itprid2 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	itprid2
Entrez Gene ID	780056
Full Name	sperm specific antigen 2
Synonyms	XCS-1
General protein information	Preferred Names sperm specific antigen 2 Names sperm-specific antigen 2
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018097149.1	XP_017952638.1	sperm-specific antigen 2 isoform X1
NM_001079133.2	NP_001072601.2	sperm-specific antigen 2

Pathways from BioSystems

Homologies

	SSFA2	XP_001101290.2
Xenopus tropicalis (tropical clawed frog)	ssfa2	NP_001072601.2
Homo sapiens (human)	SSFA2	NP_001123917.1
Canis lupus familiaris (dog)	SSFA2	XP_005640468.1
Rattus norvegicus (Norway rat)	Ssfa2	NP_001101208.1
Mus musculus (house mouse)	Ssfa2	NP_542125.3
Bos taurus (cattle)	SSFA2	NP_001179026.1
Pan troglodytes (chimpanzee)	SSFA2	XP_003309397.1
Gallus gallus (chicken)	SSFA2	XP_004942747.1
Danio rerio (zebrafish)	ssfa2	XP_001918979.4

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 itprid2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the itprid2 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
OXa20323	NM_001079133.2 Latest version!	Xenopus tropicalis ITPR interacting domain containing 2 (itprid2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$713.30 $1019.00
OXa20323	XM_018097149.1 Latest version!	Xenopus tropicalis sperm specific antigen 2 (ssfa2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$713.30 $1019.00

ORF Online Only Promotion

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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)

itprid2 ( NM_001079133.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> NP_001072601.2 Xenopus tropicalis ITPR interacting domain containing 2 (itprid2), mRNA.

Price & Availability↑

CloneID	OXa20323
Clone ID Related Accession (Same CDS sequence)	XM_018097149.1 , NM_001079133.2
Accession Version	NM_001079133.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3678bp) 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	2018-07-04
Organism	Xenopus tropicalis(tropical clawed frog)
Product	sperm-specific antigen 2
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AAMC03035269.1, CT030423.1, DT419235.1, DT424483.1, CX449743.2 and CX924791.2. On Sep 18, 2010 this sequence version replaced NM_001079133.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: BC122975.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1696415 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGACAGAGG CTGCGACAGC GGACCAGACC GCTCTGGAGG AAGTTCCCAG TCGGGTTTTG 
GCCTCTATGA AAAGAAAGGC CTGGGCCAAG AGTAGAGATT CCTGGCAGGC ATCGGAGTGC 
GAGGATGTTG CAACGGAAGC GAGCAAAGCT ACACAGGAGG AGGGGACAGG GCATATACCA 
AATGAAAAGA TAGCAATATG GCTGAAGGAC TGTAGAACAC CGCTGGGAGC GTCTTTGGAT 
GAGCAGAACA ATCCTGTTAG CTCACAGAAA GGCATGCTTT TAAAGAATGG TGGAAGCTTT 
GAAGATGATT TGTCCCTTGG AGCAGAAGCT AATCACCTCC TTCAAAGGAA CCTGTCGATG 
GATACCCCTT TTGCATTGCT GGCTAAGGAC CGCAGGCTCC AGTTTCACCA GAAAGGGAGA 
AGCATGAACT CCACCGGTTC TGGGAAAAGC AGCACCACTG TATCAAGTGT TTCAGAGTTA 
CTAGATTTAT ACGAAGAAGA CCCAGAAGAA ATTCTTTACA ATCTTGGCTT TGGTAAAGAT 
GAACCAGACA TAGCTTCCAA AATACCATCA AGGTTTTTCA ACAATTGTTC TCTTGCCCAT 
GGGATAGATA TCAAGCTGTT TTTGAATGCT CAGATGCAAC GTTTAGAAGT GGAAAACCCC 
AACTTTGCAT TAACAAGTCG TTTTCGCCAG ATTAAAGTCC TTACTGAAGT GGCAAATGCA 
TTTTCTTCTT TATACTCTCA AGTTAGTGGA ACTCCACTTC AAAGAATAGG CAGTTCCAAA 
GCTCTGATAC CTGATAAAGA TCAAGAACCT ACCAAGCCAG CACCTCTGGT AAGGTCCTCA 
AGCAGGCTAA TGGAAACCAT ATCCAAGCTT AATTTGTATG GTAATCGGGT AACTTCAGAT 
TGCAACTCTT CTGTCTCTGA TGATGACAAA CGTCAAACTT CAAACAACAA CCAAGAAGGT 
TCTGTTAAAA TAGATCAAAA ATTACAGAAA CTTTTTAAAA AGAATTCTCC ACCTCTGGCT 
ACAGTTAGCG AAGAGGCTTC AAACTCGGGC ATAGTCTTGG ACTTAAATCC CATTGATCCC 
GCTTCCTTTA GTGCTGATAA CTTGGATGAA GCATTGGCTG AGCCTTGCAC TGAAAAACCA 
GAAGACAGTT CAGTTAGCCA AAATGAATGT GACATTTCAG GCATTGCAGA CTCATCAGCT 
GCTAAAAATA CAGATGTTAT CACAGATCAG GAGTCAGAAA GCTACATAAC AGAGGAAAAC 
CCTAACACAT CTACACCAGA AAAGGAGTTG TATGCACCTA ACAAAGCAAT AATGAACCTG 
ATCAGCCAGC CGAAGGACTC GTTTGAGCTT GAAGAGTTGC AGGGCTCCGA AGACGAGCCT 
CCACTCAACC CTCCGACCTG CCACGCCATA GAAAAGTTGG GAAAAGATAA CCTGCTGAGG 
ACTGCCAGCC AGCATTCTGA TAGTAGCGGC TTTGCTGAAG ACACATCTGC AGACTGTCTT 
TTAGCCAGTC TTGCCCAAGG CCAGGAATCA TTGCAAGCCA TGGGAAGCAG CGCTGACAGC 
TGTGACAGTG AAACAACTGT AACGTCGGTG GGAGAGGACC TTAGAACACC ATTAGCAACT 
GAGCAGCCAG GGTCCACTGA CTTTGACCTA GAGGATCAGT TCTTAACTCC AAGTTTTATG 
GTGGAAAGCA AAGCATTTTT CAGTGACCAT CAGGAAAGTA GGGCAGAAAG CTTAAACATG 
GACTCGGAAC AAATTAATCC ATCAGAGGAA TGCAAGTCCC ATGAGGACCT ACACTCTGCC 
ATGGAGTGTA TTGCTGAAGA ATCTGACTTG CCTCAGGACT ATATAGCTGA AAGTGAAATT 
GACACTGGTA GTGAGTATGA AACTGTTCCC TATACCACCC ATCATATATC TGAGCTGGTG 
GATTCTTATT CAGACTACGA ATATAATCTT TGCCATTCAG AAAAAAATAG TTCCTGTTCT 
CTGGACCGTG TACATGTAGC ATTGCAGAGA GCGCAAATGA AAGTTCTCAG TTCCTCAGGG 
GAGGCCAGTT CTAGGACCGG TCGCAGCATG ATCACGTCAA AGGACCTGAT AAAAAAGAGA 
GAGAATTTCT CCAACTCCGG CTACCCACTA AGGAGGACAC AGTCATTGCC TTCTGCCCTG 
CTTAATCCAG TCAGAGTTGT ATCCAAGGTA AATATTGTTT TAACATCTGG CAAAGCAACT 
GTGTGTAGCC CACCTACATT TTCCTACAAG TATACTCCAG AGGAGGAAGA CTGCTTGGAA 
CAAATAGAGG AAGACCCCAA CACTAACTCC AAACCTGACT ATATCTCTCC TAAATCAGAA 
TTAAAAGAGA TGCACAAAAG TGGACCACAC AAAATACCAG AAGATCCTCA TCCAAGGCCC 
CAGTCTTGCA CTACACATGC ATCGCACAGG TCACAATCTT CCTGTTCTCT GCACTCACTG 
CTTTCGGATT GGCACGAAAA GCCATTGTGT GATCATGGAA GAGCATGGAG CACACACAGT 
GTCCCTAATT TTTCTGGAGC ACCGTGTGGG AACTTTATCT CACCCTTTAC TTGTCCAGTA 
GCTTCCCGGT TTCCTTATGG CTCACTCCAT AGGTCTTGCT CTGGATGTAC GCTGCCTGTA 
AATTCCCCAC CATCTACTAC TGAAATGCAG TTACGGAGAG TGCTGCATGA CATAAGAAGC 
TCACTACAGA ACCTTTCACA GCACTCTGTA ATGCGAGGGA GCGATGGGTC TGCGAGTGGA 
TTCAGCATGC AGCGATCTTC TGTTCTGCCA CTGTATGAGA ATACCTTCCA GGAGCTTCAG 
ATAATGAGGA GAAGTCTTAA CCTATTTAGA ACACAAATGA TGGATTTGGA ACTCAGCATG 
TTACGCCAGC AAACAATGGT CTACCAGCAT CTTACTGAGG ATGAAAGGTA TGAAGCTGAC 
CAGCTACAGG GCCTGAGAAA TTCTGTACGG ATGGAGCTGC AAGAGCTGGA ACTTCAGCTG 
GACGAACGGC TCTTGGCTCT TGAGGAACAA CTGAGGAACT TTCATGTCTC TTCCCCCTTT 
CAGCGGCATT CTGCCATGGG AATGTATCGA GGCAGGAGTA CTGACAACCT GGCTTTCTCT 
TCTCCTCTGA ATGTCATAGA GCCAGTGACC GAACTTATTA GAGAGCAGAC TCACCTAAAA 
TCTGAGTTGG GACTTGAGGA CTTGAGTATA GGACATGGCA GAGACCGCTG CGATTCCATG 
GCCTCTGATA ATTCCTCTCT CTATTCAAGT CCACTCCATA AACATAAGAA AGGATTAACA 
AGCTCGTGTG ACTCAATCGA CAAATCAAAA CCTCATGCTT CCCCAAGCAA AAATGTGTTT 
CGGGCATCTG TTGCTTTGAC GCCAAGTCCT CCGGCTAGAG AGGGCGATAT TCAGAAGCCT 
GTCAATGATG AATCGCCAGA GAATTATGGG AAATTAAAAG TTGAGCCCAC AGAGAAACCC 
GAGCAGGTTT CGTTTGCATC CCCAGCTAAT GAGAGTACCA GATGGTCTCC TGAGGAGAGT 
AAAGAGCTGC AGCAAGTAAT ACGCGAGATA AAAGAATCAA TTGTTGGAGA TATTCGAAGA 
GAGATTGTAA GTGGACTCCT TGCTGCAGTG TCTTCTCCAA TTCGCTCCTT GGATGGCAAA 
GCTGATGGGA GAGTTTGA

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

RefSeq	NP_001072601.2
CDS	308..3985
Translation	MTEAATADQTALEEVPSRVLASMKRKAWAKSRDSWQASECEDVATEASKATQEEGTGHIPNEKIAIWLKDCRTPLGASLDEQNNPVSSQKGMLLKNGGSFEDDLSLGAEANHLLQRNLSMDTPFALLAKDRRLQFHQKGRSMNSTGSGKSSTTVSSVSELLDLYEEDPEEILYNLGFGKDEPDIASKIPSRFFNNCSLAHGIDIKLFLNAQMQRLEVENPNFALTSRFRQIKVLTEVANAFSSLYSQVSGTPLQRIGSSKALIPDKDQEPTKPAPLVRSSSRLMETISKLNLYGNRVTSDCNSSVSDDDKRQTSNNNQEGSVKIDQKLQKLFKKNSPPLATVSEEASNSGIVLDLNPIDPASFSADNLDEALAEPCTEKPEDSSVSQNECDISGIADSSAAKNTDVITDQESESYITEENPNTSTPEKELYAPNKAIMNLISQPKDSFELEELQGSEDEPPLNPPTCHAIEKLGKDNLLRTASQHSDSSGFAEDTSADCLLASLAQGQESLQAMGSSADSCDSETTVTSVGEDLRTPLATEQPGSTDFDLEDQFLTPSFMVESKAFFSDHQESRAESLNMDSEQINPSEECKSHEDLHSAMECIAEESDLPQDYIAESEIDTGSEYETVPYTTHHISELVDSYSDYEYNLCHSEKNSSCSLDRVHVALQRAQMKVLSSSGEASSRTGRSMITSKDLIKKRENFSNSGYPLRRTQSLPSALLNPVRVVSKVNIVLTSGKATVCSPPTFSYKYTPEEEDCLEQIEEDPNTNSKPDYISPKSELKEMHKSGPHKIPEDPHPRPQSCTTHASHRSQSSCSLHSLLSDWHEKPLCDHGRAWSTHSVPNFSGAPCGNFISPFTCPVASRFPYGSLHRSCSGCTLPVNSPPSTTEMQLRRVLHDIRSSLQNLSQHSVMRGSDGSASGFSMQRSSVLPLYENTFQELQIMRRSLNLFRTQMMDLELSMLRQQTMVYQHLTEDERYEADQLQGLRNSVRMELQELELQLDERLLALEEQLRNFHVSSPFQRHSAMGMYRGRSTDNLAFSSPLNVIEPVTELIREQTHLKSELGLEDLSIGHGRDRCDSMASDNSSLYSSPLHKHKKGLTSSCDSIDKSKPHASPSKNVFRASVALTPSPPAREGDIQKPVNDESPENYGKLKVEPTEKPEQVSFASPANESTRWSPEESKELQQVIREIKESIVGDIRREIVSGLLAAVSSPIRSLDGKADGRV

Target ORF information:

RefSeq Version	NM_001079133.2
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ITPR interacting domain containing 2 (itprid2), mRNA.

Target ORF information:

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

NM_001079133.2

ORF Insert Sequence:

ATGACAGAGG CTGCGACAGC GGACCAGACC GCTCTGGAGG AAGTTCCCAG TCGGGTTTTG 
GCCTCTATGA AAAGAAAGGC CTGGGCCAAG AGTAGAGATT CCTGGCAGGC ATCGGAGTGC 
GAGGATGTTG CAACGGAAGC GAGCAAAGCT ACACAGGAGG AGGGGACAGG GCATATACCA 
AATGAAAAGA TAGCAATATG GCTGAAGGAC TGTAGAACAC CGCTGGGAGC GTCTTTGGAT 
GAGCAGAACA ATCCTGTTAG CTCACAGAAA GGCATGCTTT TAAAGAATGG TGGAAGCTTT 
GAAGATGATT TGTCCCTTGG AGCAGAAGCT AATCACCTCC TTCAAAGGAA CCTGTCGATG 
GATACCCCTT TTGCATTGCT GGCTAAGGAC CGCAGGCTCC AGTTTCACCA GAAAGGGAGA 
AGCATGAACT CCACCGGTTC TGGGAAAAGC AGCACCACTG TATCAAGTGT TTCAGAGTTA 
CTAGATTTAT ACGAAGAAGA CCCAGAAGAA ATTCTTTACA ATCTTGGCTT TGGTAAAGAT 
GAACCAGACA TAGCTTCCAA AATACCATCA AGGTTTTTCA ACAATTGTTC TCTTGCCCAT 
GGGATAGATA TCAAGCTGTT TTTGAATGCT CAGATGCAAC GTTTAGAAGT GGAAAACCCC 
AACTTTGCAT TAACAAGTCG TTTTCGCCAG ATTAAAGTCC TTACTGAAGT GGCAAATGCA 
TTTTCTTCTT TATACTCTCA AGTTAGTGGA ACTCCACTTC AAAGAATAGG CAGTTCCAAA 
GCTCTGATAC CTGATAAAGA TCAAGAACCT ACCAAGCCAG CACCTCTGGT AAGGTCCTCA 
AGCAGGCTAA TGGAAACCAT ATCCAAGCTT AATTTGTATG GTAATCGGGT AACTTCAGAT 
TGCAACTCTT CTGTCTCTGA TGATGACAAA CGTCAAACTT CAAACAACAA CCAAGAAGGT 
TCTGTTAAAA TAGATCAAAA ATTACAGAAA CTTTTTAAAA AGAATTCTCC ACCTCTGGCT 
ACAGTTAGCG AAGAGGCTTC AAACTCGGGC ATAGTCTTGG ACTTAAATCC CATTGATCCC 
GCTTCCTTTA GTGCTGATAA CTTGGATGAA GCATTGGCTG AGCCTTGCAC TGAAAAACCA 
GAAGACAGTT CAGTTAGCCA AAATGAATGT GACATTTCAG GCATTGCAGA CTCATCAGCT 
GCTAAAAATA CAGATGTTAT CACAGATCAG GAGTCAGAAA GCTACATAAC AGAGGAAAAC 
CCTAACACAT CTACACCAGA AAAGGAGTTG TATGCACCTA ACAAAGCAAT AATGAACCTG 
ATCAGCCAGC CGAAGGACTC GTTTGAGCTT GAAGAGTTGC AGGGCTCCGA AGACGAGCCT 
CCACTCAACC CTCCGACCTG CCACGCCATA GAAAAGTTGG GAAAAGATAA CCTGCTGAGG 
ACTGCCAGCC AGCATTCTGA TAGTAGCGGC TTTGCTGAAG ACACATCTGC AGACTGTCTT 
TTAGCCAGTC TTGCCCAAGG CCAGGAATCA TTGCAAGCCA TGGGAAGCAG CGCTGACAGC 
TGTGACAGTG AAACAACTGT AACGTCGGTG GGAGAGGACC TTAGAACACC ATTAGCAACT 
GAGCAGCCAG GGTCCACTGA CTTTGACCTA GAGGATCAGT TCTTAACTCC AAGTTTTATG 
GTGGAAAGCA AAGCATTTTT CAGTGACCAT CAGGAAAGTA GGGCAGAAAG CTTAAACATG 
GACTCGGAAC AAATTAATCC ATCAGAGGAA TGCAAGTCCC ATGAGGACCT ACACTCTGCC 
ATGGAGTGTA TTGCTGAAGA ATCTGACTTG CCTCAGGACT ATATAGCTGA AAGTGAAATT 
GACACTGGTA GTGAGTATGA AACTGTTCCC TATACCACCC ATCATATATC TGAGCTGGTG 
GATTCTTATT CAGACTACGA ATATAATCTT TGCCATTCAG AAAAAAATAG TTCCTGTTCT 
CTGGACCGTG TACATGTAGC ATTGCAGAGA GCGCAAATGA AAGTTCTCAG TTCCTCAGGG 
GAGGCCAGTT CTAGGACCGG TCGCAGCATG ATCACGTCAA AGGACCTGAT AAAAAAGAGA 
GAGAATTTCT CCAACTCCGG CTACCCACTA AGGAGGACAC AGTCATTGCC TTCTGCCCTG 
CTTAATCCAG TCAGAGTTGT ATCCAAGGTA AATATTGTTT TAACATCTGG CAAAGCAACT 
GTGTGTAGCC CACCTACATT TTCCTACAAG TATACTCCAG AGGAGGAAGA CTGCTTGGAA 
CAAATAGAGG AAGACCCCAA CACTAACTCC AAACCTGACT ATATCTCTCC TAAATCAGAA 
TTAAAAGAGA TGCACAAAAG TGGACCACAC AAAATACCAG AAGATCCTCA TCCAAGGCCC 
CAGTCTTGCA CTACACATGC ATCGCACAGG TCACAATCTT CCTGTTCTCT GCACTCACTG 
CTTTCGGATT GGCACGAAAA GCCATTGTGT GATCATGGAA GAGCATGGAG CACACACAGT 
GTCCCTAATT TTTCTGGAGC ACCGTGTGGG AACTTTATCT CACCCTTTAC TTGTCCAGTA 
GCTTCCCGGT TTCCTTATGG CTCACTCCAT AGGTCTTGCT CTGGATGTAC GCTGCCTGTA 
AATTCCCCAC CATCTACTAC TGAAATGCAG TTACGGAGAG TGCTGCATGA CATAAGAAGC 
TCACTACAGA ACCTTTCACA GCACTCTGTA ATGCGAGGGA GCGATGGGTC TGCGAGTGGA 
TTCAGCATGC AGCGATCTTC TGTTCTGCCA CTGTATGAGA ATACCTTCCA GGAGCTTCAG 
ATAATGAGGA GAAGTCTTAA CCTATTTAGA ACACAAATGA TGGATTTGGA ACTCAGCATG 
TTACGCCAGC AAACAATGGT CTACCAGCAT CTTACTGAGG ATGAAAGGTA TGAAGCTGAC 
CAGCTACAGG GCCTGAGAAA TTCTGTACGG ATGGAGCTGC AAGAGCTGGA ACTTCAGCTG 
GACGAACGGC TCTTGGCTCT TGAGGAACAA CTGAGGAACT TTCATGTCTC TTCCCCCTTT 
CAGCGGCATT CTGCCATGGG AATGTATCGA GGCAGGAGTA CTGACAACCT GGCTTTCTCT 
TCTCCTCTGA ATGTCATAGA GCCAGTGACC GAACTTATTA GAGAGCAGAC TCACCTAAAA 
TCTGAGTTGG GACTTGAGGA CTTGAGTATA GGACATGGCA GAGACCGCTG CGATTCCATG 
GCCTCTGATA ATTCCTCTCT CTATTCAAGT CCACTCCATA AACATAAGAA AGGATTAACA 
AGCTCGTGTG ACTCAATCGA CAAATCAAAA CCTCATGCTT CCCCAAGCAA AAATGTGTTT 
CGGGCATCTG TTGCTTTGAC GCCAAGTCCT CCGGCTAGAG AGGGCGATAT TCAGAAGCCT 
GTCAATGATG AATCGCCAGA GAATTATGGG AAATTAAAAG TTGAGCCCAC AGAGAAACCC 
GAGCAGGTTT CGTTTGCATC CCCAGCTAAT GAGAGTACCA GATGGTCTCC TGAGGAGAGT 
AAAGAGCTGC AGCAAGTAAT ACGCGAGATA AAAGAATCAA TTGTTGGAGA TATTCGAAGA 
GAGATTGTAA GTGGACTCCT TGCTGCAGTG TCTTCTCCAA TTCGCTCCTT GGATGGCAAA 
GCTGATGGGA GAGTTTGA

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

itprid2 ( XM_018097149.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952638.1 Xenopus tropicalis sperm specific antigen 2 (ssfa2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OXa20323
Clone ID Related Accession (Same CDS sequence)	XM_018097149.1 , NM_001079133.2
Accession Version	XM_018097149.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3678bp) 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	sperm-specific antigen 2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) 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 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##

ATGACAGAGG CTGCGACAGC GGACCAGACC GCTCTGGAGG AAGTTCCCAG TCGGGTTTTG 
GCCTCTATGA AAAGAAAGGC CTGGGCCAAG AGTAGAGATT CCTGGCAGGC ATCGGAGTGC 
GAGGATGTTG CAACGGAAGC GAGCAAAGCT ACACAGGAGG AGGGGACAGG GCATATACCA 
AATGAAAAGA TAGCAATATG GCTGAAGGAC TGTAGAACAC CGCTGGGAGC GTCTTTGGAT 
GAGCAGAACA ATCCTGTTAG CTCACAGAAA GGCATGCTTT TAAAGAATGG TGGAAGCTTT 
GAAGATGATT TGTCCCTTGG AGCAGAAGCT AATCACCTCC TTCAAAGGAA CCTGTCGATG 
GATACCCCTT TTGCATTGCT GGCTAAGGAC CGCAGGCTCC AGTTTCACCA GAAAGGGAGA 
AGCATGAACT CCACCGGTTC TGGGAAAAGC AGCACCACTG TATCAAGTGT TTCAGAGTTA 
CTAGATTTAT ACGAAGAAGA CCCAGAAGAA ATTCTTTACA ATCTTGGCTT TGGTAAAGAT 
GAACCAGACA TAGCTTCCAA AATACCATCA AGGTTTTTCA ACAATTGTTC TCTTGCCCAT 
GGGATAGATA TCAAGCTGTT TTTGAATGCT CAGATGCAAC GTTTAGAAGT GGAAAACCCC 
AACTTTGCAT TAACAAGTCG TTTTCGCCAG ATTAAAGTCC TTACTGAAGT GGCAAATGCA 
TTTTCTTCTT TATACTCTCA AGTTAGTGGA ACTCCACTTC AAAGAATAGG CAGTTCCAAA 
GCTCTGATAC CTGATAAAGA TCAAGAACCT ACCAAGCCAG CACCTCTGGT AAGGTCCTCA 
AGCAGGCTAA TGGAAACCAT ATCCAAGCTT AATTTGTATG GTAATCGGGT AACTTCAGAT 
TGCAACTCTT CTGTCTCTGA TGATGACAAA CGTCAAACTT CAAACAACAA CCAAGAAGGT 
TCTGTTAAAA TAGATCAAAA ATTACAGAAA CTTTTTAAAA AGAATTCTCC ACCTCTGGCT 
ACAGTTAGCG AAGAGGCTTC AAACTCGGGC ATAGTCTTGG ACTTAAATCC CATTGATCCC 
GCTTCCTTTA GTGCTGATAA CTTGGATGAA GCATTGGCTG AGCCTTGCAC TGAAAAACCA 
GAAGACAGTT CAGTTAGCCA AAATGAATGT GACATTTCAG GCATTGCAGA CTCATCAGCT 
GCTAAAAATA CAGATGTTAT CACAGATCAG GAGTCAGAAA GCTACATAAC AGAGGAAAAC 
CCTAACACAT CTACACCAGA AAAGGAGTTG TATGCACCTA ACAAAGCAAT AATGAACCTG 
ATCAGCCAGC CGAAGGACTC GTTTGAGCTT GAAGAGTTGC AGGGCTCCGA AGACGAGCCT 
CCACTCAACC CTCCGACCTG CCACGCCATA GAAAAGTTGG GAAAAGATAA CCTGCTGAGG 
ACTGCCAGCC AGCATTCTGA TAGTAGCGGC TTTGCTGAAG ACACATCTGC AGACTGTCTT 
TTAGCCAGTC TTGCCCAAGG CCAGGAATCA TTGCAAGCCA TGGGAAGCAG CGCTGACAGC 
TGTGACAGTG AAACAACTGT AACGTCGGTG GGAGAGGACC TTAGAACACC ATTAGCAACT 
GAGCAGCCAG GGTCCACTGA CTTTGACCTA GAGGATCAGT TCTTAACTCC AAGTTTTATG 
GTGGAAAGCA AAGCATTTTT CAGTGACCAT CAGGAAAGTA GGGCAGAAAG CTTAAACATG 
GACTCGGAAC AAATTAATCC ATCAGAGGAA TGCAAGTCCC ATGAGGACCT ACACTCTGCC 
ATGGAGTGTA TTGCTGAAGA ATCTGACTTG CCTCAGGACT ATATAGCTGA AAGTGAAATT 
GACACTGGTA GTGAGTATGA AACTGTTCCC TATACCACCC ATCATATATC TGAGCTGGTG 
GATTCTTATT CAGACTACGA ATATAATCTT TGCCATTCAG AAAAAAATAG TTCCTGTTCT 
CTGGACCGTG TACATGTAGC ATTGCAGAGA GCGCAAATGA AAGTTCTCAG TTCCTCAGGG 
GAGGCCAGTT CTAGGACCGG TCGCAGCATG ATCACGTCAA AGGACCTGAT AAAAAAGAGA 
GAGAATTTCT CCAACTCCGG CTACCCACTA AGGAGGACAC AGTCATTGCC TTCTGCCCTG 
CTTAATCCAG TCAGAGTTGT ATCCAAGGTA AATATTGTTT TAACATCTGG CAAAGCAACT 
GTGTGTAGCC CACCTACATT TTCCTACAAG TATACTCCAG AGGAGGAAGA CTGCTTGGAA 
CAAATAGAGG AAGACCCCAA CACTAACTCC AAACCTGACT ATATCTCTCC TAAATCAGAA 
TTAAAAGAGA TGCACAAAAG TGGACCACAC AAAATACCAG AAGATCCTCA TCCAAGGCCC 
CAGTCTTGCA CTACACATGC ATCGCACAGG TCACAATCTT CCTGTTCTCT GCACTCACTG 
CTTTCGGATT GGCACGAAAA GCCATTGTGT GATCATGGAA GAGCATGGAG CACACACAGT 
GTCCCTAATT TTTCTGGAGC ACCGTGTGGG AACTTTATCT CACCCTTTAC TTGTCCAGTA 
GCTTCCCGGT TTCCTTATGG CTCACTCCAT AGGTCTTGCT CTGGATGTAC GCTGCCTGTA 
AATTCCCCAC CATCTACTAC TGAAATGCAG TTACGGAGAG TGCTGCATGA CATAAGAAGC 
TCACTACAGA ACCTTTCACA GCACTCTGTA ATGCGAGGGA GCGATGGGTC TGCGAGTGGA 
TTCAGCATGC AGCGATCTTC TGTTCTGCCA CTGTATGAGA ATACCTTCCA GGAGCTTCAG 
ATAATGAGGA GAAGTCTTAA CCTATTTAGA ACACAAATGA TGGATTTGGA ACTCAGCATG 
TTACGCCAGC AAACAATGGT CTACCAGCAT CTTACTGAGG ATGAAAGGTA TGAAGCTGAC 
CAGCTACAGG GCCTGAGAAA TTCTGTACGG ATGGAGCTGC AAGAGCTGGA ACTTCAGCTG 
GACGAACGGC TCTTGGCTCT TGAGGAACAA CTGAGGAACT TTCATGTCTC TTCCCCCTTT 
CAGCGGCATT CTGCCATGGG AATGTATCGA GGCAGGAGTA CTGACAACCT GGCTTTCTCT 
TCTCCTCTGA ATGTCATAGA GCCAGTGACC GAACTTATTA GAGAGCAGAC TCACCTAAAA 
TCTGAGTTGG GACTTGAGGA CTTGAGTATA GGACATGGCA GAGACCGCTG CGATTCCATG 
GCCTCTGATA ATTCCTCTCT CTATTCAAGT CCACTCCATA AACATAAGAA AGGATTAACA 
AGCTCGTGTG ACTCAATCGA CAAATCAAAA CCTCATGCTT CCCCAAGCAA AAATGTGTTT 
CGGGCATCTG TTGCTTTGAC GCCAAGTCCT CCGGCTAGAG AGGGCGATAT TCAGAAGCCT 
GTCAATGATG AATCGCCAGA GAATTATGGG AAATTAAAAG TTGAGCCCAC AGAGAAACCC 
GAGCAGGTTT CGTTTGCATC CCCAGCTAAT GAGAGTACCA GATGGTCTCC TGAGGAGAGT 
AAAGAGCTGC AGCAAGTAAT ACGCGAGATA AAAGAATCAA TTGTTGGAGA TATTCGAAGA 
GAGATTGTAA GTGGACTCCT TGCTGCAGTG TCTTCTCCAA TTCGCTCCTT GGATGGCAAA 
GCTGATGGGA GAGTTTGA

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

RefSeq	XP_017952638.1
CDS	1..3678
Translation	MTEAATADQTALEEVPSRVLASMKRKAWAKSRDSWQASECEDVATEASKATQEEGTGHIPNEKIAIWLKDCRTPLGASLDEQNNPVSSQKGMLLKNGGSFEDDLSLGAEANHLLQRNLSMDTPFALLAKDRRLQFHQKGRSMNSTGSGKSSTTVSSVSELLDLYEEDPEEILYNLGFGKDEPDIASKIPSRFFNNCSLAHGIDIKLFLNAQMQRLEVENPNFALTSRFRQIKVLTEVANAFSSLYSQVSGTPLQRIGSSKALIPDKDQEPTKPAPLVRSSSRLMETISKLNLYGNRVTSDCNSSVSDDDKRQTSNNNQEGSVKIDQKLQKLFKKNSPPLATVSEEASNSGIVLDLNPIDPASFSADNLDEALAEPCTEKPEDSSVSQNECDISGIADSSAAKNTDVITDQESESYITEENPNTSTPEKELYAPNKAIMNLISQPKDSFELEELQGSEDEPPLNPPTCHAIEKLGKDNLLRTASQHSDSSGFAEDTSADCLLASLAQGQESLQAMGSSADSCDSETTVTSVGEDLRTPLATEQPGSTDFDLEDQFLTPSFMVESKAFFSDHQESRAESLNMDSEQINPSEECKSHEDLHSAMECIAEESDLPQDYIAESEIDTGSEYETVPYTTHHISELVDSYSDYEYNLCHSEKNSSCSLDRVHVALQRAQMKVLSSSGEASSRTGRSMITSKDLIKKRENFSNSGYPLRRTQSLPSALLNPVRVVSKVNIVLTSGKATVCSPPTFSYKYTPEEEDCLEQIEEDPNTNSKPDYISPKSELKEMHKSGPHKIPEDPHPRPQSCTTHASHRSQSSCSLHSLLSDWHEKPLCDHGRAWSTHSVPNFSGAPCGNFISPFTCPVASRFPYGSLHRSCSGCTLPVNSPPSTTEMQLRRVLHDIRSSLQNLSQHSVMRGSDGSASGFSMQRSSVLPLYENTFQELQIMRRSLNLFRTQMMDLELSMLRQQTMVYQHLTEDERYEADQLQGLRNSVRMELQELELQLDERLLALEEQLRNFHVSSPFQRHSAMGMYRGRSTDNLAFSSPLNVIEPVTELIREQTHLKSELGLEDLSIGHGRDRCDSMASDNSSLYSSPLHKHKKGLTSSCDSIDKSKPHASPSKNVFRASVALTPSPPAREGDIQKPVNDESPENYGKLKVEPTEKPEQVSFASPANESTRWSPEESKELQQVIREIKESIVGDIRREIVSGLLAAVSSPIRSLDGKADGRV

Target ORF information:

RefSeq Version	XM_018097149.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis sperm specific antigen 2 (ssfa2), transcript variant X1, mRNA.

Target ORF information:

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

XM_018097149.1

ORF Insert Sequence:

ATGACAGAGG CTGCGACAGC GGACCAGACC GCTCTGGAGG AAGTTCCCAG TCGGGTTTTG 
GCCTCTATGA AAAGAAAGGC CTGGGCCAAG AGTAGAGATT CCTGGCAGGC ATCGGAGTGC 
GAGGATGTTG CAACGGAAGC GAGCAAAGCT ACACAGGAGG AGGGGACAGG GCATATACCA 
AATGAAAAGA TAGCAATATG GCTGAAGGAC TGTAGAACAC CGCTGGGAGC GTCTTTGGAT 
GAGCAGAACA ATCCTGTTAG CTCACAGAAA GGCATGCTTT TAAAGAATGG TGGAAGCTTT 
GAAGATGATT TGTCCCTTGG AGCAGAAGCT AATCACCTCC TTCAAAGGAA CCTGTCGATG 
GATACCCCTT TTGCATTGCT GGCTAAGGAC CGCAGGCTCC AGTTTCACCA GAAAGGGAGA 
AGCATGAACT CCACCGGTTC TGGGAAAAGC AGCACCACTG TATCAAGTGT TTCAGAGTTA 
CTAGATTTAT ACGAAGAAGA CCCAGAAGAA ATTCTTTACA ATCTTGGCTT TGGTAAAGAT 
GAACCAGACA TAGCTTCCAA AATACCATCA AGGTTTTTCA ACAATTGTTC TCTTGCCCAT 
GGGATAGATA TCAAGCTGTT TTTGAATGCT CAGATGCAAC GTTTAGAAGT GGAAAACCCC 
AACTTTGCAT TAACAAGTCG TTTTCGCCAG ATTAAAGTCC TTACTGAAGT GGCAAATGCA 
TTTTCTTCTT TATACTCTCA AGTTAGTGGA ACTCCACTTC AAAGAATAGG CAGTTCCAAA 
GCTCTGATAC CTGATAAAGA TCAAGAACCT ACCAAGCCAG CACCTCTGGT AAGGTCCTCA 
AGCAGGCTAA TGGAAACCAT ATCCAAGCTT AATTTGTATG GTAATCGGGT AACTTCAGAT 
TGCAACTCTT CTGTCTCTGA TGATGACAAA CGTCAAACTT CAAACAACAA CCAAGAAGGT 
TCTGTTAAAA TAGATCAAAA ATTACAGAAA CTTTTTAAAA AGAATTCTCC ACCTCTGGCT 
ACAGTTAGCG AAGAGGCTTC AAACTCGGGC ATAGTCTTGG ACTTAAATCC CATTGATCCC 
GCTTCCTTTA GTGCTGATAA CTTGGATGAA GCATTGGCTG AGCCTTGCAC TGAAAAACCA 
GAAGACAGTT CAGTTAGCCA AAATGAATGT GACATTTCAG GCATTGCAGA CTCATCAGCT 
GCTAAAAATA CAGATGTTAT CACAGATCAG GAGTCAGAAA GCTACATAAC AGAGGAAAAC 
CCTAACACAT CTACACCAGA AAAGGAGTTG TATGCACCTA ACAAAGCAAT AATGAACCTG 
ATCAGCCAGC CGAAGGACTC GTTTGAGCTT GAAGAGTTGC AGGGCTCCGA AGACGAGCCT 
CCACTCAACC CTCCGACCTG CCACGCCATA GAAAAGTTGG GAAAAGATAA CCTGCTGAGG 
ACTGCCAGCC AGCATTCTGA TAGTAGCGGC TTTGCTGAAG ACACATCTGC AGACTGTCTT 
TTAGCCAGTC TTGCCCAAGG CCAGGAATCA TTGCAAGCCA TGGGAAGCAG CGCTGACAGC 
TGTGACAGTG AAACAACTGT AACGTCGGTG GGAGAGGACC TTAGAACACC ATTAGCAACT 
GAGCAGCCAG GGTCCACTGA CTTTGACCTA GAGGATCAGT TCTTAACTCC AAGTTTTATG 
GTGGAAAGCA AAGCATTTTT CAGTGACCAT CAGGAAAGTA GGGCAGAAAG CTTAAACATG 
GACTCGGAAC AAATTAATCC ATCAGAGGAA TGCAAGTCCC ATGAGGACCT ACACTCTGCC 
ATGGAGTGTA TTGCTGAAGA ATCTGACTTG CCTCAGGACT ATATAGCTGA AAGTGAAATT 
GACACTGGTA GTGAGTATGA AACTGTTCCC TATACCACCC ATCATATATC TGAGCTGGTG 
GATTCTTATT CAGACTACGA ATATAATCTT TGCCATTCAG AAAAAAATAG TTCCTGTTCT 
CTGGACCGTG TACATGTAGC ATTGCAGAGA GCGCAAATGA AAGTTCTCAG TTCCTCAGGG 
GAGGCCAGTT CTAGGACCGG TCGCAGCATG ATCACGTCAA AGGACCTGAT AAAAAAGAGA 
GAGAATTTCT CCAACTCCGG CTACCCACTA AGGAGGACAC AGTCATTGCC TTCTGCCCTG 
CTTAATCCAG TCAGAGTTGT ATCCAAGGTA AATATTGTTT TAACATCTGG CAAAGCAACT 
GTGTGTAGCC CACCTACATT TTCCTACAAG TATACTCCAG AGGAGGAAGA CTGCTTGGAA 
CAAATAGAGG AAGACCCCAA CACTAACTCC AAACCTGACT ATATCTCTCC TAAATCAGAA 
TTAAAAGAGA TGCACAAAAG TGGACCACAC AAAATACCAG AAGATCCTCA TCCAAGGCCC 
CAGTCTTGCA CTACACATGC ATCGCACAGG TCACAATCTT CCTGTTCTCT GCACTCACTG 
CTTTCGGATT GGCACGAAAA GCCATTGTGT GATCATGGAA GAGCATGGAG CACACACAGT 
GTCCCTAATT TTTCTGGAGC ACCGTGTGGG AACTTTATCT CACCCTTTAC TTGTCCAGTA 
GCTTCCCGGT TTCCTTATGG CTCACTCCAT AGGTCTTGCT CTGGATGTAC GCTGCCTGTA 
AATTCCCCAC CATCTACTAC TGAAATGCAG TTACGGAGAG TGCTGCATGA CATAAGAAGC 
TCACTACAGA ACCTTTCACA GCACTCTGTA ATGCGAGGGA GCGATGGGTC TGCGAGTGGA 
TTCAGCATGC AGCGATCTTC TGTTCTGCCA CTGTATGAGA ATACCTTCCA GGAGCTTCAG 
ATAATGAGGA GAAGTCTTAA CCTATTTAGA ACACAAATGA TGGATTTGGA ACTCAGCATG 
TTACGCCAGC AAACAATGGT CTACCAGCAT CTTACTGAGG ATGAAAGGTA TGAAGCTGAC 
CAGCTACAGG GCCTGAGAAA TTCTGTACGG ATGGAGCTGC AAGAGCTGGA ACTTCAGCTG 
GACGAACGGC TCTTGGCTCT TGAGGAACAA CTGAGGAACT TTCATGTCTC TTCCCCCTTT 
CAGCGGCATT CTGCCATGGG AATGTATCGA GGCAGGAGTA CTGACAACCT GGCTTTCTCT 
TCTCCTCTGA ATGTCATAGA GCCAGTGACC GAACTTATTA GAGAGCAGAC TCACCTAAAA 
TCTGAGTTGG GACTTGAGGA CTTGAGTATA GGACATGGCA GAGACCGCTG CGATTCCATG 
GCCTCTGATA ATTCCTCTCT CTATTCAAGT CCACTCCATA AACATAAGAA AGGATTAACA 
AGCTCGTGTG ACTCAATCGA CAAATCAAAA CCTCATGCTT CCCCAAGCAA AAATGTGTTT 
CGGGCATCTG TTGCTTTGAC GCCAAGTCCT CCGGCTAGAG AGGGCGATAT TCAGAAGCCT 
GTCAATGATG AATCGCCAGA GAATTATGGG AAATTAAAAG TTGAGCCCAC AGAGAAACCC 
GAGCAGGTTT CGTTTGCATC CCCAGCTAAT GAGAGTACCA GATGGTCTCC TGAGGAGAGT 
AAAGAGCTGC AGCAAGTAAT ACGCGAGATA AAAGAATCAA TTGTTGGAGA TATTCGAAGA 
GAGATTGTAA GTGGACTCCT TGCTGCAGTG TCTTCTCCAA TTCGCTCCTT GGATGGCAAA 
GCTGATGGGA GAGTTTGA

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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itprid2 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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