COL24A1 cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene
Clones
gRNAs

Summary

Gene Symbol	COL24A1
Entrez Gene ID	100011650
Full Name	collagen type XXIV alpha 1 chain
Gene Type	protein-coding
Organism	Monodelphis domestica(gray short-tailed opossum)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007480591.2	XP_007480653.1	collagen alpha-1(XXIV) chain

Pathways from BioSystems
Gene Ontology

The following COL24A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL24A1 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
OMc08600	XM_007480591.2 Latest version!	Monodelphis domestica collagen type XXIV alpha 1 (COL24A1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

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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)

COL24A1 ( XM_007480591.2 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_007480653.1 Monodelphis domestica collagen type XXIV alpha 1 (COL24A1), mRNA.

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CloneID	OMc08600
Clone ID Related Accession (Same CDS sequence)	XM_007480591.2
Accession Version	XM_007480591.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5148bp) 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	1461600000000
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	collagen alpha-1(XXIV) chain
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008802.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007480591.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCATTTAG GAGCCCACAG GACAAGGCTT GGAAAGGTCT TCCCCACGGC GATCACGATC 
ACGAAAGCCC CGCTCCTTTT TCTTGCACTA TGTGTCATAG CAAGTACTGG ACAAGTCCAA 
GACCAAGGCA TAGATGTTCT TTATCAACTA GGCCTTGGAG GCAACGATGT AAGACACCAA 
CCAGTGGAGA ATGTACTATC TTCATCTACT CCATTACCTC AGGGAGTTCA AGTAGCAGAG 
ACAGGTGTCA TTCTAACAAG TGGTACTCAT ATTGAGGCAC CTACCAAGAG AATTTTGCCA 
TCCAGTCTAG GACAGCAATT CACAATAGTA ATTGGATTAC TGTCACATAG AGTCAACAAT 
GCTTTTCTCT TCAGTATCAG GAATAAAAAT AGACTGCTAT TCGGAGTACA ATTACTACCC 
AAAAAGGTGG TGATCCACAT TGGTGGGAAA TTGGTAGCAT CTTTCAATTA CAGTGTTCAC 
AATGAACAGT GGCACTCCTT TGCCATTGAT ATTCAAGACT CAGTGGTTTC CATGTTTGTT 
GAGTGTGGAA AGAAGAAATT CAGCAAAGAC ATTCTTTCTA GAATGCAGGC ATTCAATGCT 
GATAGTGTGT TTACTTTGGG AAGTATGGAC TACCATTCAG TCCGCTTTGA AGGAGTAATT 
TGTCAGCTGG ATATAATTCC CTCAGCTGAA GCATCAGCAA ACTATTGTAA ATATCGGAAA 
CAGCAATGTC GCCATGTTGA TACCTACCGA TCAGAGATGG GGTTTCTTCA TACCACTACA 
TTTCCAGGCA TTGTATTGGA GAAGTCTCCA TCATACAAGC AGTTTGATAA AGAAGTACCA 
GAAGAACATA GAACACTTTA TGAAGGAGAA AGAAACCCAA ACTCAGTAAA TAAGGAGGCT 
CCATCAGTCC ATAAACTTCA AGCACCCCGG GAATCATCAA ATTCTTTAAC ATCTGTCCCT 
TGGGGAAACA TCTCTTCTGG GAATCACACA AAACCTGAAG TCCAGGTCAC AAAGATGACT 
GCCAAAGAAC ATATCTCACT AAATTTAAAT CTGTCAGTTA CTCATCATCA ACTCAAAAAG 
GTGTTGTTGA GCTCCAACAA GAAAGCTGGC TTAATCCAAA ATGTTTCAGA GAATGCTGTA 
GGGCATGAAA AAGGAACAAC TAGTCTCCCT TTGCCTAAAG AGAGGCCATC CGTTGTCTCT 
CCCTTTATGA AAGAAGATAA AATTGATGAC CTAAAAAAAG ATCTTAATCA GCACACTGAA 
AAACTCATGA ATATGTCACA GATTTTGAAC ACAACCTTAT ATCGAGCAAC AACTGAACCA 
TCTGTGGAGA ATAATGTCTA TCAGTGGAAA GGAAGCAAAT TGGATACTGA TGGCACATAC 
CACACTGAGG ATAACGATGA AACTGACTTT TATGATTATT ATTACTATGA GGATCTGAAC 
ACGATGCTTG ATATGGAGAA TCTGAGAGGC CCTAAAGGGG AACCTGGACT GCCTGGTCCA 
CCAGGCCCTG CTGGTCTACC TGGTCCATCA GGAAGGAGAG GTCCAAGGGG CATGCCAGGA 
CCACATGGGA ATCCCGGCTT GCCTGGGCTA CCTGGTCCAA AGGGCCCTAA AGGAGATCCA 
GGATTATCTC CAGGTCAAGC CATGGTTGGA GAAAAGGGTG ATCCAGGACT TTTGGGGTTA 
ATAGGTCCCC CTGGTTTTCA AGGCGACAAG GGTGTCAAAG GATATCCAGG GCCTCCTGGA 
CCTCGAGGTG ATCAGGGTCT TCCTGGAATG GCTGGTCTTG CTGGCTCGCC TGGTTACCCT 
GGCAGGCAGG GGTTAGTTGG ACCAGAAGGT AACCAAGGTC CTAAAGGTGT AAGAGGATTC 
ATTGGCTCTC CTGGCATGGC GGGACAACCA GGACCTGAAG GGGAAAGGGG AGTTCCCGGG 
CCACGTGGAA GGAAGGGTCC TAAAGGAAGA CAGGGCTTTC CTGGAGAATT TGGAGACCGA 
GGCCCTGCTG GTCCTGATGG GAACCCTGGT ATTGTTGGTG GTGCTGGCCC TCCTGGATTT 
CCTGGACTTA GGGGTGCTGC TGGCCCTGTG GGAGCAAATG GACCTTCTGG AATTCCTGGG 
CCTATGGGTC TTCCAGGAAA TATGGGGCAA CCTGGAATCA AAGGTGATAA GGGTGAACAA 
GGCATTGTGG GAGATCCAGG AGAACTGGGG TACCCTGGAG ACAAGGGAGC TATCGGTTTG 
CCAGGACCAC CAGGGATGAG AGGAAAGCCA GGACCTTCTG GACAAGCAGG TGACCCAGGC 
CCCCAAGGAC CATTTGGGCC ACCAGGACCT GAGGGTTTTC CTGGAGATAT TGGCATTCCT 
GGGCAAAATG GCCCTGAAGG ACCAAAGGGA CTTCTGGGTA ATCGGGGGCT TCCAGGACCT 
CCTGGTCCCA AAGGTACTGA GGGAGAAGAA GGACCAGTTG GACCCTTTGG AGAGCTGGGT 
CCACGAGGAA AACCGGGTCG AAAAGGATAT GCAGGTGAAC CTGGACCAGA TGGCTTGAAG 
GGAGAACCAG GAGATCAAGG ACACCTTGGA AAAGTTGGGG AAGCAGGACC TATTGGTTTA 
CCAGGAGAAG TTGGTATAAC TGGAAGCTCT GGTGAAAAGG GAGAACGTGG GAGCCCAGGT 
CCAGTTGGCC CACCTGGAGA AAAAGGAATT ATGGGATATC CAGGACCTCC TGGAGATCCA 
GGGCCCATAG GTCCTCTTGG ATTACCTGGT CACTTGGGTA CGAGAGGGCT GCCTGGGCTA 
CAGGGTCCAA AGGGACAAAG GGGGCCTAGA GGTCTAGATG GCCTTCCGGG AGAGCAAGGA 
ATGCAAGGTA TTAAGGGAGA AAAAGGCGAT CAGGGGAAAA AAGGTCTTCC TGGACTTATC 
GGTAATGCTG GAAACCCAGG AGAGAGAGGG GCTCAAGGTA AACCAGGTTT ACAAGGGACT 
CCTGGAAGTG TAGGAGACAA GGGACCTCCT GGAGAACCAG GGGCACGAGG ACAACAAGGT 
GATGCTGGTC CTATTGGAGA AATGGGTCCT GAGGGACCTC CAGGCATTGA GGGAGAGCCC 
GGTCCACAAG GAGAGCCAGG AGCCAAGGGA GACTCTGGAC CAGCAGGCAG TGTTGGAGGA 
TCTGGAGAAC CAGGAATAAG GGGTGAACCA GGAACTCCTG GAGAAGATGG TCTTCAAGGA 
AAAGATGGAG CAAAGGGAAT CATAGGAGAT AGAGGACCTC CTGGAGAACC TGGGGACCAA 
GGAGAGGCAG GTTTACCAGG AATTATAGGA CCTTTGGGTG GACCTGGAAC AATTGGCCCT 
CCAGGACCAG AAGGAGCTGT AGGAAATCCC GGTCAAAGGG GTCGCCCAGG AAAAAAGGGA 
GAAAAGGGAC AACTGGGACC AATAGGAGAA ATTGGAAGCA CAGGTGCTCC CGGCCAAATG 
GGGGAAATTG GTCCTAAAGG TGCCAGAGGA ACCAGAGGTC CTGTGGGAAA TTTAGGATTA 
ATGGGACCTG AAGGAGAACC AGGAATTCCA GGATATGGGG GCCATCAAGG TCAACCAGGA 
CCTCCTGGGA TGCCAGGGCC TAAAGGAGAA AAGGGTTATC CAGGAGATGA TAACAAAGTT 
CTAGGACCAC CGGGGCCCCT AGGTGAACCA GGTCCAATAG GCAACCGAGG AGAAAGAGGA 
GAATCTGGAG CTGAAGGCTA TAAGGGTCAC GTGGGTGTGC CTGGACAAAG AGGAGCCATT 
GGGCAACAAG GGGCCCCAGG AGAACCAGGT GAAATGGGTG AACCAGGACC TAAAGGAGAG 
AGAGGATCTG AAGGTCCTAA AGGGAAGAAA GGAGCACCTG GTCCATCTGG GAAACCTGGG 
ATTCCTGGAC TCATGGGCCC ACCTGGACAA AAAGGTGAGC CAGGATATCA TGGAGCAGAA 
GGAATCCTTG GAAACTCTGG AAAAGTTGGG CTACCGGGAA GACCGGGACT TCCTGGGATC 
AAAGGCAACA CTGGAAGAAC GGGAATGACT GGACCTCCAG GAACTAGAGG AGCAAAAGGC 
TCATCAGGCA TGCCAGGAAA CCCAGGAGCT CCAGGACCAA AGGGTGAACA AGGGCTACCA 
GGTCATCCTG GAAAGCCAGG TAGAAGAGGT CATGTAGGAA TGCAAGGCAA TCAAGGACCG 
CATGGAGATC ATGGGATGAA AGGGCAGTCT GGGGACCGTG GTGACCAAGG GTTGATGGGT 
TTCCAAGGAT TCCCAGGTCC AAAAGGCCCT GAAGGAGATG TTGGCATGGT TGGAATCCTA 
GGCCCTAAAG GTCCTATTGG CCAAATGGGA AACATTGGCC ACCTTGGTAG AGAAGGCATA 
ATAGGTCCAA CAGGAAAAAC TGGACCCAGA GGTGAAAAGG GCCATAGAGG TGAAATGGGA 
CCTCAAGGAC CAAGAGGCCA CCCTGGACCC CCTGGTCCTC CGGGGGCACC AGGACCACGA 
AAACAAATAG ATATCAATGC TGCTATTCAA GCCTTGATTG AATCAAATAC TGCACTACAG 
ATGGAGAGCT ACCAGAATAC CGAAGTGACT TTTCTGGACC ACAGTGCAGA AATATTCAAA 
ACCCTGCACT ATCTTAGCAA TTTACTACAT AGTATCAAGA ACCCACTTGG CACACGAGAT 
AACCCAGCTC GCATCTGTCG GGATTTGCTC AACTGTGAAC GCAAAGTGTC AAATGGAAAA 
TACTGGATCG ATCCAAATCT TGGGTGCCCT TCAGATGCCA TCGAGGTTTT CTGCAATTTC 
AGTGCAGGTG GTCAAACATG CTTATCACCT GTGTCTGTAA CAAAGTTGGA GTTTGGAATT 
GGGAAAGTCC AGATGAATTT CCTTCATTTA CTGAGCTCAG AAGCCACCCA TATCATCACC 
ATTCATTGTC TGAACACACC AATATGGACA AGTCAAAGGA CAAGTGCCCC AGGATTGCCT 
ATTAGTTTCA AAGGATGGAA TGGCCAGGTC TTCGAAGAAA ACACCCTACT TGAACCAAAG 
GTGCTTACAG ATGAATGCAA GAATCAAGAT GGCAGCTGGC ATAAAGCAAA ATTCCTTTTT 
CACACTCAGG ACCCTAATCA GCTCCCAGTG ATTGAAGTAC AAAAACTTCC TCATCTCAAA 
ACGGGACAGA AACACTACAT CGAAAGCAGT TCTGTGTGCT TTCTCTAA

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

RefSeq	XP_007480653.1
CDS	221..5368
Translation	MHLGAHRTRLGKVFPTAITITKAPLLFLALCVIASTGQVQDQGIDVLYQLGLGGNDVRHQPVENVLSSSTPLPQGVQVAETGVILTSGTHIEAPTKRILPSSLGQQFTIVIGLLSHRVNNAFLFSIRNKNRLLFGVQLLPKKVVIHIGGKLVASFNYSVHNEQWHSFAIDIQDSVVSMFVECGKKKFSKDILSRMQAFNADSVFTLGSMDYHSVRFEGVICQLDIIPSAEASANYCKYRKQQCRHVDTYRSEMGFLHTTTFPGIVLEKSPSYKQFDKEVPEEHRTLYEGERNPNSVNKEAPSVHKLQAPRESSNSLTSVPWGNISSGNHTKPEVQVTKMTAKEHISLNLNLSVTHHQLKKVLLSSNKKAGLIQNVSENAVGHEKGTTSLPLPKERPSVVSPFMKEDKIDDLKKDLNQHTEKLMNMSQILNTTLYRATTEPSVENNVYQWKGSKLDTDGTYHTEDNDETDFYDYYYYEDLNTMLDMENLRGPKGEPGLPGPPGPAGLPGPSGRRGPRGMPGPHGNPGLPGLPGPKGPKGDPGLSPGQAMVGEKGDPGLLGLIGPPGFQGDKGVKGYPGPPGPRGDQGLPGMAGLAGSPGYPGRQGLVGPEGNQGPKGVRGFIGSPGMAGQPGPEGERGVPGPRGRKGPKGRQGFPGEFGDRGPAGPDGNPGIVGGAGPPGFPGLRGAAGPVGANGPSGIPGPMGLPGNMGQPGIKGDKGEQGIVGDPGELGYPGDKGAIGLPGPPGMRGKPGPSGQAGDPGPQGPFGPPGPEGFPGDIGIPGQNGPEGPKGLLGNRGLPGPPGPKGTEGEEGPVGPFGELGPRGKPGRKGYAGEPGPDGLKGEPGDQGHLGKVGEAGPIGLPGEVGITGSSGEKGERGSPGPVGPPGEKGIMGYPGPPGDPGPIGPLGLPGHLGTRGLPGLQGPKGQRGPRGLDGLPGEQGMQGIKGEKGDQGKKGLPGLIGNAGNPGERGAQGKPGLQGTPGSVGDKGPPGEPGARGQQGDAGPIGEMGPEGPPGIEGEPGPQGEPGAKGDSGPAGSVGGSGEPGIRGEPGTPGEDGLQGKDGAKGIIGDRGPPGEPGDQGEAGLPGIIGPLGGPGTIGPPGPEGAVGNPGQRGRPGKKGEKGQLGPIGEIGSTGAPGQMGEIGPKGARGTRGPVGNLGLMGPEGEPGIPGYGGHQGQPGPPGMPGPKGEKGYPGDDNKVLGPPGPLGEPGPIGNRGERGESGAEGYKGHVGVPGQRGAIGQQGAPGEPGEMGEPGPKGERGSEGPKGKKGAPGPSGKPGIPGLMGPPGQKGEPGYHGAEGILGNSGKVGLPGRPGLPGIKGNTGRTGMTGPPGTRGAKGSSGMPGNPGAPGPKGEQGLPGHPGKPGRRGHVGMQGNQGPHGDHGMKGQSGDRGDQGLMGFQGFPGPKGPEGDVGMVGILGPKGPIGQMGNIGHLGREGIIGPTGKTGPRGEKGHRGEMGPQGPRGHPGPPGPPGAPGPRKQIDINAAIQALIESNTALQMESYQNTEVTFLDHSAEIFKTLHYLSNLLHSIKNPLGTRDNPARICRDLLNCERKVSNGKYWIDPNLGCPSDAIEVFCNFSAGGQTCLSPVSVTKLEFGIGKVQMNFLHLLSSEATHIITIHCLNTPIWTSQRTSAPGLPISFKGWNGQVFEENTLLEPKVLTDECKNQDGSWHKAKFLFHTQDPNQLPVIEVQKLPHLKTGQKHYIESSSVCFL

Target ORF information:

RefSeq Version	XM_007480591.2
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica collagen type XXIV alpha 1 (COL24A1), mRNA.

Target ORF information:

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

XM_007480591.2

ORF Insert Sequence:

ATGCATTTAG GAGCCCACAG GACAAGGCTT GGAAAGGTCT TCCCCACGGC GATCACGATC 
ACGAAAGCCC CGCTCCTTTT TCTTGCACTA TGTGTCATAG CAAGTACTGG ACAAGTCCAA 
GACCAAGGCA TAGATGTTCT TTATCAACTA GGCCTTGGAG GCAACGATGT AAGACACCAA 
CCAGTGGAGA ATGTACTATC TTCATCTACT CCATTACCTC AGGGAGTTCA AGTAGCAGAG 
ACAGGTGTCA TTCTAACAAG TGGTACTCAT ATTGAGGCAC CTACCAAGAG AATTTTGCCA 
TCCAGTCTAG GACAGCAATT CACAATAGTA ATTGGATTAC TGTCACATAG AGTCAACAAT 
GCTTTTCTCT TCAGTATCAG GAATAAAAAT AGACTGCTAT TCGGAGTACA ATTACTACCC 
AAAAAGGTGG TGATCCACAT TGGTGGGAAA TTGGTAGCAT CTTTCAATTA CAGTGTTCAC 
AATGAACAGT GGCACTCCTT TGCCATTGAT ATTCAAGACT CAGTGGTTTC CATGTTTGTT 
GAGTGTGGAA AGAAGAAATT CAGCAAAGAC ATTCTTTCTA GAATGCAGGC ATTCAATGCT 
GATAGTGTGT TTACTTTGGG AAGTATGGAC TACCATTCAG TCCGCTTTGA AGGAGTAATT 
TGTCAGCTGG ATATAATTCC CTCAGCTGAA GCATCAGCAA ACTATTGTAA ATATCGGAAA 
CAGCAATGTC GCCATGTTGA TACCTACCGA TCAGAGATGG GGTTTCTTCA TACCACTACA 
TTTCCAGGCA TTGTATTGGA GAAGTCTCCA TCATACAAGC AGTTTGATAA AGAAGTACCA 
GAAGAACATA GAACACTTTA TGAAGGAGAA AGAAACCCAA ACTCAGTAAA TAAGGAGGCT 
CCATCAGTCC ATAAACTTCA AGCACCCCGG GAATCATCAA ATTCTTTAAC ATCTGTCCCT 
TGGGGAAACA TCTCTTCTGG GAATCACACA AAACCTGAAG TCCAGGTCAC AAAGATGACT 
GCCAAAGAAC ATATCTCACT AAATTTAAAT CTGTCAGTTA CTCATCATCA ACTCAAAAAG 
GTGTTGTTGA GCTCCAACAA GAAAGCTGGC TTAATCCAAA ATGTTTCAGA GAATGCTGTA 
GGGCATGAAA AAGGAACAAC TAGTCTCCCT TTGCCTAAAG AGAGGCCATC CGTTGTCTCT 
CCCTTTATGA AAGAAGATAA AATTGATGAC CTAAAAAAAG ATCTTAATCA GCACACTGAA 
AAACTCATGA ATATGTCACA GATTTTGAAC ACAACCTTAT ATCGAGCAAC AACTGAACCA 
TCTGTGGAGA ATAATGTCTA TCAGTGGAAA GGAAGCAAAT TGGATACTGA TGGCACATAC 
CACACTGAGG ATAACGATGA AACTGACTTT TATGATTATT ATTACTATGA GGATCTGAAC 
ACGATGCTTG ATATGGAGAA TCTGAGAGGC CCTAAAGGGG AACCTGGACT GCCTGGTCCA 
CCAGGCCCTG CTGGTCTACC TGGTCCATCA GGAAGGAGAG GTCCAAGGGG CATGCCAGGA 
CCACATGGGA ATCCCGGCTT GCCTGGGCTA CCTGGTCCAA AGGGCCCTAA AGGAGATCCA 
GGATTATCTC CAGGTCAAGC CATGGTTGGA GAAAAGGGTG ATCCAGGACT TTTGGGGTTA 
ATAGGTCCCC CTGGTTTTCA AGGCGACAAG GGTGTCAAAG GATATCCAGG GCCTCCTGGA 
CCTCGAGGTG ATCAGGGTCT TCCTGGAATG GCTGGTCTTG CTGGCTCGCC TGGTTACCCT 
GGCAGGCAGG GGTTAGTTGG ACCAGAAGGT AACCAAGGTC CTAAAGGTGT AAGAGGATTC 
ATTGGCTCTC CTGGCATGGC GGGACAACCA GGACCTGAAG GGGAAAGGGG AGTTCCCGGG 
CCACGTGGAA GGAAGGGTCC TAAAGGAAGA CAGGGCTTTC CTGGAGAATT TGGAGACCGA 
GGCCCTGCTG GTCCTGATGG GAACCCTGGT ATTGTTGGTG GTGCTGGCCC TCCTGGATTT 
CCTGGACTTA GGGGTGCTGC TGGCCCTGTG GGAGCAAATG GACCTTCTGG AATTCCTGGG 
CCTATGGGTC TTCCAGGAAA TATGGGGCAA CCTGGAATCA AAGGTGATAA GGGTGAACAA 
GGCATTGTGG GAGATCCAGG AGAACTGGGG TACCCTGGAG ACAAGGGAGC TATCGGTTTG 
CCAGGACCAC CAGGGATGAG AGGAAAGCCA GGACCTTCTG GACAAGCAGG TGACCCAGGC 
CCCCAAGGAC CATTTGGGCC ACCAGGACCT GAGGGTTTTC CTGGAGATAT TGGCATTCCT 
GGGCAAAATG GCCCTGAAGG ACCAAAGGGA CTTCTGGGTA ATCGGGGGCT TCCAGGACCT 
CCTGGTCCCA AAGGTACTGA GGGAGAAGAA GGACCAGTTG GACCCTTTGG AGAGCTGGGT 
CCACGAGGAA AACCGGGTCG AAAAGGATAT GCAGGTGAAC CTGGACCAGA TGGCTTGAAG 
GGAGAACCAG GAGATCAAGG ACACCTTGGA AAAGTTGGGG AAGCAGGACC TATTGGTTTA 
CCAGGAGAAG TTGGTATAAC TGGAAGCTCT GGTGAAAAGG GAGAACGTGG GAGCCCAGGT 
CCAGTTGGCC CACCTGGAGA AAAAGGAATT ATGGGATATC CAGGACCTCC TGGAGATCCA 
GGGCCCATAG GTCCTCTTGG ATTACCTGGT CACTTGGGTA CGAGAGGGCT GCCTGGGCTA 
CAGGGTCCAA AGGGACAAAG GGGGCCTAGA GGTCTAGATG GCCTTCCGGG AGAGCAAGGA 
ATGCAAGGTA TTAAGGGAGA AAAAGGCGAT CAGGGGAAAA AAGGTCTTCC TGGACTTATC 
GGTAATGCTG GAAACCCAGG AGAGAGAGGG GCTCAAGGTA AACCAGGTTT ACAAGGGACT 
CCTGGAAGTG TAGGAGACAA GGGACCTCCT GGAGAACCAG GGGCACGAGG ACAACAAGGT 
GATGCTGGTC CTATTGGAGA AATGGGTCCT GAGGGACCTC CAGGCATTGA GGGAGAGCCC 
GGTCCACAAG GAGAGCCAGG AGCCAAGGGA GACTCTGGAC CAGCAGGCAG TGTTGGAGGA 
TCTGGAGAAC CAGGAATAAG GGGTGAACCA GGAACTCCTG GAGAAGATGG TCTTCAAGGA 
AAAGATGGAG CAAAGGGAAT CATAGGAGAT AGAGGACCTC CTGGAGAACC TGGGGACCAA 
GGAGAGGCAG GTTTACCAGG AATTATAGGA CCTTTGGGTG GACCTGGAAC AATTGGCCCT 
CCAGGACCAG AAGGAGCTGT AGGAAATCCC GGTCAAAGGG GTCGCCCAGG AAAAAAGGGA 
GAAAAGGGAC AACTGGGACC AATAGGAGAA ATTGGAAGCA CAGGTGCTCC CGGCCAAATG 
GGGGAAATTG GTCCTAAAGG TGCCAGAGGA ACCAGAGGTC CTGTGGGAAA TTTAGGATTA 
ATGGGACCTG AAGGAGAACC AGGAATTCCA GGATATGGGG GCCATCAAGG TCAACCAGGA 
CCTCCTGGGA TGCCAGGGCC TAAAGGAGAA AAGGGTTATC CAGGAGATGA TAACAAAGTT 
CTAGGACCAC CGGGGCCCCT AGGTGAACCA GGTCCAATAG GCAACCGAGG AGAAAGAGGA 
GAATCTGGAG CTGAAGGCTA TAAGGGTCAC GTGGGTGTGC CTGGACAAAG AGGAGCCATT 
GGGCAACAAG GGGCCCCAGG AGAACCAGGT GAAATGGGTG AACCAGGACC TAAAGGAGAG 
AGAGGATCTG AAGGTCCTAA AGGGAAGAAA GGAGCACCTG GTCCATCTGG GAAACCTGGG 
ATTCCTGGAC TCATGGGCCC ACCTGGACAA AAAGGTGAGC CAGGATATCA TGGAGCAGAA 
GGAATCCTTG GAAACTCTGG AAAAGTTGGG CTACCGGGAA GACCGGGACT TCCTGGGATC 
AAAGGCAACA CTGGAAGAAC GGGAATGACT GGACCTCCAG GAACTAGAGG AGCAAAAGGC 
TCATCAGGCA TGCCAGGAAA CCCAGGAGCT CCAGGACCAA AGGGTGAACA AGGGCTACCA 
GGTCATCCTG GAAAGCCAGG TAGAAGAGGT CATGTAGGAA TGCAAGGCAA TCAAGGACCG 
CATGGAGATC ATGGGATGAA AGGGCAGTCT GGGGACCGTG GTGACCAAGG GTTGATGGGT 
TTCCAAGGAT TCCCAGGTCC AAAAGGCCCT GAAGGAGATG TTGGCATGGT TGGAATCCTA 
GGCCCTAAAG GTCCTATTGG CCAAATGGGA AACATTGGCC ACCTTGGTAG AGAAGGCATA 
ATAGGTCCAA CAGGAAAAAC TGGACCCAGA GGTGAAAAGG GCCATAGAGG TGAAATGGGA 
CCTCAAGGAC CAAGAGGCCA CCCTGGACCC CCTGGTCCTC CGGGGGCACC AGGACCACGA 
AAACAAATAG ATATCAATGC TGCTATTCAA GCCTTGATTG AATCAAATAC TGCACTACAG 
ATGGAGAGCT ACCAGAATAC CGAAGTGACT TTTCTGGACC ACAGTGCAGA AATATTCAAA 
ACCCTGCACT ATCTTAGCAA TTTACTACAT AGTATCAAGA ACCCACTTGG CACACGAGAT 
AACCCAGCTC GCATCTGTCG GGATTTGCTC AACTGTGAAC GCAAAGTGTC AAATGGAAAA 
TACTGGATCG ATCCAAATCT TGGGTGCCCT TCAGATGCCA TCGAGGTTTT CTGCAATTTC 
AGTGCAGGTG GTCAAACATG CTTATCACCT GTGTCTGTAA CAAAGTTGGA GTTTGGAATT 
GGGAAAGTCC AGATGAATTT CCTTCATTTA CTGAGCTCAG AAGCCACCCA TATCATCACC 
ATTCATTGTC TGAACACACC AATATGGACA AGTCAAAGGA CAAGTGCCCC AGGATTGCCT 
ATTAGTTTCA AAGGATGGAA TGGCCAGGTC TTCGAAGAAA ACACCCTACT TGAACCAAAG 
GTGCTTACAG ATGAATGCAA GAATCAAGAT GGCAGCTGGC ATAAAGCAAA ATTCCTTTTT 
CACACTCAGG ACCCTAATCA GCTCCCAGTG ATTGAAGTAC AAAAACTTCC TCATCTCAAA 
ACGGGACAGA AACACTACAT CGAAAGCAGT TCTGTGTGCT TTCTCTAA

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

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COL24A1 cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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