LOC108708849 cDNA ORF clone, Xenopus laevis(African clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC108708849
Entrez Gene ID	108708849
Full Name	protein phosphatase Slingshot homolog 2-like
Gene Type	protein-coding
Organism	Xenopus laevis(African clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018248513.1	XP_018104002.1	protein phosphatase Slingshot homolog 2-like

Pathways from BioSystems
Gene Ontology

The following LOC108708849 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108708849 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
OAf21526	XM_018248513.1 Latest version!	Xenopus laevis protein phosphatase Slingshot homolog 2-like (LOC108708849), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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** 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)

LOC108708849 ( XM_018248513.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018104002.1 Xenopus laevis protein phosphatase Slingshot homolog 2-like (LOC108708849), mRNA.

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CloneID	OAf21526
Clone ID Related Accession (Same CDS sequence)	XM_018248513.1
Accession Version	XM_018248513.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4041bp) 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	protein phosphatase Slingshot homolog 2-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030727.1) annotated using gene prediction method: Gnomon, supported by 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGCGTTGG TTACAGTGCA GAGATCCCCC AGCACCACCT CCTGCCCCTG CGTGTCGAAT 
CCCCAGTTGG AAGAAAGTGA CACTGAAGTA TTCTGCTGTC AGTATGAAGA TACAGAACTC 
TTTAATGGTA CCAATGAGAC TGACAGCGGA GAAGAAGAGT GTCGTTCCCA GCCCTGGAGC 
ATTAGTGAAA GTTTCCTGAC AGTAAAAGGT GCTGCTCTCT TCCTCCCACG AGGGAATGGC 
TCATCCACGC CGAGAATCAG CCACAGACGC AACAAACATG CAGGGGACTT GCAGCAGCAC 
CTACAGGCTA TGTTTACACT CCTCCGGCCT GAGGACAACA TCCGGTTGGC CGTAAAGTTG 
GAAAGTACGT ATCAGAACCG CACGCGATAT ATGGTCGTCG TTTCGACCAA TGGAAGGCAA 
GACACGGAAG AGAGCATTGT CCTGGGGATT GATTTTGCCA GCAATGACAG CAGTATGTGC 
TCCATGGGCC TTGTGCTTCC TCTCTGGAGT GACACACTTA TACATCTGGA TGGAGATGGA 
GGGTTCAGCG TGTCCACGGA TAACAGAGTT CACATCTTCA AGCCTGTGTC TGTACAAGCC 
ATGTGGTCTG CCTTGCAGAG TTTACACAAA GCTTGTGAGA TAGCCCGTGT CAATAACTAC 
TACGCTGGCA GTCTCTTTCT AACCTGGGTT AGTTACTATG AGAGTCACAT CAACTCTGAC 
CAGTGTTCAG TCAATGAATG GAATGCTATG CAAGATGTGC AGTCGCACCG CTCTGATTCC 
CCGGTGCTCT TCACTGATGT GAGGGGCTCC GAGTGGAATG CCTCCAATTT AGAAGACTTG 
CAGAACAGAG GGGTGAGGTA CATCTTGAAT GTTACACGCG AAATCGACAA CTTCTTCCCT 
GGGCTCTTTG AATATCACAA CATAAGAGTA TATGACGAGG AGGAAACCGA CCTGTTGGCT 
TATTGGAACG ATACCTACAA ATTCATCTCA AAGGCCAAGA AGCATGGTTT CAAATGCCTT 
GTGCACTGCA AAATGGGTGT GAGCCGCTCT GCATCGACTG TGATTGCCTA TGCCATGAAG 
GAGTATGGCT GGAACTTGGA CCGAGCCTTT GATTATGTGA AGGAGAGACG CACTGTAACC 
AAACCAAACC CAAGTTTCAT GAAGCAACTG GAGGAATATC AAGGCATTCT GCTTGCAAGC 
AAGCAGAGAC ACAACAAGCT GTGGCGCTCC TACTCGGACA GTGATCTCTC TGACCACCAC 
GAATCTGCGG GGAAACCCGG TTTGGAAATG AGTAAGAAGG ACATAACGTC TTCAGCAGAG 
CAGCTCTCAG ACGCACATCA TTCCTTTTCA TCGGGTCCGC ACACTGAGAA CTGCAACCCA 
CATTGCCCCA TGGATAGCAC CGTGTGCAAT AAAACTCAAG CACATTTTGA GTTTACATCT 
TGCGATTTTC ACACTGAACA GATAGAGGAC ATTTTGAATC TAAACACCAT GAATGGGTGT 
CCCTCGCGCT GCTGTTCAGA TGAGACAATA CTGGACAATT GTAGAATAGT CGATAAGGAT 
TTAACTCAGA ATCCAGAATC CTTTGCTGCT CAAGGTCAGT TGCCAGACCT GACACTAGAG 
GACATGGAGA AAGATGCACT AAAGCCTGAA GTCAACTGCC ACCATTTGCA TTTAGAAGGA 
CTCAATTCAG ACTTCAGAGA TTTACAAGAG TCCCCTGACC AATTGTCCAT GACCTCACAA 
TCAGAGGAAC ATAACAGGGA TAGGATTGAT TTTCTTAGTG CACTAGAAAA GTTTGTGGAA 
TTATCTCAGG AGAATCGCCC ACGGTCCTGT TCCACCACCC GCACAGATGA ACAAGTGAGC 
TCTGTCAAGA ATAGTGGCCA GAAAGCTTCC TGGCTTGAGA CCCCAATCTA CGATAGCCAA 
GTGGACAACC AGAGAATAAG CTCTAATGGA AGCACACCAC AGACTTCCGA AGACTCCTCT 
ACAGACGAGG AACAGCCAAA GGAGATCTCC GAACAGATGG TCCAAGAGCA TCTCCCAAAA 
TCTCACTCTG AAAACGCAAT ATCTGTGAAG GAAATCATTA CAGAAATAGA GTCTTTCAAC 
CAAGGAGCAG GCCAGTGCCA ACAGAAACCA GACACTCAGT CTAGCCAGTT GCAAACACCA 
AAGAGAAATA CCATCAATGA TCTGCCACAA GAATCTTCTT GGGATCAAGA AAATAACCAT 
AGGCAAGACC TGACTGACAG AAGCGCTCTG CTGAAAAATG ATAAAGCGAA GGACTCCAAA 
GTTGCTACTC GGGATAGTAA TCCAGTGTCT CAGGAGAATT GTGAGAATGC TAACGAAGCA 
AATGATTATC AGGAATTCTC CAGCCAAGCA CATAAATGGT GCCCTGGTTC TGTCCGAAGG 
GCCACTTTGG AACTGGAAGA ACGTTTGAGG CAAGAGCAGG AACAGCAGTA CTCAGCCGTT 
TTGCCAACAA GAAAGAACTC AAAGAATGAC TTTATTGTCT GCGATACTGC TCCAAAGGGA 
AAGCTTGAAG ACACTTTACT TGACAGTACA CATGGGGATC ACGAAAGCGA GAGAAAAATT 
AGGATTACAG GGTCCACAGA ACAGAACTCA TCTGAGCCAT GTGCAGATTT ATTGTCCTCT 
CCGCTATCTG AGCCTCCATG TTTGCTGTCC AAACCAGAGA GCCCTGTCTC TGATGATGAA 
ATAAAGCTCA AAGGAGCAAC AAATGAGTGT GAGACACTTG ATGCACTTGA AGCTGTTGAG 
AGGAAGATTG AACCAATAAA ACATCCTAAG AGAATAGAAA TAATAGAGTA TAGTATTGGC 
ATTAAGTCTC CAGACGACCA TGAACTTTCT CGGTGTGAGG GTGAGGTCAC TACTGGAGAG 
GTACTAATAG AGACAAAGAC ATCTATGATT CTGTCCCCGG AAACACCCTT TAAAGAGACC 
GCTGAAAATG AAACAGACAA TTCTCTGCAT GCGGATTCTT TAGCTTTGTC AGAGACATGC 
ATACTAGGGT CACCCACTGT TTTCTCTACA CTTGCCAGTC AATATGAAGA GCACAACAGT 
ATGACGTATC CAGGACCCTC AGCAGGCACA GATCCCTCTA TACAGCCAGA TCTACTGAGC 
ACTCTCTATC CATCTAATCT AGGCTCTATT TCACTGATGG GTGTCACTGA ACAGTGCTCC 
AGTACCGATG AGGATTTCAG CAAGCAGTTC AGTTGCACAG AGCGTTATCC TACGGATTTG 
TTTGAGGACT TTAATGAAAT GATTCGCAGA GAAACTGACA GTGCCTTGTC CCAGTGTAGC 
AGTGAAGATC TTAACTTGAT TAGCGCAGTC TCTGCAAATA TACTGGAGAT ACGAGAAGCG 
TTGGACATTC CTCCTTTATC CTTTGGCTTT GCTCGTTGCA CCAGTACTGA CAGCATTAAA 
TATTTGGGTG GCAACCCTTG CATTGTAAAG CAAGAGGCCA AGGAAATAGA GGCTCGAATT 
CGGCAAGCGG GCCTTACCAC TCCGTCCCAG ATGAAACGCT CGGCCTCTTT AGCCAAGCTT 
GGCTGTTTAG AACTGTCCAA AGATGACTTG TCAGAGAGGG AATCCGTTTC ATCCGACTGT 
CGGACTTACC CCGACCTGCT TCTGAGTTCA CTTAGGGTTG TGCCAGGGAA CCATGACATC 
TCACAAGATG TAAAATCTGA AGACCCAACG GAAAAGCTGT GCATCCTATC CACGCAGTTG 
TCTTCAGACC CGGAACCCAC CAAGCGTTTT GTTGAACAGA TCAAGACTGA AGAGTGTGTA 
GTTCAGAGCA AGCCAGTAGA AAAGCCCCTT GTGCAGTTTG CCAAAGACGT TGATGCCCCG 
CAACAGGGTT TAGCTCCTAG TCCAGAATCT GAACTGACTG TCCCAGAGGG GTCTCGAACG 
CAATCACTGG TACTATATCC ATCAGTCCCA TTGGTACCCA TATCCCCCAA ACATGAGCAC 
GGCAGAACTC ATCCGCTAAG GAGACTTAGA AAAACCAATG AAAAGAAGAG GACAACTAAT 
CCGCTATACA ATACCATGTG A

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

RefSeq	XP_018104002.1
CDS	308..4348
Translation	MALVTVQRSPSTTSCPCVSNPQLEESDTEVFCCQYEDTELFNGTNETDSGEEECRSQPWSISESFLTVKGAALFLPRGNGSSTPRISHRRNKHAGDLQQHLQAMFTLLRPEDNIRLAVKLESTYQNRTRYMVVVSTNGRQDTEESIVLGIDFASNDSSMCSMGLVLPLWSDTLIHLDGDGGFSVSTDNRVHIFKPVSVQAMWSALQSLHKACEIARVNNYYAGSLFLTWVSYYESHINSDQCSVNEWNAMQDVQSHRSDSPVLFTDVRGSEWNASNLEDLQNRGVRYILNVTREIDNFFPGLFEYHNIRVYDEEETDLLAYWNDTYKFISKAKKHGFKCLVHCKMGVSRSASTVIAYAMKEYGWNLDRAFDYVKERRTVTKPNPSFMKQLEEYQGILLASKQRHNKLWRSYSDSDLSDHHESAGKPGLEMSKKDITSSAEQLSDAHHSFSSGPHTENCNPHCPMDSTVCNKTQAHFEFTSCDFHTEQIEDILNLNTMNGCPSRCCSDETILDNCRIVDKDLTQNPESFAAQGQLPDLTLEDMEKDALKPEVNCHHLHLEGLNSDFRDLQESPDQLSMTSQSEEHNRDRIDFLSALEKFVELSQENRPRSCSTTRTDEQVSSVKNSGQKASWLETPIYDSQVDNQRISSNGSTPQTSEDSSTDEEQPKEISEQMVQEHLPKSHSENAISVKEIITEIESFNQGAGQCQQKPDTQSSQLQTPKRNTINDLPQESSWDQENNHRQDLTDRSALLKNDKAKDSKVATRDSNPVSQENCENANEANDYQEFSSQAHKWCPGSVRRATLELEERLRQEQEQQYSAVLPTRKNSKNDFIVCDTAPKGKLEDTLLDSTHGDHESERKIRITGSTEQNSSEPCADLLSSPLSEPPCLLSKPESPVSDDEIKLKGATNECETLDALEAVERKIEPIKHPKRIEIIEYSIGIKSPDDHELSRCEGEVTTGEVLIETKTSMILSPETPFKETAENETDNSLHADSLALSETCILGSPTVFSTLASQYEEHNSMTYPGPSAGTDPSIQPDLLSTLYPSNLGSISLMGVTEQCSSTDEDFSKQFSCTERYPTDLFEDFNEMIRRETDSALSQCSSEDLNLISAVSANILEIREALDIPPLSFGFARCTSTDSIKYLGGNPCIVKQEAKEIEARIRQAGLTTPSQMKRSASLAKLGCLELSKDDLSERESVSSDCRTYPDLLLSSLRVVPGNHDISQDVKSEDPTEKLCILSTQLSSDPEPTKRFVEQIKTEECVVQSKPVEKPLVQFAKDVDAPQQGLAPSPESELTVPEGSRTQSLVLYPSVPLVPISPKHEHGRTHPLRRLRKTNEKKRTTNPLYNTM

Target ORF information:

RefSeq Version	XM_018248513.1
Organism	Xenopus laevis(African clawed frog)
Definition	Xenopus laevis protein phosphatase Slingshot homolog 2-like (LOC108708849), mRNA.

Target ORF information:

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

XM_018248513.1

ORF Insert Sequence:

ATGGCGTTGG TTACAGTGCA GAGATCCCCC AGCACCACCT CCTGCCCCTG CGTGTCGAAT 
CCCCAGTTGG AAGAAAGTGA CACTGAAGTA TTCTGCTGTC AGTATGAAGA TACAGAACTC 
TTTAATGGTA CCAATGAGAC TGACAGCGGA GAAGAAGAGT GTCGTTCCCA GCCCTGGAGC 
ATTAGTGAAA GTTTCCTGAC AGTAAAAGGT GCTGCTCTCT TCCTCCCACG AGGGAATGGC 
TCATCCACGC CGAGAATCAG CCACAGACGC AACAAACATG CAGGGGACTT GCAGCAGCAC 
CTACAGGCTA TGTTTACACT CCTCCGGCCT GAGGACAACA TCCGGTTGGC CGTAAAGTTG 
GAAAGTACGT ATCAGAACCG CACGCGATAT ATGGTCGTCG TTTCGACCAA TGGAAGGCAA 
GACACGGAAG AGAGCATTGT CCTGGGGATT GATTTTGCCA GCAATGACAG CAGTATGTGC 
TCCATGGGCC TTGTGCTTCC TCTCTGGAGT GACACACTTA TACATCTGGA TGGAGATGGA 
GGGTTCAGCG TGTCCACGGA TAACAGAGTT CACATCTTCA AGCCTGTGTC TGTACAAGCC 
ATGTGGTCTG CCTTGCAGAG TTTACACAAA GCTTGTGAGA TAGCCCGTGT CAATAACTAC 
TACGCTGGCA GTCTCTTTCT AACCTGGGTT AGTTACTATG AGAGTCACAT CAACTCTGAC 
CAGTGTTCAG TCAATGAATG GAATGCTATG CAAGATGTGC AGTCGCACCG CTCTGATTCC 
CCGGTGCTCT TCACTGATGT GAGGGGCTCC GAGTGGAATG CCTCCAATTT AGAAGACTTG 
CAGAACAGAG GGGTGAGGTA CATCTTGAAT GTTACACGCG AAATCGACAA CTTCTTCCCT 
GGGCTCTTTG AATATCACAA CATAAGAGTA TATGACGAGG AGGAAACCGA CCTGTTGGCT 
TATTGGAACG ATACCTACAA ATTCATCTCA AAGGCCAAGA AGCATGGTTT CAAATGCCTT 
GTGCACTGCA AAATGGGTGT GAGCCGCTCT GCATCGACTG TGATTGCCTA TGCCATGAAG 
GAGTATGGCT GGAACTTGGA CCGAGCCTTT GATTATGTGA AGGAGAGACG CACTGTAACC 
AAACCAAACC CAAGTTTCAT GAAGCAACTG GAGGAATATC AAGGCATTCT GCTTGCAAGC 
AAGCAGAGAC ACAACAAGCT GTGGCGCTCC TACTCGGACA GTGATCTCTC TGACCACCAC 
GAATCTGCGG GGAAACCCGG TTTGGAAATG AGTAAGAAGG ACATAACGTC TTCAGCAGAG 
CAGCTCTCAG ACGCACATCA TTCCTTTTCA TCGGGTCCGC ACACTGAGAA CTGCAACCCA 
CATTGCCCCA TGGATAGCAC CGTGTGCAAT AAAACTCAAG CACATTTTGA GTTTACATCT 
TGCGATTTTC ACACTGAACA GATAGAGGAC ATTTTGAATC TAAACACCAT GAATGGGTGT 
CCCTCGCGCT GCTGTTCAGA TGAGACAATA CTGGACAATT GTAGAATAGT CGATAAGGAT 
TTAACTCAGA ATCCAGAATC CTTTGCTGCT CAAGGTCAGT TGCCAGACCT GACACTAGAG 
GACATGGAGA AAGATGCACT AAAGCCTGAA GTCAACTGCC ACCATTTGCA TTTAGAAGGA 
CTCAATTCAG ACTTCAGAGA TTTACAAGAG TCCCCTGACC AATTGTCCAT GACCTCACAA 
TCAGAGGAAC ATAACAGGGA TAGGATTGAT TTTCTTAGTG CACTAGAAAA GTTTGTGGAA 
TTATCTCAGG AGAATCGCCC ACGGTCCTGT TCCACCACCC GCACAGATGA ACAAGTGAGC 
TCTGTCAAGA ATAGTGGCCA GAAAGCTTCC TGGCTTGAGA CCCCAATCTA CGATAGCCAA 
GTGGACAACC AGAGAATAAG CTCTAATGGA AGCACACCAC AGACTTCCGA AGACTCCTCT 
ACAGACGAGG AACAGCCAAA GGAGATCTCC GAACAGATGG TCCAAGAGCA TCTCCCAAAA 
TCTCACTCTG AAAACGCAAT ATCTGTGAAG GAAATCATTA CAGAAATAGA GTCTTTCAAC 
CAAGGAGCAG GCCAGTGCCA ACAGAAACCA GACACTCAGT CTAGCCAGTT GCAAACACCA 
AAGAGAAATA CCATCAATGA TCTGCCACAA GAATCTTCTT GGGATCAAGA AAATAACCAT 
AGGCAAGACC TGACTGACAG AAGCGCTCTG CTGAAAAATG ATAAAGCGAA GGACTCCAAA 
GTTGCTACTC GGGATAGTAA TCCAGTGTCT CAGGAGAATT GTGAGAATGC TAACGAAGCA 
AATGATTATC AGGAATTCTC CAGCCAAGCA CATAAATGGT GCCCTGGTTC TGTCCGAAGG 
GCCACTTTGG AACTGGAAGA ACGTTTGAGG CAAGAGCAGG AACAGCAGTA CTCAGCCGTT 
TTGCCAACAA GAAAGAACTC AAAGAATGAC TTTATTGTCT GCGATACTGC TCCAAAGGGA 
AAGCTTGAAG ACACTTTACT TGACAGTACA CATGGGGATC ACGAAAGCGA GAGAAAAATT 
AGGATTACAG GGTCCACAGA ACAGAACTCA TCTGAGCCAT GTGCAGATTT ATTGTCCTCT 
CCGCTATCTG AGCCTCCATG TTTGCTGTCC AAACCAGAGA GCCCTGTCTC TGATGATGAA 
ATAAAGCTCA AAGGAGCAAC AAATGAGTGT GAGACACTTG ATGCACTTGA AGCTGTTGAG 
AGGAAGATTG AACCAATAAA ACATCCTAAG AGAATAGAAA TAATAGAGTA TAGTATTGGC 
ATTAAGTCTC CAGACGACCA TGAACTTTCT CGGTGTGAGG GTGAGGTCAC TACTGGAGAG 
GTACTAATAG AGACAAAGAC ATCTATGATT CTGTCCCCGG AAACACCCTT TAAAGAGACC 
GCTGAAAATG AAACAGACAA TTCTCTGCAT GCGGATTCTT TAGCTTTGTC AGAGACATGC 
ATACTAGGGT CACCCACTGT TTTCTCTACA CTTGCCAGTC AATATGAAGA GCACAACAGT 
ATGACGTATC CAGGACCCTC AGCAGGCACA GATCCCTCTA TACAGCCAGA TCTACTGAGC 
ACTCTCTATC CATCTAATCT AGGCTCTATT TCACTGATGG GTGTCACTGA ACAGTGCTCC 
AGTACCGATG AGGATTTCAG CAAGCAGTTC AGTTGCACAG AGCGTTATCC TACGGATTTG 
TTTGAGGACT TTAATGAAAT GATTCGCAGA GAAACTGACA GTGCCTTGTC CCAGTGTAGC 
AGTGAAGATC TTAACTTGAT TAGCGCAGTC TCTGCAAATA TACTGGAGAT ACGAGAAGCG 
TTGGACATTC CTCCTTTATC CTTTGGCTTT GCTCGTTGCA CCAGTACTGA CAGCATTAAA 
TATTTGGGTG GCAACCCTTG CATTGTAAAG CAAGAGGCCA AGGAAATAGA GGCTCGAATT 
CGGCAAGCGG GCCTTACCAC TCCGTCCCAG ATGAAACGCT CGGCCTCTTT AGCCAAGCTT 
GGCTGTTTAG AACTGTCCAA AGATGACTTG TCAGAGAGGG AATCCGTTTC ATCCGACTGT 
CGGACTTACC CCGACCTGCT TCTGAGTTCA CTTAGGGTTG TGCCAGGGAA CCATGACATC 
TCACAAGATG TAAAATCTGA AGACCCAACG GAAAAGCTGT GCATCCTATC CACGCAGTTG 
TCTTCAGACC CGGAACCCAC CAAGCGTTTT GTTGAACAGA TCAAGACTGA AGAGTGTGTA 
GTTCAGAGCA AGCCAGTAGA AAAGCCCCTT GTGCAGTTTG CCAAAGACGT TGATGCCCCG 
CAACAGGGTT TAGCTCCTAG TCCAGAATCT GAACTGACTG TCCCAGAGGG GTCTCGAACG 
CAATCACTGG TACTATATCC ATCAGTCCCA TTGGTACCCA TATCCCCCAA ACATGAGCAC 
GGCAGAACTC ATCCGCTAAG GAGACTTAGA AAAACCAATG AAAAGAAGAG GACAACTAAT 
CCGCTATACA ATACCATGTG A

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

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LOC108708849 cDNA ORF clone, Xenopus laevis(African clawed frog)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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