LOC108698385 cDNA ORF clone, Xenopus laevis(African clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC108698385
Entrez Gene ID	108698385
Full Name	THO complex 2 L homeolog
General protein information	Preferred Names THO complex 2 L homeolog Names THO complex subunit 2-like
Gene Type	protein-coding
Organism	Xenopus laevis(African clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018229819.1	XP_018085308.1	THO complex subunit 2-like

Pathways from BioSystems
Gene Ontology

The following LOC108698385 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108698385 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
OAf41728	XM_018229819.1 Latest version!	Xenopus laevis THO complex subunit 2-like (LOC108698385), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

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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)

LOC108698385 ( XM_018229819.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018085308.1 Xenopus laevis THO complex subunit 2-like (LOC108698385), mRNA.

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CloneID	OAf41728
Clone ID Related Accession (Same CDS sequence)	XM_018229819.1
Accession Version	XM_018229819.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4767bp) 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	1474214400000
Organism	Xenopus laevis(African clawed frog)
Product	THO complex subunit 2-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030738.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus laevis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGGCCA CGTTACTACC CGCTGATTGG ATAAAGAACT GGGAAAAATC AGGAAAAAAC 
GACTTCTTGC AACTATGCCG CAGCCTCAGT GAAAAAGGCC AGGAATTCGT TACATTCACA 
GAAATTCAGC AGGTCCTGTA TGAATTTGCA TGTCAAGTTG TTAAAGGAAA TTTGAAGTAC 
GATCAAGTTG CTGGCGTTTT TGCTGAAATA ATAGCCCTCA GAGATGACAT GCCCTCAATC 
TTAGCAGATG TATTTTGTAT TTTGGATGTA GAAACAAGCT GTTTGGAAGA AAAATGGAGA 
AGAGACCATT TTACCCAACT AGTATCATCC TGTTTGTATT TAGTCTCAGA CACGATTCTG 
AAAGAGCGCC TAGATCCAGA CACGCTGGAA TCCCTGGGGC TTATCAAACA GTCACAACAG 
TTCAACCAGA AATCTGTGAA AATAAAGACC AAACTTTTTT ATAAGCAACA GAAATTTAAT 
TTATTACGTG AAGAAAATGA AGGCTATGCA AAGCTGATCA CAGAACTTGG ACAAGATCTT 
TCGGGAAGCA TAACCAGTGA TTTAATTCTT GAAAATATTA AGTCTTTAAT CGGTTGCTTT 
AACCTGGACC CCAACAGAGT GCTGGATATC ATTTTAGAAG TGTACGAATG TCGACCAGAC 
CATGATGATT TTTTTGCGCC ATTGATTGAA TCATACATGT GCATGTGTGA ACCTCAAACA 
CTGTGTCATA TCCTTGGGTT TAAATTCAAG TTTTATCAGG AGCCCAGTGG AGAAACCCCT 
TCTTCTTTGT ACAGAGTAGC GGCTGTGCTT TTGCAAAACA ATCTCATTGA ACTAGAGGAT 
CTTTATGTGC ATCTTCTTCC AGCAGAGAGT AGCATTATTG AGGAGTACAA GAAGGAAGTG 
ATAGAGGCCA AGCAGATTGT CAGAAAACTT ACCATGGTGG TCTTGTCCTC TGATAAAGGC 
GAAGAAAAGG AAAAAGAAAA GGATGAAGAG AAGACAGAAA AGCCTCCTGA CAACCAAAAG 
CTAGGCTTGT TGGAATCCCT ACTGAGGATT GGCGACTGGC AACATGCGCA AAGTATTATG 
GATCAGATGC CTCCATATTA TGCTGCTTCA CACAAACCAA TTGCCGTGGC TCTGTGTGAT 
CTAATTCATA AAACTATTGA ACCGCTTTAT CGAAGAATGG GGGTACCCAA AGGTGCCAAA 
GGATCTCGTA TTGTTCCCTT ACAAAGCAAG AGAGCCCCAA AGCAAGCAGA ATCATTTGAA 
GACTTACGGA GAGATGCCTT CACTATGCTT TGCTACCTGG GCCCACATCT TTCTCATGAC 
CCTATATTGC TTGCGAAAGT AGTTAGGCTT GGAAAAGCAT TAATGAAAGA GTCACAGTCT 
GAGACGAACG CAGAAGAAAA AGAAAGGATG GAGGTTTTAT TCAGTTGCTT GCTCAGCGTT 
ACAGACCAAG TGTTACTACC TGCTATTACT TTATTGGATG GCAACGCCTG TATGTCGGAA 
GAACTTTGGG GAATGTTCAA ATGCTTTCCT TACCAATACA GATATCGTCT GTATGGTCAG 
TGGAAGAATG AAACATACAA CAGCCACCCG TTGCTGGTCA AAGTTAAGGC ACAAACAATT 
GACAGAGCCA AGTACATCAT GAAACGTCTG ACAAAAGAAA ACGTCAAGCC ATCAGGAAGA 
CAAATAGGAA AACTAAGCCA TAGCAATCCA ACCATTCTGT TTGATTATAT TCTTTCGCAG 
ATCCAAAAGT ATGACAACCT CATCACACCA GTTGTTGATT CGCTGAAATA CCTAACTTCA 
CTAAATTATG ATGTCCTGGC TTACTGCATA ATAGAAGCTC TTGCTAATCC AGAAAAAGAG 
AAGATGAAGC ATGATGACAC CACTATTTCT AGCTGGTTGC AGAGTTTAGC TAGCTTTTGC 
GGAGCAATTT TCCGAAAATA TCCTATAGAA CTAGGTGGTC TTCTGCAGTA TGTGGCTAAT 
CAGTTGAAAG CTGGCAAAAG CTTTGATTTA CTGATTTTGA AAGAGGTAGT GCAAAAGATG 
GCTGGAATCG AAATCACTGA GGAAATGACA ATGGAACAAC TAGAGGCAGT GACTGGTGGA 
GAGCAGCTAA AAGCTGAGGG TGGTTATTTT GGACAAATAA GAAACACAAA GAAATCATCT 
CAGAGATTAA AAGATTCCTT GCTGGAGTAT GAATTGGCTC TTCCTTTGTG TCTGCTTATG 
GCCCAGCAGA GGAACGGCGT AGTATTCCAA GAGGGGGGAG AGAAACACTT AAAGCTGGTG 
GGAAAACTGT ATGATCAGTG TCATGATACT CTGGTGCAGT TTGGAGGATT TTTGGCTTCC 
AATTTGAGCA CAGAAGATTA TATCAAAAGA GTTCCATCCA TTGATGTTCT TTGCAATGAA 
TTCCACACAC CTCATGATGC TGCTTTCTTC TTATCCAGGC CTATGTATGC TCATCACATT 
TCATCTAAAT ATGATGAGCT TAAAAAGGCA GAGAAAGGAA ACAAGCAGCA GCACAAAGTG 
CACAAGTATA TCACATCGTG CGAACTGGTC ATGTCTCCTG TGCATGAAGC CGTGATATCT 
TTGCACCCAC CTAAAGTGTG GGAAGACATC AGCCCTCAGT TTTACTCCAC CTTCTGGTCC 
CTGACCATGT ACGACCTCTC TGTCCCAAGC AACAGCTACA GCAGAGAAAT CAACAAACTG 
AAAAGCCAGA TGAGAGCCAT AGATGAAAAC ATGGATATGC CCCCAAACAA AAAGAAAAAA 
GAAAAGGAGA GATGCACTGC CCTGCAAGAG AAGCTTGTGG AGGAGGAGAA GAAACAGTCT 
GAACACGTGG CTCGAGTTCT ACAGAGGATG AAGCTAGAAA AAGATAACTG GCTTTTAGCC 
CGATCCACAA AAAATGAGAC AATCACCAAA TTTTTGCAGC TTTGTATATT TCCTCGCTGT 
ATTTTCTCAG CCATTGACGC TGTGTACTGC GCTCGGTTTG TAGAACTTGT TCACCTTCAG 
AAAACACCAA ACTTTTCTAC CCTGCTCTGT TATGATAGAG TTTTCTCAGA CATCATTTAC 
ACGGTGGCAA GTTGTACAGA GAACGAGGCT AGCCGATATG GGAGATTTCT GTGCTGTATG 
CTGGAGACCG TAACAAAATG GCATAGTGAT AGAAATGTGT ATGACAAGGA TTGCGGCAGT 
TATCCAGGCT TTGTAACAAT ACTAAGGGCA GCCAGCTTTG ATAGCGGCAA CAAAGCTGAC 
CAGCTGGATT ATGAGAATTT CCGTCATGTG GTGCACAAAT GGCATTATAA ATTGACGAAG 
GCGTCTGTCC ATTGCCTTGA GACAGGGGAA TACACCCACA TCAGGAATAT CCTTATTGTG 
CTGACTAAGA TCCTGCCATG GTATCCTAAG GTTCTGAACT TGGGCCAAGC TCTGGAGCGC 
AGAGTCCACA AAATATGCCA AGATGAGAAG GAAAAAAGGC CTGATCTCTA TGCGTTGGCT 
ATGGGCTACT CTGGGCAGTT GAAAAGCAGG AAAAATTTCA TGGTGCCTGA AAATGATTTC 
CATCACAAAG ATCCCCCTGT AAGGAGCTCC GTGCCACCCC CAGTACAAAA TGGACCAGGC 
ACTGTTAGCC AGTCTGCTTC CATGTTGGTG AATGCAGCTA AACCAGAAGA AGGCACTACT 
GAGGAAACCG ACAAACTCAA GGAAAAAGCT CAGAGTGCTC TGAAAGTTGT TACTAAAGCT 
GCCAGCACAG CACCAAAGGT GACTGCAAGC AATGGGAACA GCACTTCTGC TAGCAAAGTG 
CTTAAAGAAA AAGAAGACAA AGATAAAACT GGGAAAGAAA AAGAGAAAGA CAAACGAGAG 
AAAACACCAG TTGCACCTCT TGAGACCAAG GCACCAGGAA AGGAGGCGAA AGAAAAAGTA 
AAGGAAGACC GTCCGAATAA AGATGAAAAG CTGCGTGATG TCAAGGAGAA GACTCCTAAA 
GCTGACAAAG AAAAGGAGAA GGCCAAGAAG GAAGAAAAAT CTCAGAAGGA AGAAAAATCT 
AAGGCAATTA TGATGAGCAA CGAGTCCAAA ATCTCTTCAG ATAAAGAGAG AGAGAGGGAG 
CTCTCCAGAG AGAAAGAGGC ATTGAAAGAA GCAAAAACCA AGGAGAGTTC CAAATCCGCA 
GAGAAATCGG CTGTTTCTGG GTCCTTGAAG TCTCCTGTTC CCCGTACAGA CATGCCTGAA 
ACTGAGAGGG AACAAAAACG ACGCAAAATT GATACACATT CTTCTCCATC GCATTCCTCA 
GCAGTAAAGG ACAACCTCAG TGAATTTAAG GACTCTTCAA CCAAGCACTA CACAAACCAC 
ACTACCCCAA CAATATCCAA AAATAAGGAG AAAGAAGTGG AGAAGAAAGA GCTGGAGAAA 
TCACGAGAGA GGTCGCGCGA AAGAGAGAAG AAAGAGGAAA AAGAACGGAA GGAAAAGAAG 
AGGGATCACT CAAATGGCGA CCGTGAATTG ATGCAGGAAT CAAAGCGCCG CAAAGAAGAA 
AACGGAACCG GCAGTTCCTC GAAACACAGT AAGAGCGAAA GTCCTTCTGA CTCCCCTCGA 
TCCAATGAGA AAGAGCGCAA TAAATCAAAA TCATCAAGTA AAGAGAAAGG GGATTTCATG 
AAATCAGAAA AAATGGAAAA AAGCAGTTCT GGCAGCAAGA AGGAATCCAG ACATGACAAG 
GAAAAGTCTG AGAAAAAAGA AAAACGTGAG AGCACAGGAG GAAAGGAGGA GAAAAAGCAC 
CATAAATCTT CAGACAAGCA CAGATAA

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

RefSeq	XP_018085308.1
CDS	237..5003
Translation	MAATLLPADWIKNWEKSGKNDFLQLCRSLSEKGQEFVTFTEIQQVLYEFACQVVKGNLKYDQVAGVFAEIIALRDDMPSILADVFCILDVETSCLEEKWRRDHFTQLVSSCLYLVSDTILKERLDPDTLESLGLIKQSQQFNQKSVKIKTKLFYKQQKFNLLREENEGYAKLITELGQDLSGSITSDLILENIKSLIGCFNLDPNRVLDIILEVYECRPDHDDFFAPLIESYMCMCEPQTLCHILGFKFKFYQEPSGETPSSLYRVAAVLLQNNLIELEDLYVHLLPAESSIIEEYKKEVIEAKQIVRKLTMVVLSSDKGEEKEKEKDEEKTEKPPDNQKLGLLESLLRIGDWQHAQSIMDQMPPYYAASHKPIAVALCDLIHKTIEPLYRRMGVPKGAKGSRIVPLQSKRAPKQAESFEDLRRDAFTMLCYLGPHLSHDPILLAKVVRLGKALMKESQSETNAEEKERMEVLFSCLLSVTDQVLLPAITLLDGNACMSEELWGMFKCFPYQYRYRLYGQWKNETYNSHPLLVKVKAQTIDRAKYIMKRLTKENVKPSGRQIGKLSHSNPTILFDYILSQIQKYDNLITPVVDSLKYLTSLNYDVLAYCIIEALANPEKEKMKHDDTTISSWLQSLASFCGAIFRKYPIELGGLLQYVANQLKAGKSFDLLILKEVVQKMAGIEITEEMTMEQLEAVTGGEQLKAEGGYFGQIRNTKKSSQRLKDSLLEYELALPLCLLMAQQRNGVVFQEGGEKHLKLVGKLYDQCHDTLVQFGGFLASNLSTEDYIKRVPSIDVLCNEFHTPHDAAFFLSRPMYAHHISSKYDELKKAEKGNKQQHKVHKYITSCELVMSPVHEAVISLHPPKVWEDISPQFYSTFWSLTMYDLSVPSNSYSREINKLKSQMRAIDENMDMPPNKKKKEKERCTALQEKLVEEEKKQSEHVARVLQRMKLEKDNWLLARSTKNETITKFLQLCIFPRCIFSAIDAVYCARFVELVHLQKTPNFSTLLCYDRVFSDIIYTVASCTENEASRYGRFLCCMLETVTKWHSDRNVYDKDCGSYPGFVTILRAASFDSGNKADQLDYENFRHVVHKWHYKLTKASVHCLETGEYTHIRNILIVLTKILPWYPKVLNLGQALERRVHKICQDEKEKRPDLYALAMGYSGQLKSRKNFMVPENDFHHKDPPVRSSVPPPVQNGPGTVSQSASMLVNAAKPEEGTTEETDKLKEKAQSALKVVTKAASTAPKVTASNGNSTSASKVLKEKEDKDKTGKEKEKDKREKTPVAPLETKAPGKEAKEKVKEDRPNKDEKLRDVKEKTPKADKEKEKAKKEEKSQKEEKSKAIMMSNESKISSDKERERELSREKEALKEAKTKESSKSAEKSAVSGSLKSPVPRTDMPETEREQKRRKIDTHSSPSHSSAVKDNLSEFKDSSTKHYTNHTTPTISKNKEKEVEKKELEKSRERSREREKKEEKERKEKKRDHSNGDRELMQESKRRKEENGTGSSSKHSKSESPSDSPRSNEKERNKSKSSSKEKGDFMKSEKMEKSSSGSKKESRHDKEKSEKKEKRESTGGKEEKKHHKSSDKHR

Target ORF information:

RefSeq Version	XM_018229819.1
Organism	Xenopus laevis(African clawed frog)
Definition	Xenopus laevis THO complex subunit 2-like (LOC108698385), mRNA.

Target ORF information:

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

XM_018229819.1

ORF Insert Sequence:

ATGGCGGCCA CGTTACTACC CGCTGATTGG ATAAAGAACT GGGAAAAATC AGGAAAAAAC 
GACTTCTTGC AACTATGCCG CAGCCTCAGT GAAAAAGGCC AGGAATTCGT TACATTCACA 
GAAATTCAGC AGGTCCTGTA TGAATTTGCA TGTCAAGTTG TTAAAGGAAA TTTGAAGTAC 
GATCAAGTTG CTGGCGTTTT TGCTGAAATA ATAGCCCTCA GAGATGACAT GCCCTCAATC 
TTAGCAGATG TATTTTGTAT TTTGGATGTA GAAACAAGCT GTTTGGAAGA AAAATGGAGA 
AGAGACCATT TTACCCAACT AGTATCATCC TGTTTGTATT TAGTCTCAGA CACGATTCTG 
AAAGAGCGCC TAGATCCAGA CACGCTGGAA TCCCTGGGGC TTATCAAACA GTCACAACAG 
TTCAACCAGA AATCTGTGAA AATAAAGACC AAACTTTTTT ATAAGCAACA GAAATTTAAT 
TTATTACGTG AAGAAAATGA AGGCTATGCA AAGCTGATCA CAGAACTTGG ACAAGATCTT 
TCGGGAAGCA TAACCAGTGA TTTAATTCTT GAAAATATTA AGTCTTTAAT CGGTTGCTTT 
AACCTGGACC CCAACAGAGT GCTGGATATC ATTTTAGAAG TGTACGAATG TCGACCAGAC 
CATGATGATT TTTTTGCGCC ATTGATTGAA TCATACATGT GCATGTGTGA ACCTCAAACA 
CTGTGTCATA TCCTTGGGTT TAAATTCAAG TTTTATCAGG AGCCCAGTGG AGAAACCCCT 
TCTTCTTTGT ACAGAGTAGC GGCTGTGCTT TTGCAAAACA ATCTCATTGA ACTAGAGGAT 
CTTTATGTGC ATCTTCTTCC AGCAGAGAGT AGCATTATTG AGGAGTACAA GAAGGAAGTG 
ATAGAGGCCA AGCAGATTGT CAGAAAACTT ACCATGGTGG TCTTGTCCTC TGATAAAGGC 
GAAGAAAAGG AAAAAGAAAA GGATGAAGAG AAGACAGAAA AGCCTCCTGA CAACCAAAAG 
CTAGGCTTGT TGGAATCCCT ACTGAGGATT GGCGACTGGC AACATGCGCA AAGTATTATG 
GATCAGATGC CTCCATATTA TGCTGCTTCA CACAAACCAA TTGCCGTGGC TCTGTGTGAT 
CTAATTCATA AAACTATTGA ACCGCTTTAT CGAAGAATGG GGGTACCCAA AGGTGCCAAA 
GGATCTCGTA TTGTTCCCTT ACAAAGCAAG AGAGCCCCAA AGCAAGCAGA ATCATTTGAA 
GACTTACGGA GAGATGCCTT CACTATGCTT TGCTACCTGG GCCCACATCT TTCTCATGAC 
CCTATATTGC TTGCGAAAGT AGTTAGGCTT GGAAAAGCAT TAATGAAAGA GTCACAGTCT 
GAGACGAACG CAGAAGAAAA AGAAAGGATG GAGGTTTTAT TCAGTTGCTT GCTCAGCGTT 
ACAGACCAAG TGTTACTACC TGCTATTACT TTATTGGATG GCAACGCCTG TATGTCGGAA 
GAACTTTGGG GAATGTTCAA ATGCTTTCCT TACCAATACA GATATCGTCT GTATGGTCAG 
TGGAAGAATG AAACATACAA CAGCCACCCG TTGCTGGTCA AAGTTAAGGC ACAAACAATT 
GACAGAGCCA AGTACATCAT GAAACGTCTG ACAAAAGAAA ACGTCAAGCC ATCAGGAAGA 
CAAATAGGAA AACTAAGCCA TAGCAATCCA ACCATTCTGT TTGATTATAT TCTTTCGCAG 
ATCCAAAAGT ATGACAACCT CATCACACCA GTTGTTGATT CGCTGAAATA CCTAACTTCA 
CTAAATTATG ATGTCCTGGC TTACTGCATA ATAGAAGCTC TTGCTAATCC AGAAAAAGAG 
AAGATGAAGC ATGATGACAC CACTATTTCT AGCTGGTTGC AGAGTTTAGC TAGCTTTTGC 
GGAGCAATTT TCCGAAAATA TCCTATAGAA CTAGGTGGTC TTCTGCAGTA TGTGGCTAAT 
CAGTTGAAAG CTGGCAAAAG CTTTGATTTA CTGATTTTGA AAGAGGTAGT GCAAAAGATG 
GCTGGAATCG AAATCACTGA GGAAATGACA ATGGAACAAC TAGAGGCAGT GACTGGTGGA 
GAGCAGCTAA AAGCTGAGGG TGGTTATTTT GGACAAATAA GAAACACAAA GAAATCATCT 
CAGAGATTAA AAGATTCCTT GCTGGAGTAT GAATTGGCTC TTCCTTTGTG TCTGCTTATG 
GCCCAGCAGA GGAACGGCGT AGTATTCCAA GAGGGGGGAG AGAAACACTT AAAGCTGGTG 
GGAAAACTGT ATGATCAGTG TCATGATACT CTGGTGCAGT TTGGAGGATT TTTGGCTTCC 
AATTTGAGCA CAGAAGATTA TATCAAAAGA GTTCCATCCA TTGATGTTCT TTGCAATGAA 
TTCCACACAC CTCATGATGC TGCTTTCTTC TTATCCAGGC CTATGTATGC TCATCACATT 
TCATCTAAAT ATGATGAGCT TAAAAAGGCA GAGAAAGGAA ACAAGCAGCA GCACAAAGTG 
CACAAGTATA TCACATCGTG CGAACTGGTC ATGTCTCCTG TGCATGAAGC CGTGATATCT 
TTGCACCCAC CTAAAGTGTG GGAAGACATC AGCCCTCAGT TTTACTCCAC CTTCTGGTCC 
CTGACCATGT ACGACCTCTC TGTCCCAAGC AACAGCTACA GCAGAGAAAT CAACAAACTG 
AAAAGCCAGA TGAGAGCCAT AGATGAAAAC ATGGATATGC CCCCAAACAA AAAGAAAAAA 
GAAAAGGAGA GATGCACTGC CCTGCAAGAG AAGCTTGTGG AGGAGGAGAA GAAACAGTCT 
GAACACGTGG CTCGAGTTCT ACAGAGGATG AAGCTAGAAA AAGATAACTG GCTTTTAGCC 
CGATCCACAA AAAATGAGAC AATCACCAAA TTTTTGCAGC TTTGTATATT TCCTCGCTGT 
ATTTTCTCAG CCATTGACGC TGTGTACTGC GCTCGGTTTG TAGAACTTGT TCACCTTCAG 
AAAACACCAA ACTTTTCTAC CCTGCTCTGT TATGATAGAG TTTTCTCAGA CATCATTTAC 
ACGGTGGCAA GTTGTACAGA GAACGAGGCT AGCCGATATG GGAGATTTCT GTGCTGTATG 
CTGGAGACCG TAACAAAATG GCATAGTGAT AGAAATGTGT ATGACAAGGA TTGCGGCAGT 
TATCCAGGCT TTGTAACAAT ACTAAGGGCA GCCAGCTTTG ATAGCGGCAA CAAAGCTGAC 
CAGCTGGATT ATGAGAATTT CCGTCATGTG GTGCACAAAT GGCATTATAA ATTGACGAAG 
GCGTCTGTCC ATTGCCTTGA GACAGGGGAA TACACCCACA TCAGGAATAT CCTTATTGTG 
CTGACTAAGA TCCTGCCATG GTATCCTAAG GTTCTGAACT TGGGCCAAGC TCTGGAGCGC 
AGAGTCCACA AAATATGCCA AGATGAGAAG GAAAAAAGGC CTGATCTCTA TGCGTTGGCT 
ATGGGCTACT CTGGGCAGTT GAAAAGCAGG AAAAATTTCA TGGTGCCTGA AAATGATTTC 
CATCACAAAG ATCCCCCTGT AAGGAGCTCC GTGCCACCCC CAGTACAAAA TGGACCAGGC 
ACTGTTAGCC AGTCTGCTTC CATGTTGGTG AATGCAGCTA AACCAGAAGA AGGCACTACT 
GAGGAAACCG ACAAACTCAA GGAAAAAGCT CAGAGTGCTC TGAAAGTTGT TACTAAAGCT 
GCCAGCACAG CACCAAAGGT GACTGCAAGC AATGGGAACA GCACTTCTGC TAGCAAAGTG 
CTTAAAGAAA AAGAAGACAA AGATAAAACT GGGAAAGAAA AAGAGAAAGA CAAACGAGAG 
AAAACACCAG TTGCACCTCT TGAGACCAAG GCACCAGGAA AGGAGGCGAA AGAAAAAGTA 
AAGGAAGACC GTCCGAATAA AGATGAAAAG CTGCGTGATG TCAAGGAGAA GACTCCTAAA 
GCTGACAAAG AAAAGGAGAA GGCCAAGAAG GAAGAAAAAT CTCAGAAGGA AGAAAAATCT 
AAGGCAATTA TGATGAGCAA CGAGTCCAAA ATCTCTTCAG ATAAAGAGAG AGAGAGGGAG 
CTCTCCAGAG AGAAAGAGGC ATTGAAAGAA GCAAAAACCA AGGAGAGTTC CAAATCCGCA 
GAGAAATCGG CTGTTTCTGG GTCCTTGAAG TCTCCTGTTC CCCGTACAGA CATGCCTGAA 
ACTGAGAGGG AACAAAAACG ACGCAAAATT GATACACATT CTTCTCCATC GCATTCCTCA 
GCAGTAAAGG ACAACCTCAG TGAATTTAAG GACTCTTCAA CCAAGCACTA CACAAACCAC 
ACTACCCCAA CAATATCCAA AAATAAGGAG AAAGAAGTGG AGAAGAAAGA GCTGGAGAAA 
TCACGAGAGA GGTCGCGCGA AAGAGAGAAG AAAGAGGAAA AAGAACGGAA GGAAAAGAAG 
AGGGATCACT CAAATGGCGA CCGTGAATTG ATGCAGGAAT CAAAGCGCCG CAAAGAAGAA 
AACGGAACCG GCAGTTCCTC GAAACACAGT AAGAGCGAAA GTCCTTCTGA CTCCCCTCGA 
TCCAATGAGA AAGAGCGCAA TAAATCAAAA TCATCAAGTA AAGAGAAAGG GGATTTCATG 
AAATCAGAAA AAATGGAAAA AAGCAGTTCT GGCAGCAAGA AGGAATCCAG ACATGACAAG 
GAAAAGTCTG AGAAAAAAGA AAAACGTGAG AGCACAGGAG GAAAGGAGGA GAAAAAGCAC 
CATAAATCTT CAGACAAGCA CAGATAA

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

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LOC108698385 cDNA ORF clone, Xenopus laevis(African clawed frog)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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