spag5 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	spag5
Entrez Gene ID	100494706
Full Name	sperm associated antigen 5
General protein information	Preferred Names sperm associated antigen 5 Names sperm-associated antigen 5
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012957454.2	XP_012812908.1	sperm-associated antigen 5
XM_012957454.3	XP_012812908.2	sperm-associated antigen 5

Pathways from BioSystems
Gene Ontology

The following spag5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the spag5 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
OXa52067	XM_012957454.3 Latest version!	Xenopus tropicalis sperm associated antigen 5 (spag5), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OXa36065	XM_012957454.2 Latest version!	Xenopus tropicalis sperm associated antigen 5 (spag5), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*Business Day

** 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)

spag5 ( XM_012957454.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012812908.2 Xenopus tropicalis sperm associated antigen 5 (spag5), mRNA.

Price & Availability↑

CloneID	OXa52067
Clone ID Related Accession (Same CDS sequence)	XM_012957454.3
Accession Version	XM_012957454.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4491bp) 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	sperm-associated antigen 5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957454.2. ##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##

ATGTGGCCAC TGAAAGCACA AATTTCTGAT GAAAACAGGA TTACGACAAT GCAGACTGCA 
CAACGCAAAT CTGTTGGGAG GACTCCGCTC AAAGATTTGA CAGCTCAGTC TTTTACATTG 
TCCGAGCAAA ATAGTTTGGT TAAAACAAGG TTAAATTCAA ACAAATCCCC AAGCCTCACA 
GTGAACAAAC AGCACTTCAA GGAAAATAAG AGTGGCAACA CTGGAACATC ACCAGTTAGC 
ATATGGGTGG AATCTGAGAC ACAAGTTCCT CTTATGGACA ACACCATAAG TGAAGTGTGT 
GCTTCAAAGC GTTTAAAACC AATTACCCTT TTTGAGACAA AGTTTACTAC ATTGAACTCA 
GATGGATTAG CTCCCAAAAT GAAAAGTAAA GATTCTAGCA ATATACATGA GTGTTTGCAG 
CCTTCAGAAC CTGCAACTTC TGAAAAGATA CTGTGCTTAT CTGCCTGTGG TCAAGAAAAG 
TTTCCCCTCA ATTGCTTGGA CAGTGACTCT TCTTTTCCCA GTAATGCAGA TCCTTGCATG 
AATGTGACAG CAAGCCTGCC TGTGGAAACA CAAATTAATG AACAGGAGTC TAGAAAAGAC 
AGGGATCAAA AGTTAGAAGC AGACACATGC CCAGTGACTG TTCCACTCTC TCACAAATCA 
GTGGTTGTTT CTCAATGTTC TAGCCAGGCA TTGGGTGAAA CAAGGAAGAG TCTTGAATTA 
CAATTGTGTG CAAATGAAGC TCTAAAAGAA TCGCCCTTTG GCATAAGCCT AACTATAAAT 
GAAGCATTTT CTCATGCTGC ATCCACATTC TGCATTCCCG AACAAAATGA TGTTGCTGTG 
TCACACCAAG GAATTATTGA TCCATCTTTA AGTAACCACT TTAATGAGAG TGCAAATGGA 
AATAACTGTC CCAACAAGAC TGAAGAAGTC CAGTTATTGT TGAGCCTAAA AGAGGAGGAG 
AGAGTCCCAA ATGCCTCAGA GCTTGAATCT TGCAAAATGT TAAATGGACT TGCTAATGAC 
ACATATTTAA TTGATACTTC ATCAGCAGCT TCACCTGAGC ATGTTGACAA ACACAGCTTT 
CCAGCATTGA CTACAAATTT AATTTCCACT GAGTATTCTG AACAGGATGG CCTTGACTGC 
TCTCAAATCA TATCAACTTT AGATAATACA CAACCTGAAG GCTATTATAA TAAGGCGGAT 
AAGACTGACG TCAACAAACC ACTGAAAGGT GATGACAGTG TTCTGCCTAT GTCCCATAAA 
ACTAAAGAAA GTCCTGCAAC TTATCCTACA ACATATATCC CATTACAGCA ACTAGCTGAT 
AGTTCTTCTA AAATATTTCT TCATTCCTTC ATTCAAGAGG AAGTCTGTAA TAAGACTTTT 
GATCTAGACT GCATTACAAT AAAGGATAAG AAAGTAGACT TTAAATGTAT TGAACCAAAC 
AGTATTATAC ATACTAGGAG TTGTGATGAG ACTGATGATC TATTGGTAGG GTGTAAACTG 
CTACCAGAGC AGACTGGGGG CACCTTAAAA ATAAAAGATA TTGCAGATCG TGGCACTGAT 
TACAAGACAG AGTTAGAATC CTCCATTGTT TTAGAGGAAG AAATGGCTTC TAAGAACTAT 
GATGGTTCTC TTAAAAATGA AAATGTCAAA GTACGTCCTT CCATTGTTGT GCAAAGTGAT 
ACTGGGCAAG CAGCTGTGCC GCTTGTTGCT TCTGCCAATG AAAGCAGGTC TGATTCAGTA 
GCAAACCCAA GGGACTCTGT TGTAAATAAC CAGCTACAAG CAAGGAATTT TGATATTCCA 
AAATTATACA AAAGTGTACT CAGCAAGATG TCTCCTAAAG GGGAAAGCTC TAAATTGGAA 
GTTGGAACGT GTTCGACCCC AACTTCAACC TCAAATACAT CCACATGGAC AACACCTATA 
ATGTTGCTGA ACAAGAGCTT GAATACATCA TGGGACTTTG AAAAGGGGAG GTCAAGTCCA 
AGAGACAATG CATCGGAGAC AGATTCCTTG CTCTGGAACT TCTCCAGGGA GTCCTTTAAT 
AAAGCATCAC GTGAGGAGTT GATGGATCGT TTAGAGAGTA CTTTGATAGT TGTTGAAGTT 
CTTTCACGAC AGCTTCAAGG CTGGCAGCAG AATCGAATTG GTTCTAGACC ATCTGAACAG 
AGAGACTCTG CCACACAAAC ATGTGTAACA TACACAAGTA CGGAAGAGCA ATATTATCAC 
AACTTGTATG TAGAAACCAT GGAAAGACTT CAAAACATGC AGCGATGCAA TGACGTAGAA 
AAGAAACTGC AGGAGATACT TAAAAGGAGT GTTGATGTGC TGATATCTAA CAAGACTCAA 
TCTATGTCAT TGATTGAGTT TGCTGAGAAC ATGCAAGACA AAACTCAGGA GGATAAAGCA 
GATATTAGCA GGAAGATGTG CCAAGCCAGG TCACTTATAG CTGATCACAT GACTTTATTG 
AATAAAATGA ACAAGAAGAT GCAAGCAAAC CAGCACCAAA TGGCCGAAAT GAGAACTAGT 
ATGGAAAAGG CAGTTGGTGA TAAAGAAGCG GCTGATCAGT GTTTGAAAGA TCTTGAGACC 
CATTCTTCTA CAGTCATAGC TCAGCTGCAA CGTGACTTGG AATCTGAGCA ATTGCTTTGT 
GATGCTGTGA AAAAAGCTTA TACACAACAG CTCTCCTTTA ATGAAGAATT GGTTGACTTT 
GCTAAAAAGG CTCAGTCTGT CTGCTCAGAA ATGGAAGAGG ATAGAGTCCA GTTGCAAGTA 
AAGTGTTCTC AGGCCAGGGA GCTCATGTCA AAACACTGGG TCCTGTTTGA CATGATGAAA 
AATAAAACAG ATCATGCTGT GCATAAGTTT GAATCCATGA AAAGTGAGCG GGATGCGGCT 
TACTTGGAAA AAAATGAAAT GTGCAATCAG TTAGAGGATG TGAACTCACA GAAGGCTCAG 
CTGGAAACAG GAATAGCTCA CCTTAGTTCA GAGCTGGAGT CCCTGATGGA ACAGATATGT 
AAACTTAAGT CTGAAAATGA TCACCTGAAA CTGGAAAACT CTGAGCAGAC GGAGGAACTG 
TGTGCTAAAG ATTCGTCTAT GAAACTGCTA GAAAAAGAGC TTAATGAGAC AACCATTCGG 
GAACAAGAAA TTAAAGAACA CAACAAGAAA TTGTCAGCTG AAACTGTGCC GAGGTTGGAG 
CAGAAGCTGT TAGAGGCATT ACAAGAGAAA GAGGTTCTAC AAATAAAGAT ACAAGAGTTC 
CAAAAGCAGC ACGCATCCCA GACTGCATCT TATAAGGAGA GCATTGAGTT CCTTGAGCAA 
GAGAACCATG TGTGGTTTGA GCAGGTCGCA GAAACGGAGT CACAGCTAAA GAATAATCTC 
TTTGCCTTAC GTGAGAGAAA CCTGCAGTGT GAGACCCAAA AGGACAGAAT AAGCGAACTA 
CAGAGTGAAC TGTTAAAACT GAAGGAAGAA TTTCAGATGA CAAAGGAGGC AGCAAACGAT 
ACGCTGCTGA AAATGGGTAA AGAGATATCG GATTCATCCA CAGAAGCCGG CAAAATCAGG 
GACAACCTGC TGTGTGTGAA AGAACAAATA ATGGACACAT TACATGCAGA GGTAGCAGGT 
GCTTCCCAAA TGCTAGAGAC TCCTGCCAGG GGACTTGGGA GTTGCCCCTC TACTTACATG 
ATCAATAGCA CCCTAAAGTC TCAAACTAAG CAATCTAAAA CAGCCAAGAA TGCCGAAAGC 
ATTTGGAGTG AGACAAGTGC CTTTACCATT GTTCAACCAG TGGCCTCGCC CACTACAGAT 
AACAAGGAGG AAACACTTCC AGATGTAATA TGTGAATTAG GTGAAATTGT GTCAAACTTT 
GCTGTCTCCT CTTCTTATGT CATTGGAGTG AAGGAACAAG AAATCGAAGA CTTTAAGAGA 
GAAATATCGG ACCTAAAGGA TGAGCTACAG AATATGCACT TCAAAAACAC AATTGAAAAA 
CGTGATTTAA TGGAAGAGAT TGGAATTCTG AAAAGAAAAA ATAGGAATCT GGAGGACTGT 
GTTAACAGTA AGCAGCAGTG TGTTCAAGAG CTTGAGGAAA TTGTAAATCA ACAGGAACAG 
AGGTTACTAC AGCAAGTTAG CAAGGAGAAA GAACGAGAGG ACATGATGCA AGAAAATGCA 
ACATTAAAGC GATCCCTACA GCAGTGTGAA AGTGAATTAC TAGTCCTTAA AGATGAGCTG 
TCAAAGAACC CAACTGAAGC AGCTAGAGAC TGGATGCAGG AGAAGTTACT TTTACATAAG 
GATTTGCGAA AGCTAAGACT GATGCTTGTG GAAACTGAAA ATTCTAAGTC TGAAATTCTA 
CATCGAGCAA TGAGACATAG GAATATCTTG GAAGGAAATC TCGCCCGCTC TGAGCTGGAG 
TTAAAGAAGC TGGATGATAC TATTGAGAAA ATAAGAAAGA CTCTCTTGTC TATACCTGAA 
GTTGTCTCCA ACTGTGAAGA ACTGAAACAA ATGCTGGAAT ATCTCAACTA G

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

RefSeq	XP_012812908.2
CDS	122..4612
Translation	MWPLKAQISDENRITTMQTAQRKSVGRTPLKDLTAQSFTLSEQNSLVKTRLNSNKSPSLTVNKQHFKENKSGNTGTSPVSIWVESETQVPLMDNTISEVCASKRLKPITLFETKFTTLNSDGLAPKMKSKDSSNIHECLQPSEPATSEKILCLSACGQEKFPLNCLDSDSSFPSNADPCMNVTASLPVETQINEQESRKDRDQKLEADTCPVTVPLSHKSVVVSQCSSQALGETRKSLELQLCANEALKESPFGISLTINEAFSHAASTFCIPEQNDVAVSHQGIIDPSLSNHFNESANGNNCPNKTEEVQLLLSLKEEERVPNASELESCKMLNGLANDTYLIDTSSAASPEHVDKHSFPALTTNLISTEYSEQDGLDCSQIISTLDNTQPEGYYNKADKTDVNKPLKGDDSVLPMSHKTKESPATYPTTYIPLQQLADSSSKIFLHSFIQEEVCNKTFDLDCITIKDKKVDFKCIEPNSIIHTRSCDETDDLLVGCKLLPEQTGGTLKIKDIADRGTDYKTELESSIVLEEEMASKNYDGSLKNENVKVRPSIVVQSDTGQAAVPLVASANESRSDSVANPRDSVVNNQLQARNFDIPKLYKSVLSKMSPKGESSKLEVGTCSTPTSTSNTSTWTTPIMLLNKSLNTSWDFEKGRSSPRDNASETDSLLWNFSRESFNKASREELMDRLESTLIVVEVLSRQLQGWQQNRIGSRPSEQRDSATQTCVTYTSTEEQYYHNLYVETMERLQNMQRCNDVEKKLQEILKRSVDVLISNKTQSMSLIEFAENMQDKTQEDKADISRKMCQARSLIADHMTLLNKMNKKMQANQHQMAEMRTSMEKAVGDKEAADQCLKDLETHSSTVIAQLQRDLESEQLLCDAVKKAYTQQLSFNEELVDFAKKAQSVCSEMEEDRVQLQVKCSQARELMSKHWVLFDMMKNKTDHAVHKFESMKSERDAAYLEKNEMCNQLEDVNSQKAQLETGIAHLSSELESLMEQICKLKSENDHLKLENSEQTEELCAKDSSMKLLEKELNETTIREQEIKEHNKKLSAETVPRLEQKLLEALQEKEVLQIKIQEFQKQHASQTASYKESIEFLEQENHVWFEQVAETESQLKNNLFALRERNLQCETQKDRISELQSELLKLKEEFQMTKEAANDTLLKMGKEISDSSTEAGKIRDNLLCVKEQIMDTLHAEVAGASQMLETPARGLGSCPSTYMINSTLKSQTKQSKTAKNAESIWSETSAFTIVQPVASPTTDNKEETLPDVICELGEIVSNFAVSSSYVIGVKEQEIEDFKREISDLKDELQNMHFKNTIEKRDLMEEIGILKRKNRNLEDCVNSKQQCVQELEEIVNQQEQRLLQQVSKEKEREDMMQENATLKRSLQQCESELLVLKDELSKNPTEAARDWMQEKLLLHKDLRKLRLMLVETENSKSEILHRAMRHRNILEGNLARSELELKKLDDTIEKIRKTLLSIPEVVSNCEELKQMLEYLN

Target ORF information:

RefSeq Version	XM_012957454.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis sperm associated antigen 5 (spag5), mRNA.

Target ORF information:

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

XM_012957454.3

ORF Insert Sequence:

ATGTGGCCAC TGAAAGCACA AATTTCTGAT GAAAACAGGA TTACGACAAT GCAGACTGCA 
CAACGCAAAT CTGTTGGGAG GACTCCGCTC AAAGATTTGA CAGCTCAGTC TTTTACATTG 
TCCGAGCAAA ATAGTTTGGT TAAAACAAGG TTAAATTCAA ACAAATCCCC AAGCCTCACA 
GTGAACAAAC AGCACTTCAA GGAAAATAAG AGTGGCAACA CTGGAACATC ACCAGTTAGC 
ATATGGGTGG AATCTGAGAC ACAAGTTCCT CTTATGGACA ACACCATAAG TGAAGTGTGT 
GCTTCAAAGC GTTTAAAACC AATTACCCTT TTTGAGACAA AGTTTACTAC ATTGAACTCA 
GATGGATTAG CTCCCAAAAT GAAAAGTAAA GATTCTAGCA ATATACATGA GTGTTTGCAG 
CCTTCAGAAC CTGCAACTTC TGAAAAGATA CTGTGCTTAT CTGCCTGTGG TCAAGAAAAG 
TTTCCCCTCA ATTGCTTGGA CAGTGACTCT TCTTTTCCCA GTAATGCAGA TCCTTGCATG 
AATGTGACAG CAAGCCTGCC TGTGGAAACA CAAATTAATG AACAGGAGTC TAGAAAAGAC 
AGGGATCAAA AGTTAGAAGC AGACACATGC CCAGTGACTG TTCCACTCTC TCACAAATCA 
GTGGTTGTTT CTCAATGTTC TAGCCAGGCA TTGGGTGAAA CAAGGAAGAG TCTTGAATTA 
CAATTGTGTG CAAATGAAGC TCTAAAAGAA TCGCCCTTTG GCATAAGCCT AACTATAAAT 
GAAGCATTTT CTCATGCTGC ATCCACATTC TGCATTCCCG AACAAAATGA TGTTGCTGTG 
TCACACCAAG GAATTATTGA TCCATCTTTA AGTAACCACT TTAATGAGAG TGCAAATGGA 
AATAACTGTC CCAACAAGAC TGAAGAAGTC CAGTTATTGT TGAGCCTAAA AGAGGAGGAG 
AGAGTCCCAA ATGCCTCAGA GCTTGAATCT TGCAAAATGT TAAATGGACT TGCTAATGAC 
ACATATTTAA TTGATACTTC ATCAGCAGCT TCACCTGAGC ATGTTGACAA ACACAGCTTT 
CCAGCATTGA CTACAAATTT AATTTCCACT GAGTATTCTG AACAGGATGG CCTTGACTGC 
TCTCAAATCA TATCAACTTT AGATAATACA CAACCTGAAG GCTATTATAA TAAGGCGGAT 
AAGACTGACG TCAACAAACC ACTGAAAGGT GATGACAGTG TTCTGCCTAT GTCCCATAAA 
ACTAAAGAAA GTCCTGCAAC TTATCCTACA ACATATATCC CATTACAGCA ACTAGCTGAT 
AGTTCTTCTA AAATATTTCT TCATTCCTTC ATTCAAGAGG AAGTCTGTAA TAAGACTTTT 
GATCTAGACT GCATTACAAT AAAGGATAAG AAAGTAGACT TTAAATGTAT TGAACCAAAC 
AGTATTATAC ATACTAGGAG TTGTGATGAG ACTGATGATC TATTGGTAGG GTGTAAACTG 
CTACCAGAGC AGACTGGGGG CACCTTAAAA ATAAAAGATA TTGCAGATCG TGGCACTGAT 
TACAAGACAG AGTTAGAATC CTCCATTGTT TTAGAGGAAG AAATGGCTTC TAAGAACTAT 
GATGGTTCTC TTAAAAATGA AAATGTCAAA GTACGTCCTT CCATTGTTGT GCAAAGTGAT 
ACTGGGCAAG CAGCTGTGCC GCTTGTTGCT TCTGCCAATG AAAGCAGGTC TGATTCAGTA 
GCAAACCCAA GGGACTCTGT TGTAAATAAC CAGCTACAAG CAAGGAATTT TGATATTCCA 
AAATTATACA AAAGTGTACT CAGCAAGATG TCTCCTAAAG GGGAAAGCTC TAAATTGGAA 
GTTGGAACGT GTTCGACCCC AACTTCAACC TCAAATACAT CCACATGGAC AACACCTATA 
ATGTTGCTGA ACAAGAGCTT GAATACATCA TGGGACTTTG AAAAGGGGAG GTCAAGTCCA 
AGAGACAATG CATCGGAGAC AGATTCCTTG CTCTGGAACT TCTCCAGGGA GTCCTTTAAT 
AAAGCATCAC GTGAGGAGTT GATGGATCGT TTAGAGAGTA CTTTGATAGT TGTTGAAGTT 
CTTTCACGAC AGCTTCAAGG CTGGCAGCAG AATCGAATTG GTTCTAGACC ATCTGAACAG 
AGAGACTCTG CCACACAAAC ATGTGTAACA TACACAAGTA CGGAAGAGCA ATATTATCAC 
AACTTGTATG TAGAAACCAT GGAAAGACTT CAAAACATGC AGCGATGCAA TGACGTAGAA 
AAGAAACTGC AGGAGATACT TAAAAGGAGT GTTGATGTGC TGATATCTAA CAAGACTCAA 
TCTATGTCAT TGATTGAGTT TGCTGAGAAC ATGCAAGACA AAACTCAGGA GGATAAAGCA 
GATATTAGCA GGAAGATGTG CCAAGCCAGG TCACTTATAG CTGATCACAT GACTTTATTG 
AATAAAATGA ACAAGAAGAT GCAAGCAAAC CAGCACCAAA TGGCCGAAAT GAGAACTAGT 
ATGGAAAAGG CAGTTGGTGA TAAAGAAGCG GCTGATCAGT GTTTGAAAGA TCTTGAGACC 
CATTCTTCTA CAGTCATAGC TCAGCTGCAA CGTGACTTGG AATCTGAGCA ATTGCTTTGT 
GATGCTGTGA AAAAAGCTTA TACACAACAG CTCTCCTTTA ATGAAGAATT GGTTGACTTT 
GCTAAAAAGG CTCAGTCTGT CTGCTCAGAA ATGGAAGAGG ATAGAGTCCA GTTGCAAGTA 
AAGTGTTCTC AGGCCAGGGA GCTCATGTCA AAACACTGGG TCCTGTTTGA CATGATGAAA 
AATAAAACAG ATCATGCTGT GCATAAGTTT GAATCCATGA AAAGTGAGCG GGATGCGGCT 
TACTTGGAAA AAAATGAAAT GTGCAATCAG TTAGAGGATG TGAACTCACA GAAGGCTCAG 
CTGGAAACAG GAATAGCTCA CCTTAGTTCA GAGCTGGAGT CCCTGATGGA ACAGATATGT 
AAACTTAAGT CTGAAAATGA TCACCTGAAA CTGGAAAACT CTGAGCAGAC GGAGGAACTG 
TGTGCTAAAG ATTCGTCTAT GAAACTGCTA GAAAAAGAGC TTAATGAGAC AACCATTCGG 
GAACAAGAAA TTAAAGAACA CAACAAGAAA TTGTCAGCTG AAACTGTGCC GAGGTTGGAG 
CAGAAGCTGT TAGAGGCATT ACAAGAGAAA GAGGTTCTAC AAATAAAGAT ACAAGAGTTC 
CAAAAGCAGC ACGCATCCCA GACTGCATCT TATAAGGAGA GCATTGAGTT CCTTGAGCAA 
GAGAACCATG TGTGGTTTGA GCAGGTCGCA GAAACGGAGT CACAGCTAAA GAATAATCTC 
TTTGCCTTAC GTGAGAGAAA CCTGCAGTGT GAGACCCAAA AGGACAGAAT AAGCGAACTA 
CAGAGTGAAC TGTTAAAACT GAAGGAAGAA TTTCAGATGA CAAAGGAGGC AGCAAACGAT 
ACGCTGCTGA AAATGGGTAA AGAGATATCG GATTCATCCA CAGAAGCCGG CAAAATCAGG 
GACAACCTGC TGTGTGTGAA AGAACAAATA ATGGACACAT TACATGCAGA GGTAGCAGGT 
GCTTCCCAAA TGCTAGAGAC TCCTGCCAGG GGACTTGGGA GTTGCCCCTC TACTTACATG 
ATCAATAGCA CCCTAAAGTC TCAAACTAAG CAATCTAAAA CAGCCAAGAA TGCCGAAAGC 
ATTTGGAGTG AGACAAGTGC CTTTACCATT GTTCAACCAG TGGCCTCGCC CACTACAGAT 
AACAAGGAGG AAACACTTCC AGATGTAATA TGTGAATTAG GTGAAATTGT GTCAAACTTT 
GCTGTCTCCT CTTCTTATGT CATTGGAGTG AAGGAACAAG AAATCGAAGA CTTTAAGAGA 
GAAATATCGG ACCTAAAGGA TGAGCTACAG AATATGCACT TCAAAAACAC AATTGAAAAA 
CGTGATTTAA TGGAAGAGAT TGGAATTCTG AAAAGAAAAA ATAGGAATCT GGAGGACTGT 
GTTAACAGTA AGCAGCAGTG TGTTCAAGAG CTTGAGGAAA TTGTAAATCA ACAGGAACAG 
AGGTTACTAC AGCAAGTTAG CAAGGAGAAA GAACGAGAGG ACATGATGCA AGAAAATGCA 
ACATTAAAGC GATCCCTACA GCAGTGTGAA AGTGAATTAC TAGTCCTTAA AGATGAGCTG 
TCAAAGAACC CAACTGAAGC AGCTAGAGAC TGGATGCAGG AGAAGTTACT TTTACATAAG 
GATTTGCGAA AGCTAAGACT GATGCTTGTG GAAACTGAAA ATTCTAAGTC TGAAATTCTA 
CATCGAGCAA TGAGACATAG GAATATCTTG GAAGGAAATC TCGCCCGCTC TGAGCTGGAG 
TTAAAGAAGC TGGATGATAC TATTGAGAAA ATAAGAAAGA CTCTCTTGTC TATACCTGAA 
GTTGTCTCCA ACTGTGAAGA ACTGAAACAA ATGCTGGAAT ATCTCAACTA G

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

spag5 ( XM_012957454.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012812908.1 Xenopus tropicalis sperm associated antigen 5 (spag5), mRNA.

Price & Availability↑

CloneID	OXa36065
Clone ID Related Accession (Same CDS sequence)	XM_012957454.2
Accession Version	XM_012957454.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4497bp) 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-associated antigen 5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957454.1. ##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##

ATGTGGCCAC TGAAAGCACA AATTTCTGAT GAAAACAGGA TTACGACAAT GCAGACTGCA 
CAACGCAAAT CTGTTGGGAG GACTCCGCTC AAAGATTTGA CAGCTCAGTC TTTTACATTG 
TCCGAGCAAA ATAGTTTGGT TAAAACAAGG TTAAATTCAA ACAAATCCCC AAGCCTCACA 
GTGAACAAAC AGCACTTCAA GGAAAATAAG AGTGGCAACA CTGGAACATC ACCAGTTAGC 
ATATGGGTGG AATCTGAGAC ACAAGTTCCT CTTATGGACA ACACCATAAG TGAAGTGTGT 
GCTTCAAAGC GTTTAAAACC AATTACCCTT TTTGAGACAA AGTTTACTAC ATTGAACTCA 
GATGGATTAG CTCCCAAAAT GAAAAGTAAA GATTCTAGCA ATATACATGA GTGTTTGCAG 
CCTTCAGAAC CTGCAACTTC TGAAAAGATA CTGTGCTTAT CTGCCTGTGG TCAAGAAAAG 
TTTCCCCTCA ATTGCTTGGA CAGTGACTCT TCTGTTCCCA GTAATGCAGA TCCTTGCATG 
AATGTGACAG CAAGCCTGCC TGTGGAAACA CAAATTAATG AACAGGAGTC TAGAAAAGAC 
AGGGATCAAA AGTTAGAAGC AGACACATGC CCAGTGACTG TTCCACTCTC TCACAAATCA 
GTGGTTGTTT CTCAATGTTC TAGCCAGGCA TTGGGTGAAA CAAGGAAGAG TCTTGAATTA 
CAATTGTGTG CAAATGAAGC TCTAAAAGAA TCACCCTTTG GCATAAGCCT AACTATAAAT 
GAAGCATTTT CTCATGCTGC ATCCACATTC TGCATTCCCG AACAAAATGA TGTTGCTGTG 
TCACACCAAG AAATTATTGA TCCATCTTTA AGTAACCACT TTAATGAGAG TGCAAATGGA 
AATAACTGTC CCAACAAGAC TGAAGAAGTC CAGTTATTGT TGAGCCTAAA AGAGGAGGAG 
AGAGTCCCAA ATGCCTCAGA GCTTGAATCT TGCAAAATGT TAAATGGACT TGCTAATGAC 
ACATATTTAA TTGATACTTC ATCAGCAGCT TCACCTGAGC ATGTTGACAA ACACAGCTTT 
CCAGCATTGA CTACAAATTT AATTTCCACT GAGTATTCTG AACAGGATGG CCTTGACTGC 
TCTCAAATCA TATCAACTTT AGATAATACA CAACCTGAAG GCTATTATAA TAAGGCGGAT 
AAGACTGACA TCAACAAACC ACTGAAAGGT GATGACAGTG TTCTGCCTGT GTCCCATAAA 
ACTAAAGAAA GTCCTGCACC TTATCCTACA ACATATATCC CATTACAGCA ACTAGCTGAT 
AGTTCTTCTA AAATATTTCT TCATTCCTTC ATTCAAGAGG AAGTCTGTAA TAAGACTTTT 
GATCTAGACT GCATTACAAT AAAGGATAAG AAAGTAGACC TTAAATGTAT TGAACCAAAC 
AGTATTATAC ATACTAGGAG TTGTGATGAG ACTGATGATC TATTGGTAGA GTGTAAACTG 
CTACCAGAGC AGACTGGTGG CACCTTAAAA ATAAAAGATA TTGCAGATCG TGGCACTGAT 
TACAAGACAG AGTTAGAATC CTCCATTGTT TTAGAGGAAG AAATGGCTTC TAAGAACTAT 
GATGGTTCTC TTAAAAATGA AAATGTCAAA GTACATCCTT CCATTGTTGT GCAAAGTGAT 
ACTGGGCAAG CAGCTGTGCC GCTTGTTGCT TCTGCCAAGG CTCATGAAAG CAGGTCTGAT 
TCAGTAGCAA ACCCAAGGGA CTCTGTTGTA AATAACCAGC TACAAGCAAG GAATTTTGAT 
ATTCCAACAT TATACAAAAG TGTACTCAGC AAGATGTCTC CTAAAGGGGA AAGCTCTAAA 
TTGGAAGTTG GAACGTGTTC GACCCCAACT TCAACCTCAA ATACATCCAC ATGGACAACA 
CCTATAATGT TGCTGAACAA GAGCTTGAAT ACATCATGGG ACTTTGAAAA GGGGAGGTCA 
AGTCCAAGAG ACAATGCATC GGAGACAGAT TCCTTGCTCT GGAACTTCTC CAGGGAGTCC 
TTTAATAAAG CATCACGTGA GGAGTTGATG GATCGTTTAG AGAGTACTTT GATAGTTGTT 
GAAGTTCTTT CACGACAGCT TCAAGGCTGG CAGCAGAATC GAATTGGTTC TAGACCATCT 
GAACAGAGAG ACTCTGCCAC ACAAACATGT GTAACATACA CAAGTACGGA AGAGCAATAT 
TATCACAACT TGTATGTAGA AACCATGGAA AGACTTCAAA ACATGCAGCG ATGCAATGAC 
GTAGAAAAGA AACTGCAGGA GATACTTAAA GGGAGTGTTG ATGTGCTGAT ATCTAACAAG 
ACTCAATCTA TGTCATTGAT TGAGTTTGCT GAGAACATGC AAGACAAAAC TCAGGAGGAT 
AAAGCAGATA TTAGCAGGAA GATGTGCCAA GCCAGGTCAC TTATAGCTGA TCACATGACT 
TTATTGAATA AAATGAACAA GAAGATGCAA GCAAACCAGC ACCAAATGGC CGAAATGAGA 
ACTAGTATGG AAAAGGCAGT TGGTGATAAA GAAGCGGCTG ATCAGTGTTT GAAAGATCTT 
GAGACCCATT CTTCTACAGT CATAGCTCAG CTGCAACGTG ACTTGGAATC TGAGCAATTG 
CTTTGTGATG CTGTGAAAAA AGCTTATACA CAACAGCTCT CCTTTAATGA AGAATTGGTT 
GACTTTGCTA AAAAGGCTCA GTCTGTCTGC TCAGAAATGG AAGAGGATAG AGTCCAGTTG 
CAAGTAAAGT GTTCTCAGGC CAGGGAGCTC ATGTCAAAAC ACTGGGTCCT GTTTGACATG 
ATGAAAAATA AAACAGATCA TGCTGTGCAT AAGTTTGAAT CCATGAAAAG TGAGCGGGAT 
GCGGCTTACT TGGAAAAAAA TGAAATGTGC AATCAGTTAG AGGATGTGAA CTCACAGAAG 
GCTCAGCTGG AAACAGGAAT AGCTCACCTT AGTTCAGAGC TGGAGTCCCT GATGGAACAG 
ATATGTAAAC TTAAGTCTGA AAATGATCAC CTGAAACTGG AAAACTCTGA GCAGACGGAG 
GAACTGTGTG CTAAAGATTC GTCTATGAAA CTGCTAGAAA AAGAGCTTAA TGAGACAACC 
ATTCGGGAAC AAGAAATTAA AGAACACAAC AAGAAATTGT CAGCTGAAAC TGTGCCGAGG 
TTGGAGCAGA AGCTGTTAGA GGCATTACAA GAGAAAGAGG TTCTACAAAT AAAGATACAA 
GAGTTCCAAA AGCAGCACGC ATCCCAGACT GCATCTTATA AGGAGAGCAT TGAGTTCCTT 
GAGCAAGAGA ACCATGTGTG GTTTGAGCAG GTCGCAGAAA CGGAGTCACA GCTAAAGAAT 
AATCTCTTTG CCTTACGTGA GAGAAACCTG CAGTGTGAGA CCCAAAAGGA CAGAATAAGC 
GAACTACAGA GTGAACTGTT AAAACTGAAG GAAGAATTTC AGATGACAAA GGAGGCAGCA 
AACGATACGC TGCTGAAAAT GGGTAAAGAG ATATCGGATT CATCCACAGA AGCCGGCAAA 
ATCAGGGACA ACCTGCTGTG TGTGAAAGAA CAAATAATGG ACACATTACA TGCAGAGGTA 
GCAGGTGTTT CCCAAATGCT AGAGACTCCT GCCAGGGGAC TTGGGAGTTG CCCCTCTACT 
TACATGATCA ATAGCACCCT AAAGTCTCAA ACTAAGCAAT CTAAAACAGC CAAGAATGCC 
GAAAGCATTT GGAGTGAGAC AAGTGCCTTT ACCATTGTTC AACCAGTGGC CTCGCCCACT 
ACAGATAACA AGGAGGAAAC ACTTCCAGAT GTAATATGTG AATTAGGTGA AATTGTGTCA 
AACTTTGCTG TCTCCTCTTC TTATGTCATT GGAGTGAAGG AACAAGAAAT CGAAGACTTT 
AAGAGAGAAA TATCGGACCT AAAGGATGAG CTACAGAATA TGCACTTCAA AAACACAATT 
GAAAAACGTG ATTTAATGGA AGAGATTGGA ATTCTGAAAA GAAAAAATAG GAATCTGGAG 
GACTGTGTTA ACAGTAAGCA GCAGTGTGTT CAAGAGCTTG AGGAAATTGT AAATCAACAG 
GAACAGAGGT TACTACAGCA AGTTAGCAAG GAGAAAGAAC GAGAGGACAT GATGCAAGAA 
AATGCAACAT TAAAGCGATC CCTACAGCAG TGTGAAAGTG AATTACTAGT CCTTAAAGAT 
GAGCTGTCAA AGAACCCAAC TGAAGCAGCT AGAGACTGGA TGCAGGAGAA GTTACTTTTA 
CATAAGGATT TGCGAAAGCT AAGACTGATG CTTGTGGAAA CTGAAAATTC TAAGTCTGAA 
ATTCTACATC GAGCAATGAG ACATAGGAAT ATCTTGGAAG GAAATCTCGC CCGCTCTGAG 
CTGGAGTTAA AGAAGCTGGA TGATATTATT GAGAAAATAA GAAAGACTCT CTTGTCTATA 
CCTGAAGTTG TCTCCAACTG TGAAGAACTG AAACAAATGT TGGAATATCT CAACTAG

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

RefSeq	XP_012812908.1
CDS	124..4620
Translation	MWPLKAQISDENRITTMQTAQRKSVGRTPLKDLTAQSFTLSEQNSLVKTRLNSNKSPSLTVNKQHFKENKSGNTGTSPVSIWVESETQVPLMDNTISEVCASKRLKPITLFETKFTTLNSDGLAPKMKSKDSSNIHECLQPSEPATSEKILCLSACGQEKFPLNCLDSDSSVPSNADPCMNVTASLPVETQINEQESRKDRDQKLEADTCPVTVPLSHKSVVVSQCSSQALGETRKSLELQLCANEALKESPFGISLTINEAFSHAASTFCIPEQNDVAVSHQEIIDPSLSNHFNESANGNNCPNKTEEVQLLLSLKEEERVPNASELESCKMLNGLANDTYLIDTSSAASPEHVDKHSFPALTTNLISTEYSEQDGLDCSQIISTLDNTQPEGYYNKADKTDINKPLKGDDSVLPVSHKTKESPAPYPTTYIPLQQLADSSSKIFLHSFIQEEVCNKTFDLDCITIKDKKVDLKCIEPNSIIHTRSCDETDDLLVECKLLPEQTGGTLKIKDIADRGTDYKTELESSIVLEEEMASKNYDGSLKNENVKVHPSIVVQSDTGQAAVPLVASAKAHESRSDSVANPRDSVVNNQLQARNFDIPTLYKSVLSKMSPKGESSKLEVGTCSTPTSTSNTSTWTTPIMLLNKSLNTSWDFEKGRSSPRDNASETDSLLWNFSRESFNKASREELMDRLESTLIVVEVLSRQLQGWQQNRIGSRPSEQRDSATQTCVTYTSTEEQYYHNLYVETMERLQNMQRCNDVEKKLQEILKGSVDVLISNKTQSMSLIEFAENMQDKTQEDKADISRKMCQARSLIADHMTLLNKMNKKMQANQHQMAEMRTSMEKAVGDKEAADQCLKDLETHSSTVIAQLQRDLESEQLLCDAVKKAYTQQLSFNEELVDFAKKAQSVCSEMEEDRVQLQVKCSQARELMSKHWVLFDMMKNKTDHAVHKFESMKSERDAAYLEKNEMCNQLEDVNSQKAQLETGIAHLSSELESLMEQICKLKSENDHLKLENSEQTEELCAKDSSMKLLEKELNETTIREQEIKEHNKKLSAETVPRLEQKLLEALQEKEVLQIKIQEFQKQHASQTASYKESIEFLEQENHVWFEQVAETESQLKNNLFALRERNLQCETQKDRISELQSELLKLKEEFQMTKEAANDTLLKMGKEISDSSTEAGKIRDNLLCVKEQIMDTLHAEVAGVSQMLETPARGLGSCPSTYMINSTLKSQTKQSKTAKNAESIWSETSAFTIVQPVASPTTDNKEETLPDVICELGEIVSNFAVSSSYVIGVKEQEIEDFKREISDLKDELQNMHFKNTIEKRDLMEEIGILKRKNRNLEDCVNSKQQCVQELEEIVNQQEQRLLQQVSKEKEREDMMQENATLKRSLQQCESELLVLKDELSKNPTEAARDWMQEKLLLHKDLRKLRLMLVETENSKSEILHRAMRHRNILEGNLARSELELKKLDDIIEKIRKTLLSIPEVVSNCEELKQMLEYLN

Target ORF information:

RefSeq Version	XM_012957454.2
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis sperm associated antigen 5 (spag5), mRNA.

Target ORF information:

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

XM_012957454.2

ORF Insert Sequence:

ATGTGGCCAC TGAAAGCACA AATTTCTGAT GAAAACAGGA TTACGACAAT GCAGACTGCA 
CAACGCAAAT CTGTTGGGAG GACTCCGCTC AAAGATTTGA CAGCTCAGTC TTTTACATTG 
TCCGAGCAAA ATAGTTTGGT TAAAACAAGG TTAAATTCAA ACAAATCCCC AAGCCTCACA 
GTGAACAAAC AGCACTTCAA GGAAAATAAG AGTGGCAACA CTGGAACATC ACCAGTTAGC 
ATATGGGTGG AATCTGAGAC ACAAGTTCCT CTTATGGACA ACACCATAAG TGAAGTGTGT 
GCTTCAAAGC GTTTAAAACC AATTACCCTT TTTGAGACAA AGTTTACTAC ATTGAACTCA 
GATGGATTAG CTCCCAAAAT GAAAAGTAAA GATTCTAGCA ATATACATGA GTGTTTGCAG 
CCTTCAGAAC CTGCAACTTC TGAAAAGATA CTGTGCTTAT CTGCCTGTGG TCAAGAAAAG 
TTTCCCCTCA ATTGCTTGGA CAGTGACTCT TCTGTTCCCA GTAATGCAGA TCCTTGCATG 
AATGTGACAG CAAGCCTGCC TGTGGAAACA CAAATTAATG AACAGGAGTC TAGAAAAGAC 
AGGGATCAAA AGTTAGAAGC AGACACATGC CCAGTGACTG TTCCACTCTC TCACAAATCA 
GTGGTTGTTT CTCAATGTTC TAGCCAGGCA TTGGGTGAAA CAAGGAAGAG TCTTGAATTA 
CAATTGTGTG CAAATGAAGC TCTAAAAGAA TCACCCTTTG GCATAAGCCT AACTATAAAT 
GAAGCATTTT CTCATGCTGC ATCCACATTC TGCATTCCCG AACAAAATGA TGTTGCTGTG 
TCACACCAAG AAATTATTGA TCCATCTTTA AGTAACCACT TTAATGAGAG TGCAAATGGA 
AATAACTGTC CCAACAAGAC TGAAGAAGTC CAGTTATTGT TGAGCCTAAA AGAGGAGGAG 
AGAGTCCCAA ATGCCTCAGA GCTTGAATCT TGCAAAATGT TAAATGGACT TGCTAATGAC 
ACATATTTAA TTGATACTTC ATCAGCAGCT TCACCTGAGC ATGTTGACAA ACACAGCTTT 
CCAGCATTGA CTACAAATTT AATTTCCACT GAGTATTCTG AACAGGATGG CCTTGACTGC 
TCTCAAATCA TATCAACTTT AGATAATACA CAACCTGAAG GCTATTATAA TAAGGCGGAT 
AAGACTGACA TCAACAAACC ACTGAAAGGT GATGACAGTG TTCTGCCTGT GTCCCATAAA 
ACTAAAGAAA GTCCTGCACC TTATCCTACA ACATATATCC CATTACAGCA ACTAGCTGAT 
AGTTCTTCTA AAATATTTCT TCATTCCTTC ATTCAAGAGG AAGTCTGTAA TAAGACTTTT 
GATCTAGACT GCATTACAAT AAAGGATAAG AAAGTAGACC TTAAATGTAT TGAACCAAAC 
AGTATTATAC ATACTAGGAG TTGTGATGAG ACTGATGATC TATTGGTAGA GTGTAAACTG 
CTACCAGAGC AGACTGGTGG CACCTTAAAA ATAAAAGATA TTGCAGATCG TGGCACTGAT 
TACAAGACAG AGTTAGAATC CTCCATTGTT TTAGAGGAAG AAATGGCTTC TAAGAACTAT 
GATGGTTCTC TTAAAAATGA AAATGTCAAA GTACATCCTT CCATTGTTGT GCAAAGTGAT 
ACTGGGCAAG CAGCTGTGCC GCTTGTTGCT TCTGCCAAGG CTCATGAAAG CAGGTCTGAT 
TCAGTAGCAA ACCCAAGGGA CTCTGTTGTA AATAACCAGC TACAAGCAAG GAATTTTGAT 
ATTCCAACAT TATACAAAAG TGTACTCAGC AAGATGTCTC CTAAAGGGGA AAGCTCTAAA 
TTGGAAGTTG GAACGTGTTC GACCCCAACT TCAACCTCAA ATACATCCAC ATGGACAACA 
CCTATAATGT TGCTGAACAA GAGCTTGAAT ACATCATGGG ACTTTGAAAA GGGGAGGTCA 
AGTCCAAGAG ACAATGCATC GGAGACAGAT TCCTTGCTCT GGAACTTCTC CAGGGAGTCC 
TTTAATAAAG CATCACGTGA GGAGTTGATG GATCGTTTAG AGAGTACTTT GATAGTTGTT 
GAAGTTCTTT CACGACAGCT TCAAGGCTGG CAGCAGAATC GAATTGGTTC TAGACCATCT 
GAACAGAGAG ACTCTGCCAC ACAAACATGT GTAACATACA CAAGTACGGA AGAGCAATAT 
TATCACAACT TGTATGTAGA AACCATGGAA AGACTTCAAA ACATGCAGCG ATGCAATGAC 
GTAGAAAAGA AACTGCAGGA GATACTTAAA GGGAGTGTTG ATGTGCTGAT ATCTAACAAG 
ACTCAATCTA TGTCATTGAT TGAGTTTGCT GAGAACATGC AAGACAAAAC TCAGGAGGAT 
AAAGCAGATA TTAGCAGGAA GATGTGCCAA GCCAGGTCAC TTATAGCTGA TCACATGACT 
TTATTGAATA AAATGAACAA GAAGATGCAA GCAAACCAGC ACCAAATGGC CGAAATGAGA 
ACTAGTATGG AAAAGGCAGT TGGTGATAAA GAAGCGGCTG ATCAGTGTTT GAAAGATCTT 
GAGACCCATT CTTCTACAGT CATAGCTCAG CTGCAACGTG ACTTGGAATC TGAGCAATTG 
CTTTGTGATG CTGTGAAAAA AGCTTATACA CAACAGCTCT CCTTTAATGA AGAATTGGTT 
GACTTTGCTA AAAAGGCTCA GTCTGTCTGC TCAGAAATGG AAGAGGATAG AGTCCAGTTG 
CAAGTAAAGT GTTCTCAGGC CAGGGAGCTC ATGTCAAAAC ACTGGGTCCT GTTTGACATG 
ATGAAAAATA AAACAGATCA TGCTGTGCAT AAGTTTGAAT CCATGAAAAG TGAGCGGGAT 
GCGGCTTACT TGGAAAAAAA TGAAATGTGC AATCAGTTAG AGGATGTGAA CTCACAGAAG 
GCTCAGCTGG AAACAGGAAT AGCTCACCTT AGTTCAGAGC TGGAGTCCCT GATGGAACAG 
ATATGTAAAC TTAAGTCTGA AAATGATCAC CTGAAACTGG AAAACTCTGA GCAGACGGAG 
GAACTGTGTG CTAAAGATTC GTCTATGAAA CTGCTAGAAA AAGAGCTTAA TGAGACAACC 
ATTCGGGAAC AAGAAATTAA AGAACACAAC AAGAAATTGT CAGCTGAAAC TGTGCCGAGG 
TTGGAGCAGA AGCTGTTAGA GGCATTACAA GAGAAAGAGG TTCTACAAAT AAAGATACAA 
GAGTTCCAAA AGCAGCACGC ATCCCAGACT GCATCTTATA AGGAGAGCAT TGAGTTCCTT 
GAGCAAGAGA ACCATGTGTG GTTTGAGCAG GTCGCAGAAA CGGAGTCACA GCTAAAGAAT 
AATCTCTTTG CCTTACGTGA GAGAAACCTG CAGTGTGAGA CCCAAAAGGA CAGAATAAGC 
GAACTACAGA GTGAACTGTT AAAACTGAAG GAAGAATTTC AGATGACAAA GGAGGCAGCA 
AACGATACGC TGCTGAAAAT GGGTAAAGAG ATATCGGATT CATCCACAGA AGCCGGCAAA 
ATCAGGGACA ACCTGCTGTG TGTGAAAGAA CAAATAATGG ACACATTACA TGCAGAGGTA 
GCAGGTGTTT CCCAAATGCT AGAGACTCCT GCCAGGGGAC TTGGGAGTTG CCCCTCTACT 
TACATGATCA ATAGCACCCT AAAGTCTCAA ACTAAGCAAT CTAAAACAGC CAAGAATGCC 
GAAAGCATTT GGAGTGAGAC AAGTGCCTTT ACCATTGTTC AACCAGTGGC CTCGCCCACT 
ACAGATAACA AGGAGGAAAC ACTTCCAGAT GTAATATGTG AATTAGGTGA AATTGTGTCA 
AACTTTGCTG TCTCCTCTTC TTATGTCATT GGAGTGAAGG AACAAGAAAT CGAAGACTTT 
AAGAGAGAAA TATCGGACCT AAAGGATGAG CTACAGAATA TGCACTTCAA AAACACAATT 
GAAAAACGTG ATTTAATGGA AGAGATTGGA ATTCTGAAAA GAAAAAATAG GAATCTGGAG 
GACTGTGTTA ACAGTAAGCA GCAGTGTGTT CAAGAGCTTG AGGAAATTGT AAATCAACAG 
GAACAGAGGT TACTACAGCA AGTTAGCAAG GAGAAAGAAC GAGAGGACAT GATGCAAGAA 
AATGCAACAT TAAAGCGATC CCTACAGCAG TGTGAAAGTG AATTACTAGT CCTTAAAGAT 
GAGCTGTCAA AGAACCCAAC TGAAGCAGCT AGAGACTGGA TGCAGGAGAA GTTACTTTTA 
CATAAGGATT TGCGAAAGCT AAGACTGATG CTTGTGGAAA CTGAAAATTC TAAGTCTGAA 
ATTCTACATC GAGCAATGAG ACATAGGAAT ATCTTGGAAG GAAATCTCGC CCGCTCTGAG 
CTGGAGTTAA AGAAGCTGGA TGATATTATT GAGAAAATAA GAAAGACTCT CTTGTCTATA 
CCTGAAGTTG TCTCCAACTG TGAAGAACTG AAACAAATGT TGGAATATCT CAACTAG

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

PubMed

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spag5 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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