ADAMTS13 cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAMTS13
Entrez Gene ID	100018539
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 13
Gene Type	protein-coding
Organism	Monodelphis domestica(gray short-tailed opossum)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007475232.2	XP_007475294.1	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X2
XM_001371685.4	XP_001371722.3	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X1

Pathways from BioSystems
Gene Ontology

The following ADAMTS13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS13 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
OMc05335	XM_007475232.2 Latest version!	Monodelphis domestica ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OMc05334	XM_001371685.4 Latest version!	Monodelphis domestica ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
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)

ADAMTS13 ( XM_007475232.2 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_007475294.1 Monodelphis domestica ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMc05335
Clone ID Related Accession (Same CDS sequence)	XM_007475232.2
Accession Version	XM_007475232.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4440bp) 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	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008801.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007475232.1. ##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##

ATGGTCAGCA CATGGATGAT CTTTGCTTCT GCTTTCTTCC TACTGGGATC TTTCCAGCTT 
CCAGATTTCC AGGAGAGATT TCTGATGGCT TTGGATCCAG AGAATATTTT CTATTATTTT 
GGTGCTGTTT CCACCCTAGA AGCCCTCGAG TTTGATGTGC TTCAGCTCAG CTGCCTTTGT 
GAAGACCATG AGACCTCCAG GCTGCATTGT AAGACCCAGC GCTGCTCCTT CCAGGCCCTG 
GGAGAACTCT ATGTTTTCCA GTTTCCTGTA GAGCTCAGCC TCCTGATCCC ATCCTTTACT 
AGCAGATGGG TGATTAACTC CTCTCTCTGG CTGCTGAGAC AATATCCAGA CAGCTGCTTT 
ACAGGAGGCA AGATCTTACT GCCCTCTAGG GCAGCGGCTA AGATCACTTA CTGTGCTGGG 
CAGTTGCATG GGGAGATCAG AGTGAAGGGC AAACAACTTT ACATTCAACC TCTGAAGAGT 
GAGCACTGGA ACCTGTTGCC AGACTGCTGT CGTGCCCAGC CCCACCTTAT TCATAAGGCT 
ATGAGGGCAG CAGGGGCTCC ACAAGTTCAC CGACTTTCTG CTCGGATCTC CAAAAGGGCC 
CTAGGAAGTG TCAAACACCT GGAGCTACTG GTTGTGGTGG GCCATGATGT CTATGAGCAT 
CACAAGGAAG ACACAGAGCG ATATACCCTT ACCAACCTCA ATATCGGAGC AGAGCTGCTG 
AGAGATGTTT CCCTGGGAGC CCAGTTCCGA GTTCACCTGA TAAAAATGAT CATCCTGACT 
GAGCCAGAGG CTCATCTGAA TATTACTACC AATCTCACCT CCTCACTGCT CAGCGTTTGT 
GAGTGGAGTC AGAGAATCAA TCCCCCAGAT GACACCCACC CACACCATGC TGACTTGGTC 
CTCTACATCA CAAGGTTTGA TCTGGAGCTG TCTGATGGCA ACAAGCAGGT ACGGGGAGTC 
ACCCAGCTTG GGGGTGCTTG TTCCTCCTCC TGGAGCTGCC TCATCACAGA AGATACAGGA 
TTCGACCTAG GGGTCACCAT TGCTCATGAG ATTGGGCACA GCTTTGGTAT TGATCATGAT 
GGGGCTGAGA CAAACAGCTG TAGCAGCAAT GACCACATCA TGGCCCCTGG TGGCACCCCA 
AACAGTATTG GCCTCACATG GTCCAAGTGC AGCCGAGAGC AGTTTCTGCG CTTTGTTAGC 
ACAGGGAAGG CAAGCTGTGT GAATGATCTG CCTCACCTGG AAGGAACAAT ACCCCGGGCT 
GAGCCTGGCC TCTACTATGG GGCAGATGAG CAGTGCAGAG TTGCCTTTGG GAGTGCTGCT 
GTGGCCTGCA CCTTCTCCAG GGATGATGTT GATATGTGCC AAGTTCTCTC CTGCCATACA 
GACCCTCAGG ACCAAACAAG CTGTAGTCGT ATCCTTATCC CACTTCTAGA TGGAACTGAA 
TGTGGAGTCA ATAAGTGGTG CTCTAAGGGC CACTGCCGTT CTCTGGAAGA GTTGACCCCA 
GTCTCCTTGG TGCATGGACA GTGGTCTAGT TGGGGCCTTC CTAGCACTTG CTCTCGAACC 
TGTGGAGGAG GAGTCATCAC TAGAAGACGG CAGTGCAACA ACCCCAGACC TGCTTTTGGT 
GGTCATGACT GTACAGGAGC TGATCTCAAG GCTGAACTGT GCAACACTCA GGCCTGTGTG 
AAGACCCAGC TAGAGTTCAT GTCTGAGCAA TGCGCTGCGA CTGATCAGAA ACCACTGTAC 
CTCACTCCAG GGATTCCCAC TTTCTATAGC TGGAAGTCAG CTGCCCAGTA TAGCCAAGGA 
AATGATCTGT GCAAGCACTT GTGCTGGGCA GCTGGAAAGA ATTTCATAGT GAGTCGTGGG 
GAAAGTTTCT TGGACGGTAC TCGCTGTGTG CCCTCAGATC ACCAGGCTGT GGGGACCAGC 
AGCCTCTGTG TGATGGGCAA ATGCAGGGTT TTTGGATGTG ATGGCAGGAT GGACTCTGGA 
CTCGTGAAGG ATGTGTGTCA GGTCTGTGGG GGAGACAACA CTACGTGCAG CAGAGTGAGC 
GGCTCTTACA CTGGAGGGAG GGCTCAAGAG TATGTCACAT TCCTGACGAT TCTTCCCAAT 
TTTACCACTG TGCTTATCAC CAATCAGAAA CCTCTCTTCA CACACCTGGC TGTGAAGGTG 
AGAGGACACT ATGTAGTGTC TGGGAAGAGG CGCATCTCAT CCAACACCAC CCACCCCTCA 
GTCCTGGAAG ACAAACAGAT TGAGTACAGA GTGTTCCTCA CCGAGGAAAA GATGCCCCAT 
CTAGAGGAGA TCCGCATCAG AGGACCCACC CAAGAGGACA TTGAAATACA GGTTTATAGG 
AAGTATGGGA ATGAATACGG AAACCTCACC AGACCTGAGA TCACTTTCAG CTACTTTAAG 
CCTAAGCAGC AGCAGAGCTG GGTGTGGGCA GGGGTACGAG GGCCCTGCTC AGTTAGCTGT 
GGGGAAGGGG TCCGTCAAGT GAGTTATAGC TGCTTTGACC AAGAACAGAA CAAATGGATT 
GATGATGTCT ACTGTGGAGG GACTGTGCAG CCCCTGTTGT GGCAGGAGCT CTGTGTCCCT 
GGGCCGTGCA CACCACACTG GGCAGCAGGA GATTTTGGTC CCTGTAGCAC AACTTGTGGA 
GGAGGAGTGA GAGAACGGAC AGTGAGCTGT GTGAAGGTAG AGGGCAACCT CACCCTGACA 
CTCCCAGAAT CCTACTGCAA AGCTTCTCTC CAGCCCACTG CAACAGAGAC CTGCAATCCC 
CAGCCCTGCC TTACCAGGTG GAAGGTGTCT GAACCTGGTC CCTGCTCTTC AGTCTGTGGT 
CTGGGTCTAG CCCAGAGGAA TGTGACATGC ATGGAGGAAG GAGATGGTCT GGAAGGCCTG 
GTGGATGACA GTTTATGCTC TATGGAAGAA AAACCTTCTC ACCTCTTACC GTGTGTCGTG 
ACTGTCTGCC CCCTGGGGTG GAATACTCAA GAACCTGGGT CTTTCCCAGA AGAAGCTCTG 
GACCAATTGG GAGCTTCCTG GAAGGAGAAT CTAACAGTGT ATGTGTGGAG CCCTCTGATT 
GGGGAATGCT CAGTCTCCTG TGGTACAGGC TTAAGGGAGC TACGATATGT TTGTTTGGAC 
TTTGCTAGCA GGAAAGAAGT CCAGGAAGCA AAGTGTAACC CAGTGAGCCA GCCAGCAAAT 
CAGATGATGA TCTGCCATGC TGCTTCCTGT CCACCCAGGT GGGAGATCAA AGCTTTGGCC 
CCTTGTCCAG TGACCTGTGG AGGAGGGAAA GTGCCACTCT CTGTCCATTG TGTGAGGCAG 
GACAAAGGCC TAACCATCAG TCTCCCTCAT TCCAAGTGTG GGGGGATGCC CAGGCCCAGC 
AGCTACCAGG ACTGCAGTCC AGAGCCCTGT CCTGCCAGGT GGCGGCACAA GCTGGCATCC 
TGTAGTGTAA GCTGTGGAGG AGGGGTGGTT CAAAGGATCC TCTACTGTGC CAGGGCTTTT 
GGGGAGAATG AAGAAGAGAT TGTGCCTGAC ATCCAGTGCC AGGAGCTACC TCGCCCAGAG 
GAACAGGAGC CCTGCAGCCT TGACCCCTGT CCACCCAGGT GGAAAATAGC GTCAACCAGC 
TCATGCTCAG CTAGCTGTGG TCTGGGCACA GCCATGCGCT CAATGATCTG TGTGCAGCTA 
GATCATGGAG AGGAGGCAGA GGTGGAAGAG GAAGCCTGTG CCACCTTGGA GAGGCCCCCA 
GCTAGCATCC CTTGCATTAT AGCAGACTGT ACCTACCAAT GGCATTTTAG TGACTGGACA 
GAGTGTTCCA CCTCATGTGG GAATGGAATC CAGCGCCGCC ATGATTTCTG TGTCCAGCCC 
CACCAGTCCC ATACACCAGT ACCTGCCATC TTCTGTCAGC ACATTCCCAA GTCTGTGACT 
GTGAGGGGCT GCTCAGCTGG ACCCTGTGGG AGGCAGGTGA CCCCCAAAAT GAAGACTCAG 
GAGGAAGCCA CAACAACCCT AAGCCCAACA ACAGCTGCTC CTACTCTTAT ACTTGAGAGT 
CCCCAGAACA GAGCCCTGGC TATTCCCAAC AACCAATTTT CTTCATCTAT TCAAGCCAAG 
GAACACTTGA GGCAGGAGGA GAACACTGGT TCTTGTGGAA AGCAATATCT TGAACCTTCA 
GGGACCATCA ACATGACTGG CATGCCATTG GCCAAGTGTG TAGTAGCTAT TGGTCGACCT 
CTGGGGGAAG TGGTGGCCTT CCGAGTCCTG GAGAGCTCCC TCAACTGCAG TGTTGGGGAG 
ATGCTGCTGT TTTGGGGACG GCTCACCTGG AGGAAAACCT GCAAGAATTT AGCAGGTGTG 
ACGTTCATCT CCAAAACCAA CACTCTGGTG ATGAGACAGC GCGCGGTGCT CCCAGGGAGC 
AGGGTGGTGC TACAATACTG GAGTCAAGTA GCTACAGAAA ATTATCACAA AGATCCGTGA

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

RefSeq	XP_007475294.1
CDS	650..5089
Translation	MVSTWMIFASAFFLLGSFQLPDFQERFLMALDPENIFYYFGAVSTLEALEFDVLQLSCLCEDHETSRLHCKTQRCSFQALGELYVFQFPVELSLLIPSFTSRWVINSSLWLLRQYPDSCFTGGKILLPSRAAAKITYCAGQLHGEIRVKGKQLYIQPLKSEHWNLLPDCCRAQPHLIHKAMRAAGAPQVHRLSARISKRALGSVKHLELLVVVGHDVYEHHKEDTERYTLTNLNIGAELLRDVSLGAQFRVHLIKMIILTEPEAHLNITTNLTSSLLSVCEWSQRINPPDDTHPHHADLVLYITRFDLELSDGNKQVRGVTQLGGACSSSWSCLITEDTGFDLGVTIAHEIGHSFGIDHDGAETNSCSSNDHIMAPGGTPNSIGLTWSKCSREQFLRFVSTGKASCVNDLPHLEGTIPRAEPGLYYGADEQCRVAFGSAAVACTFSRDDVDMCQVLSCHTDPQDQTSCSRILIPLLDGTECGVNKWCSKGHCRSLEELTPVSLVHGQWSSWGLPSTCSRTCGGGVITRRRQCNNPRPAFGGHDCTGADLKAELCNTQACVKTQLEFMSEQCAATDQKPLYLTPGIPTFYSWKSAAQYSQGNDLCKHLCWAAGKNFIVSRGESFLDGTRCVPSDHQAVGTSSLCVMGKCRVFGCDGRMDSGLVKDVCQVCGGDNTTCSRVSGSYTGGRAQEYVTFLTILPNFTTVLITNQKPLFTHLAVKVRGHYVVSGKRRISSNTTHPSVLEDKQIEYRVFLTEEKMPHLEEIRIRGPTQEDIEIQVYRKYGNEYGNLTRPEITFSYFKPKQQQSWVWAGVRGPCSVSCGEGVRQVSYSCFDQEQNKWIDDVYCGGTVQPLLWQELCVPGPCTPHWAAGDFGPCSTTCGGGVRERTVSCVKVEGNLTLTLPESYCKASLQPTATETCNPQPCLTRWKVSEPGPCSSVCGLGLAQRNVTCMEEGDGLEGLVDDSLCSMEEKPSHLLPCVVTVCPLGWNTQEPGSFPEEALDQLGASWKENLTVYVWSPLIGECSVSCGTGLRELRYVCLDFASRKEVQEAKCNPVSQPANQMMICHAASCPPRWEIKALAPCPVTCGGGKVPLSVHCVRQDKGLTISLPHSKCGGMPRPSSYQDCSPEPCPARWRHKLASCSVSCGGGVVQRILYCARAFGENEEEIVPDIQCQELPRPEEQEPCSLDPCPPRWKIASTSSCSASCGLGTAMRSMICVQLDHGEEAEVEEEACATLERPPASIPCIIADCTYQWHFSDWTECSTSCGNGIQRRHDFCVQPHQSHTPVPAIFCQHIPKSVTVRGCSAGPCGRQVTPKMKTQEEATTTLSPTTAAPTLILESPQNRALAIPNNQFSSSIQAKEHLRQEENTGSCGKQYLEPSGTINMTGMPLAKCVVAIGRPLGEVVAFRVLESSLNCSVGEMLLFWGRLTWRKTCKNLAGVTFISKTNTLVMRQRAVLPGSRVVLQYWSQVATENYHKDP

Target ORF information:

RefSeq Version	XM_007475232.2
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X2, mRNA.

Target ORF information:

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

XM_007475232.2

ORF Insert Sequence:

ATGGTCAGCA CATGGATGAT CTTTGCTTCT GCTTTCTTCC TACTGGGATC TTTCCAGCTT 
CCAGATTTCC AGGAGAGATT TCTGATGGCT TTGGATCCAG AGAATATTTT CTATTATTTT 
GGTGCTGTTT CCACCCTAGA AGCCCTCGAG TTTGATGTGC TTCAGCTCAG CTGCCTTTGT 
GAAGACCATG AGACCTCCAG GCTGCATTGT AAGACCCAGC GCTGCTCCTT CCAGGCCCTG 
GGAGAACTCT ATGTTTTCCA GTTTCCTGTA GAGCTCAGCC TCCTGATCCC ATCCTTTACT 
AGCAGATGGG TGATTAACTC CTCTCTCTGG CTGCTGAGAC AATATCCAGA CAGCTGCTTT 
ACAGGAGGCA AGATCTTACT GCCCTCTAGG GCAGCGGCTA AGATCACTTA CTGTGCTGGG 
CAGTTGCATG GGGAGATCAG AGTGAAGGGC AAACAACTTT ACATTCAACC TCTGAAGAGT 
GAGCACTGGA ACCTGTTGCC AGACTGCTGT CGTGCCCAGC CCCACCTTAT TCATAAGGCT 
ATGAGGGCAG CAGGGGCTCC ACAAGTTCAC CGACTTTCTG CTCGGATCTC CAAAAGGGCC 
CTAGGAAGTG TCAAACACCT GGAGCTACTG GTTGTGGTGG GCCATGATGT CTATGAGCAT 
CACAAGGAAG ACACAGAGCG ATATACCCTT ACCAACCTCA ATATCGGAGC AGAGCTGCTG 
AGAGATGTTT CCCTGGGAGC CCAGTTCCGA GTTCACCTGA TAAAAATGAT CATCCTGACT 
GAGCCAGAGG CTCATCTGAA TATTACTACC AATCTCACCT CCTCACTGCT CAGCGTTTGT 
GAGTGGAGTC AGAGAATCAA TCCCCCAGAT GACACCCACC CACACCATGC TGACTTGGTC 
CTCTACATCA CAAGGTTTGA TCTGGAGCTG TCTGATGGCA ACAAGCAGGT ACGGGGAGTC 
ACCCAGCTTG GGGGTGCTTG TTCCTCCTCC TGGAGCTGCC TCATCACAGA AGATACAGGA 
TTCGACCTAG GGGTCACCAT TGCTCATGAG ATTGGGCACA GCTTTGGTAT TGATCATGAT 
GGGGCTGAGA CAAACAGCTG TAGCAGCAAT GACCACATCA TGGCCCCTGG TGGCACCCCA 
AACAGTATTG GCCTCACATG GTCCAAGTGC AGCCGAGAGC AGTTTCTGCG CTTTGTTAGC 
ACAGGGAAGG CAAGCTGTGT GAATGATCTG CCTCACCTGG AAGGAACAAT ACCCCGGGCT 
GAGCCTGGCC TCTACTATGG GGCAGATGAG CAGTGCAGAG TTGCCTTTGG GAGTGCTGCT 
GTGGCCTGCA CCTTCTCCAG GGATGATGTT GATATGTGCC AAGTTCTCTC CTGCCATACA 
GACCCTCAGG ACCAAACAAG CTGTAGTCGT ATCCTTATCC CACTTCTAGA TGGAACTGAA 
TGTGGAGTCA ATAAGTGGTG CTCTAAGGGC CACTGCCGTT CTCTGGAAGA GTTGACCCCA 
GTCTCCTTGG TGCATGGACA GTGGTCTAGT TGGGGCCTTC CTAGCACTTG CTCTCGAACC 
TGTGGAGGAG GAGTCATCAC TAGAAGACGG CAGTGCAACA ACCCCAGACC TGCTTTTGGT 
GGTCATGACT GTACAGGAGC TGATCTCAAG GCTGAACTGT GCAACACTCA GGCCTGTGTG 
AAGACCCAGC TAGAGTTCAT GTCTGAGCAA TGCGCTGCGA CTGATCAGAA ACCACTGTAC 
CTCACTCCAG GGATTCCCAC TTTCTATAGC TGGAAGTCAG CTGCCCAGTA TAGCCAAGGA 
AATGATCTGT GCAAGCACTT GTGCTGGGCA GCTGGAAAGA ATTTCATAGT GAGTCGTGGG 
GAAAGTTTCT TGGACGGTAC TCGCTGTGTG CCCTCAGATC ACCAGGCTGT GGGGACCAGC 
AGCCTCTGTG TGATGGGCAA ATGCAGGGTT TTTGGATGTG ATGGCAGGAT GGACTCTGGA 
CTCGTGAAGG ATGTGTGTCA GGTCTGTGGG GGAGACAACA CTACGTGCAG CAGAGTGAGC 
GGCTCTTACA CTGGAGGGAG GGCTCAAGAG TATGTCACAT TCCTGACGAT TCTTCCCAAT 
TTTACCACTG TGCTTATCAC CAATCAGAAA CCTCTCTTCA CACACCTGGC TGTGAAGGTG 
AGAGGACACT ATGTAGTGTC TGGGAAGAGG CGCATCTCAT CCAACACCAC CCACCCCTCA 
GTCCTGGAAG ACAAACAGAT TGAGTACAGA GTGTTCCTCA CCGAGGAAAA GATGCCCCAT 
CTAGAGGAGA TCCGCATCAG AGGACCCACC CAAGAGGACA TTGAAATACA GGTTTATAGG 
AAGTATGGGA ATGAATACGG AAACCTCACC AGACCTGAGA TCACTTTCAG CTACTTTAAG 
CCTAAGCAGC AGCAGAGCTG GGTGTGGGCA GGGGTACGAG GGCCCTGCTC AGTTAGCTGT 
GGGGAAGGGG TCCGTCAAGT GAGTTATAGC TGCTTTGACC AAGAACAGAA CAAATGGATT 
GATGATGTCT ACTGTGGAGG GACTGTGCAG CCCCTGTTGT GGCAGGAGCT CTGTGTCCCT 
GGGCCGTGCA CACCACACTG GGCAGCAGGA GATTTTGGTC CCTGTAGCAC AACTTGTGGA 
GGAGGAGTGA GAGAACGGAC AGTGAGCTGT GTGAAGGTAG AGGGCAACCT CACCCTGACA 
CTCCCAGAAT CCTACTGCAA AGCTTCTCTC CAGCCCACTG CAACAGAGAC CTGCAATCCC 
CAGCCCTGCC TTACCAGGTG GAAGGTGTCT GAACCTGGTC CCTGCTCTTC AGTCTGTGGT 
CTGGGTCTAG CCCAGAGGAA TGTGACATGC ATGGAGGAAG GAGATGGTCT GGAAGGCCTG 
GTGGATGACA GTTTATGCTC TATGGAAGAA AAACCTTCTC ACCTCTTACC GTGTGTCGTG 
ACTGTCTGCC CCCTGGGGTG GAATACTCAA GAACCTGGGT CTTTCCCAGA AGAAGCTCTG 
GACCAATTGG GAGCTTCCTG GAAGGAGAAT CTAACAGTGT ATGTGTGGAG CCCTCTGATT 
GGGGAATGCT CAGTCTCCTG TGGTACAGGC TTAAGGGAGC TACGATATGT TTGTTTGGAC 
TTTGCTAGCA GGAAAGAAGT CCAGGAAGCA AAGTGTAACC CAGTGAGCCA GCCAGCAAAT 
CAGATGATGA TCTGCCATGC TGCTTCCTGT CCACCCAGGT GGGAGATCAA AGCTTTGGCC 
CCTTGTCCAG TGACCTGTGG AGGAGGGAAA GTGCCACTCT CTGTCCATTG TGTGAGGCAG 
GACAAAGGCC TAACCATCAG TCTCCCTCAT TCCAAGTGTG GGGGGATGCC CAGGCCCAGC 
AGCTACCAGG ACTGCAGTCC AGAGCCCTGT CCTGCCAGGT GGCGGCACAA GCTGGCATCC 
TGTAGTGTAA GCTGTGGAGG AGGGGTGGTT CAAAGGATCC TCTACTGTGC CAGGGCTTTT 
GGGGAGAATG AAGAAGAGAT TGTGCCTGAC ATCCAGTGCC AGGAGCTACC TCGCCCAGAG 
GAACAGGAGC CCTGCAGCCT TGACCCCTGT CCACCCAGGT GGAAAATAGC GTCAACCAGC 
TCATGCTCAG CTAGCTGTGG TCTGGGCACA GCCATGCGCT CAATGATCTG TGTGCAGCTA 
GATCATGGAG AGGAGGCAGA GGTGGAAGAG GAAGCCTGTG CCACCTTGGA GAGGCCCCCA 
GCTAGCATCC CTTGCATTAT AGCAGACTGT ACCTACCAAT GGCATTTTAG TGACTGGACA 
GAGTGTTCCA CCTCATGTGG GAATGGAATC CAGCGCCGCC ATGATTTCTG TGTCCAGCCC 
CACCAGTCCC ATACACCAGT ACCTGCCATC TTCTGTCAGC ACATTCCCAA GTCTGTGACT 
GTGAGGGGCT GCTCAGCTGG ACCCTGTGGG AGGCAGGTGA CCCCCAAAAT GAAGACTCAG 
GAGGAAGCCA CAACAACCCT AAGCCCAACA ACAGCTGCTC CTACTCTTAT ACTTGAGAGT 
CCCCAGAACA GAGCCCTGGC TATTCCCAAC AACCAATTTT CTTCATCTAT TCAAGCCAAG 
GAACACTTGA GGCAGGAGGA GAACACTGGT TCTTGTGGAA AGCAATATCT TGAACCTTCA 
GGGACCATCA ACATGACTGG CATGCCATTG GCCAAGTGTG TAGTAGCTAT TGGTCGACCT 
CTGGGGGAAG TGGTGGCCTT CCGAGTCCTG GAGAGCTCCC TCAACTGCAG TGTTGGGGAG 
ATGCTGCTGT TTTGGGGACG GCTCACCTGG AGGAAAACCT GCAAGAATTT AGCAGGTGTG 
ACGTTCATCT CCAAAACCAA CACTCTGGTG ATGAGACAGC GCGCGGTGCT CCCAGGGAGC 
AGGGTGGTGC TACAATACTG GAGTCAAGTA GCTACAGAAA ATTATCACAA AGATCCGTGA

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

ADAMTS13 ( XM_001371685.4 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_001371722.3 Monodelphis domestica ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMc05334
Clone ID Related Accession (Same CDS sequence)	XM_001371685.4
Accession Version	XM_001371685.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4806bp) 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	A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008801.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_001371685.3. ##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##

ATGGTCAGCA CATGGATGAT CTTTGCTTCT GCTTTCTTCC TACTGGGATC TTTCCAGCTT 
CCAGATTTCC AGGAGAGATT TCTGATGGCT TTGGATCCAG AGAATATTTT CTATTATTTT 
GGTGCTGTTT CCACCCTAGA AGCCCTCGAG TTTGATGTGC TTCAGCTCAG CTGCCTTTGT 
GAAGACCATG AGACCTCCAG GCTGCATTGT AAGACCCAGC GCTGCTCCTT CCAGGCCCTG 
GGAGAACTCT ATGTTTTCCA GTTTCCTGTA GAGCTCAGCC TCCTGATCCC ATCCTTTACT 
AGCAGATGGG TGATTAACTC CTCTCTCTGG CTGCTGAGAC AATATCCAGA CAGCTGCTTT 
ACAGGAGGCA AGATCTTACT GCCCTCTAGG GCAGCGGCTA AGATCACTTA CTGTGCTGGG 
CAGTTGCATG GGGAGATCAG AGTGAAGGGC AAACAACTTT ACATTCAACC TCTGAAGAGT 
GAGCACTGGA ACCTGTTGCC AGACTGCTGT CGTGCCCAGC CCCACCTTAT TCATAAGGCT 
ATGAGGGCAG CAGGGGCTCC ACAAGTTCAC CGACTTTCTG CTCGGATCTC CAAAAGGGCC 
CTAGGAAGTG TCAAACACCT GGAGCTACTG GTTGTGGTGG GCCATGATGT CTATGAGCAT 
CACAAGGAAG ACACAGAGCG ATATACCCTT ACCAACCTCA ATATCGGAGC AGAGCTGCTG 
AGAGATGTTT CCCTGGGAGC CCAGTTCCGA GTTCACCTGA TAAAAATGAT CATCCTGACT 
GAGCCAGAGG CTCATCTGAA TATTACTACC AATCTCACCT CCTCACTGCT CAGCGTTTGT 
GAGTGGAGTC AGAGAATCAA TCCCCCAGAT GACACCCACC CACACCATGC TGACTTGGTC 
CTCTACATCA CAAGGTTTGA TCTGGAGCTG TCTGATGGCA ACAAGCAGGT ACGGGGAGTC 
ACCCAGCTTG GGGGTGCTTG TTCCTCCTCC TGGAGCTGCC TCATCACAGA AGATACAGGA 
TTCGACCTAG GGGTCACCAT TGCTCATGAG ATTGGGCACA GCTTTGGTAT TGATCATGAT 
GGGGCTGAGA CAAACAGCTG TAGCAGCAAT GACCACATCA TGGCCCCTGG TGGCACCCCA 
AACAGTATTG GCCTCACATG GTCCAAGTGC AGCCGAGAGC AGTTTCTGCG CTTTGTTAGC 
ACAGGGAAGG CAAGCTGTGT GAATGATCTG CCTCACCTGG AAGGAACAAT ACCCCGGGCT 
GAGCCTGGCC TCTACTATGG GGCAGATGAG CAGTGCAGAG TTGCCTTTGG GAGTGCTGCT 
GTGGCCTGCA CCTTCTCCAG GGATGATGTT GATATGTGCC AAGTTCTCTC CTGCCATACA 
GACCCTCAGG ACCAAACAAG CTGTAGTCGT ATCCTTATCC CACTTCTAGA TGGAACTGAA 
TGTGGAGTCA ATAAGTGGTG CTCTAAGGGC CACTGCCGTT CTCTGGAAGA GTTGACCCCA 
GTCTCCTTGG TGCATGGACA GTGGTCTAGT TGGGGCCTTC CTAGCACTTG CTCTCGAACC 
TGTGGAGGAG GAGTCATCAC TAGAAGACGG CAGTGCAACA ACCCCAGACC TGCTTTTGGT 
GGTCATGACT GTACAGGAGC TGATCTCAAG GCTGAACTGT GCAACACTCA GGCCTGTGTG 
AAGACCCAGC TAGAGTTCAT GTCTGAGCAA TGCGCTGCGA CTGATCAGAA ACCACTGTAC 
CTCACTCCAG GGATTCCCAC TTTCTATAGC TGGAAGTCAG CTGCCCAGTA TAGCCAAGGA 
AATGATCTGT GCAAGCACTT GTGCTGGGCA GCTGGAAAGA ATTTCATAGT GAGTCGTGGG 
GAAAGTTTCT TGGACGGTAC TCGCTGTGTG CCCTCAGATC ACCAGGCTGT GGGGACCAGC 
AGCCTCTGTG TGATGGGCAA ATGCAGGGTT TTTGGATGTG ATGGCAGGAT GGACTCTGGA 
CTCGTGAAGG ATGTGTGTCA GGTCTGTGGG GGAGACAACA CTACGTGCAG CAGAGTGAGC 
GGCTCTTACA CTGGAGGGAG GGCTCAAGAG TATGTCACAT TCCTGACGAT TCTTCCCAAT 
TTTACCACTG TGCTTATCAC CAATCAGAAA CCTCTCTTCA CACACCTGGC TGTGAAGGTG 
AGAGGACACT ATGTAGTGTC TGGGAAGAGG CGCATCTCAT CCAACACCAC CCACCCCTCA 
GTCCTGGAAG ACAAACAGAT TGAGTACAGA GTGTTCCTCA CCGAGGAAAA GATGCCCCAT 
CTAGAGGAGA TCCGCATCAG AGGACCCACC CAAGAGGACA TTGAAATACA GGTTTATAGG 
AAGTATGGGA ATGAATACGG AAACCTCACC AGACCTGAGA TCACTTTCAG CTACTTTAAG 
CCTAAGCAGC AGCAGAGCTG GGTGTGGGCA GGGGTACGAG GGCCCTGCTC AGTTAGCTGT 
GGGGAAGGGG TCCGTCAAGT GAGTTATAGC TGCTTTGACC AAGAACAGAA CAAATGGATT 
GATGATGTCT ACTGTGGAGG GACTGTGCAG CCCCTGTTGT GGCAGGAGCT CTGTGTCCCT 
GGGCCGTGCA CACCACACTG GGCAGCAGGA GATTTTGGTC CCTGTAGCAC AACTTGTGGA 
GGAGGAGTGA GAGAACGGAC AGTGAGCTGT GTGAAGGTAG AGGGCAACCT CACCCTGACA 
CTCCCAGAAT CCTACTGCAA AGCTTCTCTC CAGCCCACTG CAACAGAGAC CTGCAATCCC 
CAGCCCTGCC TTACCAGGTG GAAGGTGTCT GAACCTGGTC CCTGCTCTTC AGTCTGTGGT 
CTGGGTCTAG CCCAGAGGAA TGTGACATGC ATGGAGGAAG GAGATGGTCT GGAAGGCCTG 
GTGGATGACA GTTTATGCTC TATGGAAGAA AAACCTTCTC ACCTCTTACC GTGTGTCGTG 
ACTGTCTGCC CCCTGGGGTG GAATACTCAA GAACCTGGGT CTTTCCCAGA AGAAGCTCTG 
GACCAATTGG GAGCTTCCTG GAAGGAGAAT CTAACAGTGT ATGTGTGGAG CCCTCTGATT 
GGGGAATGCT CAGTCTCCTG TGGTACAGGC TTAAGGGAGC TACGATATGT TTGTTTGGAC 
TTTGCTAGCA GGAAAGAAGT CCAGGAAGCA AAGTGTAACC CAGTGAGCCA GCCAGCAAAT 
CAGATGATGA TCTGCCATGC TGCTTCCTGT CCACCCAGGT GGGAGATCAA AGCTTTGGCC 
CCTTGTCCAG TGACCTGTGG AGGAGGGAAA GTGCCACTCT CTGTCCATTG TGTGAGGCAG 
GACAAAGGCC TAACCATCAG TCTCCCTCAT TCCAAGTGTG GGGGGATGCC CAGGCCCAGC 
AGCTACCAGG ACTGCAGTCC AGAGCCCTGT CCTGCCAGGT GGCGGCACAA GCTGGCATCC 
TGTAGTGTAA GCTGTGGAGG AGGGGTGGTT CAAAGGATCC TCTACTGTGC CAGGGCTTTT 
GGGGAGAATG AAGAAGAGAT TGTGCCTGAC ATCCAGTGCC AGGAGCTACC TCGCCCAGAG 
GAACAGGAGC CCTGCAGCCT TGACCCCTGT CCACCCAGGT GGAAAATAGC GTCAACCAGC 
TCATGCTCAG CTAGCTGTGG TCTGGGCACA GCCATGCGCT CAATGATCTG TGTGCAGCTA 
GATCATGGAG AGGAGGCAGA GGTGGAAGAG GAAGCCTGTG CCACCTTGGA GAGGCCCCCA 
GCTAGCATCC CTTGCATTAT AGCAGACTGT ACCTACCAAT GGCATTTTAG TGACTGGACA 
GAGTGTTCCA CCTCATGTGG GAATGGAATC CAGCGCCGCC ATGATTTCTG TGTCCAGCCC 
CACCAGTCCC ATACACCAGT ACCTGCCATC TTCTGTCAGC ACATTCCCAA GTCTGTGACT 
GTGAGGGGCT GCTCAGCTGG ACCCTGTGGG AGGCAGGTGA CCCCCAAAAT GAAGACTCAG 
GAGGAAGCCA CAACAACCCT AAGCCCAACA ACAGCTGCTC CTACTCTTAT ACTTGAGAGT 
CCCCAGAACA GAGCCCTGGC TATTCCCAAC AACCAATTTT CTTCATCTAT TCAAGCCAAG 
GAACACTTGA GGCAGGAGGA GAACACTGGT TCTTGTGGAA AGCAATATCT TGAACCTTCA 
GGGACCATCA ACATGACTGG CATGCCATTG GCCAAGTGTG TAGTAGCTAT TGGTCGACCT 
CTGGGGGAAG TGGTGGCCTT CCGAGTCCTG GAGAGCTCCC TCAACTGCAG TGTTGGGGAG 
ATGCTGCTGT TTTGGGGACG GCTCACCTGG AGGAAAACCT GCAAGAATTT AGCAGGTGTG 
ACGTTCATCT CCAAAACCAA CACTCTGGTG ATGAGACAGC GCGCGGTGCT CCCAGGGAGC 
AGGGTGGTGC TACAATACTG GAGTCAAGTA GCTACAGAAA ATTATCACAA AGAATGTGAT 
GTACAACTCT TTGGTCCTCG AGGGGAAATA GTGAGTCCTC CACGGGACCA GAATATGAGG 
AACCAAGGAG GATGCCGAGT CTTCATTAAT GTGGCTCCAG GAGCCCGGAT AGCCATCCAT 
GCTCTGGCCA TTGATCTTGG GACAGAAGCT AATCAGACTT CTGACAGCTA CATCTCGATC 
CGTGACATGC ACAACATGAA GATGATAACA TTCCATGGAC AACAGTTATT TTACTGGGAG 
TCTGAGGGTA GCCGGGCTGA AATTGAGTTC AGTGAAAGCT TCCAAGAGGA CAACATTAAT 
TTTCGGGGTC AATACTGGAT CCTTAGAGTG AAGGGAAAAT CTTCATCTAG AGATGACCTA 
AAATGA

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

RefSeq	XP_001371722.3
CDS	647..5452
Translation	MVSTWMIFASAFFLLGSFQLPDFQERFLMALDPENIFYYFGAVSTLEALEFDVLQLSCLCEDHETSRLHCKTQRCSFQALGELYVFQFPVELSLLIPSFTSRWVINSSLWLLRQYPDSCFTGGKILLPSRAAAKITYCAGQLHGEIRVKGKQLYIQPLKSEHWNLLPDCCRAQPHLIHKAMRAAGAPQVHRLSARISKRALGSVKHLELLVVVGHDVYEHHKEDTERYTLTNLNIGAELLRDVSLGAQFRVHLIKMIILTEPEAHLNITTNLTSSLLSVCEWSQRINPPDDTHPHHADLVLYITRFDLELSDGNKQVRGVTQLGGACSSSWSCLITEDTGFDLGVTIAHEIGHSFGIDHDGAETNSCSSNDHIMAPGGTPNSIGLTWSKCSREQFLRFVSTGKASCVNDLPHLEGTIPRAEPGLYYGADEQCRVAFGSAAVACTFSRDDVDMCQVLSCHTDPQDQTSCSRILIPLLDGTECGVNKWCSKGHCRSLEELTPVSLVHGQWSSWGLPSTCSRTCGGGVITRRRQCNNPRPAFGGHDCTGADLKAELCNTQACVKTQLEFMSEQCAATDQKPLYLTPGIPTFYSWKSAAQYSQGNDLCKHLCWAAGKNFIVSRGESFLDGTRCVPSDHQAVGTSSLCVMGKCRVFGCDGRMDSGLVKDVCQVCGGDNTTCSRVSGSYTGGRAQEYVTFLTILPNFTTVLITNQKPLFTHLAVKVRGHYVVSGKRRISSNTTHPSVLEDKQIEYRVFLTEEKMPHLEEIRIRGPTQEDIEIQVYRKYGNEYGNLTRPEITFSYFKPKQQQSWVWAGVRGPCSVSCGEGVRQVSYSCFDQEQNKWIDDVYCGGTVQPLLWQELCVPGPCTPHWAAGDFGPCSTTCGGGVRERTVSCVKVEGNLTLTLPESYCKASLQPTATETCNPQPCLTRWKVSEPGPCSSVCGLGLAQRNVTCMEEGDGLEGLVDDSLCSMEEKPSHLLPCVVTVCPLGWNTQEPGSFPEEALDQLGASWKENLTVYVWSPLIGECSVSCGTGLRELRYVCLDFASRKEVQEAKCNPVSQPANQMMICHAASCPPRWEIKALAPCPVTCGGGKVPLSVHCVRQDKGLTISLPHSKCGGMPRPSSYQDCSPEPCPARWRHKLASCSVSCGGGVVQRILYCARAFGENEEEIVPDIQCQELPRPEEQEPCSLDPCPPRWKIASTSSCSASCGLGTAMRSMICVQLDHGEEAEVEEEACATLERPPASIPCIIADCTYQWHFSDWTECSTSCGNGIQRRHDFCVQPHQSHTPVPAIFCQHIPKSVTVRGCSAGPCGRQVTPKMKTQEEATTTLSPTTAAPTLILESPQNRALAIPNNQFSSSIQAKEHLRQEENTGSCGKQYLEPSGTINMTGMPLAKCVVAIGRPLGEVVAFRVLESSLNCSVGEMLLFWGRLTWRKTCKNLAGVTFISKTNTLVMRQRAVLPGSRVVLQYWSQVATENYHKECDVQLFGPRGEIVSPPRDQNMRNQGGCRVFINVAPGARIAIHALAIDLGTEANQTSDSYISIRDMHNMKMITFHGQQLFYWESEGSRAEIEFSESFQEDNINFRGQYWILRVKGKSSSRDDLK

Target ORF information:

RefSeq Version	XM_001371685.4
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), transcript variant X1, mRNA.

Target ORF information:

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

XM_001371685.4

ORF Insert Sequence:

ATGGTCAGCA CATGGATGAT CTTTGCTTCT GCTTTCTTCC TACTGGGATC TTTCCAGCTT 
CCAGATTTCC AGGAGAGATT TCTGATGGCT TTGGATCCAG AGAATATTTT CTATTATTTT 
GGTGCTGTTT CCACCCTAGA AGCCCTCGAG TTTGATGTGC TTCAGCTCAG CTGCCTTTGT 
GAAGACCATG AGACCTCCAG GCTGCATTGT AAGACCCAGC GCTGCTCCTT CCAGGCCCTG 
GGAGAACTCT ATGTTTTCCA GTTTCCTGTA GAGCTCAGCC TCCTGATCCC ATCCTTTACT 
AGCAGATGGG TGATTAACTC CTCTCTCTGG CTGCTGAGAC AATATCCAGA CAGCTGCTTT 
ACAGGAGGCA AGATCTTACT GCCCTCTAGG GCAGCGGCTA AGATCACTTA CTGTGCTGGG 
CAGTTGCATG GGGAGATCAG AGTGAAGGGC AAACAACTTT ACATTCAACC TCTGAAGAGT 
GAGCACTGGA ACCTGTTGCC AGACTGCTGT CGTGCCCAGC CCCACCTTAT TCATAAGGCT 
ATGAGGGCAG CAGGGGCTCC ACAAGTTCAC CGACTTTCTG CTCGGATCTC CAAAAGGGCC 
CTAGGAAGTG TCAAACACCT GGAGCTACTG GTTGTGGTGG GCCATGATGT CTATGAGCAT 
CACAAGGAAG ACACAGAGCG ATATACCCTT ACCAACCTCA ATATCGGAGC AGAGCTGCTG 
AGAGATGTTT CCCTGGGAGC CCAGTTCCGA GTTCACCTGA TAAAAATGAT CATCCTGACT 
GAGCCAGAGG CTCATCTGAA TATTACTACC AATCTCACCT CCTCACTGCT CAGCGTTTGT 
GAGTGGAGTC AGAGAATCAA TCCCCCAGAT GACACCCACC CACACCATGC TGACTTGGTC 
CTCTACATCA CAAGGTTTGA TCTGGAGCTG TCTGATGGCA ACAAGCAGGT ACGGGGAGTC 
ACCCAGCTTG GGGGTGCTTG TTCCTCCTCC TGGAGCTGCC TCATCACAGA AGATACAGGA 
TTCGACCTAG GGGTCACCAT TGCTCATGAG ATTGGGCACA GCTTTGGTAT TGATCATGAT 
GGGGCTGAGA CAAACAGCTG TAGCAGCAAT GACCACATCA TGGCCCCTGG TGGCACCCCA 
AACAGTATTG GCCTCACATG GTCCAAGTGC AGCCGAGAGC AGTTTCTGCG CTTTGTTAGC 
ACAGGGAAGG CAAGCTGTGT GAATGATCTG CCTCACCTGG AAGGAACAAT ACCCCGGGCT 
GAGCCTGGCC TCTACTATGG GGCAGATGAG CAGTGCAGAG TTGCCTTTGG GAGTGCTGCT 
GTGGCCTGCA CCTTCTCCAG GGATGATGTT GATATGTGCC AAGTTCTCTC CTGCCATACA 
GACCCTCAGG ACCAAACAAG CTGTAGTCGT ATCCTTATCC CACTTCTAGA TGGAACTGAA 
TGTGGAGTCA ATAAGTGGTG CTCTAAGGGC CACTGCCGTT CTCTGGAAGA GTTGACCCCA 
GTCTCCTTGG TGCATGGACA GTGGTCTAGT TGGGGCCTTC CTAGCACTTG CTCTCGAACC 
TGTGGAGGAG GAGTCATCAC TAGAAGACGG CAGTGCAACA ACCCCAGACC TGCTTTTGGT 
GGTCATGACT GTACAGGAGC TGATCTCAAG GCTGAACTGT GCAACACTCA GGCCTGTGTG 
AAGACCCAGC TAGAGTTCAT GTCTGAGCAA TGCGCTGCGA CTGATCAGAA ACCACTGTAC 
CTCACTCCAG GGATTCCCAC TTTCTATAGC TGGAAGTCAG CTGCCCAGTA TAGCCAAGGA 
AATGATCTGT GCAAGCACTT GTGCTGGGCA GCTGGAAAGA ATTTCATAGT GAGTCGTGGG 
GAAAGTTTCT TGGACGGTAC TCGCTGTGTG CCCTCAGATC ACCAGGCTGT GGGGACCAGC 
AGCCTCTGTG TGATGGGCAA ATGCAGGGTT TTTGGATGTG ATGGCAGGAT GGACTCTGGA 
CTCGTGAAGG ATGTGTGTCA GGTCTGTGGG GGAGACAACA CTACGTGCAG CAGAGTGAGC 
GGCTCTTACA CTGGAGGGAG GGCTCAAGAG TATGTCACAT TCCTGACGAT TCTTCCCAAT 
TTTACCACTG TGCTTATCAC CAATCAGAAA CCTCTCTTCA CACACCTGGC TGTGAAGGTG 
AGAGGACACT ATGTAGTGTC TGGGAAGAGG CGCATCTCAT CCAACACCAC CCACCCCTCA 
GTCCTGGAAG ACAAACAGAT TGAGTACAGA GTGTTCCTCA CCGAGGAAAA GATGCCCCAT 
CTAGAGGAGA TCCGCATCAG AGGACCCACC CAAGAGGACA TTGAAATACA GGTTTATAGG 
AAGTATGGGA ATGAATACGG AAACCTCACC AGACCTGAGA TCACTTTCAG CTACTTTAAG 
CCTAAGCAGC AGCAGAGCTG GGTGTGGGCA GGGGTACGAG GGCCCTGCTC AGTTAGCTGT 
GGGGAAGGGG TCCGTCAAGT GAGTTATAGC TGCTTTGACC AAGAACAGAA CAAATGGATT 
GATGATGTCT ACTGTGGAGG GACTGTGCAG CCCCTGTTGT GGCAGGAGCT CTGTGTCCCT 
GGGCCGTGCA CACCACACTG GGCAGCAGGA GATTTTGGTC CCTGTAGCAC AACTTGTGGA 
GGAGGAGTGA GAGAACGGAC AGTGAGCTGT GTGAAGGTAG AGGGCAACCT CACCCTGACA 
CTCCCAGAAT CCTACTGCAA AGCTTCTCTC CAGCCCACTG CAACAGAGAC CTGCAATCCC 
CAGCCCTGCC TTACCAGGTG GAAGGTGTCT GAACCTGGTC CCTGCTCTTC AGTCTGTGGT 
CTGGGTCTAG CCCAGAGGAA TGTGACATGC ATGGAGGAAG GAGATGGTCT GGAAGGCCTG 
GTGGATGACA GTTTATGCTC TATGGAAGAA AAACCTTCTC ACCTCTTACC GTGTGTCGTG 
ACTGTCTGCC CCCTGGGGTG GAATACTCAA GAACCTGGGT CTTTCCCAGA AGAAGCTCTG 
GACCAATTGG GAGCTTCCTG GAAGGAGAAT CTAACAGTGT ATGTGTGGAG CCCTCTGATT 
GGGGAATGCT CAGTCTCCTG TGGTACAGGC TTAAGGGAGC TACGATATGT TTGTTTGGAC 
TTTGCTAGCA GGAAAGAAGT CCAGGAAGCA AAGTGTAACC CAGTGAGCCA GCCAGCAAAT 
CAGATGATGA TCTGCCATGC TGCTTCCTGT CCACCCAGGT GGGAGATCAA AGCTTTGGCC 
CCTTGTCCAG TGACCTGTGG AGGAGGGAAA GTGCCACTCT CTGTCCATTG TGTGAGGCAG 
GACAAAGGCC TAACCATCAG TCTCCCTCAT TCCAAGTGTG GGGGGATGCC CAGGCCCAGC 
AGCTACCAGG ACTGCAGTCC AGAGCCCTGT CCTGCCAGGT GGCGGCACAA GCTGGCATCC 
TGTAGTGTAA GCTGTGGAGG AGGGGTGGTT CAAAGGATCC TCTACTGTGC CAGGGCTTTT 
GGGGAGAATG AAGAAGAGAT TGTGCCTGAC ATCCAGTGCC AGGAGCTACC TCGCCCAGAG 
GAACAGGAGC CCTGCAGCCT TGACCCCTGT CCACCCAGGT GGAAAATAGC GTCAACCAGC 
TCATGCTCAG CTAGCTGTGG TCTGGGCACA GCCATGCGCT CAATGATCTG TGTGCAGCTA 
GATCATGGAG AGGAGGCAGA GGTGGAAGAG GAAGCCTGTG CCACCTTGGA GAGGCCCCCA 
GCTAGCATCC CTTGCATTAT AGCAGACTGT ACCTACCAAT GGCATTTTAG TGACTGGACA 
GAGTGTTCCA CCTCATGTGG GAATGGAATC CAGCGCCGCC ATGATTTCTG TGTCCAGCCC 
CACCAGTCCC ATACACCAGT ACCTGCCATC TTCTGTCAGC ACATTCCCAA GTCTGTGACT 
GTGAGGGGCT GCTCAGCTGG ACCCTGTGGG AGGCAGGTGA CCCCCAAAAT GAAGACTCAG 
GAGGAAGCCA CAACAACCCT AAGCCCAACA ACAGCTGCTC CTACTCTTAT ACTTGAGAGT 
CCCCAGAACA GAGCCCTGGC TATTCCCAAC AACCAATTTT CTTCATCTAT TCAAGCCAAG 
GAACACTTGA GGCAGGAGGA GAACACTGGT TCTTGTGGAA AGCAATATCT TGAACCTTCA 
GGGACCATCA ACATGACTGG CATGCCATTG GCCAAGTGTG TAGTAGCTAT TGGTCGACCT 
CTGGGGGAAG TGGTGGCCTT CCGAGTCCTG GAGAGCTCCC TCAACTGCAG TGTTGGGGAG 
ATGCTGCTGT TTTGGGGACG GCTCACCTGG AGGAAAACCT GCAAGAATTT AGCAGGTGTG 
ACGTTCATCT CCAAAACCAA CACTCTGGTG ATGAGACAGC GCGCGGTGCT CCCAGGGAGC 
AGGGTGGTGC TACAATACTG GAGTCAAGTA GCTACAGAAA ATTATCACAA AGAATGTGAT 
GTACAACTCT TTGGTCCTCG AGGGGAAATA GTGAGTCCTC CACGGGACCA GAATATGAGG 
AACCAAGGAG GATGCCGAGT CTTCATTAAT GTGGCTCCAG GAGCCCGGAT AGCCATCCAT 
GCTCTGGCCA TTGATCTTGG GACAGAAGCT AATCAGACTT CTGACAGCTA CATCTCGATC 
CGTGACATGC ACAACATGAA GATGATAACA TTCCATGGAC AACAGTTATT TTACTGGGAG 
TCTGAGGGTA GCCGGGCTGA AATTGAGTTC AGTGAAAGCT TCCAAGAGGA CAACATTAAT 
TTTCGGGGTC AATACTGGAT CCTTAGAGTG AAGGGAAAAT CTTCATCTAG AGATGACCTA 
AAATGA

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

PubMed

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ADAMTS13 cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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