LOC105947071 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC105947071
Entrez Gene ID	105947071
Full Name	uncharacterized LOC105947071
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018093202.1	XP_017948691.1	uncharacterized protein LOC105947071

Pathways from BioSystems
Gene Ontology

The following LOC105947071 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC105947071 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
OXa43921	XM_018093202.1 Latest version!	Xenopus tropicalis uncharacterized LOC105947071 (LOC105947071), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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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)

LOC105947071 ( XM_018093202.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017948691.1 Xenopus tropicalis uncharacterized LOC105947071 (LOC105947071), mRNA.

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CloneID	OXa43921
Clone ID Related Accession (Same CDS sequence)	XM_018093202.1
Accession Version	XM_018093202.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4446bp) 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	2016-09-07
Organism	Xenopus tropicalis(tropical clawed frog)
Product	uncharacterized protein LOC105947071
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.1) 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 :: Xenopus tropicalis Annotation Release 103 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## ##RefSeq-Attributes-START## ab initio :: 24% of CDS bases ##RefSeq-Attributes-END##

ATGGAACTTC AGGTTGCTAA AGCCGAAGGA GACTTACCAG GACTTGCATT CCTGGACACA 
GCCAGAGGTG TTAACCCCAT AGTGCAAAAG CTACCCTACA ACTTGCAAGA ACGGTGGATG 
GTACATGGGT CTAAATTCAA ACAAACATAC AATGTCATAT TTCCCCCCTT CACTGTGTTT 
GTGGACTTTG TATACCAGCA AGCCAAGATG AGGAATGACC CCAGTTTTGA TCTCACTCTG 
CCACATGCCA CCCCTTCAGT ACCTAATACT CGCAAAGCAG TAACAGTTCA CAAAACTAAT 
GTTTCCTCTT CAGGTTCTTT CCACAGGTCT GCTGACAGCT CTCAGGAGGA GACAAACAAC 
AAAGACCCTG GTAAGCAGTG TCCCCTACAC CAAAGGCCTC ACCCTCTTCT GAAATGCAGA 
GCCTTCAGAG GAAAGTCCAT AGATGACCGC AAAGCCTTCC TAAAGGAAAA CCACATCTGC 
TACAAGTGCT GCTCATCAAC ATCTCACCTT GCCAGGGACT GTAAGGTCAG TGTAAAATGC 
ACAGAATGTG ACAGCACACA CCACAATACA GCATTACACC CTGGGCCAGC CCCGTGGACA 
TTACCTCACA ACAAGGGTGC TAGCGAGCAT GGCGGGGAGG AAGGTGACAC TGCTATAACT 
ACACCAGAGG TCACTTCACA ATGTACAGAA GTCTGCAAAG GAGCCATAGG TGGCAGATCC 
TGCTCCAAAA TCTGCTTAGT CAAAGTATAC CCGAAAGGCC AAAGGGATAA AGCTATTAGA 
CTTTATGCAA TCATGGACGA TCAGAGTAAT GGATCTCTAG CCTGTCCAGC CTTCTTTGAT 
TTATTCAATA TCAAAGGCCC AAGCATTCCT TACTCCTTAA AGACTTGTGC AGGAGTTATT 
GAGACAGCAG GGAGGAAGGC ATCTGGCTAC CAAGTAGAGT CCATAGATGG ACAAATATGC 
TTGCCTTTGC CACCTATAAC TGAGTGCAGT CGGATACCAG ATAATAGGAC TGAAATCCCT 
ACACCAGATG CAGCACTGCA CCATGCACAC TTGAAATGTA TAACGCACTT AATCCCTGAA 
CTTGACCCTA AGGCCCAGAT AATGCTTCTT CTTGGAAGAG ATATCCTACG GGTCCACAAA 
GCAAGGGACC AGATAAATGG TCCTCACAAT GCACCCTATG CTCAGAAACT AGACCTTGGA 
TGGGTCATCA TAGGTGATGT ATGCCTGGGT GATGTACACA GGCCGACCAA CATCAACACT 
CTGTATACTA ACACATTAGA GAATGGCCGC CCTTCTCTTT TTCAACCATG TCCAAATCGC 
TTTCTGATTA AAGAGATTCA GAATAACACT TATCTAACCA ACCTCTTAGG AGAGAGCTAT 
CCCTGCGCTA AGGATGATGA TCATTTGGGT TGCAACGTGT TCCAGAGATC CAAAAATGAC 
AATCAGCTTT CCCTTTCCAT AGAAGACAAA ATCTTCCTGG AAATCATGGA TCAAGGTCCA 
GACCTCAACA ACAAACTCTT GGGGGTACTC ATACGTTTCC GCAAAGATCC TATTGCCTTT 
ATAGCAGACA TCCAGCAAAT GTTCCACAGC TTTCTTGTGA GAGAAGATCA TAGGAACTTC 
TTGAGATTCT TCTGGTTCAG AGACAACGAT CCAGCAAAAG ATGTCCTAGA GTTCCGCATG 
AAAGTTCATG TGTTTGGAAA CAGCCCTTCC CCTGCAGTGG CCATATATGG GCTCAGACGG 
TCTGCCCAGG AAGGAGAAGT TGACTATGGC AGAGATGTCA CACAATTTGT TGAAAGAGAC 
TTTTATGTAG ATGATGGTCT GAAGTCATCA CCCTCTGAGG AGACAGCAAT CAGTCTGCTT 
AAGAGAACAC AAGACATGCT AGCCTGTTCC AACCTCAGAC TGCACAAAAT AGCCTCCAAC 
AGCATAGAAG TAATGAAAGC ATTCCCTTCC CAAGACCATG CTAATGATTT AAGAGACCTA 
GATTTGGGTA CAGACACTTT ACCTGTACAA CGCAGCCTTG GCCTAAACTG GGACTTGAAA 
TCTGACACAT TTACATTTCA AGTGAACAAG GATGAGAAAC CCTTCACTCG CAGAGGAGTC 
TTATCTACAG TAAATAGTTT GTATGACCCT TTAGGATTTG CAGCTCCAGT GACTGTTCAA 
GGAAAAGCTC TACTACGAGA ACTAACTGTG GAATCTTGTG ACTGGGATTC CCCACTCCCA 
GCAGCAAAGG AACAAGTCTG GATAGAATGG AGAGACTCTT TAGGAGCATT GTCTAGCATT 
CAAATTCCAA GGCAATACAC TTGTACTCCT GCTGCAGGAA TAAAAGAAAG GAAGCTTTGT 
ATATTTTCCG ATGCTTCAAC CAAAGCAATA GCTGCTGTTG CCTACCTTAA GACTGTAGAT 
TGCAAAGGAC AGTGCCACAT TGGATTTGTT ATGGGTAAAG CAAAACTAAC TCCACGACCT 
GAGCACACTA TACCCAGATT GGAGCTGTGT GCAGCTGTGT TAGCAGTGGA AATGGCTGAA 
CTCATCACTT CAGAAATTGA TCTTCAACTA AGTGAGGCTG AATTCTACAC AGATAGCAAG 
GTAGTGTTGG GCTACATCTG CAATGAGACC AGACGATTCT ATGTCTATGT AAGCAACAGA 
ATTCTGCGCA TACGGAGATC AACACACCCA AAACAATGGC ACTATGTACC TTCTGAGAAA 
AATCCAGCAG ATCATGCAAC AAGAGCTGTT CCCGCAGTTT GTTTAAAACA AACCTCCTGG 
TTTACAGGGC CTTCTTTCCT GTATTCAGCT GAACAGAACG ACCCTGCTGA TGTGTATGAA 
CTAATTGATA CAACATCTGA TCCAGAGATC CGTCCACAAG TGTCTACACT CTGCACTGAT 
ACTTCAAGTA TGCACCTTGG GTCCCATCGC TTTAAGAGGT TTTCTACTTG GAAGTCTCTA 
GTCAGATCTA TCACCTGTCT ACTTCATATA GTGAAGTTCT TCAAGAAAGA TTTCCCTTCA 
ACATCCAACA ACTGCAAAGG CTGGCACTAC TGTCAAAGGG CACATACAGT TGATGAACTT 
GAACAAGCCA GAAACATCAT TCTTCTAAGT GTACAGCAGG AAACATATGC TAAAGAGTTT 
GAGTACATCA AAGGCAAAAA GGCTATTTCC AAAGACAGTG TGTTAAAGAA GCTTGACCCA 
TTTATTGATG AAAATGGCTT ATTGAGAGTT GGCGGTCGCA TCATGAATGC TACACTTGAA 
CAAAAGGAGA AGAACCCACT GATAATTCCC AGCAATCATC ACATTGCATC TTTACTTGTT 
CTACATTATC ACCAACAGAC AAGGCACCAA GGACGTCTGT TTACAGAAGG TGCCCTGCGT 
GCAGCAGGAT TCTGGCTAGT TGGAGCAAAG AAACTTGTAA GTAGTGTTAT CTTTAAATGT 
GTCACTTGCA GAAAACTTCG TGGCATGTTT CAGACTCAGA AAATGGCTAA TCTGCCAGCA 
GACAGACTTA GTACTGAACC TCCATTTACA AATGTTGGCC TTGATGTATT TGGCCCCTGG 
TCTGTGACTT CACGCCATAC TAGAGGGGGT CACGCTAATA GCAAACGCTG GGCAGTAATG 
TTTACTTGTT TGAGTATCCG GGCAGTACAC ATAGAGGTTA TTGAATCCAT GGATACTTCC 
AGTTTTGTCA ATGCTCTCAG GAGATTCATA TCAATTCGAG GGCCAGTGAA AAACATTTAC 
TCTGATAGAG GGACTAATTT TGTGGGAGCC TGTAAAGAGC TAAACATTCC TTCAAACATT 
GACAAAAATC TTGTTGAAAG ATACTTGTCT GACCAAGGTT GTGCATGGAC ATTCAACCCT 
CCTCATTCTT CCCACATGGG AGGTGCTTGG GAAAGGATGA TAGGAATAGC ACGCAGAATT 
CTTGATTCTA TGTTCTTACA GGAAGGGTCA ACAAGGCTTA CTCATGAGAC TCTCACTACT 
TTCATGGCAG AAGTAGCAGC CATTATGAAC GCCAGACCTT TGACCTCTGT ATCCAATGAC 
CCTGAGGATC CCTTCATACT TACTCCATCC ACTTTGCTTA CTCAAAAGGT CAGTACCGTC 
AAAGCTCCTC CTGGTGAGTT TGATACCAAA GACTTATATA AGCGCCAGTG GAGACAAGTT 
CAAAGTCTTG CTAATACCTT TTGGGACAAA TGGAAGAAGC AGTACATCTT CACCTTACAG 
TCTAGGAATA AGTGGCAGTC TGACAAACAG AACATTGAAC CTGGCAACAT TGTTCTCATG 
AAAGACTCTC AGATCAAGAG AAATGAGTGG CCTCTAGGAC TTATCACCAG AGTTTTCCCA 
AGTGAGGATG GGAAAGTCCA GAAAGTGGAG GTCAAGGTTG TAAGGCAGAA TGAGACTAAA 
CTTTTCCTTA GACCTATATC TGAACTAATC CTATTGCTTT CTTCCACAGA ACTTTCAAAT 
GGGTGA

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

RefSeq	XP_017948691.1
CDS	72..4517
Translation	MELQVAKAEGDLPGLAFLDTARGVNPIVQKLPYNLQERWMVHGSKFKQTYNVIFPPFTVFVDFVYQQAKMRNDPSFDLTLPHATPSVPNTRKAVTVHKTNVSSSGSFHRSADSSQEETNNKDPGKQCPLHQRPHPLLKCRAFRGKSIDDRKAFLKENHICYKCCSSTSHLARDCKVSVKCTECDSTHHNTALHPGPAPWTLPHNKGASEHGGEEGDTAITTPEVTSQCTEVCKGAIGGRSCSKICLVKVYPKGQRDKAIRLYAIMDDQSNGSLACPAFFDLFNIKGPSIPYSLKTCAGVIETAGRKASGYQVESIDGQICLPLPPITECSRIPDNRTEIPTPDAALHHAHLKCITHLIPELDPKAQIMLLLGRDILRVHKARDQINGPHNAPYAQKLDLGWVIIGDVCLGDVHRPTNINTLYTNTLENGRPSLFQPCPNRFLIKEIQNNTYLTNLLGESYPCAKDDDHLGCNVFQRSKNDNQLSLSIEDKIFLEIMDQGPDLNNKLLGVLIRFRKDPIAFIADIQQMFHSFLVREDHRNFLRFFWFRDNDPAKDVLEFRMKVHVFGNSPSPAVAIYGLRRSAQEGEVDYGRDVTQFVERDFYVDDGLKSSPSEETAISLLKRTQDMLACSNLRLHKIASNSIEVMKAFPSQDHANDLRDLDLGTDTLPVQRSLGLNWDLKSDTFTFQVNKDEKPFTRRGVLSTVNSLYDPLGFAAPVTVQGKALLRELTVESCDWDSPLPAAKEQVWIEWRDSLGALSSIQIPRQYTCTPAAGIKERKLCIFSDASTKAIAAVAYLKTVDCKGQCHIGFVMGKAKLTPRPEHTIPRLELCAAVLAVEMAELITSEIDLQLSEAEFYTDSKVVLGYICNETRRFYVYVSNRILRIRRSTHPKQWHYVPSEKNPADHATRAVPAVCLKQTSWFTGPSFLYSAEQNDPADVYELIDTTSDPEIRPQVSTLCTDTSSMHLGSHRFKRFSTWKSLVRSITCLLHIVKFFKKDFPSTSNNCKGWHYCQRAHTVDELEQARNIILLSVQQETYAKEFEYIKGKKAISKDSVLKKLDPFIDENGLLRVGGRIMNATLEQKEKNPLIIPSNHHIASLLVLHYHQQTRHQGRLFTEGALRAAGFWLVGAKKLVSSVIFKCVTCRKLRGMFQTQKMANLPADRLSTEPPFTNVGLDVFGPWSVTSRHTRGGHANSKRWAVMFTCLSIRAVHIEVIESMDTSSFVNALRRFISIRGPVKNIYSDRGTNFVGACKELNIPSNIDKNLVERYLSDQGCAWTFNPPHSSHMGGAWERMIGIARRILDSMFLQEGSTRLTHETLTTFMAEVAAIMNARPLTSVSNDPEDPFILTPSTLLTQKVSTVKAPPGEFDTKDLYKRQWRQVQSLANTFWDKWKKQYIFTLQSRNKWQSDKQNIEPGNIVLMKDSQIKRNEWPLGLITRVFPSEDGKVQKVEVKVVRQNETKLFLRPISELILLLSSTELSNG

Target ORF information:

RefSeq Version	XM_018093202.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis uncharacterized LOC105947071 (LOC105947071), mRNA.

Target ORF information:

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

XM_018093202.1

ORF Insert Sequence:

ATGGAACTTC AGGTTGCTAA AGCCGAAGGA GACTTACCAG GACTTGCATT CCTGGACACA 
GCCAGAGGTG TTAACCCCAT AGTGCAAAAG CTACCCTACA ACTTGCAAGA ACGGTGGATG 
GTACATGGGT CTAAATTCAA ACAAACATAC AATGTCATAT TTCCCCCCTT CACTGTGTTT 
GTGGACTTTG TATACCAGCA AGCCAAGATG AGGAATGACC CCAGTTTTGA TCTCACTCTG 
CCACATGCCA CCCCTTCAGT ACCTAATACT CGCAAAGCAG TAACAGTTCA CAAAACTAAT 
GTTTCCTCTT CAGGTTCTTT CCACAGGTCT GCTGACAGCT CTCAGGAGGA GACAAACAAC 
AAAGACCCTG GTAAGCAGTG TCCCCTACAC CAAAGGCCTC ACCCTCTTCT GAAATGCAGA 
GCCTTCAGAG GAAAGTCCAT AGATGACCGC AAAGCCTTCC TAAAGGAAAA CCACATCTGC 
TACAAGTGCT GCTCATCAAC ATCTCACCTT GCCAGGGACT GTAAGGTCAG TGTAAAATGC 
ACAGAATGTG ACAGCACACA CCACAATACA GCATTACACC CTGGGCCAGC CCCGTGGACA 
TTACCTCACA ACAAGGGTGC TAGCGAGCAT GGCGGGGAGG AAGGTGACAC TGCTATAACT 
ACACCAGAGG TCACTTCACA ATGTACAGAA GTCTGCAAAG GAGCCATAGG TGGCAGATCC 
TGCTCCAAAA TCTGCTTAGT CAAAGTATAC CCGAAAGGCC AAAGGGATAA AGCTATTAGA 
CTTTATGCAA TCATGGACGA TCAGAGTAAT GGATCTCTAG CCTGTCCAGC CTTCTTTGAT 
TTATTCAATA TCAAAGGCCC AAGCATTCCT TACTCCTTAA AGACTTGTGC AGGAGTTATT 
GAGACAGCAG GGAGGAAGGC ATCTGGCTAC CAAGTAGAGT CCATAGATGG ACAAATATGC 
TTGCCTTTGC CACCTATAAC TGAGTGCAGT CGGATACCAG ATAATAGGAC TGAAATCCCT 
ACACCAGATG CAGCACTGCA CCATGCACAC TTGAAATGTA TAACGCACTT AATCCCTGAA 
CTTGACCCTA AGGCCCAGAT AATGCTTCTT CTTGGAAGAG ATATCCTACG GGTCCACAAA 
GCAAGGGACC AGATAAATGG TCCTCACAAT GCACCCTATG CTCAGAAACT AGACCTTGGA 
TGGGTCATCA TAGGTGATGT ATGCCTGGGT GATGTACACA GGCCGACCAA CATCAACACT 
CTGTATACTA ACACATTAGA GAATGGCCGC CCTTCTCTTT TTCAACCATG TCCAAATCGC 
TTTCTGATTA AAGAGATTCA GAATAACACT TATCTAACCA ACCTCTTAGG AGAGAGCTAT 
CCCTGCGCTA AGGATGATGA TCATTTGGGT TGCAACGTGT TCCAGAGATC CAAAAATGAC 
AATCAGCTTT CCCTTTCCAT AGAAGACAAA ATCTTCCTGG AAATCATGGA TCAAGGTCCA 
GACCTCAACA ACAAACTCTT GGGGGTACTC ATACGTTTCC GCAAAGATCC TATTGCCTTT 
ATAGCAGACA TCCAGCAAAT GTTCCACAGC TTTCTTGTGA GAGAAGATCA TAGGAACTTC 
TTGAGATTCT TCTGGTTCAG AGACAACGAT CCAGCAAAAG ATGTCCTAGA GTTCCGCATG 
AAAGTTCATG TGTTTGGAAA CAGCCCTTCC CCTGCAGTGG CCATATATGG GCTCAGACGG 
TCTGCCCAGG AAGGAGAAGT TGACTATGGC AGAGATGTCA CACAATTTGT TGAAAGAGAC 
TTTTATGTAG ATGATGGTCT GAAGTCATCA CCCTCTGAGG AGACAGCAAT CAGTCTGCTT 
AAGAGAACAC AAGACATGCT AGCCTGTTCC AACCTCAGAC TGCACAAAAT AGCCTCCAAC 
AGCATAGAAG TAATGAAAGC ATTCCCTTCC CAAGACCATG CTAATGATTT AAGAGACCTA 
GATTTGGGTA CAGACACTTT ACCTGTACAA CGCAGCCTTG GCCTAAACTG GGACTTGAAA 
TCTGACACAT TTACATTTCA AGTGAACAAG GATGAGAAAC CCTTCACTCG CAGAGGAGTC 
TTATCTACAG TAAATAGTTT GTATGACCCT TTAGGATTTG CAGCTCCAGT GACTGTTCAA 
GGAAAAGCTC TACTACGAGA ACTAACTGTG GAATCTTGTG ACTGGGATTC CCCACTCCCA 
GCAGCAAAGG AACAAGTCTG GATAGAATGG AGAGACTCTT TAGGAGCATT GTCTAGCATT 
CAAATTCCAA GGCAATACAC TTGTACTCCT GCTGCAGGAA TAAAAGAAAG GAAGCTTTGT 
ATATTTTCCG ATGCTTCAAC CAAAGCAATA GCTGCTGTTG CCTACCTTAA GACTGTAGAT 
TGCAAAGGAC AGTGCCACAT TGGATTTGTT ATGGGTAAAG CAAAACTAAC TCCACGACCT 
GAGCACACTA TACCCAGATT GGAGCTGTGT GCAGCTGTGT TAGCAGTGGA AATGGCTGAA 
CTCATCACTT CAGAAATTGA TCTTCAACTA AGTGAGGCTG AATTCTACAC AGATAGCAAG 
GTAGTGTTGG GCTACATCTG CAATGAGACC AGACGATTCT ATGTCTATGT AAGCAACAGA 
ATTCTGCGCA TACGGAGATC AACACACCCA AAACAATGGC ACTATGTACC TTCTGAGAAA 
AATCCAGCAG ATCATGCAAC AAGAGCTGTT CCCGCAGTTT GTTTAAAACA AACCTCCTGG 
TTTACAGGGC CTTCTTTCCT GTATTCAGCT GAACAGAACG ACCCTGCTGA TGTGTATGAA 
CTAATTGATA CAACATCTGA TCCAGAGATC CGTCCACAAG TGTCTACACT CTGCACTGAT 
ACTTCAAGTA TGCACCTTGG GTCCCATCGC TTTAAGAGGT TTTCTACTTG GAAGTCTCTA 
GTCAGATCTA TCACCTGTCT ACTTCATATA GTGAAGTTCT TCAAGAAAGA TTTCCCTTCA 
ACATCCAACA ACTGCAAAGG CTGGCACTAC TGTCAAAGGG CACATACAGT TGATGAACTT 
GAACAAGCCA GAAACATCAT TCTTCTAAGT GTACAGCAGG AAACATATGC TAAAGAGTTT 
GAGTACATCA AAGGCAAAAA GGCTATTTCC AAAGACAGTG TGTTAAAGAA GCTTGACCCA 
TTTATTGATG AAAATGGCTT ATTGAGAGTT GGCGGTCGCA TCATGAATGC TACACTTGAA 
CAAAAGGAGA AGAACCCACT GATAATTCCC AGCAATCATC ACATTGCATC TTTACTTGTT 
CTACATTATC ACCAACAGAC AAGGCACCAA GGACGTCTGT TTACAGAAGG TGCCCTGCGT 
GCAGCAGGAT TCTGGCTAGT TGGAGCAAAG AAACTTGTAA GTAGTGTTAT CTTTAAATGT 
GTCACTTGCA GAAAACTTCG TGGCATGTTT CAGACTCAGA AAATGGCTAA TCTGCCAGCA 
GACAGACTTA GTACTGAACC TCCATTTACA AATGTTGGCC TTGATGTATT TGGCCCCTGG 
TCTGTGACTT CACGCCATAC TAGAGGGGGT CACGCTAATA GCAAACGCTG GGCAGTAATG 
TTTACTTGTT TGAGTATCCG GGCAGTACAC ATAGAGGTTA TTGAATCCAT GGATACTTCC 
AGTTTTGTCA ATGCTCTCAG GAGATTCATA TCAATTCGAG GGCCAGTGAA AAACATTTAC 
TCTGATAGAG GGACTAATTT TGTGGGAGCC TGTAAAGAGC TAAACATTCC TTCAAACATT 
GACAAAAATC TTGTTGAAAG ATACTTGTCT GACCAAGGTT GTGCATGGAC ATTCAACCCT 
CCTCATTCTT CCCACATGGG AGGTGCTTGG GAAAGGATGA TAGGAATAGC ACGCAGAATT 
CTTGATTCTA TGTTCTTACA GGAAGGGTCA ACAAGGCTTA CTCATGAGAC TCTCACTACT 
TTCATGGCAG AAGTAGCAGC CATTATGAAC GCCAGACCTT TGACCTCTGT ATCCAATGAC 
CCTGAGGATC CCTTCATACT TACTCCATCC ACTTTGCTTA CTCAAAAGGT CAGTACCGTC 
AAAGCTCCTC CTGGTGAGTT TGATACCAAA GACTTATATA AGCGCCAGTG GAGACAAGTT 
CAAAGTCTTG CTAATACCTT TTGGGACAAA TGGAAGAAGC AGTACATCTT CACCTTACAG 
TCTAGGAATA AGTGGCAGTC TGACAAACAG AACATTGAAC CTGGCAACAT TGTTCTCATG 
AAAGACTCTC AGATCAAGAG AAATGAGTGG CCTCTAGGAC TTATCACCAG AGTTTTCCCA 
AGTGAGGATG GGAAAGTCCA GAAAGTGGAG GTCAAGGTTG TAAGGCAGAA TGAGACTAAA 
CTTTTCCTTA GACCTATATC TGAACTAATC CTATTGCTTT CTTCCACAGA ACTTTCAAAT 
GGGTGA

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

PubMed

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LOC105947071 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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