT GGGACCCAAG GGACCACCAG GTCATAAAGG AGAATTTGGC 
CTCCCGGGAC GACCTGGTCG TCCAGGATTG AATGGTCTCA AGGGTGCCAA AGGAGATCGA 
GGGATCATGA TGCCAGGTCC ACCTGGCCTA CCTGGACCCC CAGGACCTCC AGGACCCCCT 
GGAGCTGTGG TTAACATCAA AGGTGCTGTT TTCCCAATAC CTGCCCGGCC ACACTGCAAG 
ACTCCAGTTG GTACGGCTCA CCCTGGAGAC CCAGAGCTTG TCACTTTCCA CGGTGTTAAA 
GGAGAGAAAG GTTCCTGGGG TCTTCCTGGT TCAAAAGGAG AAAAGGGGGA CCAAGGAGCC 
CAAGGACCAC CAGGCCCTCC GGTTGATCCC GCTTACCTGA GACATTTTCT CCACAGCTTG 
AAGGGAGAGA ATGGAGATGC AGCATTCAGA GGAGAGTCCA GCAACAACCT CCTTGTCTCT 
GGGCCTCCAG GCCTACCGGG ACACCCAGGC CTGGTTGGAC AGAAAGGAGA GGCTGTTGTG 
GGGCCCCAGG GCCCCCCAGG AATTCCAGGT CTGCCTGGGC CACCTGGCTT TGGGAGACCT 
GGTGTCCCTG GACCACCGGG ACCCCCTGGG CCACCAGGAC CTCCTGCCAT CCTGGGTGCA 
GCTGTGGCCC TTCCAGGCCC GCCTGGCCCT CCGGGACAGC CAGGACTCCC AGGATCCAGA 
AACTTGGTCA CGGCACTCAG CGACATGGGT GACATGTTGC AGAAAGCTCA CTTGGTCATA 
GAAGGGACGT TTATCTACCT GAGGGACAGT GCAGAGTTCT TCATCCGTGT CCGAGATGGC 
TGGAAAAAAT TACAGTTGGG AGAACTGATC CCCATCCCTG CTGACAGCCC CCCACCGCCG 
GCGCTTTCCA GCAATCCATA CCAGCCACAG CCTCCGCTGA ACCCCATTTT AAGTGCCAAT 
TATGAGAGGC CTGTTCTGCA TCTGGTTGCT CTGAACACAC CGGTGGCTGG AGACGTCCGG 
GCTGATTTCC AGTGCTTCCA GCAGGCCAGG GCTGCAGGGC TGCTGTCCAC GTTCCGAGCG 
TTCCTGTCAT CCCACCTGCA GGACCTCTCC ACGGTTGTGA GGAAAGCAGA GAGACTCAGC 
CTTCCAGTTG TGAACCTCAA GGGCCAAGTG CTTTTTAAAA ATTGGGACTC AATATTTTCT 
GGTGATGGAG GTCAGTTCAA CACCCACATT CCGATATACT CTTTTGATGG TCGAGACGTG 
ATGACCGATC CTTCTTGGCC CCAGAAAGTC GTTTGGCATG GATCCAACCC CCATGGTGTC 
CGTCTTGTGG ATAAGTACTG TGAAGCCTGG CGAACCACAG ACATGGCAGT AACGGGATTT 
GCCTCCCCAC TGAGCACAGG GAAGATTCTG GACCAGAAAG CTTATAGCTG TGCTAATAGG 
CTAATCGTCC TGTGTATCGA AAACAGCTTC ATGACAGACG CTAGGAAGTA A

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

RefSeq	XP_012975012.2
CDS	146..4336
Translation	MAPRRTAQGQRPRWLLSIISSALLSAVLQTRTATGSAAQDHLDLTELIGVPLPSSVSFVTGYGGFPAYSFGPGANVGRPARTLIPPTFFRDFAISVAVKPSSSQGGVLFAVTDAFQKVIYLGLRLSRVEDGHQRVILYYTEPGSHVSREAAAFSVPVMTNRWNRFAVTVQGEEVALLMDCEELGHVLFQRSSRPLMFEPSAGVFVGNAGATGLERFTGSIQQLTIYTDPRTPEELCEAQESSASGEASGLQEMDEVAEIMEAVTYTQTPPKEVHVDPISMPPTSSSPAEDTEFSGEPVPEGTPETNLSIIGHSSPEQGSGEILNDTLEVHVVDGDPSTDDGSGNGALLNVTDGQVLSATATEEAKVPVTTTLKAETGSVPTGSPTLAASTQNSREVATLGPESEENLTAEASGDGEVPASTAGDAEAATMPATEPPLSLLSQKPRQEATLGPNGEEWLTPAVSKEPLGAFEEEEASGTAIDSLDAFTPTMALEKASGTPADIQNTLTPTVALEQASGTPADIQDALTPTVVLEQASRGPTDTQDALPATVAPEQVFTAAPTDGERQAASTEEAEEEGSDSILPSGPPLPTPTVAPERPVTPVAVEAEGSGHVWGLDVGSGSGDIVSNEDLLRGPPGPPGPPGSPGIPGKPGTDVFIGPPGSPGEDGATGEPGPPGPEGQPGLDGASGKPGMKGEKGARGPNGSVGEKGDPGNRGLPGPPGKNGQVGTPGVMGPPGPPGPPGPPGPGCTTELGFEDIEGSGDIQLLSKPRISGPASPSGPKGEKGEQGPKGERGMDGTSTVGPPGPRGPPGRVQVLSSSLINITNGSMNFSNIPELVGPPGPDGMPGLPGFPGPRGPKGDTGVPGFPGLKGEQGEKGEPGAILTGDIPLEMVKGRKGEPGMHGAPGPMGPKGPPGHKGEFGLPGRPGRPGLNGLKGAKGDRGIMMPGPPGLPGPPGPPGPPGAVVNIKGAVFPIPARPHCKTPVGTAHPGDPELVTFHGVKGEKGSWGLPGSKGEKGDQGAQGPPGPPVDPAYLRHFLHSLKGENGDAAFRGESSNNLLVSGPPGLPGHPGLVGQKGEAVVGPQGPPGIPGLPGPPGFGRPGVPGPPGPPGPPGPPAILGAAVALPGPPGPPGQPGLPGSRNLVTALSDMGDMLQKAHLVIEGTFIYLRDSAEFFIRVRDGWKKLQLGELIPIPADSPPPPALSSNPYQPQPPLNPILSANYERPVLHLVALNTPVAGDVRADFQCFQQARAAGLLSTFRAFLSSHLQDLSTVVRKAERLSLPVVNLKGQVLFKNWDSIFSGDGGQFNTHIPIYSFDGRDVMTDPSWPQKVVWHGSNPHGVRLVDKYCEAWRTTDMAVTGFASPLSTGKILDQKAYSCANRLIVLCIENSFMTDARK

Target ORF information:

RefSeq Version	XM_013119558.2
Organism	Mesocricetus auratus(golden hamster)
Definition	Mesocricetus auratus collagen type XV alpha 1 chain (Col15a1), mRNA.

Target ORF information:

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

XM_013119558.2

ORF Insert Sequence:

ATGGCACCCA GGAGGACCGC GCAGGGCCAG CGCCCGCGGT GGCTGCTCTC CATCATCTCC 
TCAGCGCTGC TCTCCGCTGT ACTGCAGACG CGCACCGCAA CAGGCTCAGC TGCCCAGGAC 
CATCTGGACC TCACAGAGCT CATTGGTGTC CCCTTGCCCT CATCTGTGTC CTTTGTCACG 
GGCTATGGTG GTTTCCCGGC TTACAGCTTT GGGCCTGGTG CCAATGTTGG CCGCCCAGCC 
AGGACCCTCA TCCCGCCGAC CTTCTTCAGG GACTTCGCCA TTAGTGTGGC GGTGAAGCCC 
AGTAGTTCCC AAGGAGGTGT GCTCTTCGCC GTTACTGATG CTTTCCAGAA AGTCATCTAC 
CTGGGCCTGC GGCTTTCCAG GGTGGAGGAC GGCCACCAGC GGGTTATCCT GTACTACACG 
GAACCAGGCT CCCACGTGTC CCGTGAAGCG GCTGCCTTTT CAGTGCCTGT GATGACCAAC 
AGGTGGAATC GTTTTGCTGT GACCGTCCAG GGCGAGGAAG TGGCCCTTCT CATGGACTGT 
GAGGAGCTCG GCCACGTCCT TTTCCAGAGA TCTTCCCGGC CTCTGATGTT CGAGCCCAGT 
GCCGGTGTAT TTGTAGGCAA TGCAGGAGCC ACGGGCCTGG AGAGATTTAC GGGCTCCATA 
CAGCAGCTTA CCATCTACAC GGACCCCAGG ACCCCCGAGG AGCTGTGTGA AGCCCAAGAG 
TCCTCGGCAT CTGGAGAAGC CAGTGGGCTT CAGGAGATGG ATGAAGTCGC TGAGATCATG 
GAAGCTGTCA CCTACACTCA AACCCCGCCT AAAGAAGTAC ACGTTGATCC CATAAGCATG 
CCTCCTACTT CATCCTCTCC TGCTGAGGAC ACGGAGTTTT CCGGGGAACC TGTGCCAGAA 
GGAACCCCAG AAACCAACTT GAGCATCATT GGGCATAGCA GCCCTGAGCA AGGGTCTGGT 
GAGATTCTGA ATGACACACT GGAGGTCCAT GTTGTGGATG GGGACCCCAG TACTGATGAT 
GGTTCAGGGA ATGGGGCCTT GCTGAATGTC ACTGATGGTC AGGTGCTATC AGCAACGGCC 
ACTGAGGAGG CCAAGGTGCC TGTCACTACC ACCCTGAAAG CAGAGACTGG CAGTGTTCCT 
ACTGGGAGCC CCACCCTGGC CGCGTCCACC CAAAACTCCA GGGAAGTGGC CACTCTGGGT 
CCTGAGAGTG AAGAAAATCT GACAGCCGAA GCATCAGGGG ATGGTGAGGT GCCCGCCAGC 
ACTGCTGGGG ACGCAGAGGC CGCCACGATG CCTGCTACAG AGCCACCTCT GTCCCTGCTA 
AGCCAGAAGC CAAGGCAAGA GGCCACTCTG GGTCCAAACG GTGAAGAATG GCTAACCCCA 
GCTGTGTCTA AAGAACCCCT TGGCGCTTTT GAGGAAGAAG AAGCCAGCGG GACTGCCATT 
GACAGCCTGG ATGCCTTCAC ACCCACAATG GCCCTTGAGA AAGCCAGCGG GACCCCTGCA 
GACATCCAGA ATACTCTCAC ACCCACAGTG GCCCTTGAGC AAGCCAGTGG AACCCCTGCA 
GACATCCAGG ATGCTCTCAC ACCCACGGTG GTCCTTGAGC AAGCCAGCAG GGGTCCTACA 
GACACCCAGG ATGCTCTCCC AGCCACAGTG GCTCCTGAGC AAGTGTTTAC TGCTGCACCA 
ACTGATGGAG AACGCCAGGC GGCATCCACC GAGGAAGCTG AGGAGGAGGG TTCCGACAGC 
ATACTCCCCA GTGGGCCTCC ACTACCCACA CCCACAGTGG CTCCCGAGAG GCCGGTCACT 
CCGGTAGCAG TGGAGGCTGA AGGCTCAGGC CATGTTTGGG GCTTGGATGT GGGCTCAGGC 
TCTGGAGACA TTGTGAGCAA TGAGGATTTG TTGAGAGGTC CTCCGGGCCC TCCAGGCCCC 
CCTGGATCAC CTGGGATTCC AGGAAAACCA GGAACAGATG TTTTCATAGG ACCCCCTGGC 
TCTCCTGGAG AGGACGGAGC TACTGGTGAG CCAGGACCTC CGGGCCCTGA GGGACAGCCT 
GGACTTGATG GAGCCTCTGG CAAGCCTGGG ATGAAAGGAG AGAAGGGAGC AAGAGGACCT 
AATGGCTCTG TCGGCGAGAA GGGAGACCCT GGCAATCGAG GCTTGCCAGG GCCCCCGGGG 
AAAAATGGAC AAGTTGGCAC TCCTGGGGTC ATGGGACCAC CAGGGCCTCC TGGACCCCCG 
GGACCCCCAG GCCCTGGATG TACAACCGAA CTTGGATTTG AGGACATCGA AGGCTCGGGG 
GACATCCAGC TGCTGAGCAA ACCCAGAATC TCGGGACCCG CTTCTCCAAG TGGTCCCAAA 
GGAGAGAAAG GAGAGCAAGG ACCCAAGGGT GAACGGGGAA TGGATGGAAC CAGCACTGTG 
GGACCCCCTG GGCCCAGGGG ACCACCTGGG CGTGTCCAGG TCCTGTCCAG TTCTTTGATC 
AACATCACTA ATGGATCCAT GAATTTCTCC AACATTCCTG AGCTTGTGGG ACCTCCGGGG 
CCGGATGGTA TGCCCGGGCT ACCAGGATTT CCAGGCCCCA GAGGACCAAA AGGTGACACC 
GGTGTGCCTG GATTCCCAGG TCTAAAAGGA GAACAGGGCG AGAAGGGAGA GCCGGGTGCG 
ATCCTGACAG GGGACATTCC TCTGGAAATG GTGAAGGGGA GAAAGGGTGA ACCTGGAATG 
CATGGAGCCC CAGGACCCAT GGGACCCAAG GGACCACCAG GTCATAAAGG AGAATTTGGC 
CTCCCGGGAC GACCTGGTCG TCCAGGATTG AATGGTCTCA AGGGTGCCAA AGGAGATCGA 
GGGATCATGA TGCCAGGTCC ACCTGGCCTA CCTGGACCCC CAGGACCTCC AGGACCCCCT 
GGAGCTGTGG TTAACATCAA AGGTGCTGTT TTCCCAATAC CTGCCCGGCC ACACTGCAAG 
ACTCCAGTTG GTACGGCTCA CCCTGGAGAC CCAGAGCTTG TCACTTTCCA CGGTGTTAAA 
GGAGAGAAAG GTTCCTGGGG TCTTCCTGGT TCAAAAGGAG AAAAGGGGGA CCAAGGAGCC 
CAAGGACCAC CAGGCCCTCC GGTTGATCCC GCTTACCTGA GACATTTTCT CCACAGCTTG 
AAGGGAGAGA ATGGAGATGC AGCATTCAGA GGAGAGTCCA GCAACAACCT CCTTGTCTCT 
GGGCCTCCAG GCCTACCGGG ACACCCAGGC CTGGTTGGAC AGAAAGGAGA GGCTGTTGTG 
GGGCCCCAGG GCCCCCCAGG AATTCCAGGT CTGCCTGGGC CACCTGGCTT TGGGAGACCT 
GGTGTCCCTG GACCACCGGG ACCCCCTGGG CCACCAGGAC CTCCTGCCAT CCTGGGTGCA 
GCTGTGGCCC TTCCAGGCCC GCCTGGCCCT CCGGGACAGC CAGGACTCCC AGGATCCAGA 
AACTTGGTCA CGGCACTCAG CGACATGGGT GACATGTTGC AGAAAGCTCA CTTGGTCATA 
GAAGGGACGT TTATCTACCT GAGGGACAGT GCAGAGTTCT TCATCCGTGT CCGAGATGGC 
TGGAAAAAAT TACAGTTGGG AGAACTGATC CCCATCCCTG CTGACAGCCC CCCACCGCCG 
GCGCTTTCCA GCAATCCATA CCAGCCACAG CCTCCGCTGA ACCCCATTTT AAGTGCCAAT 
TATGAGAGGC CTGTTCTGCA TCTGGTTGCT CTGAACACAC CGGTGGCTGG AGACGTCCGG 
GCTGATTTCC AGTGCTTCCA GCAGGCCAGG GCTGCAGGGC TGCTGTCCAC GTTCCGAGCG 
TTCCTGTCAT CCCACCTGCA GGACCTCTCC ACGGTTGTGA GGAAAGCAGA GAGACTCAGC 
CTTCCAGTTG TGAACCTCAA GGGCCAAGTG CTTTTTAAAA ATTGGGACTC AATATTTTCT 
GGTGATGGAG GTCAGTTCAA CACCCACATT CCGATATACT CTTTTGATGG TCGAGACGTG 
ATGACCGATC CTTCTTGGCC CCAGAAAGTC GTTTGGCATG GATCCAACCC CCATGGTGTC 
CGTCTTGTGG ATAAGTACTG TGAAGCCTGG CGAACCACAG ACATGGCAGT AACGGGATTT 
GCCTCCCCAC TGAGCACAGG GAAGATTCTG GACCAGAAAG CTTATAGCTG TGCTAATAGG 
CTAATCGTCC TGTGTATCGA AAACAGCTTC ATGACAGACG CTAGGAAGTA A

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

PubMed

Transcriptome sequencing and development of an expression microarray platform for liver infection in adenovirus type 5-infected Syrian golden hamsters.
Virology485305-12(2015 Nov)
Ying B,Toth K,Spencer JF,Aurora R,Wold WS

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Col15a1 cDNA ORF clone, Mesocricetus auratus(golden hamster)

Gene

Clones

gRNAs

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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