cfap61 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	cfap61
Entrez Gene ID	779967
Full Name	cilia and flagella associated protein 61
Synonyms	c20orf26
General protein information	Preferred Names cilia and flagella associated protein 61 Names cilia- and flagella-associated protein 61
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_031901802.1	XP_031757662.1	cilia- and flagella-associated protein 61 isoform X1
XM_031901803.1	XP_031757663.1	cilia- and flagella-associated protein 61 isoform X2
NM_001079044.1	NP_001072512.1	cilia- and flagella-associated protein 61

Pathways from BioSystems

Homologies

	C10H20orf26	XP_001092059.1
Danio rerio (zebrafish)	si:zfos-223e1.2	XP_002665834.3
Homo sapiens (human)	C20orf26	NP_056400.3
Canis lupus familiaris (dog)	C24H20orf26	XP_534327.3
Rattus norvegicus (Norway rat)	RGD1311519	XP_002729252.2
Bos taurus (cattle)	C13H20orf26	XP_003586830.2
Gallus gallus (chicken)	C3H20ORF26	XP_419314.4
Xenopus tropicalis (tropical clawed frog)	c20orf26	NP_001072512.1

Gene Ontology
Bibliography

Related articles in PubMed

Genetic and genomic tools for Xenopus research: The NIH Xenopus initiative.
Klein SL, Strausberg RL, Wagner L, Pontius J, Clifton SW, Richardson P
Developmental dynamics : an official publication of the American Association of Anatomists225(4)384-91(2002 Dec)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following cfap61 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the cfap61 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)
OXa58097	XM_031901802.1 Latest version!	Xenopus tropicalis cilia and flagella associated protein 61 (cfap61), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OXa58098	XM_031901803.1 Latest version!	Xenopus tropicalis cilia and flagella associated protein 61 (cfap61), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OXa23057	NM_001079044.1 Latest version!	Xenopus tropicalis cilia and flagella associated protein 61 (cfap61), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$713.30 $1019.00

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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)

cfap61 ( XM_031901802.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031757662.1 Xenopus tropicalis cilia and flagella associated protein 61 (cfap61), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OXa58097
Clone ID Related Accession (Same CDS sequence)	XM_031901802.1
Accession Version	XM_031901802.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3555bp) 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	2019-12-17
Organism	Xenopus tropicalis(tropical clawed frog)
Product	cilia- and flagella-associated protein 61 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATAACTT TAACTTCATC AAGTGGAAGA AAGGACTTTG TTACTGTCAG AAGAACAGAA 
TCACTAGATG TTCATGGCAT CATTAAGCGA AAAACAACCA CCACAGAAAG GATATTTGGG 
AGAGTCAATG TCATATATCT GCTGGAGAAA GCAAACTTGG CTGTGACCGT CTACAGTGCA 
AAAAATGGTG TGGTGGCCAA TGCTGTCCTC TTGGATTATC CAAACTGCGA TATTGTGGAT 
CAGGCAGAGT GGGAGGAAAA GCTGCCTACA CACTATGAAG AGCTGAGCAA TTGCACACCT 
CTGAACACAC TGTTTCTGCA CCTTTTTGTG GCCAAAGACG AATATTCTGA GCAGTGTATT 
CAGGAGATCA TACGGGTGGT GTTCAATACA GCCCCATATC TGCACTTTAT ATGTCTTACA 
GCTCCACGGG ATGAAGCACT TGGTTTGGCT TTAGGGTCAG TGTTTCAGCA GACAAAAATC 
GTGTCTGCAT CAGCTCTTGC AAAGCAGCAT TCTCTGTACA TGTGTCATAG GCACAACCAC 
TGTCCACAGC TGTATGTCCG GAATGCAAGA GTGGAAGATT ATGATGATCT GATACCGATT 
TTTATGCGTC ACAATGATAC CCTTAAAGCT ACATATGGGG AATTCTTCCT TGCAGAGCTG 
ATCGAAGCTC AAGATGAGCA GAGCCACGCT ATTGTTAGTG AGGATAAGGG CAAAGCTGTG 
GGCTTTATGA GTGTGAGTTC TGAGATTAAC GCCAGACTGC TGCAGAGCTG CTTCGACTTG 
GGGCCTTTTC ATGGACTGTG CAAGCCACAT CCTGATGATA TTTTATATGC AAGTGAAAAA 
ACAAGCATTG AGAAAGATCT AATGTTAAGC AGACAAGACA GTAAGACTTC TGCTGCTGCG 
TTGTCACAAC AAGATAACAT CGATCACAAC ACAACAGACG AAAAGATAGA CTCAACGAAT 
GATGCAATTA CAGTCTCCAC TGGAAATGAT ACGATGGGGC CTAGAGAAGA GGATACATTG 
CAAGAACCCA ATGATTTAGT AAGCAGGGAT CCTGCTGCAG ATGATGCCAT CCAAACAAGG 
AATTGCAGGG CTCCAGAGAG CGGGAGCAAT GCAGCCGAGA GCCAGCATCC CCATCCTGTA 
TATAAAGGTG ATGTCACTGC CTTCAGTATC CAGCTGTTCT GTATCGATGA AAAACACGAG 
TCAAGGTCTG TGGATTTTTT GAGCTATGCA TTCAGTCTGT TCCCTGACAA AGACTTTTGC 
GTCATCACGG TTCCTCATCT GACACCCGAG TTTCCTCTTC TTCAAAACTT TGTACGCGTA 
GTCCCTTTGA GCACCTGCAC TTTATCCCAG GAACTGTATG TGTTCCATCG CGCTGCTCTT 
ATTAGCTCAA TAAAAGTCAG AGCAGTGAGG AGCAATGATA TACACAATAT CAGAAGCCTC 
CTAGAGACCC TACACCCTCA AGAAAGCATT TTGGGTGATT TGCAAATCTA CAACCAAGCA 
CGGAGAGATG ATGACGGGAC CCCTGTTCAA GCTTTTGTAG CTGAAGTTGC AAATCAGATT 
GTCGGTGTTT CTGTTATCAG AAATGAAAAG GACATTGAGT ATATTCACTC ACACTACAAT 
ATTGAGGATT TTATCTACTT CAATCACCAC CAATGGGAGG AACACGGGCA CCTTCACCAT 
TTTGCTCTAA ATCCAATATT TATGCACTTT GGAAGGCATT TCCTTAAAGA AATCCTGCGG 
CTATCCCACA AGTCTGCTCT ATATTACCCT ATATATCCCT CATGTAATAA AGAACAATTT 
AAGAATCCCT GTGCCCATTC TCTGTCATCT GCCCTTCATT ATATGGTTCC CGTGCGACCA 
AGACGACAGA TTGTCTTTCC TCTGGAAAAG CTTGGCATAA ATGCTCCATC AAAGCAGGTC 
TCCAAGGATC AGCCAAGCTA CTCATTAAAC CACTTTAATC GGAAACTTAC CTTAGAGCCC 
AAGGTGACCA TCAATGCCCG CATTGTCGTA GTAGGAGCGT CTGAGGTTGG AATCTCTTTT 
ATGGAAACTC TTGTTTTTTG TCCTCACTTG AAGTTCAATA ACATTACATT GATTTCATCC 
ACTGGGCTTC CTGAGAATAC ACCAATTTCT ACCCAGGAAC ATGGCTTTCT TTCTACCAGC 
CACAGCTATA ACGATAAAGA TTATGCACTG ATGTCACTTC GATCCTGGGT TAATGTTGTG 
GTTGGTAAAA TGAGTGGCAT AGACAGGGCT GCCAAGTTTG TCATAGTTGC CAATGGCAGA 
AAAGTGCCAT ATGACCATCT CATTCTTTGT ACTGGGCAAC AATACCAGGT TCCCTGCCCT 
ACAGAAGCAG ATGTCCGTAA GCTTCTGACT AATAAAGAAG CCCCAGTGTC TTCAAATCAG 
AGGTACACAG GCAAAATTCC TTCAAATCTC TTTACCCTAC AAAACAGGCA GGACTGCTTG 
GCGGCAATGA GATTTTTGAA AGACAGTGTT GTCAAGCAAG AAGGTAATGT GATTGTGTAT 
GGGAATACAC TTGACTGTTA CACTACACTT TCTACCCTTT TATCACTTGG AATTAGTGGA 
AGTCGCATCC ATCTGGTACA GCCACCACTT ACGATGAATG TTACTTGCTT TAACAACTAT 
GCTATAGAAG AAGCTGTACA GAAAGCCTTA TTGGCTGAAG GGATATCATC CTACTGCAAC 
TGCGTATTAG CACAGTGGAA TGACGGGGCA CATCCAGACC CAATATGTTT TGCGACATTC 
ACCAGCGACA CAAAACCTCT GAGATTACAG TGCTCTGCAT TTTTTAACTT TTCTCGGAAA 
AGTGTGGACT ATGAAGCCTT CAAAGCAATA AATGATGCCT GCCTAGTTTA TGATGGAAGG 
CTTGTCATTG ATACAACATT TCACACAAAT GATGATTCCA TAAGAGCAGC AGGAACCTTA 
ACGAAATACT CCAATCGTTA TCACGCAAGT GAATGGTCAC ATAGCAATTT CAGCTCTAAA 
GAAATCGGCT TCCAGCTTGC TGCTAATATG CTTAATATTT TCGATCCGAC ACTTGAGCCA 
GTCATTGAAT TCACAGACGA ATTTGACAGA CTCATCCCAA TCTACAAAGG ACCTGTAATT 
CAAGGTGGTA TCATTCCTGG GGGCTTCCAT TACTTACATG TAAACAAACC TGCAATTCCC 
TGTCCTTTAA AGGCTCAAAT GGCACAGGCT CATTATGGAC GGGAGATAGT AACAGGAAGT 
GCAGTGGATG GAGATTACTT CCGGCTACAC ATCAATCAAT ACAATATGGT GGAATCTATT 
ACCTGCCTAT CACAAAAACC TTTTCCAGAG TCCAATTACA TATGTCTGTA CGGCCATCAT 
GAGCGACTGC TGAACAATCT GTGTGCTCGA TTTGATGAGG GGCTCATCAA GGACTTGTAC 
AGCTACTTCA TGGAAGCATG GTGCATGGCC ATCTATCACG ATCGCTTTAT CGATTTCCAG 
CAAGAGGTGC GCGAGATGCT AGCAGCTGAG CAAATTTCCA GTGTCATTGC AGTTGCAAGG 
GGGCGATGCA CTTAG

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

RefSeq	XP_031757662.1
CDS	150..3704
Translation	MITLTSSSGRKDFVTVRRTESLDVHGIIKRKTTTTERIFGRVNVIYLLEKANLAVTVYSAKNGVVANAVLLDYPNCDIVDQAEWEEKLPTHYEELSNCTPLNTLFLHLFVAKDEYSEQCIQEIIRVVFNTAPYLHFICLTAPRDEALGLALGSVFQQTKIVSASALAKQHSLYMCHRHNHCPQLYVRNARVEDYDDLIPIFMRHNDTLKATYGEFFLAELIEAQDEQSHAIVSEDKGKAVGFMSVSSEINARLLQSCFDLGPFHGLCKPHPDDILYASEKTSIEKDLMLSRQDSKTSAAALSQQDNIDHNTTDEKIDSTNDAITVSTGNDTMGPREEDTLQEPNDLVSRDPAADDAIQTRNCRAPESGSNAAESQHPHPVYKGDVTAFSIQLFCIDEKHESRSVDFLSYAFSLFPDKDFCVITVPHLTPEFPLLQNFVRVVPLSTCTLSQELYVFHRAALISSIKVRAVRSNDIHNIRSLLETLHPQESILGDLQIYNQARRDDDGTPVQAFVAEVANQIVGVSVIRNEKDIEYIHSHYNIEDFIYFNHHQWEEHGHLHHFALNPIFMHFGRHFLKEILRLSHKSALYYPIYPSCNKEQFKNPCAHSLSSALHYMVPVRPRRQIVFPLEKLGINAPSKQVSKDQPSYSLNHFNRKLTLEPKVTINARIVVVGASEVGISFMETLVFCPHLKFNNITLISSTGLPENTPISTQEHGFLSTSHSYNDKDYALMSLRSWVNVVVGKMSGIDRAAKFVIVANGRKVPYDHLILCTGQQYQVPCPTEADVRKLLTNKEAPVSSNQRYTGKIPSNLFTLQNRQDCLAAMRFLKDSVVKQEGNVIVYGNTLDCYTTLSTLLSLGISGSRIHLVQPPLTMNVTCFNNYAIEEAVQKALLAEGISSYCNCVLAQWNDGAHPDPICFATFTSDTKPLRLQCSAFFNFSRKSVDYEAFKAINDACLVYDGRLVIDTTFHTNDDSIRAAGTLTKYSNRYHASEWSHSNFSSKEIGFQLAANMLNIFDPTLEPVIEFTDEFDRLIPIYKGPVIQGGIIPGGFHYLHVNKPAIPCPLKAQMAQAHYGREIVTGSAVDGDYFRLHINQYNMVESITCLSQKPFPESNYICLYGHHERLLNNLCARFDEGLIKDLYSYFMEAWCMAIYHDRFIDFQQEVREMLAAEQISSVIAVARGRCT

Target ORF information:

RefSeq Version	XM_031901802.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis cilia and flagella associated protein 61 (cfap61), transcript variant X1, mRNA.

Target ORF information:

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

XM_031901802.1

ORF Insert Sequence:

ATGATAACTT TAACTTCATC AAGTGGAAGA AAGGACTTTG TTACTGTCAG AAGAACAGAA 
TCACTAGATG TTCATGGCAT CATTAAGCGA AAAACAACCA CCACAGAAAG GATATTTGGG 
AGAGTCAATG TCATATATCT GCTGGAGAAA GCAAACTTGG CTGTGACCGT CTACAGTGCA 
AAAAATGGTG TGGTGGCCAA TGCTGTCCTC TTGGATTATC CAAACTGCGA TATTGTGGAT 
CAGGCAGAGT GGGAGGAAAA GCTGCCTACA CACTATGAAG AGCTGAGCAA TTGCACACCT 
CTGAACACAC TGTTTCTGCA CCTTTTTGTG GCCAAAGACG AATATTCTGA GCAGTGTATT 
CAGGAGATCA TACGGGTGGT GTTCAATACA GCCCCATATC TGCACTTTAT ATGTCTTACA 
GCTCCACGGG ATGAAGCACT TGGTTTGGCT TTAGGGTCAG TGTTTCAGCA GACAAAAATC 
GTGTCTGCAT CAGCTCTTGC AAAGCAGCAT TCTCTGTACA TGTGTCATAG GCACAACCAC 
TGTCCACAGC TGTATGTCCG GAATGCAAGA GTGGAAGATT ATGATGATCT GATACCGATT 
TTTATGCGTC ACAATGATAC CCTTAAAGCT ACATATGGGG AATTCTTCCT TGCAGAGCTG 
ATCGAAGCTC AAGATGAGCA GAGCCACGCT ATTGTTAGTG AGGATAAGGG CAAAGCTGTG 
GGCTTTATGA GTGTGAGTTC TGAGATTAAC GCCAGACTGC TGCAGAGCTG CTTCGACTTG 
GGGCCTTTTC ATGGACTGTG CAAGCCACAT CCTGATGATA TTTTATATGC AAGTGAAAAA 
ACAAGCATTG AGAAAGATCT AATGTTAAGC AGACAAGACA GTAAGACTTC TGCTGCTGCG 
TTGTCACAAC AAGATAACAT CGATCACAAC ACAACAGACG AAAAGATAGA CTCAACGAAT 
GATGCAATTA CAGTCTCCAC TGGAAATGAT ACGATGGGGC CTAGAGAAGA GGATACATTG 
CAAGAACCCA ATGATTTAGT AAGCAGGGAT CCTGCTGCAG ATGATGCCAT CCAAACAAGG 
AATTGCAGGG CTCCAGAGAG CGGGAGCAAT GCAGCCGAGA GCCAGCATCC CCATCCTGTA 
TATAAAGGTG ATGTCACTGC CTTCAGTATC CAGCTGTTCT GTATCGATGA AAAACACGAG 
TCAAGGTCTG TGGATTTTTT GAGCTATGCA TTCAGTCTGT TCCCTGACAA AGACTTTTGC 
GTCATCACGG TTCCTCATCT GACACCCGAG TTTCCTCTTC TTCAAAACTT TGTACGCGTA 
GTCCCTTTGA GCACCTGCAC TTTATCCCAG GAACTGTATG TGTTCCATCG CGCTGCTCTT 
ATTAGCTCAA TAAAAGTCAG AGCAGTGAGG AGCAATGATA TACACAATAT CAGAAGCCTC 
CTAGAGACCC TACACCCTCA AGAAAGCATT TTGGGTGATT TGCAAATCTA CAACCAAGCA 
CGGAGAGATG ATGACGGGAC CCCTGTTCAA GCTTTTGTAG CTGAAGTTGC AAATCAGATT 
GTCGGTGTTT CTGTTATCAG AAATGAAAAG GACATTGAGT ATATTCACTC ACACTACAAT 
ATTGAGGATT TTATCTACTT CAATCACCAC CAATGGGAGG AACACGGGCA CCTTCACCAT 
TTTGCTCTAA ATCCAATATT TATGCACTTT GGAAGGCATT TCCTTAAAGA AATCCTGCGG 
CTATCCCACA AGTCTGCTCT ATATTACCCT ATATATCCCT CATGTAATAA AGAACAATTT 
AAGAATCCCT GTGCCCATTC TCTGTCATCT GCCCTTCATT ATATGGTTCC CGTGCGACCA 
AGACGACAGA TTGTCTTTCC TCTGGAAAAG CTTGGCATAA ATGCTCCATC AAAGCAGGTC 
TCCAAGGATC AGCCAAGCTA CTCATTAAAC CACTTTAATC GGAAACTTAC CTTAGAGCCC 
AAGGTGACCA TCAATGCCCG CATTGTCGTA GTAGGAGCGT CTGAGGTTGG AATCTCTTTT 
ATGGAAACTC TTGTTTTTTG TCCTCACTTG AAGTTCAATA ACATTACATT GATTTCATCC 
ACTGGGCTTC CTGAGAATAC ACCAATTTCT ACCCAGGAAC ATGGCTTTCT TTCTACCAGC 
CACAGCTATA ACGATAAAGA TTATGCACTG ATGTCACTTC GATCCTGGGT TAATGTTGTG 
GTTGGTAAAA TGAGTGGCAT AGACAGGGCT GCCAAGTTTG TCATAGTTGC CAATGGCAGA 
AAAGTGCCAT ATGACCATCT CATTCTTTGT ACTGGGCAAC AATACCAGGT TCCCTGCCCT 
ACAGAAGCAG ATGTCCGTAA GCTTCTGACT AATAAAGAAG CCCCAGTGTC TTCAAATCAG 
AGGTACACAG GCAAAATTCC TTCAAATCTC TTTACCCTAC AAAACAGGCA GGACTGCTTG 
GCGGCAATGA GATTTTTGAA AGACAGTGTT GTCAAGCAAG AAGGTAATGT GATTGTGTAT 
GGGAATACAC TTGACTGTTA CACTACACTT TCTACCCTTT TATCACTTGG AATTAGTGGA 
AGTCGCATCC ATCTGGTACA GCCACCACTT ACGATGAATG TTACTTGCTT TAACAACTAT 
GCTATAGAAG AAGCTGTACA GAAAGCCTTA TTGGCTGAAG GGATATCATC CTACTGCAAC 
TGCGTATTAG CACAGTGGAA TGACGGGGCA CATCCAGACC CAATATGTTT TGCGACATTC 
ACCAGCGACA CAAAACCTCT GAGATTACAG TGCTCTGCAT TTTTTAACTT TTCTCGGAAA 
AGTGTGGACT ATGAAGCCTT CAAAGCAATA AATGATGCCT GCCTAGTTTA TGATGGAAGG 
CTTGTCATTG ATACAACATT TCACACAAAT GATGATTCCA TAAGAGCAGC AGGAACCTTA 
ACGAAATACT CCAATCGTTA TCACGCAAGT GAATGGTCAC ATAGCAATTT CAGCTCTAAA 
GAAATCGGCT TCCAGCTTGC TGCTAATATG CTTAATATTT TCGATCCGAC ACTTGAGCCA 
GTCATTGAAT TCACAGACGA ATTTGACAGA CTCATCCCAA TCTACAAAGG ACCTGTAATT 
CAAGGTGGTA TCATTCCTGG GGGCTTCCAT TACTTACATG TAAACAAACC TGCAATTCCC 
TGTCCTTTAA AGGCTCAAAT GGCACAGGCT CATTATGGAC GGGAGATAGT AACAGGAAGT 
GCAGTGGATG GAGATTACTT CCGGCTACAC ATCAATCAAT ACAATATGGT GGAATCTATT 
ACCTGCCTAT CACAAAAACC TTTTCCAGAG TCCAATTACA TATGTCTGTA CGGCCATCAT 
GAGCGACTGC TGAACAATCT GTGTGCTCGA TTTGATGAGG GGCTCATCAA GGACTTGTAC 
AGCTACTTCA TGGAAGCATG GTGCATGGCC ATCTATCACG ATCGCTTTAT CGATTTCCAG 
CAAGAGGTGC GCGAGATGCT AGCAGCTGAG CAAATTTCCA GTGTCATTGC AGTTGCAAGG 
GGGCGATGCA CTTAG

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

cfap61 ( XM_031901803.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031757663.1 Xenopus tropicalis cilia and flagella associated protein 61 (cfap61), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OXa58098
Clone ID Related Accession (Same CDS sequence)	XM_031901803.1
Accession Version	XM_031901803.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3462bp) 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	2019-12-17
Organism	Xenopus tropicalis(tropical clawed frog)
Product	cilia- and flagella-associated protein 61 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATAACTT TAACTTCATC AAGTGGAAGA AAGGACTTTG TTACTGTCAG AAGAACAGAA 
TCACTAGATG TTCATGGCAT CATTAAGCGA AAAACAACCA CCACAGAAAG GATATTTGGG 
AGAGTCAATG TCATATATCT GCTGGAGAAA GCAAACTTGG CTGTGACCGT CTACAGTGCA 
AAAAATGGTG TGGTGGCCAA TGCTGTCCTC TTGGATTATC CAAACTGCGA TATTGTGGAT 
CAGGCAGAGT GGGAGGAAAA GCTGCCTACA CACTATGAAG AGCTGAGCAA TTGCACACCT 
CTGAACACAC TGTTTCTGCA CCTTTTTGTG GCCAAAGACG AATATTCTGA GCAGTGTATT 
CAGGAGATCA TACGGGTGGT GTTCAATACA GCCCCATATC TGCACTTTAT ATGTCTTACA 
GCTCCACGGG ATGAAGCACT TGGTTTGGCT TTAGGGTCAG TGTTTCAGCA GACAAAAATC 
GTGTCTGCAT CAGCTCTTGC AAAGCAGCAT TCTCTGTACA TGTGTCATAG GCACAACCAC 
TGTCCACAGC TGTATGTCCG GAATGCAAGA GTGGAAGATT ATGATGATCT GATACCGATT 
TTTATGCGTC ACAATGATAC CCTTAAAGCT ACATATGGGG AATTCTTCCT TGCAGAGCTG 
ATCGAAGCTC AAGATGAGCA GAGCCACGCT ATTGTTAGTG AGGATAAGGG CAAAGCTGTG 
GGCTTTATGA GTGTGAGTTC TGAGATTAAC GCCAGACTGC TGCAGAGCTG CTTCGACTTG 
GGGCCTTTTC ATGGACTGTG CAAGCCACAT CCTGATGATA TTTTATATGC AAGTGAAAAA 
ACAAGCATTG AGAAAGATCT AATGTTAAGC AGACAAGACA GTAAGACTTC TGCTGCTGCG 
TTGTCACAAC AAGATAACAT CGATCACAAC ACAACAGACG AAAAGATAGA CTCAACGAAT 
GATGCAATTA CAGTCTCCAC TGGAAATGAT ACGATGGGGC CTAGAGAAGA GGATACATTG 
CAAGAACCCA ATGATTTAGT AAGCAGGGAT CCTGCTGCAG ATGATGCCAT CCAAACAAGG 
AATTGCAGGG CTCCAGAGAG CGGGAGCAAT GCAGCCGAGA GCCAGCATCC CCATCCTGTA 
TATAAAGGTG ATGTCACTGC CTTCAGTATC CAGCTGTTCT GTATCGATGA AAAACACGAG 
TCAAGGTCTG TGGATTTTTT GAGCTATGCA TTCAGTCTGT TCCCTGACAA AGACTTTTGC 
GTCATCACGG TTCCTCATCT GACACCCGAG TTTCCTCTTC TTCAAAACTT TGTACGCGTA 
GTCCCTTTGA GCACCTGCAC TTTATCCCAG GAACTGTATG TGTTCCATCG CGCTGCTCTT 
ATTAGCTCAA TAAAAGTCAG AGCAGTGAGG AGCAATGATA TACACAATAT CAGAAGCCTC 
CTAGAGACCC TACACCCTCA AGAAAGCATT TTGGGTGATT TGCAAATCTA CAACCAAGCA 
CGGAGAGATG ATGACGGGAC CCCTGTTCAA GCTTTTGTAG CTGAAGTTGC AAATCAGATT 
GTCGGTGTTT CTGTTATCAG AAATGAAAAG GACATTGAGT ATATTCACTC ACACTACAAT 
ATTGAGGATT TTATCTACTT CAATCACCAC CAATGGGAGG AACACGGGCA CCTTCACCAT 
TTTGCTCTAA ATCCAATATT TATGCACTTT GGAAGGCATT TCCTTAAAGA AATCCTGCGG 
CTATCCCACA AGTCTGCTCT ATATTACCCT ATATATCCCT CATGTAATAA AGAACAATTT 
AAGAATCCCT GTGCCCATTC TCTGTCATCT GCCCTTCATT ATATGGTTCC CGTGCGACCA 
AGACGACAGA TTGTCTTTCC TCTGGAAAAG CTTGGCATAA ATGCTCCATC AAAGCAGGTC 
TCCAAGGATC AGCCAAGCTA CTCATTAAAC CACTTTAATC GGAAACTTAC CTTAGAGCCC 
AAGGTGACCA TCAATGCCCG CATTGTCGTA GTAGGAGCGT CTGAGGTTGG AATCTCTTTT 
ATGGAAACTC TTGTTTTTTG TCCTCACTTG AAGTTCAATA ACATTACATT GATTTCATCC 
ACTGGGCTTC CTGAGAATAC ACCAATTTCT ACCCAGGAAC ATGGCTTTCT TTCTACCAGC 
CACAGCTATA ACGATAAAGA TTATGCACTG ATGTCACTTC GATCCTGGGT TAATGTTGTG 
GTTGGTAAAA TGAGTGGCAT AGACAGGGCT GCCAAGTTTG TCATAGTTGC CAATGGCAGA 
AAAGTGCCAT ATGACCATCT CATTCTTTGT ACTGGGCAAC AATACCAGGT TCCCTGCCCT 
ACAGAAGCAG ATGTCCGTAA GCTTCTGACT AATAAAGAAG CCCCAGTGTC TTCAAATCAG 
AGGTACACAG GCAAAATTCC TTCAAATCTC TTTACCCTAC AAAACAGGCA GGACTGCTTG 
GCGGCAATGA GATTTTTGAA AGACAGTGTT GTCAAGCAAG AAGGTAATGT GATTGTGTAT 
GGGAATACAC TTGACTGTTA CACTACACTT TCTACCCTTT TATCACTTGG AATTAGTGGA 
AGTCGCATCC ATCTGGTACA GCCACCACTT ACGATGAATG TTACTTGCTT TAACAACTAT 
GCTATAGAAG AAGCTGTACA GAAAGCCTTA TTGGCTGAAG GGATATCATC CTACTGCAAC 
TGCGTATTAG CACAGTGGAA TGACGGGGCA CATCCAGACC CAATATGTTT TGCGACATTC 
ACCAGCGACA CAAAACCTCT GAGATTACAG TGCTCTGCAT TTTTTAACTT TTCTCGGAAA 
AGTGTGGACT ATGAAGCCTT CAAAGCAATA AATGATGCCT GCCTAGTTTA TGATGGAAGG 
CTTGTCATTG ATACAACATT TCACACAAAT GATGATTCCA TAAGAGCAGC AGGAACCTTA 
ACGAAATACT CCAATCGTTA TCACGCAAGT GAATGGTCAC ATAGCAATTT CAGCTCTAAA 
GAAATCGGCT TCCAGCTTGC TGCTAATATG CTTAATATTT TCGATCCGAC ACTTGAGCCA 
GTCATTGAAT TCACAGACGA ATTTGACAGA CTCATCCCAA TCTACAAAGG ACCTGTAATT 
CAAGGTGGTA TCATTCCTGG GGGCTTCCAT TACTTACATG TAAACAAACC TGCAATTCCC 
TGTCCTTTAA AGGCTCAAAT GGCACAGGCT CATTATGGAC GGGAGATAGT AACAGGAAGT 
GCAGTGGATG GAGATTACTT CCGGCTACAC ATCAATCAAT ACAATATGGT GGAATCTATT 
ACCTGCCTAT CACAAAAACC TTTTCCAGAG TCCAATTACA TATGTCTGTA CGGCCATCAT 
GAGCGACTGC TGAACAATCT GTGTGCTCGA TTTGATGAGG GGCTCATCAA GGACTTGTAC 
AGCCTTTACA GATGCCTAGC ACGCCATGCT GGATGGATCT GA

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

RefSeq	XP_031757663.1
CDS	150..3611
Translation	MITLTSSSGRKDFVTVRRTESLDVHGIIKRKTTTTERIFGRVNVIYLLEKANLAVTVYSAKNGVVANAVLLDYPNCDIVDQAEWEEKLPTHYEELSNCTPLNTLFLHLFVAKDEYSEQCIQEIIRVVFNTAPYLHFICLTAPRDEALGLALGSVFQQTKIVSASALAKQHSLYMCHRHNHCPQLYVRNARVEDYDDLIPIFMRHNDTLKATYGEFFLAELIEAQDEQSHAIVSEDKGKAVGFMSVSSEINARLLQSCFDLGPFHGLCKPHPDDILYASEKTSIEKDLMLSRQDSKTSAAALSQQDNIDHNTTDEKIDSTNDAITVSTGNDTMGPREEDTLQEPNDLVSRDPAADDAIQTRNCRAPESGSNAAESQHPHPVYKGDVTAFSIQLFCIDEKHESRSVDFLSYAFSLFPDKDFCVITVPHLTPEFPLLQNFVRVVPLSTCTLSQELYVFHRAALISSIKVRAVRSNDIHNIRSLLETLHPQESILGDLQIYNQARRDDDGTPVQAFVAEVANQIVGVSVIRNEKDIEYIHSHYNIEDFIYFNHHQWEEHGHLHHFALNPIFMHFGRHFLKEILRLSHKSALYYPIYPSCNKEQFKNPCAHSLSSALHYMVPVRPRRQIVFPLEKLGINAPSKQVSKDQPSYSLNHFNRKLTLEPKVTINARIVVVGASEVGISFMETLVFCPHLKFNNITLISSTGLPENTPISTQEHGFLSTSHSYNDKDYALMSLRSWVNVVVGKMSGIDRAAKFVIVANGRKVPYDHLILCTGQQYQVPCPTEADVRKLLTNKEAPVSSNQRYTGKIPSNLFTLQNRQDCLAAMRFLKDSVVKQEGNVIVYGNTLDCYTTLSTLLSLGISGSRIHLVQPPLTMNVTCFNNYAIEEAVQKALLAEGISSYCNCVLAQWNDGAHPDPICFATFTSDTKPLRLQCSAFFNFSRKSVDYEAFKAINDACLVYDGRLVIDTTFHTNDDSIRAAGTLTKYSNRYHASEWSHSNFSSKEIGFQLAANMLNIFDPTLEPVIEFTDEFDRLIPIYKGPVIQGGIIPGGFHYLHVNKPAIPCPLKAQMAQAHYGREIVTGSAVDGDYFRLHINQYNMVESITCLSQKPFPESNYICLYGHHERLLNNLCARFDEGLIKDLYSLYRCLARHAGWI

Target ORF information:

RefSeq Version	XM_031901803.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis cilia and flagella associated protein 61 (cfap61), transcript variant X2, mRNA.

Target ORF information:

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

XM_031901803.1

ORF Insert Sequence:

ATGATAACTT TAACTTCATC AAGTGGAAGA AAGGACTTTG TTACTGTCAG AAGAACAGAA 
TCACTAGATG TTCATGGCAT CATTAAGCGA AAAACAACCA CCACAGAAAG GATATTTGGG 
AGAGTCAATG TCATATATCT GCTGGAGAAA GCAAACTTGG CTGTGACCGT CTACAGTGCA 
AAAAATGGTG TGGTGGCCAA TGCTGTCCTC TTGGATTATC CAAACTGCGA TATTGTGGAT 
CAGGCAGAGT GGGAGGAAAA GCTGCCTACA CACTATGAAG AGCTGAGCAA TTGCACACCT 
CTGAACACAC TGTTTCTGCA CCTTTTTGTG GCCAAAGACG AATATTCTGA GCAGTGTATT 
CAGGAGATCA TACGGGTGGT GTTCAATACA GCCCCATATC TGCACTTTAT ATGTCTTACA 
GCTCCACGGG ATGAAGCACT TGGTTTGGCT TTAGGGTCAG TGTTTCAGCA GACAAAAATC 
GTGTCTGCAT CAGCTCTTGC AAAGCAGCAT TCTCTGTACA TGTGTCATAG GCACAACCAC 
TGTCCACAGC TGTATGTCCG GAATGCAAGA GTGGAAGATT ATGATGATCT GATACCGATT 
TTTATGCGTC ACAATGATAC CCTTAAAGCT ACATATGGGG AATTCTTCCT TGCAGAGCTG 
ATCGAAGCTC AAGATGAGCA GAGCCACGCT ATTGTTAGTG AGGATAAGGG CAAAGCTGTG 
GGCTTTATGA GTGTGAGTTC TGAGATTAAC GCCAGACTGC TGCAGAGCTG CTTCGACTTG 
GGGCCTTTTC ATGGACTGTG CAAGCCACAT CCTGATGATA TTTTATATGC AAGTGAAAAA 
ACAAGCATTG AGAAAGATCT AATGTTAAGC AGACAAGACA GTAAGACTTC TGCTGCTGCG 
TTGTCACAAC AAGATAACAT CGATCACAAC ACAACAGACG AAAAGATAGA CTCAACGAAT 
GATGCAATTA CAGTCTCCAC TGGAAATGAT ACGATGGGGC CTAGAGAAGA GGATACATTG 
CAAGAACCCA ATGATTTAGT AAGCAGGGAT CCTGCTGCAG ATGATGCCAT CCAAACAAGG 
AATTGCAGGG CTCCAGAGAG CGGGAGCAAT GCAGCCGAGA GCCAGCATCC CCATCCTGTA 
TATAAAGGTG ATGTCACTGC CTTCAGTATC CAGCTGTTCT GTATCGATGA AAAACACGAG 
TCAAGGTCTG TGGATTTTTT GAGCTATGCA TTCAGTCTGT TCCCTGACAA AGACTTTTGC 
GTCATCACGG TTCCTCATCT GACACCCGAG TTTCCTCTTC TTCAAAACTT TGTACGCGTA 
GTCCCTTTGA GCACCTGCAC TTTATCCCAG GAACTGTATG TGTTCCATCG CGCTGCTCTT 
ATTAGCTCAA TAAAAGTCAG AGCAGTGAGG AGCAATGATA TACACAATAT CAGAAGCCTC 
CTAGAGACCC TACACCCTCA AGAAAGCATT TTGGGTGATT TGCAAATCTA CAACCAAGCA 
CGGAGAGATG ATGACGGGAC CCCTGTTCAA GCTTTTGTAG CTGAAGTTGC AAATCAGATT 
GTCGGTGTTT CTGTTATCAG AAATGAAAAG GACATTGAGT ATATTCACTC ACACTACAAT 
ATTGAGGATT TTATCTACTT CAATCACCAC CAATGGGAGG AACACGGGCA CCTTCACCAT 
TTTGCTCTAA ATCCAATATT TATGCACTTT GGAAGGCATT TCCTTAAAGA AATCCTGCGG 
CTATCCCACA AGTCTGCTCT ATATTACCCT ATATATCCCT CATGTAATAA AGAACAATTT 
AAGAATCCCT GTGCCCATTC TCTGTCATCT GCCCTTCATT ATATGGTTCC CGTGCGACCA 
AGACGACAGA TTGTCTTTCC TCTGGAAAAG CTTGGCATAA ATGCTCCATC AAAGCAGGTC 
TCCAAGGATC AGCCAAGCTA CTCATTAAAC CACTTTAATC GGAAACTTAC CTTAGAGCCC 
AAGGTGACCA TCAATGCCCG CATTGTCGTA GTAGGAGCGT CTGAGGTTGG AATCTCTTTT 
ATGGAAACTC TTGTTTTTTG TCCTCACTTG AAGTTCAATA ACATTACATT GATTTCATCC 
ACTGGGCTTC CTGAGAATAC ACCAATTTCT ACCCAGGAAC ATGGCTTTCT TTCTACCAGC 
CACAGCTATA ACGATAAAGA TTATGCACTG ATGTCACTTC GATCCTGGGT TAATGTTGTG 
GTTGGTAAAA TGAGTGGCAT AGACAGGGCT GCCAAGTTTG TCATAGTTGC CAATGGCAGA 
AAAGTGCCAT ATGACCATCT CATTCTTTGT ACTGGGCAAC AATACCAGGT TCCCTGCCCT 
ACAGAAGCAG ATGTCCGTAA GCTTCTGACT AATAAAGAAG CCCCAGTGTC TTCAAATCAG 
AGGTACACAG GCAAAATTCC TTCAAATCTC TTTACCCTAC AAAACAGGCA GGACTGCTTG 
GCGGCAATGA GATTTTTGAA AGACAGTGTT GTCAAGCAAG AAGGTAATGT GATTGTGTAT 
GGGAATACAC TTGACTGTTA CACTACACTT TCTACCCTTT TATCACTTGG AATTAGTGGA 
AGTCGCATCC ATCTGGTACA GCCACCACTT ACGATGAATG TTACTTGCTT TAACAACTAT 
GCTATAGAAG AAGCTGTACA GAAAGCCTTA TTGGCTGAAG GGATATCATC CTACTGCAAC 
TGCGTATTAG CACAGTGGAA TGACGGGGCA CATCCAGACC CAATATGTTT TGCGACATTC 
ACCAGCGACA CAAAACCTCT GAGATTACAG TGCTCTGCAT TTTTTAACTT TTCTCGGAAA 
AGTGTGGACT ATGAAGCCTT CAAAGCAATA AATGATGCCT GCCTAGTTTA TGATGGAAGG 
CTTGTCATTG ATACAACATT TCACACAAAT GATGATTCCA TAAGAGCAGC AGGAACCTTA 
ACGAAATACT CCAATCGTTA TCACGCAAGT GAATGGTCAC ATAGCAATTT CAGCTCTAAA 
GAAATCGGCT TCCAGCTTGC TGCTAATATG CTTAATATTT TCGATCCGAC ACTTGAGCCA 
GTCATTGAAT TCACAGACGA ATTTGACAGA CTCATCCCAA TCTACAAAGG ACCTGTAATT 
CAAGGTGGTA TCATTCCTGG GGGCTTCCAT TACTTACATG TAAACAAACC TGCAATTCCC 
TGTCCTTTAA AGGCTCAAAT GGCACAGGCT CATTATGGAC GGGAGATAGT AACAGGAAGT 
GCAGTGGATG GAGATTACTT CCGGCTACAC ATCAATCAAT ACAATATGGT GGAATCTATT 
ACCTGCCTAT CACAAAAACC TTTTCCAGAG TCCAATTACA TATGTCTGTA CGGCCATCAT 
GAGCGACTGC TGAACAATCT GTGTGCTCGA TTTGATGAGG GGCTCATCAA GGACTTGTAC 
AGCCTTTACA GATGCCTAGC ACGCCATGCT GGATGGATCT GA

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

cfap61 ( NM_001079044.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> NP_001072512.1 Xenopus tropicalis cilia and flagella associated protein 61 (cfap61), mRNA.

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CloneID	OXa23057
Clone ID Related Accession (Same CDS sequence)	NM_001079044.1
Accession Version	NM_001079044.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3714bp) 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	2019-12-21
Organism	Xenopus tropicalis(tropical clawed frog)
Product	cilia- and flagella-associated protein 61
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC121953.1. ##Evidence-Data-START## Transcript exon combination :: BC121953.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMD00028290, SAMD00028291 [ECO:0000350] ##Evidence-Data-END##

ATGATAACTT TAACTTCATC AAGTGGAAGA AAGGACTTTG TTACTGTCAG AAGAACAGAA 
TCACTAGATG TTCATGGCAT CATTAAGCGA AAAACAACCA CCACAGAAAG GATATTTGGG 
AGAGTCAATG TCATATATCT GCTGGAGAAA GCAAACTTGG CTGTGACCGT CTACAGTGCA 
AAAAATGGTG TGGTGGCCAA TGCTGTCCTC TTGGATTATC CAAACTGCGA TATTGTGGAT 
CAGGCAGAGT GGGAGGAAAA GCTGCCTACA CACTATGAAG AGCTGAGCAA TTGCACACCT 
CTGAACACAC TGTTTCTGCA CCTTTTTGTG GCCAAAGACG AATATTCTGA GCAGTGTATT 
CAGGAGATCA TACGGGTGGT GTTCAATACA GCCCCATATC TGCACTTTAT ATGTCTTACA 
GCTCCACGGG ATGAAGCACT TGGTTTGGCT TTAGGGTCAG TGTTTCAGCA GACAAAAATC 
GTGTCTGCAT CAGCTCTTGC AAAGCAGCAT TCTCTGTACA TGTGTCATAG GCACAACCAC 
TGTCCACAGC TGTATGTCCG GAATGCAAGA GTGGAAGATT ATGATGATCT GATACCGATT 
TTTATGCGTC ACAATGATAC CCTTAAAGCT ACATATGGGG AATTCTTCCT TGCAGAGCTG 
ATCGAAGCTC AAGATGAGCA GAGCCACGCT ATTGTTAGTG AGGATAAGGG CAAAGCTGTG 
GGCTTTATGA GTGTGAGTTC TGAGATTAAT GCCAGACTGC TGCAGAGCTG CTTCGACTTG 
GGGCCTTTTC ATGGACTGTG CAAGCCACAT CCTGATGATA GTTTATATGC AAGTGTAAAA 
ACAAGCATTG AGAAAGATCT AATGTTAAGC AGACAAGACA GTAAGACTTC TGCTGCTGCG 
TTGTCACAAC AAGATAACAT CGATCACAAC ACAACAGACG AAAAGATAGA CTCAACGAAT 
GATGCAATTA CAGTCTCCAC TGGAAATGAT ACGATGGGGC CTAGAGAAGA GGATACATTG 
CAAGAACCCA ATGATTTAGT AAGCAGGGAT CCTGCTGCAG ATGATGCCAT CCAAACAAGG 
AATTGCAGGG CTCCAGAGAG CGGGAGCAAT GCAGCCGAGA GCCAGCATCC CCATCCTGTA 
TATAAAGGTG ATGTCACTGC CTTCAGTATC CAGCTGTTCT GTATCGATGA AAAACACGAG 
TCAAGGTCTG TGGATTTTTT GAGCTATGCA TTCAGTCTGT TCCCTGACAA AGACTTTTGC 
GTCATCACGG TTCCTCATCT GACACCCGAG TTTCCTCTTC TTCAAAACTT TGTACGCGTA 
GTCCCTTTGA GCACCTGCAC TTTATCCCAG GAACTGTATG TGTTCCATCG CGCTGCTCTT 
ATTAGCTCAA TAAAAGTCAG AGCAGTGAGG AGCAATGATA TACACAATAT CAGAAGCCTC 
CTAGAGACCC TACACCCTCA AGAAAGCATT TTGGGTGATT TGCAAATCTA CAACCAAGCA 
CGGAGAGATG ATGACGGGAC CCCTGTTCAA GCTTTTGTAG CTGAAGTTGC AAATCAGATT 
GTCGGTGTTT CTGTTATCAG AAATGAAAAG GACATTGAGT ATATTCACTC ACACTACAAT 
ATTGAGGATT TTATCTACTT CAATCACCAC CAATGGGAGG AACACGGGCA CCTTCACCAT 
TTTGCTCTAA ATCCAATATT TATGCACTTT GGAAGGCATT TCCTTAAAGA AATCCTGCGG 
CTATCCCACA AGTCTGCTCT ATATTACCCT ATATATCCCT CATGTAATAA AGAACAATTT 
AAGAATCCCT GTGCCCATTC TCTGTCATCT GCCCTTCATT ATATGGTTCC CGTGCGACCA 
AGACGACAGA TTGTCTTTCC TCTGGAAAAG CTTGGCATAA ATGCTCCATC AAAGCAGGTC 
TCCAAGGATC AGCCAAGCTA CTCATTAAAC CACTTTAATC GGAAACTTAC CTTAGAGCCC 
AAGGTGACCA TCAATGCCCG CATTGTCGTA GTAGGAGCGT CTGAGGTTGG AATCTCTTTT 
ATGGAAACTC TTGTTTTTTG TCCTCACTTG AAGTTCAATA ACATTACATT GATTTCATCC 
ACTGGGCTTC CTGAGAATAC ACCAATTTCT ACCCAGGAAC ATGGCTTTCT TTCTACCAGC 
CACAGCTATA ACGATAAAGA TTATGCACTG ATGTCACTTC GATCCTGGGT TAATGTTGTG 
GTTGGTAAAA TGAGTGGCAT AGACAGGGCT GCCAAGTTTG TCATAGTTGC CAATGGCAGA 
AAAGTGCCAT ATGACCATCT CATTCTTTGT ACTGGGCAAC AATACCAGGT TCCCTGCCCT 
ACAGAAGCAG ATGTCCGTAA GCTTCTGACT AATAAAGAAG CCCCAGTGTC TTCAAATCAG 
AGGTACACAG GCAAAATTCC TTCAAATCTC TTTACCCTAC AAAACAGGCA GGACTGCTTG 
GCGGCAATGA GATTTTTGAA AGACAGTGTT GTCAAGCAAG AAGGTAATGT GATTGTGTAT 
GGGAATACAC TTGACTGTTA CACTACACTT TCTACCCTTT TATCACTTGG AATTAGTGGA 
AGTCGCATCC ATCTGGTACA GCCACCACTT ACGATGAATG TTACTTGCTT TAACAACTAT 
GCTATAGAAG AAGCTGTACA GAAAGCCTTA TTGGCTGAAG GGATATCATC CTACTGCAAC 
TGCGTATTAG CACAGTGGAA TGACGGGGCA CATCCAGACC CAATATGTTT TGCGACATTC 
ACCAGCGACA CAAAACCTCT GAGATTACAG TGCTCTGCAT TTTTTAACTT TTCTCGGAAA 
AGTGTGGACT ATGAAGCCTT CAAAGCAATA AATGATGCCT GCCTAGTTTA TGATGGAAGG 
CTTGTCATTG ATACAACATT TCACACAAAT GATGATTCCA TAAGAGCAGC AGGAACCTTA 
ACGAAATACT CCAATCGTTA TCACGCAAGT GAATGGTCAC ATAGCAATTT CAGCTCTAAA 
GAAATCGGCT TCCAGCTTGC TGCTAATATG CTTAATATTT TCGATCCGAC ACTTGAGCCA 
GTCATTGAAT TCACAGACGA ATTTGACAGA CTCATCCCAA TCTACAAAGG ACCTGTAATT 
CAAGGTGGTA TCATTCCTGG GGGCTTCCAT TACTTACATG TAAACAAACC TGCAATTCCC 
TGTCCTTTAA AGGCTCAAAT GGCACAGGCT CATTATGGGC GGGAGATAGT AACAGGAAGT 
GCAGTGGATG GAGATTACTT CCGGCTACAC ATCAATCAAT ACAATATGGT GGAATCTATT 
ACCTGCCTAT CACAAAAACC TTTTCCAGAG TCCAATTACA TATGTCTGTA CGGCCATCAT 
GAGCGACTGC TGAACAATCT GTGTGCTCGA TTTGATGAGG GGCTCATCAA GGACTTGTAC 
AGCTACTTCA TGAAAGCATG GTGCATGGCC ATCTATCACG ATCGCTTTAT CGATTTCCAG 
CAAGAGGTGC GCGAGATGCT AGCAGCTGAG CAAGGTGAAG GACGGCCCAG TATGAAGCAG 
CTGGCTCAGC AAATAGCAGA TGATGAGCTG AACCTGAAGG AGCAGCCGAG ACAATATTTG 
AAGAGAATCC TGGAGGAAAA TGGCCACAAG AAGGAAATAG AGAGGAAAAT CCTGAATTAT 
CTGAACTACA ACAGCAACCA CCTGTCCATG TTTGCAAGGC CTGGAATGAT TTAG

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

RefSeq	NP_001072512.1
CDS	151..3864
Translation	MITLTSSSGRKDFVTVRRTESLDVHGIIKRKTTTTERIFGRVNVIYLLEKANLAVTVYSAKNGVVANAVLLDYPNCDIVDQAEWEEKLPTHYEELSNCTPLNTLFLHLFVAKDEYSEQCIQEIIRVVFNTAPYLHFICLTAPRDEALGLALGSVFQQTKIVSASALAKQHSLYMCHRHNHCPQLYVRNARVEDYDDLIPIFMRHNDTLKATYGEFFLAELIEAQDEQSHAIVSEDKGKAVGFMSVSSEINARLLQSCFDLGPFHGLCKPHPDDSLYASVKTSIEKDLMLSRQDSKTSAAALSQQDNIDHNTTDEKIDSTNDAITVSTGNDTMGPREEDTLQEPNDLVSRDPAADDAIQTRNCRAPESGSNAAESQHPHPVYKGDVTAFSIQLFCIDEKHESRSVDFLSYAFSLFPDKDFCVITVPHLTPEFPLLQNFVRVVPLSTCTLSQELYVFHRAALISSIKVRAVRSNDIHNIRSLLETLHPQESILGDLQIYNQARRDDDGTPVQAFVAEVANQIVGVSVIRNEKDIEYIHSHYNIEDFIYFNHHQWEEHGHLHHFALNPIFMHFGRHFLKEILRLSHKSALYYPIYPSCNKEQFKNPCAHSLSSALHYMVPVRPRRQIVFPLEKLGINAPSKQVSKDQPSYSLNHFNRKLTLEPKVTINARIVVVGASEVGISFMETLVFCPHLKFNNITLISSTGLPENTPISTQEHGFLSTSHSYNDKDYALMSLRSWVNVVVGKMSGIDRAAKFVIVANGRKVPYDHLILCTGQQYQVPCPTEADVRKLLTNKEAPVSSNQRYTGKIPSNLFTLQNRQDCLAAMRFLKDSVVKQEGNVIVYGNTLDCYTTLSTLLSLGISGSRIHLVQPPLTMNVTCFNNYAIEEAVQKALLAEGISSYCNCVLAQWNDGAHPDPICFATFTSDTKPLRLQCSAFFNFSRKSVDYEAFKAINDACLVYDGRLVIDTTFHTNDDSIRAAGTLTKYSNRYHASEWSHSNFSSKEIGFQLAANMLNIFDPTLEPVIEFTDEFDRLIPIYKGPVIQGGIIPGGFHYLHVNKPAIPCPLKAQMAQAHYGREIVTGSAVDGDYFRLHINQYNMVESITCLSQKPFPESNYICLYGHHERLLNNLCARFDEGLIKDLYSYFMKAWCMAIYHDRFIDFQQEVREMLAAEQGEGRPSMKQLAQQIADDELNLKEQPRQYLKRILEENGHKKEIERKILNYLNYNSNHLSMFARPGMI

Target ORF information:

RefSeq Version	NM_001079044.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis cilia and flagella associated protein 61 (cfap61), mRNA.

Target ORF information:

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

NM_001079044.1

ORF Insert Sequence:

ATGATAACTT TAACTTCATC AAGTGGAAGA AAGGACTTTG TTACTGTCAG AAGAACAGAA 
TCACTAGATG TTCATGGCAT CATTAAGCGA AAAACAACCA CCACAGAAAG GATATTTGGG 
AGAGTCAATG TCATATATCT GCTGGAGAAA GCAAACTTGG CTGTGACCGT CTACAGTGCA 
AAAAATGGTG TGGTGGCCAA TGCTGTCCTC TTGGATTATC CAAACTGCGA TATTGTGGAT 
CAGGCAGAGT GGGAGGAAAA GCTGCCTACA CACTATGAAG AGCTGAGCAA TTGCACACCT 
CTGAACACAC TGTTTCTGCA CCTTTTTGTG GCCAAAGACG AATATTCTGA GCAGTGTATT 
CAGGAGATCA TACGGGTGGT GTTCAATACA GCCCCATATC TGCACTTTAT ATGTCTTACA 
GCTCCACGGG ATGAAGCACT TGGTTTGGCT TTAGGGTCAG TGTTTCAGCA GACAAAAATC 
GTGTCTGCAT CAGCTCTTGC AAAGCAGCAT TCTCTGTACA TGTGTCATAG GCACAACCAC 
TGTCCACAGC TGTATGTCCG GAATGCAAGA GTGGAAGATT ATGATGATCT GATACCGATT 
TTTATGCGTC ACAATGATAC CCTTAAAGCT ACATATGGGG AATTCTTCCT TGCAGAGCTG 
ATCGAAGCTC AAGATGAGCA GAGCCACGCT ATTGTTAGTG AGGATAAGGG CAAAGCTGTG 
GGCTTTATGA GTGTGAGTTC TGAGATTAAT GCCAGACTGC TGCAGAGCTG CTTCGACTTG 
GGGCCTTTTC ATGGACTGTG CAAGCCACAT CCTGATGATA GTTTATATGC AAGTGTAAAA 
ACAAGCATTG AGAAAGATCT AATGTTAAGC AGACAAGACA GTAAGACTTC TGCTGCTGCG 
TTGTCACAAC AAGATAACAT CGATCACAAC ACAACAGACG AAAAGATAGA CTCAACGAAT 
GATGCAATTA CAGTCTCCAC TGGAAATGAT ACGATGGGGC CTAGAGAAGA GGATACATTG 
CAAGAACCCA ATGATTTAGT AAGCAGGGAT CCTGCTGCAG ATGATGCCAT CCAAACAAGG 
AATTGCAGGG CTCCAGAGAG CGGGAGCAAT GCAGCCGAGA GCCAGCATCC CCATCCTGTA 
TATAAAGGTG ATGTCACTGC CTTCAGTATC CAGCTGTTCT GTATCGATGA AAAACACGAG 
TCAAGGTCTG TGGATTTTTT GAGCTATGCA TTCAGTCTGT TCCCTGACAA AGACTTTTGC 
GTCATCACGG TTCCTCATCT GACACCCGAG TTTCCTCTTC TTCAAAACTT TGTACGCGTA 
GTCCCTTTGA GCACCTGCAC TTTATCCCAG GAACTGTATG TGTTCCATCG CGCTGCTCTT 
ATTAGCTCAA TAAAAGTCAG AGCAGTGAGG AGCAATGATA TACACAATAT CAGAAGCCTC 
CTAGAGACCC TACACCCTCA AGAAAGCATT TTGGGTGATT TGCAAATCTA CAACCAAGCA 
CGGAGAGATG ATGACGGGAC CCCTGTTCAA GCTTTTGTAG CTGAAGTTGC AAATCAGATT 
GTCGGTGTTT CTGTTATCAG AAATGAAAAG GACATTGAGT ATATTCACTC ACACTACAAT 
ATTGAGGATT TTATCTACTT CAATCACCAC CAATGGGAGG AACACGGGCA CCTTCACCAT 
TTTGCTCTAA ATCCAATATT TATGCACTTT GGAAGGCATT TCCTTAAAGA AATCCTGCGG 
CTATCCCACA AGTCTGCTCT ATATTACCCT ATATATCCCT CATGTAATAA AGAACAATTT 
AAGAATCCCT GTGCCCATTC TCTGTCATCT GCCCTTCATT ATATGGTTCC CGTGCGACCA 
AGACGACAGA TTGTCTTTCC TCTGGAAAAG CTTGGCATAA ATGCTCCATC AAAGCAGGTC 
TCCAAGGATC AGCCAAGCTA CTCATTAAAC CACTTTAATC GGAAACTTAC CTTAGAGCCC 
AAGGTGACCA TCAATGCCCG CATTGTCGTA GTAGGAGCGT CTGAGGTTGG AATCTCTTTT 
ATGGAAACTC TTGTTTTTTG TCCTCACTTG AAGTTCAATA ACATTACATT GATTTCATCC 
ACTGGGCTTC CTGAGAATAC ACCAATTTCT ACCCAGGAAC ATGGCTTTCT TTCTACCAGC 
CACAGCTATA ACGATAAAGA TTATGCACTG ATGTCACTTC GATCCTGGGT TAATGTTGTG 
GTTGGTAAAA TGAGTGGCAT AGACAGGGCT GCCAAGTTTG TCATAGTTGC CAATGGCAGA 
AAAGTGCCAT ATGACCATCT CATTCTTTGT ACTGGGCAAC AATACCAGGT TCCCTGCCCT 
ACAGAAGCAG ATGTCCGTAA GCTTCTGACT AATAAAGAAG CCCCAGTGTC TTCAAATCAG 
AGGTACACAG GCAAAATTCC TTCAAATCTC TTTACCCTAC AAAACAGGCA GGACTGCTTG 
GCGGCAATGA GATTTTTGAA AGACAGTGTT GTCAAGCAAG AAGGTAATGT GATTGTGTAT 
GGGAATACAC TTGACTGTTA CACTACACTT TCTACCCTTT TATCACTTGG AATTAGTGGA 
AGTCGCATCC ATCTGGTACA GCCACCACTT ACGATGAATG TTACTTGCTT TAACAACTAT 
GCTATAGAAG AAGCTGTACA GAAAGCCTTA TTGGCTGAAG GGATATCATC CTACTGCAAC 
TGCGTATTAG CACAGTGGAA TGACGGGGCA CATCCAGACC CAATATGTTT TGCGACATTC 
ACCAGCGACA CAAAACCTCT GAGATTACAG TGCTCTGCAT TTTTTAACTT TTCTCGGAAA 
AGTGTGGACT ATGAAGCCTT CAAAGCAATA AATGATGCCT GCCTAGTTTA TGATGGAAGG 
CTTGTCATTG ATACAACATT TCACACAAAT GATGATTCCA TAAGAGCAGC AGGAACCTTA 
ACGAAATACT CCAATCGTTA TCACGCAAGT GAATGGTCAC ATAGCAATTT CAGCTCTAAA 
GAAATCGGCT TCCAGCTTGC TGCTAATATG CTTAATATTT TCGATCCGAC ACTTGAGCCA 
GTCATTGAAT TCACAGACGA ATTTGACAGA CTCATCCCAA TCTACAAAGG ACCTGTAATT 
CAAGGTGGTA TCATTCCTGG GGGCTTCCAT TACTTACATG TAAACAAACC TGCAATTCCC 
TGTCCTTTAA AGGCTCAAAT GGCACAGGCT CATTATGGGC GGGAGATAGT AACAGGAAGT 
GCAGTGGATG GAGATTACTT CCGGCTACAC ATCAATCAAT ACAATATGGT GGAATCTATT 
ACCTGCCTAT CACAAAAACC TTTTCCAGAG TCCAATTACA TATGTCTGTA CGGCCATCAT 
GAGCGACTGC TGAACAATCT GTGTGCTCGA TTTGATGAGG GGCTCATCAA GGACTTGTAC 
AGCTACTTCA TGAAAGCATG GTGCATGGCC ATCTATCACG ATCGCTTTAT CGATTTCCAG 
CAAGAGGTGC GCGAGATGCT AGCAGCTGAG CAAGGTGAAG GACGGCCCAG TATGAAGCAG 
CTGGCTCAGC AAATAGCAGA TGATGAGCTG AACCTGAAGG AGCAGCCGAG ACAATATTTG 
AAGAGAATCC TGGAGGAAAA TGGCCACAAG AAGGAAATAG AGAGGAAAAT CCTGAATTAT 
CTGAACTACA ACAGCAACCA CCTGTCCATG TTTGCAAGGC CTGGAATGAT TTAG

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

PubMed

Genetic and genomic tools for Xenopus research: The NIH Xenopus initiative.
Developmental dynamics : an official publication of the American Association of Anatomists225(4)384-91(2002 Dec)
Klein SL,Strausberg RL,Wagner L,Pontius J,Clifton SW,Richardson P

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cfap61 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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