Col22a1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Col22a1
Entrez Gene ID	110310586
Full Name	collagen type XXII alpha 1 chain
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_029469967.1	XP_029325827.1	collagen alpha-1(XXII) chain isoform X1
XM_021183654.1	XP_021039313.1	collagen alpha-1(XXII) chain isoform X2

Pathways from BioSystems
Gene Ontology

The following Col22a1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Col22a1 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
OMv69554	XM_029469967.1 Latest version!	Mus caroli collagen type XXII alpha 1 chain (Col22a1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
OMv32272	XM_021183654.1 Latest version!	Mus caroli collagen type XXII alpha 1 chain (Col22a1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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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)

Col22a1 ( XM_029469967.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029325827.1 Mus caroli collagen type XXII alpha 1 chain (Col22a1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMv69554
Clone ID Related Accession (Same CDS sequence)	XM_029469967.1
Accession Version	XM_029469967.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4938bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-09
Organism	Mus caroli(Ryukyu mouse)
Product	collagen alpha-1(XXII) chain isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTGGAAGA AACTGGCCTG GTGCTCTGGC AGCCCTCAGA TGCCTGAAGA CTCTAATAAG 
CAGAAATGCT CCACTAGACC TCTTCCTGAC CAAGATATGC CTGTCTTCAC TAGCAGGAGA 
GCCATGGCTG ACCCCAGAGG AAATCCTTTG GCCTGCCTTC TGTGGATTCT ACTGCTCTGG 
GGAGGGGATG GTGGCTGCCA GGCCCAACGT GCAGGTTGCA AAAGTGTGCA GTATGATCTG 
GTCTTCCTCC TGGACACGTC TTCTAGTGTG GGCAAGGAGG ACTTTGAGAA AGTCCGCCAG 
TGGGTAGCCA ACCTGGTAGA CACCTTTGAG GTGGGCCCTG GCCACACCCG TGTGGGGGTT 
GTGCGCTACA GTGACCGGCC CACTACAGCC TTTGAACTGG GCCACTTCAA CTCTCGCGAG 
GAGGTGAAGG CTGCTGCGCG GCGCATCACC TACCATGGCG GTAACACGAA CACGGGTGAT 
GCCCTGCGTT ATATCACCAG CCGCAGCTTC TCTGCCCAAG CCGGCGGCAG ACCTGGGAAT 
CGTGCCTTCA AGCAGGTGGC CATCCTGTTG ACTGATGGTC GTAGCCAAGA CCTGGTGCTG 
GATGCTGCAG CAGCTGCCCA TGCAGCCGGC ATCCGCATTT TTGCTGTTGG TGTGGGTGCA 
GCATTGAAGG AGGAACTGGA TGAGATTGCC TCAGAACCCA AGTCTGCGCA TGTCTTCCAT 
GTTTCCGACT TCAATGCCAT TGACAAGATC CGTGGCAAAC TGAGGCGTCG GCTTTGTGAA 
AATGTCCTCT GCCCAAGTGT CCGGGTAGAA GGAGATCGGT TTAAACATAC CAATGGAGGA 
ACCAAGGAAA TTACAGGTTT TGACTTGATG GATTTGTTCA GTGTGAAGGA AATCTTGGGG 
AAGAGAGAAA ACGGAGCCCA GAGTTCCTAT GTACGGATGG GTTCCTTCCC TGTGGTGCAG 
AGAACTGAAG ATGTGTTTCC CCAAGGTCTT CCTGATGAGT ATGCCTTTGT CACAACTTTC 
CGGTTCCGGA AAACATCACG GAAAGAAGAT TGGTACATCT GGCAAGTCAT TGACCAGTAT 
GGCATCCCAC AGGTCTCTAT CCGGCTGGAT GGTGAGAACA AGGCAGTTGA GTACAACGCT 
GTGGGTGCCA TGAAGGATGC TGTCCGGGTG GTCTTCCGAG GCCCCCGAGT TGATGACCTC 
TTTGACCGTG ACTGGCACAA GATGGCTCTA AGCATCCAGG CCCAGAATGT GTCCCTCTAC 
ATTGACTGTG TGCTGGTTCA GACGCTGCCT ATTGAGGAGA GGGAGAATAT CGACATCCAG 
GGCAAGACTG TGATTGGCAA ACGTCTCTAT GACAGCGTGC CCATTGATTT TGACCTGCAG 
CGGATTGTGA TTTACTGTGA CTCGAGACAT GCAGAACTGG AGACTTGCTG TGACATCCCG 
TTGGGTCCGT GTCAGGTGAC TGTGGTGACA GAGCCGCCAC CTGCGCCTCC ACAGCTGCCC 
ACCCCTGGGA GCGAACAGAT CGGGTTCTTG AAGACCATCA ACTGCTCATG CCCAGCTGGA 
GAAAAGGGTG AGAGGGGCTT TGCTGGCCCT CTGGGACTCC CTGGTCAGAA GGGAGATGCA 
GGACCCATTG GACTAATGGG TGCTCCTGGA CCCAAGGGAG AAAAAGGAGA CACTGGGCGA 
GGACCCTTCA TCCATGGGGA AAAGGGTGAG AAGGGATCCC TGGGTCCACC TGGGCCTCCT 
GGAAGAGACG GCAGTAAAGG CATGAGAGGA GAGCCAGGAG AGCTAGGAGA GCCAGGGCTG 
CCTGGAGAAG TGGGCATGAG GGGGCCCCAG GGACCTCCTG GACTACCAGG ATCAGCTGGG 
CCAGTTGGAG CTCCAGGTCT TCAAGGAGAA CGAGGTGAAA GGGGGCCTCC AGGAGAAAAG 
GGGGAGCGAG GCCTGGATGG ATTCCCTGGG AAGCCTGGAG AGACTGGAGA GCAGGGAAGA 
CCTGGGCCTC CTGGTGTGGC AGGACTGCAG GGAGAGAAGG GAGATGTGGG GCCTGCAGGA 
CCCCCTGGTG TGCCAGGCTC TGTGGTGCAG AGGGAAGGCC TGAAGGGAGA GCAGGGAGCT 
CCCGGACCAA GAGGTCACCA AGGCCTACCT GGGCCTCCAG GAGCACCTGG TTTGATTGGC 
CCAGAAGGCA GAGATGGACC CCCAGGGCCT CAAGGTCTCC GAGGGAAGAA AGGAGAAATG 
GGTCCACCAG GGACCCCTGG AGTGCTGGGG CCACAGGGCC CGCCTGGACC ACCTGGTGTT 
CCAGGGCCCC CTGGACCTGG AGGACCCCCG GGTTTACCTG GCGAGCTCGG CTTCCCGGGA 
AAACCTGGGC CTGCTGGGCA CTCGGGGACA CCTGGAAAGG ATGGGCTGAA TGGACCACCA 
GGCCTTCCTG GCTCCAAGGG AGAACCAGGA GACCCTGGCG AAAGCGGCGT GCCCGGAATG 
CCAGGACCTC GGGGTGAAGT TGGGGAGCGG GGCCTTGCAG GTCATCCTGG TGAGAAGGGA 
GAAGTTGGCC TTCCGGGTGC TCCAGGCTTC CCAGGAGTAC GTGGAGAGAA AGGAGACCAG 
GGAGAAAAAG GTGAACTGGG ACTTCCAGGT CTGAAAGGTG CCCGAGGAGA AAAGGGTGAG 
GTTGGTCCAG CAGGTCCCCC TGGCTTACCT GGAAGTCCAT CAGTGTTCAC ACCACACCCA 
AGAATGCCAG GAGAGCAAGG GCCTAAAGGA GAAAAAGGTG ATCCTGGCGA GCCTGGAGCC 
CTGGGACCAC AGGGCCATCC TGGAGAATTG GGTCCTCGGG GACCCATTGG ACCTCCGGGT 
GCCAAGGGGC ATGATGGTGC ACAAGGACCT CCTGGAGCAG CTGGAAACCC TGGTGCTCCA 
GGACCTGCAG GACCCCCTGG TCTCAGTGGA CCCCCAGGAA GTTTGGGTTC TCCTGGTGTC 
AGAGGCGCCC CTGGGAAAGA CGGGGAGCGT GGAGAGAAGG GAACAGCAGG GGAAGACGGC 
AGCCCAGGGC CAGCTGGTCC ACGGGGAGAT CCTGGTGCTC CTGGCCTCCC AGGGCCACCA 
GGAAAGGGCA AGGATGGGGA GCCGGGACTA CGTGGACCAC CTGGGTTACC TGGTCCCTTA 
GGAATCAAGG GTGACCGAGG AACACCTGGG ATTCCTGGCT CTCCTGGCAG CCGTGGTGAC 
CCAGGCATTG GGGTTGCTGG TCCACCTGGT CCCTCAGGAC GACCAGGAGA TAAAGGACCC 
CCGGGATCTC GAGGCTTACC TGGATTCCCC GGCCCCCAGG GACCAGCTGG CCAGGATGGT 
GCACCAGGAA ACCCAGGAGA AAGAGGGCCT CCTGGAAAAC CAGGCCCTTC TTCACTGCTG 
TCTCCAGAGG ACATAAATCT CTTAGTAAAG GATGTGTGCA ATGACTGCCC TCCTGGTCCC 
CCAGGCCTCC CAGGTCTGCC AGGTTTCAAA GGGGACAAGG GTCTTCCAGG AAAACAAGGG 
AGAGAAGGGA CAGAAGGCAA AAAGGGAGAT ACTGGGCCCC CAGGCCTCCC TGGGCCTCCA 
GGAGTAGCTG GACCACAGGG AAGCCAAGGA GAGCGTGGTG CAGAGGGTGA GGTGGGACAG 
AAAGGTGAAC AGGGTCACCC TGGAGTTCCA GGCTTCATGG GCCCACCGGG GAATCCTGGG 
CCACCAGGAG CAGACGGAAA TGCAGGTGCG GCAGGGCCAC CAGGACCTCA AGGGCCTCAG 
GGCAAAGAAG GCCCTCCTGG TCCCCAAGGC CCATCTGGCA TCCCAGGAAT TCCAGGAGAA 
GAAGGCAAGC AGGGCAGAGA TGGAAAGCCA GGTCCCCCTG GAGAACCGGG CAAGACAGGA 
GAGCCAGGCC TGTCAGGAGC AGAGGGAGCC AGAGGTCCAC CGGGCTTCAA GGGACACACA 
GGTGATCCTG GCCCACCTGG TCTGAGGGGA GAACCTGGCA TAGCAGGGCC CCCCGGAAGG 
GATGGATCAC CAGGAAAAGA TGGTGACACT GGACCTGCTG GACCACAGGG TCCCAGAGGA 
ACAAGGGGAC CACCGGGCAG CAGTGGATCA CCTGGATCTC CAGGAGACCC TGGCCGTCCG 
GGAGCCCTAG GCCAGAAGGG AAACAAAGGA GAAAGTGGCA GCCCAGGACT TCCAGGGTTT 
CAGGGTCCTC GTGGACCTCC AGGAGAAGCA GGAGAGGTAG GAGCTCCAGG AAAGGAGGGT 
GCTCCTGGGA AGCCTGGAGA GCCAGGATCC AAAGGAGAGA GGGGAGACCC TGGGATCAAA 
GGTGACAAAG GACCACCAGG TGGGAAGGGT CAGCCTGGAG ACCCTGGAAC CCCAGGCCAC 
AAGGGTCATA CTGGCCTAAT GGGTCCCCAA GGACAACCAG GGGAGAGTGG CCCTCCTGGG 
CCCCCAGGGC CACCTGGCCA GCCAGGATTT CCAGGACCGA GGGGGGAGTC TCCATCCATG 
GACACCTTAC GGCGCCTCAT TCAGGAAGAG CTTGGGAAGC AGCTAGAAGC TAAACTTGCC 
TACCTCCTAG CCCAGATGCC TCCAGCACAT ATGAAGTCCT CTCAAGGCAG ACCCGGACCT 
CCTGGACCCC CTGGAAAAGA TGGGCTGCCA GGTCGGACAG GCCCCATGGG TGAGCCAGGC 
CGTCCTGGCC AAGGTGGTCT GGAAGGACCC TCTGGACCAA TGGGCCCCAA AGGTGAAAGA 
GGAGCCAAAG GTGACCCTGG CACACCTGGA GTTGGTCTCC GAGGAGAGAT GGGTCCTCCT 
GGAATACCAG GCCAACCTGG GGAACCTGGA TATGCTAAAG ATGGACTTCC AGGAAGCCCT 
GGTCCTCAAG GAGAGACAGG ACTAGCTGGA CATCCTGGCC CTCCTGGTCC TCCCGGCCCA 
CCTGGCCTGT GTGACCCCTC CCAGTGTGCG TACTTTGCCA GCCTTGCTGC CCGGCCAAGT 
AATGTGAAGG GCCCGTAG

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

RefSeq	XP_029325827.1
CDS	6..4943
Translation	MWKKLAWCSGSPQMPEDSNKQKCSTRPLPDQDMPVFTSRRAMADPRGNPLACLLWILLLWGGDGGCQAQRAGCKSVQYDLVFLLDTSSSVGKEDFEKVRQWVANLVDTFEVGPGHTRVGVVRYSDRPTTAFELGHFNSREEVKAAARRITYHGGNTNTGDALRYITSRSFSAQAGGRPGNRAFKQVAILLTDGRSQDLVLDAAAAAHAAGIRIFAVGVGAALKEELDEIASEPKSAHVFHVSDFNAIDKIRGKLRRRLCENVLCPSVRVEGDRFKHTNGGTKEITGFDLMDLFSVKEILGKRENGAQSSYVRMGSFPVVQRTEDVFPQGLPDEYAFVTTFRFRKTSRKEDWYIWQVIDQYGIPQVSIRLDGENKAVEYNAVGAMKDAVRVVFRGPRVDDLFDRDWHKMALSIQAQNVSLYIDCVLVQTLPIEERENIDIQGKTVIGKRLYDSVPIDFDLQRIVIYCDSRHAELETCCDIPLGPCQVTVVTEPPPAPPQLPTPGSEQIGFLKTINCSCPAGEKGERGFAGPLGLPGQKGDAGPIGLMGAPGPKGEKGDTGRGPFIHGEKGEKGSLGPPGPPGRDGSKGMRGEPGELGEPGLPGEVGMRGPQGPPGLPGSAGPVGAPGLQGERGERGPPGEKGERGLDGFPGKPGETGEQGRPGPPGVAGLQGEKGDVGPAGPPGVPGSVVQREGLKGEQGAPGPRGHQGLPGPPGAPGLIGPEGRDGPPGPQGLRGKKGEMGPPGTPGVLGPQGPPGPPGVPGPPGPGGPPGLPGELGFPGKPGPAGHSGTPGKDGLNGPPGLPGSKGEPGDPGESGVPGMPGPRGEVGERGLAGHPGEKGEVGLPGAPGFPGVRGEKGDQGEKGELGLPGLKGARGEKGEVGPAGPPGLPGSPSVFTPHPRMPGEQGPKGEKGDPGEPGALGPQGHPGELGPRGPIGPPGAKGHDGAQGPPGAAGNPGAPGPAGPPGLSGPPGSLGSPGVRGAPGKDGERGEKGTAGEDGSPGPAGPRGDPGAPGLPGPPGKGKDGEPGLRGPPGLPGPLGIKGDRGTPGIPGSPGSRGDPGIGVAGPPGPSGRPGDKGPPGSRGLPGFPGPQGPAGQDGAPGNPGERGPPGKPGPSSLLSPEDINLLVKDVCNDCPPGPPGLPGLPGFKGDKGLPGKQGREGTEGKKGDTGPPGLPGPPGVAGPQGSQGERGAEGEVGQKGEQGHPGVPGFMGPPGNPGPPGADGNAGAAGPPGPQGPQGKEGPPGPQGPSGIPGIPGEEGKQGRDGKPGPPGEPGKTGEPGLSGAEGARGPPGFKGHTGDPGPPGLRGEPGIAGPPGRDGSPGKDGDTGPAGPQGPRGTRGPPGSSGSPGSPGDPGRPGALGQKGNKGESGSPGLPGFQGPRGPPGEAGEVGAPGKEGAPGKPGEPGSKGERGDPGIKGDKGPPGGKGQPGDPGTPGHKGHTGLMGPQGQPGESGPPGPPGPPGQPGFPGPRGESPSMDTLRRLIQEELGKQLEAKLAYLLAQMPPAHMKSSQGRPGPPGPPGKDGLPGRTGPMGEPGRPGQGGLEGPSGPMGPKGERGAKGDPGTPGVGLRGEMGPPGIPGQPGEPGYAKDGLPGSPGPQGETGLAGHPGPPGPPGPPGLCDPSQCAYFASLAARPSNVKGP

Target ORF information:

RefSeq Version	XM_029469967.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli collagen type XXII alpha 1 chain (Col22a1), transcript variant X1, mRNA.

Target ORF information:

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

XM_029469967.1

ORF Insert Sequence:

ATGTGGAAGA AACTGGCCTG GTGCTCTGGC AGCCCTCAGA TGCCTGAAGA CTCTAATAAG 
CAGAAATGCT CCACTAGACC TCTTCCTGAC CAAGATATGC CTGTCTTCAC TAGCAGGAGA 
GCCATGGCTG ACCCCAGAGG AAATCCTTTG GCCTGCCTTC TGTGGATTCT ACTGCTCTGG 
GGAGGGGATG GTGGCTGCCA GGCCCAACGT GCAGGTTGCA AAAGTGTGCA GTATGATCTG 
GTCTTCCTCC TGGACACGTC TTCTAGTGTG GGCAAGGAGG ACTTTGAGAA AGTCCGCCAG 
TGGGTAGCCA ACCTGGTAGA CACCTTTGAG GTGGGCCCTG GCCACACCCG TGTGGGGGTT 
GTGCGCTACA GTGACCGGCC CACTACAGCC TTTGAACTGG GCCACTTCAA CTCTCGCGAG 
GAGGTGAAGG CTGCTGCGCG GCGCATCACC TACCATGGCG GTAACACGAA CACGGGTGAT 
GCCCTGCGTT ATATCACCAG CCGCAGCTTC TCTGCCCAAG CCGGCGGCAG ACCTGGGAAT 
CGTGCCTTCA AGCAGGTGGC CATCCTGTTG ACTGATGGTC GTAGCCAAGA CCTGGTGCTG 
GATGCTGCAG CAGCTGCCCA TGCAGCCGGC ATCCGCATTT TTGCTGTTGG TGTGGGTGCA 
GCATTGAAGG AGGAACTGGA TGAGATTGCC TCAGAACCCA AGTCTGCGCA TGTCTTCCAT 
GTTTCCGACT TCAATGCCAT TGACAAGATC CGTGGCAAAC TGAGGCGTCG GCTTTGTGAA 
AATGTCCTCT GCCCAAGTGT CCGGGTAGAA GGAGATCGGT TTAAACATAC CAATGGAGGA 
ACCAAGGAAA TTACAGGTTT TGACTTGATG GATTTGTTCA GTGTGAAGGA AATCTTGGGG 
AAGAGAGAAA ACGGAGCCCA GAGTTCCTAT GTACGGATGG GTTCCTTCCC TGTGGTGCAG 
AGAACTGAAG ATGTGTTTCC CCAAGGTCTT CCTGATGAGT ATGCCTTTGT CACAACTTTC 
CGGTTCCGGA AAACATCACG GAAAGAAGAT TGGTACATCT GGCAAGTCAT TGACCAGTAT 
GGCATCCCAC AGGTCTCTAT CCGGCTGGAT GGTGAGAACA AGGCAGTTGA GTACAACGCT 
GTGGGTGCCA TGAAGGATGC TGTCCGGGTG GTCTTCCGAG GCCCCCGAGT TGATGACCTC 
TTTGACCGTG ACTGGCACAA GATGGCTCTA AGCATCCAGG CCCAGAATGT GTCCCTCTAC 
ATTGACTGTG TGCTGGTTCA GACGCTGCCT ATTGAGGAGA GGGAGAATAT CGACATCCAG 
GGCAAGACTG TGATTGGCAA ACGTCTCTAT GACAGCGTGC CCATTGATTT TGACCTGCAG 
CGGATTGTGA TTTACTGTGA CTCGAGACAT GCAGAACTGG AGACTTGCTG TGACATCCCG 
TTGGGTCCGT GTCAGGTGAC TGTGGTGACA GAGCCGCCAC CTGCGCCTCC ACAGCTGCCC 
ACCCCTGGGA GCGAACAGAT CGGGTTCTTG AAGACCATCA ACTGCTCATG CCCAGCTGGA 
GAAAAGGGTG AGAGGGGCTT TGCTGGCCCT CTGGGACTCC CTGGTCAGAA GGGAGATGCA 
GGACCCATTG GACTAATGGG TGCTCCTGGA CCCAAGGGAG AAAAAGGAGA CACTGGGCGA 
GGACCCTTCA TCCATGGGGA AAAGGGTGAG AAGGGATCCC TGGGTCCACC TGGGCCTCCT 
GGAAGAGACG GCAGTAAAGG CATGAGAGGA GAGCCAGGAG AGCTAGGAGA GCCAGGGCTG 
CCTGGAGAAG TGGGCATGAG GGGGCCCCAG GGACCTCCTG GACTACCAGG ATCAGCTGGG 
CCAGTTGGAG CTCCAGGTCT TCAAGGAGAA CGAGGTGAAA GGGGGCCTCC AGGAGAAAAG 
GGGGAGCGAG GCCTGGATGG ATTCCCTGGG AAGCCTGGAG AGACTGGAGA GCAGGGAAGA 
CCTGGGCCTC CTGGTGTGGC AGGACTGCAG GGAGAGAAGG GAGATGTGGG GCCTGCAGGA 
CCCCCTGGTG TGCCAGGCTC TGTGGTGCAG AGGGAAGGCC TGAAGGGAGA GCAGGGAGCT 
CCCGGACCAA GAGGTCACCA AGGCCTACCT GGGCCTCCAG GAGCACCTGG TTTGATTGGC 
CCAGAAGGCA GAGATGGACC CCCAGGGCCT CAAGGTCTCC GAGGGAAGAA AGGAGAAATG 
GGTCCACCAG GGACCCCTGG AGTGCTGGGG CCACAGGGCC CGCCTGGACC ACCTGGTGTT 
CCAGGGCCCC CTGGACCTGG AGGACCCCCG GGTTTACCTG GCGAGCTCGG CTTCCCGGGA 
AAACCTGGGC CTGCTGGGCA CTCGGGGACA CCTGGAAAGG ATGGGCTGAA TGGACCACCA 
GGCCTTCCTG GCTCCAAGGG AGAACCAGGA GACCCTGGCG AAAGCGGCGT GCCCGGAATG 
CCAGGACCTC GGGGTGAAGT TGGGGAGCGG GGCCTTGCAG GTCATCCTGG TGAGAAGGGA 
GAAGTTGGCC TTCCGGGTGC TCCAGGCTTC CCAGGAGTAC GTGGAGAGAA AGGAGACCAG 
GGAGAAAAAG GTGAACTGGG ACTTCCAGGT CTGAAAGGTG CCCGAGGAGA AAAGGGTGAG 
GTTGGTCCAG CAGGTCCCCC TGGCTTACCT GGAAGTCCAT CAGTGTTCAC ACCACACCCA 
AGAATGCCAG GAGAGCAAGG GCCTAAAGGA GAAAAAGGTG ATCCTGGCGA GCCTGGAGCC 
CTGGGACCAC AGGGCCATCC TGGAGAATTG GGTCCTCGGG GACCCATTGG ACCTCCGGGT 
GCCAAGGGGC ATGATGGTGC ACAAGGACCT CCTGGAGCAG CTGGAAACCC TGGTGCTCCA 
GGACCTGCAG GACCCCCTGG TCTCAGTGGA CCCCCAGGAA GTTTGGGTTC TCCTGGTGTC 
AGAGGCGCCC CTGGGAAAGA CGGGGAGCGT GGAGAGAAGG GAACAGCAGG GGAAGACGGC 
AGCCCAGGGC CAGCTGGTCC ACGGGGAGAT CCTGGTGCTC CTGGCCTCCC AGGGCCACCA 
GGAAAGGGCA AGGATGGGGA GCCGGGACTA CGTGGACCAC CTGGGTTACC TGGTCCCTTA 
GGAATCAAGG GTGACCGAGG AACACCTGGG ATTCCTGGCT CTCCTGGCAG CCGTGGTGAC 
CCAGGCATTG GGGTTGCTGG TCCACCTGGT CCCTCAGGAC GACCAGGAGA TAAAGGACCC 
CCGGGATCTC GAGGCTTACC TGGATTCCCC GGCCCCCAGG GACCAGCTGG CCAGGATGGT 
GCACCAGGAA ACCCAGGAGA AAGAGGGCCT CCTGGAAAAC CAGGCCCTTC TTCACTGCTG 
TCTCCAGAGG ACATAAATCT CTTAGTAAAG GATGTGTGCA ATGACTGCCC TCCTGGTCCC 
CCAGGCCTCC CAGGTCTGCC AGGTTTCAAA GGGGACAAGG GTCTTCCAGG AAAACAAGGG 
AGAGAAGGGA CAGAAGGCAA AAAGGGAGAT ACTGGGCCCC CAGGCCTCCC TGGGCCTCCA 
GGAGTAGCTG GACCACAGGG AAGCCAAGGA GAGCGTGGTG CAGAGGGTGA GGTGGGACAG 
AAAGGTGAAC AGGGTCACCC TGGAGTTCCA GGCTTCATGG GCCCACCGGG GAATCCTGGG 
CCACCAGGAG CAGACGGAAA TGCAGGTGCG GCAGGGCCAC CAGGACCTCA AGGGCCTCAG 
GGCAAAGAAG GCCCTCCTGG TCCCCAAGGC CCATCTGGCA TCCCAGGAAT TCCAGGAGAA 
GAAGGCAAGC AGGGCAGAGA TGGAAAGCCA GGTCCCCCTG GAGAACCGGG CAAGACAGGA 
GAGCCAGGCC TGTCAGGAGC AGAGGGAGCC AGAGGTCCAC CGGGCTTCAA GGGACACACA 
GGTGATCCTG GCCCACCTGG TCTGAGGGGA GAACCTGGCA TAGCAGGGCC CCCCGGAAGG 
GATGGATCAC CAGGAAAAGA TGGTGACACT GGACCTGCTG GACCACAGGG TCCCAGAGGA 
ACAAGGGGAC CACCGGGCAG CAGTGGATCA CCTGGATCTC CAGGAGACCC TGGCCGTCCG 
GGAGCCCTAG GCCAGAAGGG AAACAAAGGA GAAAGTGGCA GCCCAGGACT TCCAGGGTTT 
CAGGGTCCTC GTGGACCTCC AGGAGAAGCA GGAGAGGTAG GAGCTCCAGG AAAGGAGGGT 
GCTCCTGGGA AGCCTGGAGA GCCAGGATCC AAAGGAGAGA GGGGAGACCC TGGGATCAAA 
GGTGACAAAG GACCACCAGG TGGGAAGGGT CAGCCTGGAG ACCCTGGAAC CCCAGGCCAC 
AAGGGTCATA CTGGCCTAAT GGGTCCCCAA GGACAACCAG GGGAGAGTGG CCCTCCTGGG 
CCCCCAGGGC CACCTGGCCA GCCAGGATTT CCAGGACCGA GGGGGGAGTC TCCATCCATG 
GACACCTTAC GGCGCCTCAT TCAGGAAGAG CTTGGGAAGC AGCTAGAAGC TAAACTTGCC 
TACCTCCTAG CCCAGATGCC TCCAGCACAT ATGAAGTCCT CTCAAGGCAG ACCCGGACCT 
CCTGGACCCC CTGGAAAAGA TGGGCTGCCA GGTCGGACAG GCCCCATGGG TGAGCCAGGC 
CGTCCTGGCC AAGGTGGTCT GGAAGGACCC TCTGGACCAA TGGGCCCCAA AGGTGAAAGA 
GGAGCCAAAG GTGACCCTGG CACACCTGGA GTTGGTCTCC GAGGAGAGAT GGGTCCTCCT 
GGAATACCAG GCCAACCTGG GGAACCTGGA TATGCTAAAG ATGGACTTCC AGGAAGCCCT 
GGTCCTCAAG GAGAGACAGG ACTAGCTGGA CATCCTGGCC CTCCTGGTCC TCCCGGCCCA 
CCTGGCCTGT GTGACCCCTC CCAGTGTGCG TACTTTGCCA GCCTTGCTGC CCGGCCAAGT 
AATGTGAAGG GCCCGTAG

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

Col22a1 ( XM_021183654.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021039313.1 Mus caroli collagen type XXII alpha 1 chain (Col22a1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMv32272
Clone ID Related Accession (Same CDS sequence)	XM_021183654.1
Accession Version	XM_021183654.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4842bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-09
Organism	Mus caroli(Ryukyu mouse)
Product	collagen alpha-1(XXII) chain isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCTGTCT TCACTAGCAG GAGAGCCATG GCTGACCCCA GAGGAAATCC TTTGGCCTGC 
CTTCTGTGGA TTCTACTGCT CTGGGGAGGG GATGGTGGCT GCCAGGCCCA ACGTGCAGGT 
TGCAAAAGTG TGCAGTATGA TCTGGTCTTC CTCCTGGACA CGTCTTCTAG TGTGGGCAAG 
GAGGACTTTG AGAAAGTCCG CCAGTGGGTA GCCAACCTGG TAGACACCTT TGAGGTGGGC 
CCTGGCCACA CCCGTGTGGG GGTTGTGCGC TACAGTGACC GGCCCACTAC AGCCTTTGAA 
CTGGGCCACT TCAACTCTCG CGAGGAGGTG AAGGCTGCTG CGCGGCGCAT CACCTACCAT 
GGCGGTAACA CGAACACGGG TGATGCCCTG CGTTATATCA CCAGCCGCAG CTTCTCTGCC 
CAAGCCGGCG GCAGACCTGG GAATCGTGCC TTCAAGCAGG TGGCCATCCT GTTGACTGAT 
GGTCGTAGCC AAGACCTGGT GCTGGATGCT GCAGCAGCTG CCCATGCAGC CGGCATCCGC 
ATTTTTGCTG TTGGTGTGGG TGCAGCATTG AAGGAGGAAC TGGATGAGAT TGCCTCAGAA 
CCCAAGTCTG CGCATGTCTT CCATGTTTCC GACTTCAATG CCATTGACAA GATCCGTGGC 
AAACTGAGGC GTCGGCTTTG TGAAAATGTC CTCTGCCCAA GTGTCCGGGT AGAAGGAGAT 
CGGTTTAAAC ATACCAATGG AGGAACCAAG GAAATTACAG GTTTTGACTT GATGGATTTG 
TTCAGTGTGA AGGAAATCTT GGGGAAGAGA GAAAACGGAG CCCAGAGTTC CTATGTACGG 
ATGGGTTCCT TCCCTGTGGT GCAGAGAACT GAAGATGTGT TTCCCCAAGG TCTTCCTGAT 
GAGTATGCCT TTGTCACAAC TTTCCGGTTC CGGAAAACAT CACGGAAAGA AGATTGGTAC 
ATCTGGCAAG TCATTGACCA GTATGGCATC CCACAGGTCT CTATCCGGCT GGATGGTGAG 
AACAAGGCAG TTGAGTACAA CGCTGTGGGT GCCATGAAGG ATGCTGTCCG GGTGGTCTTC 
CGAGGCCCCC GAGTTGATGA CCTCTTTGAC CGTGACTGGC ACAAGATGGC TCTAAGCATC 
CAGGCCCAGA ATGTGTCCCT CTACATTGAC TGTGTGCTGG TTCAGACGCT GCCTATTGAG 
GAGAGGGAGA ATATCGACAT CCAGGGCAAG ACTGTGATTG GCAAACGTCT CTATGACAGC 
GTGCCCATTG ATTTTGACCT GCAGCGGATT GTGATTTACT GTGACTCGAG ACATGCAGAA 
CTGGAGACTT GCTGTGACAT CCCGTTGGGT CCGTGTCAGG TGACTGTGGT GACAGAGCCG 
CCACCTGCGC CTCCACAGCT GCCCACCCCT GGGAGCGAAC AGATCGGGTT CTTGAAGACC 
ATCAACTGCT CATGCCCAGC TGGAGAAAAG GGTGAGAGGG GCTTTGCTGG CCCTCTGGGA 
CTCCCTGGTC AGAAGGGAGA TGCAGGACCC ATTGGACTAA TGGGTGCTCC TGGACCCAAG 
GGAGAAAAAG GAGACACTGG GCGAGGACCC TTCATCCATG GGGAAAAGGG TGAGAAGGGA 
TCCCTGGGTC CACCTGGGCC TCCTGGAAGA GACGGCAGTA AAGGCATGAG AGGAGAGCCA 
GGAGAGCTAG GAGAGCCAGG GCTGCCTGGA GAAGTGGGCA TGAGGGGGCC CCAGGGACCT 
CCTGGACTAC CAGGATCAGC TGGGCCAGTT GGAGCTCCAG GTCTTCAAGG AGAACGAGGT 
GAAAGGGGGC CTCCAGGAGA AAAGGGGGAG CGAGGCCTGG ATGGATTCCC TGGGAAGCCT 
GGAGAGACTG GAGAGCAGGG AAGACCTGGG CCTCCTGGTG TGGCAGGACT GCAGGGAGAG 
AAGGGAGATG TGGGGCCTGC AGGACCCCCT GGTGTGCCAG GCTCTGTGGT GCAGAGGGAA 
GGCCTGAAGG GAGAGCAGGG AGCTCCCGGA CCAAGAGGTC ACCAAGGCCT ACCTGGGCCT 
CCAGGAGCAC CTGGTTTGAT TGGCCCAGAA GGCAGAGATG GACCCCCAGG GCCTCAAGGT 
CTCCGAGGGA AGAAAGGAGA AATGGGTCCA CCAGGGACCC CTGGAGTGCT GGGGCCACAG 
GGCCCGCCTG GACCACCTGG TGTTCCAGGG CCCCCTGGAC CTGGAGGACC CCCGGGTTTA 
CCTGGCGAGC TCGGCTTCCC GGGAAAACCT GGGCCTGCTG GGCACTCGGG GACACCTGGA 
AAGGATGGGC TGAATGGACC ACCAGGCCTT CCTGGCTCCA AGGGAGAACC AGGAGACCCT 
GGCGAAAGCG GCGTGCCCGG AATGCCAGGA CCTCGGGGTG AAGTTGGGGA GCGGGGCCTT 
GCAGGTCATC CTGGTGAGAA GGGAGAAGTT GGCCTTCCGG GTGCTCCAGG CTTCCCAGGA 
GTACGTGGAG AGAAAGGAGA CCAGGGAGAA AAAGGTGAAC TGGGACTTCC AGGTCTGAAA 
GGTGCCCGAG GAGAAAAGGG TGAGGTTGGT CCAGCAGGTC CCCCTGGCTT ACCTGGAAGT 
CCATCAGTGT TCACACCACA CCCAAGAATG CCAGGAGAGC AAGGGCCTAA AGGAGAAAAA 
GGTGATCCTG GCGAGCCTGG AGCCCTGGGA CCACAGGGCC ATCCTGGAGA ATTGGGTCCT 
CGGGGACCCA TTGGACCTCC GGGTGCCAAG GGGCATGATG GTGCACAAGG ACCTCCTGGA 
GCAGCTGGAA ACCCTGGTGC TCCAGGACCT GCAGGACCCC CTGGTCTCAG TGGACCCCCA 
GGAAGTTTGG GTTCTCCTGG TGTCAGAGGC GCCCCTGGGA AAGACGGGGA GCGTGGAGAG 
AAGGGAACAG CAGGGGAAGA CGGCAGCCCA GGGCCAGCTG GTCCACGGGG AGATCCTGGT 
GCTCCTGGCC TCCCAGGGCC ACCAGGAAAG GGCAAGGATG GGGAGCCGGG ACTACGTGGA 
CCACCTGGGT TACCTGGTCC CTTAGGAATC AAGGGTGACC GAGGAACACC TGGGATTCCT 
GGCTCTCCTG GCAGCCGTGG TGACCCAGGC ATTGGGGTTG CTGGTCCACC TGGTCCCTCA 
GGACGACCAG GAGATAAAGG ACCCCCGGGA TCTCGAGGCT TACCTGGATT CCCCGGCCCC 
CAGGGACCAG CTGGCCAGGA TGGTGCACCA GGAAACCCAG GAGAAAGAGG GCCTCCTGGA 
AAACCAGGCC CTTCTTCACT GCTGTCTCCA GAGGACATAA ATCTCTTAGT AAAGGATGTG 
TGCAATGACT GCCCTCCTGG TCCCCCAGGC CTCCCAGGTC TGCCAGGTTT CAAAGGGGAC 
AAGGGTCTTC CAGGAAAACA AGGGAGAGAA GGGACAGAAG GCAAAAAGGG AGATACTGGG 
CCCCCAGGCC TCCCTGGGCC TCCAGGAGTA GCTGGACCAC AGGGAAGCCA AGGAGAGCGT 
GGTGCAGAGG GTGAGGTGGG ACAGAAAGGT GAACAGGGTC ACCCTGGAGT TCCAGGCTTC 
ATGGGCCCAC CGGGGAATCC TGGGCCACCA GGAGCAGACG GAAATGCAGG TGCGGCAGGG 
CCACCAGGAC CTCAAGGGCC TCAGGGCAAA GAAGGCCCTC CTGGTCCCCA AGGCCCATCT 
GGCATCCCAG GAATTCCAGG AGAAGAAGGC AAGCAGGGCA GAGATGGAAA GCCAGGTCCC 
CCTGGAGAAC CGGGCAAGAC AGGAGAGCCA GGCCTGTCAG GAGCAGAGGG AGCCAGAGGT 
CCACCGGGCT TCAAGGGACA CACAGGTGAT CCTGGCCCAC CTGGTCTGAG GGGAGAACCT 
GGCATAGCAG GGCCCCCCGG AAGGGATGGA TCACCAGGAA AAGATGGTGA CACTGGACCT 
GCTGGACCAC AGGGTCCCAG AGGAACAAGG GGACCACCGG GCAGCAGTGG ATCACCTGGA 
TCTCCAGGAG ACCCTGGCCG TCCGGGAGCC CTAGGCCAGA AGGGAAACAA AGGAGAAAGT 
GGCAGCCCAG GACTTCCAGG GTTTCAGGGT CCTCGTGGAC CTCCAGGAGA AGCAGGAGAG 
GTAGGAGCTC CAGGAAAGGA GGGTGCTCCT GGGAAGCCTG GAGAGCCAGG ATCCAAAGGA 
GAGAGGGGAG ACCCTGGGAT CAAAGGTGAC AAAGGACCAC CAGGTGGGAA GGGTCAGCCT 
GGAGACCCTG GAACCCCAGG CCACAAGGGT CATACTGGCC TAATGGGTCC CCAAGGACAA 
CCAGGGGAGA GTGGCCCTCC TGGGCCCCCA GGGCCACCTG GCCAGCCAGG ATTTCCAGGA 
CCGAGGGGGG AGTCTCCATC CATGGACACC TTACGGCGCC TCATTCAGGA AGAGCTTGGG 
AAGCAGCTAG AAGCTAAACT TGCCTACCTC CTAGCCCAGA TGCCTCCAGC ACATATGAAG 
TCCTCTCAAG GCAGACCCGG ACCTCCTGGA CCCCCTGGAA AAGATGGGCT GCCAGGTCGG 
ACAGGCCCCA TGGGTGAGCC AGGCCGTCCT GGCCAAGGTG GTCTGGAAGG ACCCTCTGGA 
CCAATGGGCC CCAAAGGTGA AAGAGGAGCC AAAGGTGACC CTGGCACACC TGGAGTTGGT 
CTCCGAGGAG AGATGGGTCC TCCTGGAATA CCAGGCCAAC CTGGGGAACC TGGATATGCT 
AAAGATGGAC TTCCAGGAAG CCCTGGTCCT CAAGGAGAGA CAGGACTAGC TGGACATCCT 
GGCCCTCCTG GTCCTCCCGG CCCACCTGGC CTGTGTGACC CCTCCCAGTG TGCGTACTTT 
GCCAGCCTTG CTGCCCGGCC AAGTAATGTG AAGGGCCCGT AG

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

RefSeq	XP_021039313.1
CDS	430..5271
Translation	MPVFTSRRAMADPRGNPLACLLWILLLWGGDGGCQAQRAGCKSVQYDLVFLLDTSSSVGKEDFEKVRQWVANLVDTFEVGPGHTRVGVVRYSDRPTTAFELGHFNSREEVKAAARRITYHGGNTNTGDALRYITSRSFSAQAGGRPGNRAFKQVAILLTDGRSQDLVLDAAAAAHAAGIRIFAVGVGAALKEELDEIASEPKSAHVFHVSDFNAIDKIRGKLRRRLCENVLCPSVRVEGDRFKHTNGGTKEITGFDLMDLFSVKEILGKRENGAQSSYVRMGSFPVVQRTEDVFPQGLPDEYAFVTTFRFRKTSRKEDWYIWQVIDQYGIPQVSIRLDGENKAVEYNAVGAMKDAVRVVFRGPRVDDLFDRDWHKMALSIQAQNVSLYIDCVLVQTLPIEERENIDIQGKTVIGKRLYDSVPIDFDLQRIVIYCDSRHAELETCCDIPLGPCQVTVVTEPPPAPPQLPTPGSEQIGFLKTINCSCPAGEKGERGFAGPLGLPGQKGDAGPIGLMGAPGPKGEKGDTGRGPFIHGEKGEKGSLGPPGPPGRDGSKGMRGEPGELGEPGLPGEVGMRGPQGPPGLPGSAGPVGAPGLQGERGERGPPGEKGERGLDGFPGKPGETGEQGRPGPPGVAGLQGEKGDVGPAGPPGVPGSVVQREGLKGEQGAPGPRGHQGLPGPPGAPGLIGPEGRDGPPGPQGLRGKKGEMGPPGTPGVLGPQGPPGPPGVPGPPGPGGPPGLPGELGFPGKPGPAGHSGTPGKDGLNGPPGLPGSKGEPGDPGESGVPGMPGPRGEVGERGLAGHPGEKGEVGLPGAPGFPGVRGEKGDQGEKGELGLPGLKGARGEKGEVGPAGPPGLPGSPSVFTPHPRMPGEQGPKGEKGDPGEPGALGPQGHPGELGPRGPIGPPGAKGHDGAQGPPGAAGNPGAPGPAGPPGLSGPPGSLGSPGVRGAPGKDGERGEKGTAGEDGSPGPAGPRGDPGAPGLPGPPGKGKDGEPGLRGPPGLPGPLGIKGDRGTPGIPGSPGSRGDPGIGVAGPPGPSGRPGDKGPPGSRGLPGFPGPQGPAGQDGAPGNPGERGPPGKPGPSSLLSPEDINLLVKDVCNDCPPGPPGLPGLPGFKGDKGLPGKQGREGTEGKKGDTGPPGLPGPPGVAGPQGSQGERGAEGEVGQKGEQGHPGVPGFMGPPGNPGPPGADGNAGAAGPPGPQGPQGKEGPPGPQGPSGIPGIPGEEGKQGRDGKPGPPGEPGKTGEPGLSGAEGARGPPGFKGHTGDPGPPGLRGEPGIAGPPGRDGSPGKDGDTGPAGPQGPRGTRGPPGSSGSPGSPGDPGRPGALGQKGNKGESGSPGLPGFQGPRGPPGEAGEVGAPGKEGAPGKPGEPGSKGERGDPGIKGDKGPPGGKGQPGDPGTPGHKGHTGLMGPQGQPGESGPPGPPGPPGQPGFPGPRGESPSMDTLRRLIQEELGKQLEAKLAYLLAQMPPAHMKSSQGRPGPPGPPGKDGLPGRTGPMGEPGRPGQGGLEGPSGPMGPKGERGAKGDPGTPGVGLRGEMGPPGIPGQPGEPGYAKDGLPGSPGPQGETGLAGHPGPPGPPGPPGLCDPSQCAYFASLAARPSNVKGP

Target ORF information:

RefSeq Version	XM_021183654.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli collagen type XXII alpha 1 chain (Col22a1), transcript variant X2, mRNA.

Target ORF information:

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

XM_021183654.1

ORF Insert Sequence:

ATGCCTGTCT TCACTAGCAG GAGAGCCATG GCTGACCCCA GAGGAAATCC TTTGGCCTGC 
CTTCTGTGGA TTCTACTGCT CTGGGGAGGG GATGGTGGCT GCCAGGCCCA ACGTGCAGGT 
TGCAAAAGTG TGCAGTATGA TCTGGTCTTC CTCCTGGACA CGTCTTCTAG TGTGGGCAAG 
GAGGACTTTG AGAAAGTCCG CCAGTGGGTA GCCAACCTGG TAGACACCTT TGAGGTGGGC 
CCTGGCCACA CCCGTGTGGG GGTTGTGCGC TACAGTGACC GGCCCACTAC AGCCTTTGAA 
CTGGGCCACT TCAACTCTCG CGAGGAGGTG AAGGCTGCTG CGCGGCGCAT CACCTACCAT 
GGCGGTAACA CGAACACGGG TGATGCCCTG CGTTATATCA CCAGCCGCAG CTTCTCTGCC 
CAAGCCGGCG GCAGACCTGG GAATCGTGCC TTCAAGCAGG TGGCCATCCT GTTGACTGAT 
GGTCGTAGCC AAGACCTGGT GCTGGATGCT GCAGCAGCTG CCCATGCAGC CGGCATCCGC 
ATTTTTGCTG TTGGTGTGGG TGCAGCATTG AAGGAGGAAC TGGATGAGAT TGCCTCAGAA 
CCCAAGTCTG CGCATGTCTT CCATGTTTCC GACTTCAATG CCATTGACAA GATCCGTGGC 
AAACTGAGGC GTCGGCTTTG TGAAAATGTC CTCTGCCCAA GTGTCCGGGT AGAAGGAGAT 
CGGTTTAAAC ATACCAATGG AGGAACCAAG GAAATTACAG GTTTTGACTT GATGGATTTG 
TTCAGTGTGA AGGAAATCTT GGGGAAGAGA GAAAACGGAG CCCAGAGTTC CTATGTACGG 
ATGGGTTCCT TCCCTGTGGT GCAGAGAACT GAAGATGTGT TTCCCCAAGG TCTTCCTGAT 
GAGTATGCCT TTGTCACAAC TTTCCGGTTC CGGAAAACAT CACGGAAAGA AGATTGGTAC 
ATCTGGCAAG TCATTGACCA GTATGGCATC CCACAGGTCT CTATCCGGCT GGATGGTGAG 
AACAAGGCAG TTGAGTACAA CGCTGTGGGT GCCATGAAGG ATGCTGTCCG GGTGGTCTTC 
CGAGGCCCCC GAGTTGATGA CCTCTTTGAC CGTGACTGGC ACAAGATGGC TCTAAGCATC 
CAGGCCCAGA ATGTGTCCCT CTACATTGAC TGTGTGCTGG TTCAGACGCT GCCTATTGAG 
GAGAGGGAGA ATATCGACAT CCAGGGCAAG ACTGTGATTG GCAAACGTCT CTATGACAGC 
GTGCCCATTG ATTTTGACCT GCAGCGGATT GTGATTTACT GTGACTCGAG ACATGCAGAA 
CTGGAGACTT GCTGTGACAT CCCGTTGGGT CCGTGTCAGG TGACTGTGGT GACAGAGCCG 
CCACCTGCGC CTCCACAGCT GCCCACCCCT GGGAGCGAAC AGATCGGGTT CTTGAAGACC 
ATCAACTGCT CATGCCCAGC TGGAGAAAAG GGTGAGAGGG GCTTTGCTGG CCCTCTGGGA 
CTCCCTGGTC AGAAGGGAGA TGCAGGACCC ATTGGACTAA TGGGTGCTCC TGGACCCAAG 
GGAGAAAAAG GAGACACTGG GCGAGGACCC TTCATCCATG GGGAAAAGGG TGAGAAGGGA 
TCCCTGGGTC CACCTGGGCC TCCTGGAAGA GACGGCAGTA AAGGCATGAG AGGAGAGCCA 
GGAGAGCTAG GAGAGCCAGG GCTGCCTGGA GAAGTGGGCA TGAGGGGGCC CCAGGGACCT 
CCTGGACTAC CAGGATCAGC TGGGCCAGTT GGAGCTCCAG GTCTTCAAGG AGAACGAGGT 
GAAAGGGGGC CTCCAGGAGA AAAGGGGGAG CGAGGCCTGG ATGGATTCCC TGGGAAGCCT 
GGAGAGACTG GAGAGCAGGG AAGACCTGGG CCTCCTGGTG TGGCAGGACT GCAGGGAGAG 
AAGGGAGATG TGGGGCCTGC AGGACCCCCT GGTGTGCCAG GCTCTGTGGT GCAGAGGGAA 
GGCCTGAAGG GAGAGCAGGG AGCTCCCGGA CCAAGAGGTC ACCAAGGCCT ACCTGGGCCT 
CCAGGAGCAC CTGGTTTGAT TGGCCCAGAA GGCAGAGATG GACCCCCAGG GCCTCAAGGT 
CTCCGAGGGA AGAAAGGAGA AATGGGTCCA CCAGGGACCC CTGGAGTGCT GGGGCCACAG 
GGCCCGCCTG GACCACCTGG TGTTCCAGGG CCCCCTGGAC CTGGAGGACC CCCGGGTTTA 
CCTGGCGAGC TCGGCTTCCC GGGAAAACCT GGGCCTGCTG GGCACTCGGG GACACCTGGA 
AAGGATGGGC TGAATGGACC ACCAGGCCTT CCTGGCTCCA AGGGAGAACC AGGAGACCCT 
GGCGAAAGCG GCGTGCCCGG AATGCCAGGA CCTCGGGGTG AAGTTGGGGA GCGGGGCCTT 
GCAGGTCATC CTGGTGAGAA GGGAGAAGTT GGCCTTCCGG GTGCTCCAGG CTTCCCAGGA 
GTACGTGGAG AGAAAGGAGA CCAGGGAGAA AAAGGTGAAC TGGGACTTCC AGGTCTGAAA 
GGTGCCCGAG GAGAAAAGGG TGAGGTTGGT CCAGCAGGTC CCCCTGGCTT ACCTGGAAGT 
CCATCAGTGT TCACACCACA CCCAAGAATG CCAGGAGAGC AAGGGCCTAA AGGAGAAAAA 
GGTGATCCTG GCGAGCCTGG AGCCCTGGGA CCACAGGGCC ATCCTGGAGA ATTGGGTCCT 
CGGGGACCCA TTGGACCTCC GGGTGCCAAG GGGCATGATG GTGCACAAGG ACCTCCTGGA 
GCAGCTGGAA ACCCTGGTGC TCCAGGACCT GCAGGACCCC CTGGTCTCAG TGGACCCCCA 
GGAAGTTTGG GTTCTCCTGG TGTCAGAGGC GCCCCTGGGA AAGACGGGGA GCGTGGAGAG 
AAGGGAACAG CAGGGGAAGA CGGCAGCCCA GGGCCAGCTG GTCCACGGGG AGATCCTGGT 
GCTCCTGGCC TCCCAGGGCC ACCAGGAAAG GGCAAGGATG GGGAGCCGGG ACTACGTGGA 
CCACCTGGGT TACCTGGTCC CTTAGGAATC AAGGGTGACC GAGGAACACC TGGGATTCCT 
GGCTCTCCTG GCAGCCGTGG TGACCCAGGC ATTGGGGTTG CTGGTCCACC TGGTCCCTCA 
GGACGACCAG GAGATAAAGG ACCCCCGGGA TCTCGAGGCT TACCTGGATT CCCCGGCCCC 
CAGGGACCAG CTGGCCAGGA TGGTGCACCA GGAAACCCAG GAGAAAGAGG GCCTCCTGGA 
AAACCAGGCC CTTCTTCACT GCTGTCTCCA GAGGACATAA ATCTCTTAGT AAAGGATGTG 
TGCAATGACT GCCCTCCTGG TCCCCCAGGC CTCCCAGGTC TGCCAGGTTT CAAAGGGGAC 
AAGGGTCTTC CAGGAAAACA AGGGAGAGAA GGGACAGAAG GCAAAAAGGG AGATACTGGG 
CCCCCAGGCC TCCCTGGGCC TCCAGGAGTA GCTGGACCAC AGGGAAGCCA AGGAGAGCGT 
GGTGCAGAGG GTGAGGTGGG ACAGAAAGGT GAACAGGGTC ACCCTGGAGT TCCAGGCTTC 
ATGGGCCCAC CGGGGAATCC TGGGCCACCA GGAGCAGACG GAAATGCAGG TGCGGCAGGG 
CCACCAGGAC CTCAAGGGCC TCAGGGCAAA GAAGGCCCTC CTGGTCCCCA AGGCCCATCT 
GGCATCCCAG GAATTCCAGG AGAAGAAGGC AAGCAGGGCA GAGATGGAAA GCCAGGTCCC 
CCTGGAGAAC CGGGCAAGAC AGGAGAGCCA GGCCTGTCAG GAGCAGAGGG AGCCAGAGGT 
CCACCGGGCT TCAAGGGACA CACAGGTGAT CCTGGCCCAC CTGGTCTGAG GGGAGAACCT 
GGCATAGCAG GGCCCCCCGG AAGGGATGGA TCACCAGGAA AAGATGGTGA CACTGGACCT 
GCTGGACCAC AGGGTCCCAG AGGAACAAGG GGACCACCGG GCAGCAGTGG ATCACCTGGA 
TCTCCAGGAG ACCCTGGCCG TCCGGGAGCC CTAGGCCAGA AGGGAAACAA AGGAGAAAGT 
GGCAGCCCAG GACTTCCAGG GTTTCAGGGT CCTCGTGGAC CTCCAGGAGA AGCAGGAGAG 
GTAGGAGCTC CAGGAAAGGA GGGTGCTCCT GGGAAGCCTG GAGAGCCAGG ATCCAAAGGA 
GAGAGGGGAG ACCCTGGGAT CAAAGGTGAC AAAGGACCAC CAGGTGGGAA GGGTCAGCCT 
GGAGACCCTG GAACCCCAGG CCACAAGGGT CATACTGGCC TAATGGGTCC CCAAGGACAA 
CCAGGGGAGA GTGGCCCTCC TGGGCCCCCA GGGCCACCTG GCCAGCCAGG ATTTCCAGGA 
CCGAGGGGGG AGTCTCCATC CATGGACACC TTACGGCGCC TCATTCAGGA AGAGCTTGGG 
AAGCAGCTAG AAGCTAAACT TGCCTACCTC CTAGCCCAGA TGCCTCCAGC ACATATGAAG 
TCCTCTCAAG GCAGACCCGG ACCTCCTGGA CCCCCTGGAA AAGATGGGCT GCCAGGTCGG 
ACAGGCCCCA TGGGTGAGCC AGGCCGTCCT GGCCAAGGTG GTCTGGAAGG ACCCTCTGGA 
CCAATGGGCC CCAAAGGTGA AAGAGGAGCC AAAGGTGACC CTGGCACACC TGGAGTTGGT 
CTCCGAGGAG AGATGGGTCC TCCTGGAATA CCAGGCCAAC CTGGGGAACC TGGATATGCT 
AAAGATGGAC TTCCAGGAAG CCCTGGTCCT CAAGGAGAGA CAGGACTAGC TGGACATCCT 
GGCCCTCCTG GTCCTCCCGG CCCACCTGGC CTGTGTGACC CCTCCCAGTG TGCGTACTTT 
GCCAGCCTTG CTGCCCGGCC AAGTAATGTG AAGGGCCCGT AG