ADAMTS9 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAMTS9
Entrez Gene ID	100477830
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 9
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019803602.1	XP_019659161.1	A disintegrin and metalloproteinase with thrombospondin motifs 9

Pathways from BioSystems
Gene Ontology

The following ADAMTS9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS9 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
OAc95478	XM_019803602.1 Latest version!	Ailuropoda melanoleuca ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

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)

ADAMTS9 ( XM_019803602.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019659161.1 Ailuropoda melanoleuca ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), mRNA.

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CloneID	OAc95478
Clone ID Related Accession (Same CDS sequence)	XM_019803602.1
Accession Version	XM_019803602.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5838bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217941.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGTTCCTGG TGCGGGACCT GGCCGAGATG 
GGGAGCCCAG ACGCCGCCGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAGA 
TTATTGGAGA CCCTGAGCGA ATACGAAATC GCTTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCTTTTT CCACGAACGT GCACTTCAAA CGAAGGCGAC GGAGCATCAA CGCTGCCTCT 
GACCCCTGGC CTGCCTTCGC TTCCTCCTCT ACCTCTCCCC AGGAGCATTA CCGCCTCTCT 
GCCTTCGGCC AGCAATTTCT GTTTAATCTC ACCGCCCATG CCGGATTTAT CGCTCCAACG 
TTCACTGTCA CCCTCCTCGG GACGCCCGGG GAGAATGAGA CAAAGTTTTA TTCCGAGGAG 
GAAGCGGAAC TTAAGCATTG CTTCTACAAA GGCCATGTCA ATACCAAGTC CGAGCACACG 
GCGGTCATCA GCCTCTGCTC AGGAATGCTG GGCACATTCC GGTCCCATGA TGGGGATTAT 
TTTATCGAAC CACTACTGTC CATTGACGAG CAAGAAGACG AAGAGGACCA GAACAAACCG 
CACATCGTCT ACCGGCACAG CACCCTGCAC AGAGAGCCCT CAGCAGGAAG GCGTGCGTGT 
GACACCTCCG GTATTTCCTC CCTGCTCCGG CAGAGCCCGC AGCTCTGTGA GATGGAACAC 
AGAAATAGTC ACAGCAAAGA CAAGAGGAAA ATGAGAACAA GAAGATGGGG AGAGAGGCGT 
ACCCTGGCTG ATGATGTGGC GGTGTTAAAA AGCAGCTTAG CAACAAAGGC GCTTTCTGCC 
TATGGTAACA AGACGGACAG CACCAGGGAA AAGAGGACCC ACAGAAGAAC AAAACGTTTT 
TTATCCTATC CACGGTTTGT AGAAGTGATG GTGGTGGCGG ACTACAAAAT GGTTTTATAC 
CATGGAACAA ACCTTCAACA CTATATTTTA ACTCTAATGT CAATTGTAGC CTCTATCTAT 
AAAGACCCAA GTATTGGAAA TTTAATTAAT ATTGTTATTG TGAACTTAGT TGTGATTCAT 
AATGAACAGG AAGGACCTTC CATTTCTTTT AATGCCCAGA CAACTTTAAG AAGTTTTTGC 
CAGTGGCAAC ACTCAAAGAA CTCTGCAGGT GGAATCCAGC ATGATACCGC TGTTCTTGTA 
ACGAGACAGG ATATCTGCAG AGCTCATGAC AAATGTGACA CCTTAGGTCT TGCTGAACTG 
GGAACCATCT GTGATCCCTA CAGAAGCTGT TCTATTAGTG AAGACAGCGG ATTGAGTACG 
GCTTTCACAA TAGCCCATGA GCTGGGCCAT GTGTTTAACA TGCCTCATGA TGACAGCAAC 
AAGTGCAAGG AGGACGGAGT CAAGAACCCC CAGCACGTCA TGGCTCCGAC GTTGAACTTC 
TACACTAACC CCTGGATGTG GTCAAAATGT AGTCGAAAAT ATATCACTGA GTTTTTAGAC 
ACTGGTTACG GCGAGTGTTT GCTTAATGAA CCTGCATCCA GACCCTACCC TTTGCCTCAC 
CAGCTGCCCG GCCTCCTTTA CAACGTGAAT AAACAATGTG AATTGATTTT TGGACCAGGT 
TCTCAGGTGT GCCCATATAT GATGCAGTGT AGACGACTCT GGTGCAATAA CGTGGATGGA 
GTATGCCAAA CTCAGCACAC GCCCTGGGCA GACGGGACCG AGTGTGAGCC TGGAAAGCAC 
TGCAAGTATG GATTTTGTGT CCCCAAAGAA ATGGAGGGCC CCGTGACCGA TGGATCCTGG 
GGAAGTTGGA GTCACTTTGG AACCTGCTCA AGAACGTGTG GAGGGGGCAT CAAAACTGCT 
GTTCGCGAGT GCAACAGACC AGAGCCAAAA AATGGTGGGA AGTACTGTGT AGGGCGTAGA 
ATGAAGTTCA AGTCGTGCAA CACAGAGCCA TGTCTCAAGC AGAAGCGAGA CTTCCGAGAA 
GAACAGTGTG CTCAATTTGA TGGCAAACAT TTTAACATCA ATGGTCTGCT TCCAACTGTG 
CGCTGGGTGC CTAAGTACAG TGGAATTCTG ATCAAGGACC GTTGCAAGCT GTTCTGCAGG 
GTGGCCGGTA ACACAGCCTA CTATCAGCTC CGAGACAGAG TGATCGATGG GACTCCGTGC 
GGCCAGGACA CCAGCGATAT CTGTGTCCAA GGCCTCTGCC GGCAAGCTGG ATGTGATCAC 
GTTTTAAACT CCAAAGCCCG GAGAGATAAA TGTGGCATTT GCGGTGGCGA TAATTCTTCG 
TGCAAAACAG TGGCAGGGAC ATTTAATACA GTACATTATG GTTACAACAC TGTGGTCCGA 
ATCCCAGCAG GTGCTACCAG TATCGACGTG AGGCAGCACA GTTTCTCAGG GAAATCAGAG 
GATGATAACT ACTTAGCTTT ATCAAGCAGT AAAGGTGAAT TCTTGCTAAA TGGAGACTTC 
GTTGTCTCCA TGTCCAAAAG GGAAATCCGC GTTGGCAATG CTGTGATAGA GTACAGCGGG 
TCCGACAATG TAGTGGAAAG AATTAACTCC ACAGACCGCA TTGAACAAGA ACTTTTGCTT 
CAGGTGCTGT CGGTGGGAAA GCTATACAAC CCTGATGTGC GCTATTCTTT CAATATTCCA 
ATCGAAGACA AACCCCAGCA GTTTTACTGG AACAGTCATG GGCCCTGGCA AGCATGCAGC 
AAACCCTGCC AAGGGGAGCG GAAGCGAAAA CCTGTTTGCA CCCGGGAATC TGATCAGCTT 
ACGGTTTCTG ATCAAAGATG TGACCGACTG CCCCAGCCAG CACCCATTAC CGAACCTTGC 
GGCATAGACT GCGACATGAG GTGGCACGTT GCCAGCAGGA GCGAATGTAG TGCCCAGTGT 
GGCTTGGGTT ACCGCACATT AGACATCTAC TGTGCCAAAT ATAGCAGGCT AGATGGGAAG 
ACCGAGAAGG TTGATGACAG TTTTTGCAGT GGTCACCCCA AACCAAGCAA CCGGGAAAAA 
TGCTCAGGAG AATGTAACAC AGGTGGCTGG CGCTATTCTG CATGGACGGA ATGTTCGAAA 
AGCTGTGATG GTGGAAGCCA GAGGAGAAGG GCTATTTGTG TCAACACCCG CAACGATGTC 
CTGGATGACA GCAAATGCAC ACATCAAGAG AAAGTCACCG TTCAGAGATG CAATGAGTTC 
CCTTGTCCAC AGTGGAAAAC AGCAGACTGG TCAGAGTGCC TGGTCACCTG CGGAAAAGGG 
CATAAACACC GCCAGGTCTG GTGTCAGTTC GGTGAAGATC GATTAAACGA TAGAATCTGT 
GACCCTGAGA CCAAGCCAGC CTCCATGCAG ACTTGTCAGC AGCCAGAATG TGCGTCCTGG 
CAGGCGGGTC CCTGGGGACA GTGCAGTGTC ACTTGTGGAC AAGGATACCA GCTAAGAGCA 
GTGAAATGCA TCATTGGGAC TTACATGTCC GTGGTAGATG ACAATGACTG CAATGCGGCA 
ACTAGACCAA CTGATACCCA GGACTGTGAA TTACCGTCCT GTCACCCTCC CCCTGCTGCC 
CCGGAACCAA GGAGAAGCAC ACACAGTACA CCAAGAACCC AGTGGCGATT TGGGTCTTGG 
ACACCATGCT CCGCCACTTG TGGGAAAGGT ACTCGGATGA GATACGTCAG CTGCCGGGAT 
GAGGACGGCT CTGTGGCTGA CGAGAGCGCC TGCGTAACCC TGCCCAGACC AGTGGCAAAG 
GAAGAATGTT CTGTGACCCC CTGTGGGCAG TGGAAGGCTT TGGACTGGAG CCCTTGCTCC 
GTGACGTGTG GGCAAGGCAG GGCCACCCGG CAAGTGGTAT GTGTCAACTA CAGTGACCAC 
GTGATTGATC AGAGTGAGTG TGACCCAGAT TACATCCCAG AAACCGACCA GGACTGTTCC 
ACATCACCGT GCCCTCAGCA GACCCCAGAC AGTGGTCTCG CTCAGCACCC CTTCCAAAGT 
GAGGATTACG GCCCCCGGAG TGCCGGCCCC AGCCGCACCC ATGTGCTTGG TGGAAACCAG 
TGGAGGACTG GCCCCTGGGG AGCATGTTCC AGTACCTGTG CCGGTGGGTC CCAGCGGCGT 
GTGGTTGTGT GTCAGGATGA AAACGGATAC ACCGCAAATG ACTGCGTGGA GAGAATAAAA 
CCCGATGAGC AAAGAGCCTG TGAATCTGGC CCGTGTCCTC AGTGGGCTTA TGGCAACTGG 
GGAGAGTGCA CTAAGCTATG TGGTGGAGGC TTGCGGACAA GACTGGTGGT CTGTCAGCGG 
CCCAGTGGTG AACAGTTTCC AGACTTGAGC TGTGAAATCC TCGATAAGCC TCCAGATCGT 
GAGCAGTGTA ACACACATGC TTGTCCTCCA GACGCTGCGT GGAATACTGG CCCTTGGAGT 
TCGTGTTCTG TCTCTTGTGG TCGAGGGCAT AAGCAACGAA ATGTTTACTG CATGGCAAAG 
GATGGAAGCC ATTTAGAAAG TGATTACTGT AAACACCTTG CTAAGCCAAA TGGGCACAGG 
AAGTGCAGAG GAGGAAGATG TCCCAAATGG AAGGCTGGCG CCTGGAGTCA GTGCTCTGTG 
TCCTGTGGCC AAGGCACACG GCGGAGAAGT GTGGGCTGTC AGATGGGAGC ACACAAAATA 
GCCAGAGAGT CCGAGTGCAA CCCGTACACC AGACCGGAGT CGGAGGGCGT CTGCCAAGCC 
CCGCCGTGTC CTCTCTATGC TTGGAGGGCA GAGGAATGGC AAGAATGCAC CAAGACATGC 
GGTGAAGGCT CCAGGTACCG CAAGGTGGTG TGCGTGGATG TGGACAAAGG CAGCGAGGTT 
CATGGCGTAC AGTGTGACCT GAGCCAGCGG CCTGTGGACC ACGAGAGCTG TAGTTTGCAG 
CCCTGCGAGT ATGTCTGGAT CACAGGAGAA TGGTCAGAGT GCTCAGTGAC CTGTGGAAAG 
GGCTACAAAC AAAGGCTCGT CTCCTGTAGT GAGATATACA CCGGGAAGGA GAATTATGAG 
TACAGCTACC AAACCACCAT CAACTGCCCC GGCACTCAGC CCCCCAGCGT CCACCCCTGC 
TACCTGAGGG AGTGCCCTGT CTCGGCCACC TGGAGAGTCG GCAACTGGGG GAGCTGCTCA 
GTGTCTTGTG GCGTGGGAGT GACACACAGA TCTGTACAAT GTTTAACCAA CGAGGACCAG 
CCCAGCCACT TGTGCCCTGC TGATTTGAAG CCAGAAGAGA GGAAAACATG TCACAATATC 
TATCACTGTG AGTTACCCCA AAACTGCAAG GAGGTAAAGA GACTGAAAGG TACCAGTGAA 
GATGGTGAAC ATTACCTGCT CATCAAAGGA AAGCTCCTGA AGATCTTCTG TGCAGGGATG 
CAGTCAGACT ACCCCAAAGA GTACATTACG CTGGTCCATG GCGACTCAGA GAATTTCTCT 
GAGGTGTACG GGCACAGGTT GCACAACCCA ACCGAGTGTC CCTACAACGG GAGCCGGCGG 
GATGACTGCC AGTGTCGGAA GGACTACACG GCAGCTGGGT TTTCCAGCTT CCAGAAAATC 
AGGATAGACT TGACAACTAT GCAGATAATC ACCACTGACT TACAGTTTGC CAGGACGAGC 
GATGGGCACC CTGTCCCTTT TGCCACAGCT GGGGACTGCT ACAGTGCTGC CAAGTGCCCA 
CAGGGTCGTT TTAGCATCAA CCTTTACGGA ACCGGCCTGT CTTTAACTGA ATCAGCCAGA 
TGGATATCAC AAGGGAATTA TGCTGTCTCC GACATTAAGA AGTCCCGGGA CGGTACCCGA 
GTCATAGGAA AATGCGGTGG TTACTGTGGA AAATGTACCC CGTCCTCTGG CACTGGCCTG 
GAGGTCCGAA TTTTATAG

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

RefSeq	XP_019659161.1
CDS	15..5852
Translation	MQFVSWATLLTFLVRDLAEMGSPDAAAAVRKDRLHPRQVRLLETLSEYEIASPIRVNALGEPFSTNVHFKRRRRSINAASDPWPAFASSSTSPQEHYRLSAFGQQFLFNLTAHAGFIAPTFTVTLLGTPGENETKFYSEEEAELKHCFYKGHVNTKSEHTAVISLCSGMLGTFRSHDGDYFIEPLLSIDEQEDEEDQNKPHIVYRHSTLHREPSAGRRACDTSGISSLLRQSPQLCEMEHRNSHSKDKRKMRTRRWGERRTLADDVAVLKSSLATKALSAYGNKTDSTREKRTHRRTKRFLSYPRFVEVMVVADYKMVLYHGTNLQHYILTLMSIVASIYKDPSIGNLINIVIVNLVVIHNEQEGPSISFNAQTTLRSFCQWQHSKNSAGGIQHDTAVLVTRQDICRAHDKCDTLGLAELGTICDPYRSCSISEDSGLSTAFTIAHELGHVFNMPHDDSNKCKEDGVKNPQHVMAPTLNFYTNPWMWSKCSRKYITEFLDTGYGECLLNEPASRPYPLPHQLPGLLYNVNKQCELIFGPGSQVCPYMMQCRRLWCNNVDGVCQTQHTPWADGTECEPGKHCKYGFCVPKEMEGPVTDGSWGSWSHFGTCSRTCGGGIKTAVRECNRPEPKNGGKYCVGRRMKFKSCNTEPCLKQKRDFREEQCAQFDGKHFNINGLLPTVRWVPKYSGILIKDRCKLFCRVAGNTAYYQLRDRVIDGTPCGQDTSDICVQGLCRQAGCDHVLNSKARRDKCGICGGDNSSCKTVAGTFNTVHYGYNTVVRIPAGATSIDVRQHSFSGKSEDDNYLALSSSKGEFLLNGDFVVSMSKREIRVGNAVIEYSGSDNVVERINSTDRIEQELLLQVLSVGKLYNPDVRYSFNIPIEDKPQQFYWNSHGPWQACSKPCQGERKRKPVCTRESDQLTVSDQRCDRLPQPAPITEPCGIDCDMRWHVASRSECSAQCGLGYRTLDIYCAKYSRLDGKTEKVDDSFCSGHPKPSNREKCSGECNTGGWRYSAWTECSKSCDGGSQRRRAICVNTRNDVLDDSKCTHQEKVTVQRCNEFPCPQWKTADWSECLVTCGKGHKHRQVWCQFGEDRLNDRICDPETKPASMQTCQQPECASWQAGPWGQCSVTCGQGYQLRAVKCIIGTYMSVVDDNDCNAATRPTDTQDCELPSCHPPPAAPEPRRSTHSTPRTQWRFGSWTPCSATCGKGTRMRYVSCRDEDGSVADESACVTLPRPVAKEECSVTPCGQWKALDWSPCSVTCGQGRATRQVVCVNYSDHVIDQSECDPDYIPETDQDCSTSPCPQQTPDSGLAQHPFQSEDYGPRSAGPSRTHVLGGNQWRTGPWGACSSTCAGGSQRRVVVCQDENGYTANDCVERIKPDEQRACESGPCPQWAYGNWGECTKLCGGGLRTRLVVCQRPSGEQFPDLSCEILDKPPDREQCNTHACPPDAAWNTGPWSSCSVSCGRGHKQRNVYCMAKDGSHLESDYCKHLAKPNGHRKCRGGRCPKWKAGAWSQCSVSCGQGTRRRSVGCQMGAHKIARESECNPYTRPESEGVCQAPPCPLYAWRAEEWQECTKTCGEGSRYRKVVCVDVDKGSEVHGVQCDLSQRPVDHESCSLQPCEYVWITGEWSECSVTCGKGYKQRLVSCSEIYTGKENYEYSYQTTINCPGTQPPSVHPCYLRECPVSATWRVGNWGSCSVSCGVGVTHRSVQCLTNEDQPSHLCPADLKPEERKTCHNIYHCELPQNCKEVKRLKGTSEDGEHYLLIKGKLLKIFCAGMQSDYPKEYITLVHGDSENFSEVYGHRLHNPTECPYNGSRRDDCQCRKDYTAAGFSSFQKIRIDLTTMQIITTDLQFARTSDGHPVPFATAGDCYSAAKCPQGRFSINLYGTGLSLTESARWISQGNYAVSDIKKSRDGTRVIGKCGGYCGKCTPSSGTGLEVRIL

Target ORF information:

RefSeq Version	XM_019803602.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), mRNA.

Target ORF information:

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

XM_019803602.1

ORF Insert Sequence:

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGTTCCTGG TGCGGGACCT GGCCGAGATG 
GGGAGCCCAG ACGCCGCCGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAGA 
TTATTGGAGA CCCTGAGCGA ATACGAAATC GCTTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCTTTTT CCACGAACGT GCACTTCAAA CGAAGGCGAC GGAGCATCAA CGCTGCCTCT 
GACCCCTGGC CTGCCTTCGC TTCCTCCTCT ACCTCTCCCC AGGAGCATTA CCGCCTCTCT 
GCCTTCGGCC AGCAATTTCT GTTTAATCTC ACCGCCCATG CCGGATTTAT CGCTCCAACG 
TTCACTGTCA CCCTCCTCGG GACGCCCGGG GAGAATGAGA CAAAGTTTTA TTCCGAGGAG 
GAAGCGGAAC TTAAGCATTG CTTCTACAAA GGCCATGTCA ATACCAAGTC CGAGCACACG 
GCGGTCATCA GCCTCTGCTC AGGAATGCTG GGCACATTCC GGTCCCATGA TGGGGATTAT 
TTTATCGAAC CACTACTGTC CATTGACGAG CAAGAAGACG AAGAGGACCA GAACAAACCG 
CACATCGTCT ACCGGCACAG CACCCTGCAC AGAGAGCCCT CAGCAGGAAG GCGTGCGTGT 
GACACCTCCG GTATTTCCTC CCTGCTCCGG CAGAGCCCGC AGCTCTGTGA GATGGAACAC 
AGAAATAGTC ACAGCAAAGA CAAGAGGAAA ATGAGAACAA GAAGATGGGG AGAGAGGCGT 
ACCCTGGCTG ATGATGTGGC GGTGTTAAAA AGCAGCTTAG CAACAAAGGC GCTTTCTGCC 
TATGGTAACA AGACGGACAG CACCAGGGAA AAGAGGACCC ACAGAAGAAC AAAACGTTTT 
TTATCCTATC CACGGTTTGT AGAAGTGATG GTGGTGGCGG ACTACAAAAT GGTTTTATAC 
CATGGAACAA ACCTTCAACA CTATATTTTA ACTCTAATGT CAATTGTAGC CTCTATCTAT 
AAAGACCCAA GTATTGGAAA TTTAATTAAT ATTGTTATTG TGAACTTAGT TGTGATTCAT 
AATGAACAGG AAGGACCTTC CATTTCTTTT AATGCCCAGA CAACTTTAAG AAGTTTTTGC 
CAGTGGCAAC ACTCAAAGAA CTCTGCAGGT GGAATCCAGC ATGATACCGC TGTTCTTGTA 
ACGAGACAGG ATATCTGCAG AGCTCATGAC AAATGTGACA CCTTAGGTCT TGCTGAACTG 
GGAACCATCT GTGATCCCTA CAGAAGCTGT TCTATTAGTG AAGACAGCGG ATTGAGTACG 
GCTTTCACAA TAGCCCATGA GCTGGGCCAT GTGTTTAACA TGCCTCATGA TGACAGCAAC 
AAGTGCAAGG AGGACGGAGT CAAGAACCCC CAGCACGTCA TGGCTCCGAC GTTGAACTTC 
TACACTAACC CCTGGATGTG GTCAAAATGT AGTCGAAAAT ATATCACTGA GTTTTTAGAC 
ACTGGTTACG GCGAGTGTTT GCTTAATGAA CCTGCATCCA GACCCTACCC TTTGCCTCAC 
CAGCTGCCCG GCCTCCTTTA CAACGTGAAT AAACAATGTG AATTGATTTT TGGACCAGGT 
TCTCAGGTGT GCCCATATAT GATGCAGTGT AGACGACTCT GGTGCAATAA CGTGGATGGA 
GTATGCCAAA CTCAGCACAC GCCCTGGGCA GACGGGACCG AGTGTGAGCC TGGAAAGCAC 
TGCAAGTATG GATTTTGTGT CCCCAAAGAA ATGGAGGGCC CCGTGACCGA TGGATCCTGG 
GGAAGTTGGA GTCACTTTGG AACCTGCTCA AGAACGTGTG GAGGGGGCAT CAAAACTGCT 
GTTCGCGAGT GCAACAGACC AGAGCCAAAA AATGGTGGGA AGTACTGTGT AGGGCGTAGA 
ATGAAGTTCA AGTCGTGCAA CACAGAGCCA TGTCTCAAGC AGAAGCGAGA CTTCCGAGAA 
GAACAGTGTG CTCAATTTGA TGGCAAACAT TTTAACATCA ATGGTCTGCT TCCAACTGTG 
CGCTGGGTGC CTAAGTACAG TGGAATTCTG ATCAAGGACC GTTGCAAGCT GTTCTGCAGG 
GTGGCCGGTA ACACAGCCTA CTATCAGCTC CGAGACAGAG TGATCGATGG GACTCCGTGC 
GGCCAGGACA CCAGCGATAT CTGTGTCCAA GGCCTCTGCC GGCAAGCTGG ATGTGATCAC 
GTTTTAAACT CCAAAGCCCG GAGAGATAAA TGTGGCATTT GCGGTGGCGA TAATTCTTCG 
TGCAAAACAG TGGCAGGGAC ATTTAATACA GTACATTATG GTTACAACAC TGTGGTCCGA 
ATCCCAGCAG GTGCTACCAG TATCGACGTG AGGCAGCACA GTTTCTCAGG GAAATCAGAG 
GATGATAACT ACTTAGCTTT ATCAAGCAGT AAAGGTGAAT TCTTGCTAAA TGGAGACTTC 
GTTGTCTCCA TGTCCAAAAG GGAAATCCGC GTTGGCAATG CTGTGATAGA GTACAGCGGG 
TCCGACAATG TAGTGGAAAG AATTAACTCC ACAGACCGCA TTGAACAAGA ACTTTTGCTT 
CAGGTGCTGT CGGTGGGAAA GCTATACAAC CCTGATGTGC GCTATTCTTT CAATATTCCA 
ATCGAAGACA AACCCCAGCA GTTTTACTGG AACAGTCATG GGCCCTGGCA AGCATGCAGC 
AAACCCTGCC AAGGGGAGCG GAAGCGAAAA CCTGTTTGCA CCCGGGAATC TGATCAGCTT 
ACGGTTTCTG ATCAAAGATG TGACCGACTG CCCCAGCCAG CACCCATTAC CGAACCTTGC 
GGCATAGACT GCGACATGAG GTGGCACGTT GCCAGCAGGA GCGAATGTAG TGCCCAGTGT 
GGCTTGGGTT ACCGCACATT AGACATCTAC TGTGCCAAAT ATAGCAGGCT AGATGGGAAG 
ACCGAGAAGG TTGATGACAG TTTTTGCAGT GGTCACCCCA AACCAAGCAA CCGGGAAAAA 
TGCTCAGGAG AATGTAACAC AGGTGGCTGG CGCTATTCTG CATGGACGGA ATGTTCGAAA 
AGCTGTGATG GTGGAAGCCA GAGGAGAAGG GCTATTTGTG TCAACACCCG CAACGATGTC 
CTGGATGACA GCAAATGCAC ACATCAAGAG AAAGTCACCG TTCAGAGATG CAATGAGTTC 
CCTTGTCCAC AGTGGAAAAC AGCAGACTGG TCAGAGTGCC TGGTCACCTG CGGAAAAGGG 
CATAAACACC GCCAGGTCTG GTGTCAGTTC GGTGAAGATC GATTAAACGA TAGAATCTGT 
GACCCTGAGA CCAAGCCAGC CTCCATGCAG ACTTGTCAGC AGCCAGAATG TGCGTCCTGG 
CAGGCGGGTC CCTGGGGACA GTGCAGTGTC ACTTGTGGAC AAGGATACCA GCTAAGAGCA 
GTGAAATGCA TCATTGGGAC TTACATGTCC GTGGTAGATG ACAATGACTG CAATGCGGCA 
ACTAGACCAA CTGATACCCA GGACTGTGAA TTACCGTCCT GTCACCCTCC CCCTGCTGCC 
CCGGAACCAA GGAGAAGCAC ACACAGTACA CCAAGAACCC AGTGGCGATT TGGGTCTTGG 
ACACCATGCT CCGCCACTTG TGGGAAAGGT ACTCGGATGA GATACGTCAG CTGCCGGGAT 
GAGGACGGCT CTGTGGCTGA CGAGAGCGCC TGCGTAACCC TGCCCAGACC AGTGGCAAAG 
GAAGAATGTT CTGTGACCCC CTGTGGGCAG TGGAAGGCTT TGGACTGGAG CCCTTGCTCC 
GTGACGTGTG GGCAAGGCAG GGCCACCCGG CAAGTGGTAT GTGTCAACTA CAGTGACCAC 
GTGATTGATC AGAGTGAGTG TGACCCAGAT TACATCCCAG AAACCGACCA GGACTGTTCC 
ACATCACCGT GCCCTCAGCA GACCCCAGAC AGTGGTCTCG CTCAGCACCC CTTCCAAAGT 
GAGGATTACG GCCCCCGGAG TGCCGGCCCC AGCCGCACCC ATGTGCTTGG TGGAAACCAG 
TGGAGGACTG GCCCCTGGGG AGCATGTTCC AGTACCTGTG CCGGTGGGTC CCAGCGGCGT 
GTGGTTGTGT GTCAGGATGA AAACGGATAC ACCGCAAATG ACTGCGTGGA GAGAATAAAA 
CCCGATGAGC AAAGAGCCTG TGAATCTGGC CCGTGTCCTC AGTGGGCTTA TGGCAACTGG 
GGAGAGTGCA CTAAGCTATG TGGTGGAGGC TTGCGGACAA GACTGGTGGT CTGTCAGCGG 
CCCAGTGGTG AACAGTTTCC AGACTTGAGC TGTGAAATCC TCGATAAGCC TCCAGATCGT 
GAGCAGTGTA ACACACATGC TTGTCCTCCA GACGCTGCGT GGAATACTGG CCCTTGGAGT 
TCGTGTTCTG TCTCTTGTGG TCGAGGGCAT AAGCAACGAA ATGTTTACTG CATGGCAAAG 
GATGGAAGCC ATTTAGAAAG TGATTACTGT AAACACCTTG CTAAGCCAAA TGGGCACAGG 
AAGTGCAGAG GAGGAAGATG TCCCAAATGG AAGGCTGGCG CCTGGAGTCA GTGCTCTGTG 
TCCTGTGGCC AAGGCACACG GCGGAGAAGT GTGGGCTGTC AGATGGGAGC ACACAAAATA 
GCCAGAGAGT CCGAGTGCAA CCCGTACACC AGACCGGAGT CGGAGGGCGT CTGCCAAGCC 
CCGCCGTGTC CTCTCTATGC TTGGAGGGCA GAGGAATGGC AAGAATGCAC CAAGACATGC 
GGTGAAGGCT CCAGGTACCG CAAGGTGGTG TGCGTGGATG TGGACAAAGG CAGCGAGGTT 
CATGGCGTAC AGTGTGACCT GAGCCAGCGG CCTGTGGACC ACGAGAGCTG TAGTTTGCAG 
CCCTGCGAGT ATGTCTGGAT CACAGGAGAA TGGTCAGAGT GCTCAGTGAC CTGTGGAAAG 
GGCTACAAAC AAAGGCTCGT CTCCTGTAGT GAGATATACA CCGGGAAGGA GAATTATGAG 
TACAGCTACC AAACCACCAT CAACTGCCCC GGCACTCAGC CCCCCAGCGT CCACCCCTGC 
TACCTGAGGG AGTGCCCTGT CTCGGCCACC TGGAGAGTCG GCAACTGGGG GAGCTGCTCA 
GTGTCTTGTG GCGTGGGAGT GACACACAGA TCTGTACAAT GTTTAACCAA CGAGGACCAG 
CCCAGCCACT TGTGCCCTGC TGATTTGAAG CCAGAAGAGA GGAAAACATG TCACAATATC 
TATCACTGTG AGTTACCCCA AAACTGCAAG GAGGTAAAGA GACTGAAAGG TACCAGTGAA 
GATGGTGAAC ATTACCTGCT CATCAAAGGA AAGCTCCTGA AGATCTTCTG TGCAGGGATG 
CAGTCAGACT ACCCCAAAGA GTACATTACG CTGGTCCATG GCGACTCAGA GAATTTCTCT 
GAGGTGTACG GGCACAGGTT GCACAACCCA ACCGAGTGTC CCTACAACGG GAGCCGGCGG 
GATGACTGCC AGTGTCGGAA GGACTACACG GCAGCTGGGT TTTCCAGCTT CCAGAAAATC 
AGGATAGACT TGACAACTAT GCAGATAATC ACCACTGACT TACAGTTTGC CAGGACGAGC 
GATGGGCACC CTGTCCCTTT TGCCACAGCT GGGGACTGCT ACAGTGCTGC CAAGTGCCCA 
CAGGGTCGTT TTAGCATCAA CCTTTACGGA ACCGGCCTGT CTTTAACTGA ATCAGCCAGA 
TGGATATCAC AAGGGAATTA TGCTGTCTCC GACATTAAGA AGTCCCGGGA CGGTACCCGA 
GTCATAGGAA AATGCGGTGG TTACTGTGGA AAATGTACCC CGTCCTCTGG CACTGGCCTG 
GAGGTCCGAA TTTTATAG

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

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ADAMTS9 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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