scaf4 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	scaf4
Entrez Gene ID	595037
Full Name	SR-related CTD associated factor 4
Synonyms	sfrs15,sra4
General protein information	Preferred Names SR-related CTD associated factor 4 Names splicing factor, arginine/serine-rich 15
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012958019.2	XP_012813473.1	splicing factor, arginine/serine-rich 15 isoform X1
XM_012958019.3	XP_012813473.1	SR-related and CTD-associated factor 4 isoform X1
XM_012958020.3	XP_012813474.1	SR-related and CTD-associated factor 4 isoform X2
XM_012958021.2	XP_012813475.1	splicing factor, arginine/serine-rich 15 isoform X3
XM_012958020.2	XP_012813474.1	splicing factor, arginine/serine-rich 15 isoform X2
XM_012958021.3	XP_012813475.1	SR-related and CTD-associated factor 4 isoform X3

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	SCAF4	XP_003319088.1
Mus musculus (house mouse)	Scaf4	NP_849254.2
Bos taurus (cattle)	SCAF4	XP_002707732.2
Rattus norvegicus (Norway rat)	Scaf4	NP_001032424.2
	SCAF4	XP_001097429.1
Xenopus tropicalis (tropical clawed frog)	scaf4	NP_001025649.1
Homo sapiens (human)	SCAF4	NP_065757.1
Canis lupus familiaris (dog)	SCAF4	XP_003434012.1

Gene Ontology

The following scaf4 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the scaf4 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)
OXa28323	XM_012958019.3 Latest version!	Xenopus tropicalis SR-related CTD associated factor 4 (scaf4), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OXa28324	XM_012958020.3 Latest version!	Xenopus tropicalis SR-related CTD associated factor 4 (scaf4), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OXa28325	XM_012958021.3 Latest version!	Xenopus tropicalis SR-related CTD associated factor 4 (scaf4), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
View Old Accession Versions >>
OXa28323	XM_012958019.2	Xenopus tropicalis SR-related CTD-associated factor 4 (scaf4), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00
OXa28324	XM_012958020.2	Xenopus tropicalis SR-related CTD-associated factor 4 (scaf4), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00
OXa28325	XM_012958021.2	Xenopus tropicalis SR-related CTD-associated factor 4 (scaf4), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00
Hide Old Accession Versions >>

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
30% OFF

*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)

scaf4 ( XM_012958019.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012813473.1 Xenopus tropicalis SR-related CTD associated factor 4 (scaf4), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OXa28323
Clone ID Related Accession (Same CDS sequence)	XM_012958019.2 , XM_012958019.3
Accession Version	XM_012958019.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4023bp) 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	SR-related and CTD-associated factor 4 isoform X1
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 mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012958019.2. ##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##

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAGTCAGTA TCCAGATCAC CAAAGAGACG GCGTTCACGT 
TCTGGTTCTC GTTCACGGCG ATCTCGTCAT CGCCGCTCTC GTTCTCGCTC TCGTGATAGA 
CGTCGTCACT CCCCCAAATC TCGATCTCAA GAAAGAAGGG ACAGAGAGAA GGAAAAAGAA 
CGAAGGCAAA AAGGACTTCC TCCTATTAAA TCAGAGACTG TTAGCATTTG TAGTACTACA 
CTCTGGATAG GACAACTGGA CAAAAAAACA ACACAACAAG ATGTTGGAAG TTTCCTTGAA 
GAGTTTGGAC CCATTGAATC AATTAATATG ATTCCACCAC GAGGCTGTGC CTATATTGTT 
ATGGTCCACC GCCAGGATGC ATATCGTGCT TTAATGAAAC TTAGCAGAGG AAACGTTAAA 
GTAAACCAGA AGGCAATAAA GATTGCCTGG GCTTTGAACA AAGGGATTAA AGCAGAATAC 
AAACAGTATT GGGATGTGGA GATAGGAGTT ACATACATAC CATGGAATAA AGTCAAACCT 
GAGGATCTTG AGAATTTCTG CGAAGGAGGA ATGTTAGATA ATGACACACT ATGCCCAGAA 
TGGAAACCAC TGGCAAAGAA ACCTGAGCCA AAGGATGTAT CTCAGAATGG TGCAGCTGAG 
ACTAAAGGTG TGGGGGAGGC TTCTCCTGCA CCCCAAGTTC TGCCGCTATT ATCCATTCCT 
ATCCGTGCAC CCATTCCTGG CATGCAGGTG CCACCCCTTC AGCCAATGAC TGCACACCAG 
CCAGTTCCAT CAATTCCAAC ACCAGGGGTA CCAACAGTAC AAGGATTACC CCCTCCCCAG 
GGATTACCCC CCTTGCAAGG AGTTCCTCCA TTACAAGGAA TGCCCCTCCC ACAAGGGCTT 
CCTCCACAAG GATTGCCACT CCCTCAGGGC ATGCCTCTGC CTCAAGGCAT GCCCCCCCAT 
CAGCCTATAC CAGGAATGGG ACCCCTACAA CCTCCTGCGT TTCCCATAGG TATTCCTCCC 
CCTGGATTTG CACCTGGAGT TCCTCCTCCA CCATTTATGA GACCAGGCTT TAATCCAATG 
CATATGCCTC CAGGCTTTCT GCCTCCTCCT GGACTTCCCC CACCTATGAC CCCACCTGTT 
TCTATTCCTC TTCCTACACC TGGAATAAAC ATCCCGACTT CTACAGCAGA TACTTCATCT 
AATGACTCTT CAAAAGATGT GTCTCGTACA AACCCTAGTC CAATGGTACC TGTGAGGGAT 
AATATGGAGG AGGATGAGAA GGCTGATAAT GGCAATGGAT ATAAGCCTAC CCCATCAGGA 
GGGCCAAATA ATGCTCCGGG GCCCTTGAAC CCACTTCACG GTGATCAACA AGGGGAACAA 
GGACTTAATT CTGGTCAAGC ACAGGGAGCC CATCCAGGAC CACCACAAGG ACCTTTTTCA 
GGCCAACCAC AGGGTCCCCG TCATGGCACA ACAGAAGGTG CCCATCAGGG CCCCCAAGAA 
GGTTCCCACC AAGGCCCACC TGAGGATACT GATCACAGCC CTCCAGGAGG TCGTCATTAC 
ACTCTACCAG AAGGTCCTCA TCATGGTCCA TCTGAGGGTC ATCATCATAG CCCATCAGAA 
GGTCCTCACC TGGGCCCAAC AGAAGGTCCA CGTTTGGGTC CAGAGGGTCC CCATCATGGT 
CCACCAGAAG GTTCCCATCA CGGTCCCCAA GAACATCCTC ATCACGGTCC CCCAGAAGGT 
CTGCATCATG GACCGCCAGA AGGTCCTCAT CATGGGACCC CTGAAGGTCA GTACCATGGA 
CCACCAGAAG GACCTTATCA TGGACCACCA GAGGGCCCCT ATCATGGGCC ACCAGACGGT 
CCATTTCATG GTCCACCACA TGGTCCTTAT CATGGACCTC CACAGGGTCC ATTTCATGGC 
CCTCCACAAG GTCCTTATCA AGGACCCCAT CATGGTCCCC CACAAGGGCC ACATCATGGT 
CCACCACAGG GACCCCATCA TGGCCCTCCC CAGGGACCCC ATCATGGCCC ACCTCAAGGA 
CCTCATCATG GCCCCCCACA AGGACCTGGT TCTGGTCCAC ACCCTGGCCC TCCTTCTACT 
GGTCTTTTAG GTGCCAGACC TGGTTTAATA CCACTGCAGA GGCCACCTGG AATTCCTTCT 
TCAAACATGC AGCGCTTTCC CATGTCTCAA AGGCCTGGCC CCCCTCATAT GATGAACAGA 
GGGCCCCCTC CAGGGCAGGG TGGCTTTGGC ATGCCACCTC ATGGGATAAG GGGCCCTTTA 
CTAGGACAAG GACACTTTCC TAGACAGAGA GGACCAGAAG GGCATGGGGG ACCTGAAGAA 
CGAGATGGTA GGCAGTTCAG AGGTGAAAGG CCAGTCTTTC CCCATGGCAG AGAACCAGAT 
AGGTTTGGAA GGCGTTCATT TGGTCGCAAT GAAGATGAGC GAGAACGCTT TGGTCGGCGC 
TTTGATGACC CCGATCATGA GCGACCTCCT AGTCGTGGGA GGAGCAGCTG GGGTAGAGGA 
AGTCCTAGCC GTGACAGACA AAGAGACTCT GAGGAAAGAA ATAGATGGCC AATGGGACAT 
GAGAGAGAGA GAGGTCACCC TAGAGGAAGG GGAGATTTCC TCGAAAATAG AAAACCTGAT 
GCAGAGCTTG ATGAAAACCA CAAACCTTTT AGTAGCAGAA TGCGAAATGC AGAAACCGTT 
ACTGAAAGGA AAGAGGGGAA AGCAGAACCG GCAGGGAAAA ATCCCCCCGA GGAGCAGCCC 
GAGACGCCCA AATCATCTGA AGAAGCAGAA AAGGATCCTG GATCTAATCC AGCAAAGCCT 
TAA

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

RefSeq	XP_012813473.1
CDS	311..4333
Translation	MDAVNAFNQELFSLMDMKPPISRAKMILITKAAIKAIKLYKHVVQIVEKFIKKCKPEYKVPGLYVIDSIVRQSRHQFGIDKDVFGPRFTKNLTATFQCLYTCPSEDKSKIVRVLNLWQKNGVFKIEIIQPLLDMAAGAAAADVMTDSSMMEEGSSPPSGMILSEPPDEVQEPPPVAPVPQLPTPDAFAAVAQLFQSTQGQQLQQILQTFQQPPKPQSPAIDENVFAQVQAITSQLNAPAHQPERKTAFDKLLDRFDYDDEPDATEESKKEASSPPLSGSQQSQPPLQPFAFSADSMQPAAYPGQLPGQVPNMDQFQPMMMGMPQEPLPQQTQLPPNGQMLGFGMVPTQSFAPMVPPMGSEPSTHGFQNTFQMQPNEMHVQKEHQQEMPMDVEQPNVQENKRHMNEQSKSVSRSPKRRRSRSGSRSRRSRHRRSRSRSRDRRRHSPKSRSQERRDREKEKERRQKGLPPIKSETVSICSTTLWIGQLDKKTTQQDVGSFLEEFGPIESINMIPPRGCAYIVMVHRQDAYRALMKLSRGNVKVNQKAIKIAWALNKGIKAEYKQYWDVEIGVTYIPWNKVKPEDLENFCEGGMLDNDTLCPEWKPLAKKPEPKDVSQNGAAETKGVGEASPAPQVLPLLSIPIRAPIPGMQVPPLQPMTAHQPVPSIPTPGVPTVQGLPPPQGLPPLQGVPPLQGMPLPQGLPPQGLPLPQGMPLPQGMPPHQPIPGMGPLQPPAFPIGIPPPGFAPGVPPPPFMRPGFNPMHMPPGFLPPPGLPPPMTPPVSIPLPTPGINIPTSTADTSSNDSSKDVSRTNPSPMVPVRDNMEEDEKADNGNGYKPTPSGGPNNAPGPLNPLHGDQQGEQGLNSGQAQGAHPGPPQGPFSGQPQGPRHGTTEGAHQGPQEGSHQGPPEDTDHSPPGGRHYTLPEGPHHGPSEGHHHSPSEGPHLGPTEGPRLGPEGPHHGPPEGSHHGPQEHPHHGPPEGLHHGPPEGPHHGTPEGQYHGPPEGPYHGPPEGPYHGPPDGPFHGPPHGPYHGPPQGPFHGPPQGPYQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPGSGPHPGPPSTGLLGARPGLIPLQRPPGIPSSNMQRFPMSQRPGPPHMMNRGPPPGQGGFGMPPHGIRGPLLGQGHFPRQRGPEGHGGPEERDGRQFRGERPVFPHGREPDRFGRRSFGRNEDERERFGRRFDDPDHERPPSRGRSSWGRGSPSRDRQRDSEERNRWPMGHERERGHPRGRGDFLENRKPDAELDENHKPFSSRMRNAETVTERKEGKAEPAGKNPPEEQPETPKSSEEAEKDPGSNPAKP

Target ORF information:

RefSeq Version	XM_012958019.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis SR-related CTD associated factor 4 (scaf4), transcript variant X1, mRNA.

Target ORF information:

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

XM_012958019.3

ORF Insert Sequence:

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAGTCAGTA TCCAGATCAC CAAAGAGACG GCGTTCACGT 
TCTGGTTCTC GTTCACGGCG ATCTCGTCAT CGCCGCTCTC GTTCTCGCTC TCGTGATAGA 
CGTCGTCACT CCCCCAAATC TCGATCTCAA GAAAGAAGGG ACAGAGAGAA GGAAAAAGAA 
CGAAGGCAAA AAGGACTTCC TCCTATTAAA TCAGAGACTG TTAGCATTTG TAGTACTACA 
CTCTGGATAG GACAACTGGA CAAAAAAACA ACACAACAAG ATGTTGGAAG TTTCCTTGAA 
GAGTTTGGAC CCATTGAATC AATTAATATG ATTCCACCAC GAGGCTGTGC CTATATTGTT 
ATGGTCCACC GCCAGGATGC ATATCGTGCT TTAATGAAAC TTAGCAGAGG AAACGTTAAA 
GTAAACCAGA AGGCAATAAA GATTGCCTGG GCTTTGAACA AAGGGATTAA AGCAGAATAC 
AAACAGTATT GGGATGTGGA GATAGGAGTT ACATACATAC CATGGAATAA AGTCAAACCT 
GAGGATCTTG AGAATTTCTG CGAAGGAGGA ATGTTAGATA ATGACACACT ATGCCCAGAA 
TGGAAACCAC TGGCAAAGAA ACCTGAGCCA AAGGATGTAT CTCAGAATGG TGCAGCTGAG 
ACTAAAGGTG TGGGGGAGGC TTCTCCTGCA CCCCAAGTTC TGCCGCTATT ATCCATTCCT 
ATCCGTGCAC CCATTCCTGG CATGCAGGTG CCACCCCTTC AGCCAATGAC TGCACACCAG 
CCAGTTCCAT CAATTCCAAC ACCAGGGGTA CCAACAGTAC AAGGATTACC CCCTCCCCAG 
GGATTACCCC CCTTGCAAGG AGTTCCTCCA TTACAAGGAA TGCCCCTCCC ACAAGGGCTT 
CCTCCACAAG GATTGCCACT CCCTCAGGGC ATGCCTCTGC CTCAAGGCAT GCCCCCCCAT 
CAGCCTATAC CAGGAATGGG ACCCCTACAA CCTCCTGCGT TTCCCATAGG TATTCCTCCC 
CCTGGATTTG CACCTGGAGT TCCTCCTCCA CCATTTATGA GACCAGGCTT TAATCCAATG 
CATATGCCTC CAGGCTTTCT GCCTCCTCCT GGACTTCCCC CACCTATGAC CCCACCTGTT 
TCTATTCCTC TTCCTACACC TGGAATAAAC ATCCCGACTT CTACAGCAGA TACTTCATCT 
AATGACTCTT CAAAAGATGT GTCTCGTACA AACCCTAGTC CAATGGTACC TGTGAGGGAT 
AATATGGAGG AGGATGAGAA GGCTGATAAT GGCAATGGAT ATAAGCCTAC CCCATCAGGA 
GGGCCAAATA ATGCTCCGGG GCCCTTGAAC CCACTTCACG GTGATCAACA AGGGGAACAA 
GGACTTAATT CTGGTCAAGC ACAGGGAGCC CATCCAGGAC CACCACAAGG ACCTTTTTCA 
GGCCAACCAC AGGGTCCCCG TCATGGCACA ACAGAAGGTG CCCATCAGGG CCCCCAAGAA 
GGTTCCCACC AAGGCCCACC TGAGGATACT GATCACAGCC CTCCAGGAGG TCGTCATTAC 
ACTCTACCAG AAGGTCCTCA TCATGGTCCA TCTGAGGGTC ATCATCATAG CCCATCAGAA 
GGTCCTCACC TGGGCCCAAC AGAAGGTCCA CGTTTGGGTC CAGAGGGTCC CCATCATGGT 
CCACCAGAAG GTTCCCATCA CGGTCCCCAA GAACATCCTC ATCACGGTCC CCCAGAAGGT 
CTGCATCATG GACCGCCAGA AGGTCCTCAT CATGGGACCC CTGAAGGTCA GTACCATGGA 
CCACCAGAAG GACCTTATCA TGGACCACCA GAGGGCCCCT ATCATGGGCC ACCAGACGGT 
CCATTTCATG GTCCACCACA TGGTCCTTAT CATGGACCTC CACAGGGTCC ATTTCATGGC 
CCTCCACAAG GTCCTTATCA AGGACCCCAT CATGGTCCCC CACAAGGGCC ACATCATGGT 
CCACCACAGG GACCCCATCA TGGCCCTCCC CAGGGACCCC ATCATGGCCC ACCTCAAGGA 
CCTCATCATG GCCCCCCACA AGGACCTGGT TCTGGTCCAC ACCCTGGCCC TCCTTCTACT 
GGTCTTTTAG GTGCCAGACC TGGTTTAATA CCACTGCAGA GGCCACCTGG AATTCCTTCT 
TCAAACATGC AGCGCTTTCC CATGTCTCAA AGGCCTGGCC CCCCTCATAT GATGAACAGA 
GGGCCCCCTC CAGGGCAGGG TGGCTTTGGC ATGCCACCTC ATGGGATAAG GGGCCCTTTA 
CTAGGACAAG GACACTTTCC TAGACAGAGA GGACCAGAAG GGCATGGGGG ACCTGAAGAA 
CGAGATGGTA GGCAGTTCAG AGGTGAAAGG CCAGTCTTTC CCCATGGCAG AGAACCAGAT 
AGGTTTGGAA GGCGTTCATT TGGTCGCAAT GAAGATGAGC GAGAACGCTT TGGTCGGCGC 
TTTGATGACC CCGATCATGA GCGACCTCCT AGTCGTGGGA GGAGCAGCTG GGGTAGAGGA 
AGTCCTAGCC GTGACAGACA AAGAGACTCT GAGGAAAGAA ATAGATGGCC AATGGGACAT 
GAGAGAGAGA GAGGTCACCC TAGAGGAAGG GGAGATTTCC TCGAAAATAG AAAACCTGAT 
GCAGAGCTTG ATGAAAACCA CAAACCTTTT AGTAGCAGAA TGCGAAATGC AGAAACCGTT 
ACTGAAAGGA AAGAGGGGAA AGCAGAACCG GCAGGGAAAA ATCCCCCCGA GGAGCAGCCC 
GAGACGCCCA AATCATCTGA AGAAGCAGAA AAGGATCCTG GATCTAATCC AGCAAAGCCT 
TAA

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

scaf4 ( XM_012958020.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012813474.1 Xenopus tropicalis SR-related CTD associated factor 4 (scaf4), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OXa28324
Clone ID Related Accession (Same CDS sequence)	XM_012958020.3 , XM_012958020.2
Accession Version	XM_012958020.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4020bp) 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	SR-related and CTD-associated factor 4 isoform X2
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 mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012958020.2. ##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##

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAGTCAGTA TCCAGATCAC CAAAGAGACG GCGTTCACGT 
TCTGGTTCTC GTTCACGGCG ATCTCGTCAT CGCCGCTCTC GTTCTCGCTC TCGTGATAGA 
CGTCGTCACT CCCCCAAATC TCGATCTCAA GAAAGAAGGG ACAGAGAGAA GGAAAAAGAA 
CGAAGGCAAA AAGGACTTCC TCCTATTAAA TCAGAGACTG TTAGCATTTG TAGTACTACA 
CTCTGGATAG GACAACTGGA CAAAAAAACA ACACAACAAG ATGTTGGAAG TTTCCTTGAA 
GAGTTTGGAC CCATTGAATC AATTAATATG ATTCCACCAC GAGGCTGTGC CTATATTGTT 
ATGGTCCACC GCCAGGATGC ATATCGTGCT TTAATGAAAC TTAGCAGAGG AAACGTTAAA 
GTAAACCAGA AGGCAATAAA GATTGCCTGG GCTTTGAACA AAGGGATTAA AGCAGAATAC 
AAACAGTATT GGGATGTGGA GATAGGAGTT ACATACATAC CATGGAATAA AGTCAAACCT 
GAGGATCTTG AGAATTTCTG CGAAGGAGGA ATGTTAGATA ATGACACACT ATGCCCAGAA 
TGGAAACCAC TGGCAAAGAA ACCTGAGCCA AAGGATGTAT CTCAGAATGG TGCAGCTGAG 
ACTAAAGGTG TGGGGGAGGC TTCTCCTGCA CCCCAAGTTC TGCCGCTATT ATCCATTCCT 
ATCCGTGCAC CCATTCCTGG CATGGTGCCA CCCCTTCAGC CAATGACTGC ACACCAGCCA 
GTTCCATCAA TTCCAACACC AGGGGTACCA ACAGTACAAG GATTACCCCC TCCCCAGGGA 
TTACCCCCCT TGCAAGGAGT TCCTCCATTA CAAGGAATGC CCCTCCCACA AGGGCTTCCT 
CCACAAGGAT TGCCACTCCC TCAGGGCATG CCTCTGCCTC AAGGCATGCC CCCCCATCAG 
CCTATACCAG GAATGGGACC CCTACAACCT CCTGCGTTTC CCATAGGTAT TCCTCCCCCT 
GGATTTGCAC CTGGAGTTCC TCCTCCACCA TTTATGAGAC CAGGCTTTAA TCCAATGCAT 
ATGCCTCCAG GCTTTCTGCC TCCTCCTGGA CTTCCCCCAC CTATGACCCC ACCTGTTTCT 
ATTCCTCTTC CTACACCTGG AATAAACATC CCGACTTCTA CAGCAGATAC TTCATCTAAT 
GACTCTTCAA AAGATGTGTC TCGTACAAAC CCTAGTCCAA TGGTACCTGT GAGGGATAAT 
ATGGAGGAGG ATGAGAAGGC TGATAATGGC AATGGATATA AGCCTACCCC ATCAGGAGGG 
CCAAATAATG CTCCGGGGCC CTTGAACCCA CTTCACGGTG ATCAACAAGG GGAACAAGGA 
CTTAATTCTG GTCAAGCACA GGGAGCCCAT CCAGGACCAC CACAAGGACC TTTTTCAGGC 
CAACCACAGG GTCCCCGTCA TGGCACAACA GAAGGTGCCC ATCAGGGCCC CCAAGAAGGT 
TCCCACCAAG GCCCACCTGA GGATACTGAT CACAGCCCTC CAGGAGGTCG TCATTACACT 
CTACCAGAAG GTCCTCATCA TGGTCCATCT GAGGGTCATC ATCATAGCCC ATCAGAAGGT 
CCTCACCTGG GCCCAACAGA AGGTCCACGT TTGGGTCCAG AGGGTCCCCA TCATGGTCCA 
CCAGAAGGTT CCCATCACGG TCCCCAAGAA CATCCTCATC ACGGTCCCCC AGAAGGTCTG 
CATCATGGAC CGCCAGAAGG TCCTCATCAT GGGACCCCTG AAGGTCAGTA CCATGGACCA 
CCAGAAGGAC CTTATCATGG ACCACCAGAG GGCCCCTATC ATGGGCCACC AGACGGTCCA 
TTTCATGGTC CACCACATGG TCCTTATCAT GGACCTCCAC AGGGTCCATT TCATGGCCCT 
CCACAAGGTC CTTATCAAGG ACCCCATCAT GGTCCCCCAC AAGGGCCACA TCATGGTCCA 
CCACAGGGAC CCCATCATGG CCCTCCCCAG GGACCCCATC ATGGCCCACC TCAAGGACCT 
CATCATGGCC CCCCACAAGG ACCTGGTTCT GGTCCACACC CTGGCCCTCC TTCTACTGGT 
CTTTTAGGTG CCAGACCTGG TTTAATACCA CTGCAGAGGC CACCTGGAAT TCCTTCTTCA 
AACATGCAGC GCTTTCCCAT GTCTCAAAGG CCTGGCCCCC CTCATATGAT GAACAGAGGG 
CCCCCTCCAG GGCAGGGTGG CTTTGGCATG CCACCTCATG GGATAAGGGG CCCTTTACTA 
GGACAAGGAC ACTTTCCTAG ACAGAGAGGA CCAGAAGGGC ATGGGGGACC TGAAGAACGA 
GATGGTAGGC AGTTCAGAGG TGAAAGGCCA GTCTTTCCCC ATGGCAGAGA ACCAGATAGG 
TTTGGAAGGC GTTCATTTGG TCGCAATGAA GATGAGCGAG AACGCTTTGG TCGGCGCTTT 
GATGACCCCG ATCATGAGCG ACCTCCTAGT CGTGGGAGGA GCAGCTGGGG TAGAGGAAGT 
CCTAGCCGTG ACAGACAAAG AGACTCTGAG GAAAGAAATA GATGGCCAAT GGGACATGAG 
AGAGAGAGAG GTCACCCTAG AGGAAGGGGA GATTTCCTCG AAAATAGAAA ACCTGATGCA 
GAGCTTGATG AAAACCACAA ACCTTTTAGT AGCAGAATGC GAAATGCAGA AACCGTTACT 
GAAAGGAAAG AGGGGAAAGC AGAACCGGCA GGGAAAAATC CCCCCGAGGA GCAGCCCGAG 
ACGCCCAAAT CATCTGAAGA AGCAGAAAAG GATCCTGGAT CTAATCCAGC AAAGCCTTAA

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

RefSeq	XP_012813474.1
CDS	311..4330
Translation	MDAVNAFNQELFSLMDMKPPISRAKMILITKAAIKAIKLYKHVVQIVEKFIKKCKPEYKVPGLYVIDSIVRQSRHQFGIDKDVFGPRFTKNLTATFQCLYTCPSEDKSKIVRVLNLWQKNGVFKIEIIQPLLDMAAGAAAADVMTDSSMMEEGSSPPSGMILSEPPDEVQEPPPVAPVPQLPTPDAFAAVAQLFQSTQGQQLQQILQTFQQPPKPQSPAIDENVFAQVQAITSQLNAPAHQPERKTAFDKLLDRFDYDDEPDATEESKKEASSPPLSGSQQSQPPLQPFAFSADSMQPAAYPGQLPGQVPNMDQFQPMMMGMPQEPLPQQTQLPPNGQMLGFGMVPTQSFAPMVPPMGSEPSTHGFQNTFQMQPNEMHVQKEHQQEMPMDVEQPNVQENKRHMNEQSKSVSRSPKRRRSRSGSRSRRSRHRRSRSRSRDRRRHSPKSRSQERRDREKEKERRQKGLPPIKSETVSICSTTLWIGQLDKKTTQQDVGSFLEEFGPIESINMIPPRGCAYIVMVHRQDAYRALMKLSRGNVKVNQKAIKIAWALNKGIKAEYKQYWDVEIGVTYIPWNKVKPEDLENFCEGGMLDNDTLCPEWKPLAKKPEPKDVSQNGAAETKGVGEASPAPQVLPLLSIPIRAPIPGMVPPLQPMTAHQPVPSIPTPGVPTVQGLPPPQGLPPLQGVPPLQGMPLPQGLPPQGLPLPQGMPLPQGMPPHQPIPGMGPLQPPAFPIGIPPPGFAPGVPPPPFMRPGFNPMHMPPGFLPPPGLPPPMTPPVSIPLPTPGINIPTSTADTSSNDSSKDVSRTNPSPMVPVRDNMEEDEKADNGNGYKPTPSGGPNNAPGPLNPLHGDQQGEQGLNSGQAQGAHPGPPQGPFSGQPQGPRHGTTEGAHQGPQEGSHQGPPEDTDHSPPGGRHYTLPEGPHHGPSEGHHHSPSEGPHLGPTEGPRLGPEGPHHGPPEGSHHGPQEHPHHGPPEGLHHGPPEGPHHGTPEGQYHGPPEGPYHGPPEGPYHGPPDGPFHGPPHGPYHGPPQGPFHGPPQGPYQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPGSGPHPGPPSTGLLGARPGLIPLQRPPGIPSSNMQRFPMSQRPGPPHMMNRGPPPGQGGFGMPPHGIRGPLLGQGHFPRQRGPEGHGGPEERDGRQFRGERPVFPHGREPDRFGRRSFGRNEDERERFGRRFDDPDHERPPSRGRSSWGRGSPSRDRQRDSEERNRWPMGHERERGHPRGRGDFLENRKPDAELDENHKPFSSRMRNAETVTERKEGKAEPAGKNPPEEQPETPKSSEEAEKDPGSNPAKP

Target ORF information:

RefSeq Version	XM_012958020.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis SR-related CTD associated factor 4 (scaf4), transcript variant X2, mRNA.

Target ORF information:

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

XM_012958020.3

ORF Insert Sequence:

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAGTCAGTA TCCAGATCAC CAAAGAGACG GCGTTCACGT 
TCTGGTTCTC GTTCACGGCG ATCTCGTCAT CGCCGCTCTC GTTCTCGCTC TCGTGATAGA 
CGTCGTCACT CCCCCAAATC TCGATCTCAA GAAAGAAGGG ACAGAGAGAA GGAAAAAGAA 
CGAAGGCAAA AAGGACTTCC TCCTATTAAA TCAGAGACTG TTAGCATTTG TAGTACTACA 
CTCTGGATAG GACAACTGGA CAAAAAAACA ACACAACAAG ATGTTGGAAG TTTCCTTGAA 
GAGTTTGGAC CCATTGAATC AATTAATATG ATTCCACCAC GAGGCTGTGC CTATATTGTT 
ATGGTCCACC GCCAGGATGC ATATCGTGCT TTAATGAAAC TTAGCAGAGG AAACGTTAAA 
GTAAACCAGA AGGCAATAAA GATTGCCTGG GCTTTGAACA AAGGGATTAA AGCAGAATAC 
AAACAGTATT GGGATGTGGA GATAGGAGTT ACATACATAC CATGGAATAA AGTCAAACCT 
GAGGATCTTG AGAATTTCTG CGAAGGAGGA ATGTTAGATA ATGACACACT ATGCCCAGAA 
TGGAAACCAC TGGCAAAGAA ACCTGAGCCA AAGGATGTAT CTCAGAATGG TGCAGCTGAG 
ACTAAAGGTG TGGGGGAGGC TTCTCCTGCA CCCCAAGTTC TGCCGCTATT ATCCATTCCT 
ATCCGTGCAC CCATTCCTGG CATGGTGCCA CCCCTTCAGC CAATGACTGC ACACCAGCCA 
GTTCCATCAA TTCCAACACC AGGGGTACCA ACAGTACAAG GATTACCCCC TCCCCAGGGA 
TTACCCCCCT TGCAAGGAGT TCCTCCATTA CAAGGAATGC CCCTCCCACA AGGGCTTCCT 
CCACAAGGAT TGCCACTCCC TCAGGGCATG CCTCTGCCTC AAGGCATGCC CCCCCATCAG 
CCTATACCAG GAATGGGACC CCTACAACCT CCTGCGTTTC CCATAGGTAT TCCTCCCCCT 
GGATTTGCAC CTGGAGTTCC TCCTCCACCA TTTATGAGAC CAGGCTTTAA TCCAATGCAT 
ATGCCTCCAG GCTTTCTGCC TCCTCCTGGA CTTCCCCCAC CTATGACCCC ACCTGTTTCT 
ATTCCTCTTC CTACACCTGG AATAAACATC CCGACTTCTA CAGCAGATAC TTCATCTAAT 
GACTCTTCAA AAGATGTGTC TCGTACAAAC CCTAGTCCAA TGGTACCTGT GAGGGATAAT 
ATGGAGGAGG ATGAGAAGGC TGATAATGGC AATGGATATA AGCCTACCCC ATCAGGAGGG 
CCAAATAATG CTCCGGGGCC CTTGAACCCA CTTCACGGTG ATCAACAAGG GGAACAAGGA 
CTTAATTCTG GTCAAGCACA GGGAGCCCAT CCAGGACCAC CACAAGGACC TTTTTCAGGC 
CAACCACAGG GTCCCCGTCA TGGCACAACA GAAGGTGCCC ATCAGGGCCC CCAAGAAGGT 
TCCCACCAAG GCCCACCTGA GGATACTGAT CACAGCCCTC CAGGAGGTCG TCATTACACT 
CTACCAGAAG GTCCTCATCA TGGTCCATCT GAGGGTCATC ATCATAGCCC ATCAGAAGGT 
CCTCACCTGG GCCCAACAGA AGGTCCACGT TTGGGTCCAG AGGGTCCCCA TCATGGTCCA 
CCAGAAGGTT CCCATCACGG TCCCCAAGAA CATCCTCATC ACGGTCCCCC AGAAGGTCTG 
CATCATGGAC CGCCAGAAGG TCCTCATCAT GGGACCCCTG AAGGTCAGTA CCATGGACCA 
CCAGAAGGAC CTTATCATGG ACCACCAGAG GGCCCCTATC ATGGGCCACC AGACGGTCCA 
TTTCATGGTC CACCACATGG TCCTTATCAT GGACCTCCAC AGGGTCCATT TCATGGCCCT 
CCACAAGGTC CTTATCAAGG ACCCCATCAT GGTCCCCCAC AAGGGCCACA TCATGGTCCA 
CCACAGGGAC CCCATCATGG CCCTCCCCAG GGACCCCATC ATGGCCCACC TCAAGGACCT 
CATCATGGCC CCCCACAAGG ACCTGGTTCT GGTCCACACC CTGGCCCTCC TTCTACTGGT 
CTTTTAGGTG CCAGACCTGG TTTAATACCA CTGCAGAGGC CACCTGGAAT TCCTTCTTCA 
AACATGCAGC GCTTTCCCAT GTCTCAAAGG CCTGGCCCCC CTCATATGAT GAACAGAGGG 
CCCCCTCCAG GGCAGGGTGG CTTTGGCATG CCACCTCATG GGATAAGGGG CCCTTTACTA 
GGACAAGGAC ACTTTCCTAG ACAGAGAGGA CCAGAAGGGC ATGGGGGACC TGAAGAACGA 
GATGGTAGGC AGTTCAGAGG TGAAAGGCCA GTCTTTCCCC ATGGCAGAGA ACCAGATAGG 
TTTGGAAGGC GTTCATTTGG TCGCAATGAA GATGAGCGAG AACGCTTTGG TCGGCGCTTT 
GATGACCCCG ATCATGAGCG ACCTCCTAGT CGTGGGAGGA GCAGCTGGGG TAGAGGAAGT 
CCTAGCCGTG ACAGACAAAG AGACTCTGAG GAAAGAAATA GATGGCCAAT GGGACATGAG 
AGAGAGAGAG GTCACCCTAG AGGAAGGGGA GATTTCCTCG AAAATAGAAA ACCTGATGCA 
GAGCTTGATG AAAACCACAA ACCTTTTAGT AGCAGAATGC GAAATGCAGA AACCGTTACT 
GAAAGGAAAG AGGGGAAAGC AGAACCGGCA GGGAAAAATC CCCCCGAGGA GCAGCCCGAG 
ACGCCCAAAT CATCTGAAGA AGCAGAAAAG GATCCTGGAT CTAATCCAGC AAAGCCTTAA

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

scaf4 ( XM_012958021.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012813475.1 Xenopus tropicalis SR-related CTD associated factor 4 (scaf4), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OXa28325
Clone ID Related Accession (Same CDS sequence)	XM_012958021.2 , XM_012958021.3
Accession Version	XM_012958021.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4011bp) 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	SR-related and CTD-associated factor 4 isoform X3
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_012958021.2. ##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##

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAATCACCA AAGAGACGGC GTTCACGTTC TGGTTCTCGT 
TCACGGCGAT CTCGTCATCG CCGCTCTCGT TCTCGCTCTC GTGATAGACG TCGTCACTCC 
CCCAAATCTC GATCTCAAGA AAGAAGGGAC AGAGAGAAGG AAAAAGAACG AAGGCAAAAA 
GGACTTCCTC CTATTAAATC AGAGACTGTT AGCATTTGTA GTACTACACT CTGGATAGGA 
CAACTGGACA AAAAAACAAC ACAACAAGAT GTTGGAAGTT TCCTTGAAGA GTTTGGACCC 
ATTGAATCAA TTAATATGAT TCCACCACGA GGCTGTGCCT ATATTGTTAT GGTCCACCGC 
CAGGATGCAT ATCGTGCTTT AATGAAACTT AGCAGAGGAA ACGTTAAAGT AAACCAGAAG 
GCAATAAAGA TTGCCTGGGC TTTGAACAAA GGGATTAAAG CAGAATACAA ACAGTATTGG 
GATGTGGAGA TAGGAGTTAC ATACATACCA TGGAATAAAG TCAAACCTGA GGATCTTGAG 
AATTTCTGCG AAGGAGGAAT GTTAGATAAT GACACACTAT GCCCAGAATG GAAACCACTG 
GCAAAGAAAC CTGAGCCAAA GGATGTATCT CAGAATGGTG CAGCTGAGAC TAAAGGTGTG 
GGGGAGGCTT CTCCTGCACC CCAAGTTCTG CCGCTATTAT CCATTCCTAT CCGTGCACCC 
ATTCCTGGCA TGCAGGTGCC ACCCCTTCAG CCAATGACTG CACACCAGCC AGTTCCATCA 
ATTCCAACAC CAGGGGTACC AACAGTACAA GGATTACCCC CTCCCCAGGG ATTACCCCCC 
TTGCAAGGAG TTCCTCCATT ACAAGGAATG CCCCTCCCAC AAGGGCTTCC TCCACAAGGA 
TTGCCACTCC CTCAGGGCAT GCCTCTGCCT CAAGGCATGC CCCCCCATCA GCCTATACCA 
GGAATGGGAC CCCTACAACC TCCTGCGTTT CCCATAGGTA TTCCTCCCCC TGGATTTGCA 
CCTGGAGTTC CTCCTCCACC ATTTATGAGA CCAGGCTTTA ATCCAATGCA TATGCCTCCA 
GGCTTTCTGC CTCCTCCTGG ACTTCCCCCA CCTATGACCC CACCTGTTTC TATTCCTCTT 
CCTACACCTG GAATAAACAT CCCGACTTCT ACAGCAGATA CTTCATCTAA TGACTCTTCA 
AAAGATGTGT CTCGTACAAA CCCTAGTCCA ATGGTACCTG TGAGGGATAA TATGGAGGAG 
GATGAGAAGG CTGATAATGG CAATGGATAT AAGCCTACCC CATCAGGAGG GCCAAATAAT 
GCTCCGGGGC CCTTGAACCC ACTTCACGGT GATCAACAAG GGGAACAAGG ACTTAATTCT 
GGTCAAGCAC AGGGAGCCCA TCCAGGACCA CCACAAGGAC CTTTTTCAGG CCAACCACAG 
GGTCCCCGTC ATGGCACAAC AGAAGGTGCC CATCAGGGCC CCCAAGAAGG TTCCCACCAA 
GGCCCACCTG AGGATACTGA TCACAGCCCT CCAGGAGGTC GTCATTACAC TCTACCAGAA 
GGTCCTCATC ATGGTCCATC TGAGGGTCAT CATCATAGCC CATCAGAAGG TCCTCACCTG 
GGCCCAACAG AAGGTCCACG TTTGGGTCCA GAGGGTCCCC ATCATGGTCC ACCAGAAGGT 
TCCCATCACG GTCCCCAAGA ACATCCTCAT CACGGTCCCC CAGAAGGTCT GCATCATGGA 
CCGCCAGAAG GTCCTCATCA TGGGACCCCT GAAGGTCAGT ACCATGGACC ACCAGAAGGA 
CCTTATCATG GACCACCAGA GGGCCCCTAT CATGGGCCAC CAGACGGTCC ATTTCATGGT 
CCACCACATG GTCCTTATCA TGGACCTCCA CAGGGTCCAT TTCATGGCCC TCCACAAGGT 
CCTTATCAAG GACCCCATCA TGGTCCCCCA CAAGGGCCAC ATCATGGTCC ACCACAGGGA 
CCCCATCATG GCCCTCCCCA GGGACCCCAT CATGGCCCAC CTCAAGGACC TCATCATGGC 
CCCCCACAAG GACCTGGTTC TGGTCCACAC CCTGGCCCTC CTTCTACTGG TCTTTTAGGT 
GCCAGACCTG GTTTAATACC ACTGCAGAGG CCACCTGGAA TTCCTTCTTC AAACATGCAG 
CGCTTTCCCA TGTCTCAAAG GCCTGGCCCC CCTCATATGA TGAACAGAGG GCCCCCTCCA 
GGGCAGGGTG GCTTTGGCAT GCCACCTCAT GGGATAAGGG GCCCTTTACT AGGACAAGGA 
CACTTTCCTA GACAGAGAGG ACCAGAAGGG CATGGGGGAC CTGAAGAACG AGATGGTAGG 
CAGTTCAGAG GTGAAAGGCC AGTCTTTCCC CATGGCAGAG AACCAGATAG GTTTGGAAGG 
CGTTCATTTG GTCGCAATGA AGATGAGCGA GAACGCTTTG GTCGGCGCTT TGATGACCCC 
GATCATGAGC GACCTCCTAG TCGTGGGAGG AGCAGCTGGG GTAGAGGAAG TCCTAGCCGT 
GACAGACAAA GAGACTCTGA GGAAAGAAAT AGATGGCCAA TGGGACATGA GAGAGAGAGA 
GGTCACCCTA GAGGAAGGGG AGATTTCCTC GAAAATAGAA AACCTGATGC AGAGCTTGAT 
GAAAACCACA AACCTTTTAG TAGCAGAATG CGAAATGCAG AAACCGTTAC TGAAAGGAAA 
GAGGGGAAAG CAGAACCGGC AGGGAAAAAT CCCCCCGAGG AGCAGCCCGA GACGCCCAAA 
TCATCTGAAG AAGCAGAAAA GGATCCTGGA TCTAATCCAG CAAAGCCTTA A

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

RefSeq	XP_012813475.1
CDS	311..4321
Translation	MDAVNAFNQELFSLMDMKPPISRAKMILITKAAIKAIKLYKHVVQIVEKFIKKCKPEYKVPGLYVIDSIVRQSRHQFGIDKDVFGPRFTKNLTATFQCLYTCPSEDKSKIVRVLNLWQKNGVFKIEIIQPLLDMAAGAAAADVMTDSSMMEEGSSPPSGMILSEPPDEVQEPPPVAPVPQLPTPDAFAAVAQLFQSTQGQQLQQILQTFQQPPKPQSPAIDENVFAQVQAITSQLNAPAHQPERKTAFDKLLDRFDYDDEPDATEESKKEASSPPLSGSQQSQPPLQPFAFSADSMQPAAYPGQLPGQVPNMDQFQPMMMGMPQEPLPQQTQLPPNGQMLGFGMVPTQSFAPMVPPMGSEPSTHGFQNTFQMQPNEMHVQKEHQQEMPMDVEQPNVQENKRHMNEQSKSPKRRRSRSGSRSRRSRHRRSRSRSRDRRRHSPKSRSQERRDREKEKERRQKGLPPIKSETVSICSTTLWIGQLDKKTTQQDVGSFLEEFGPIESINMIPPRGCAYIVMVHRQDAYRALMKLSRGNVKVNQKAIKIAWALNKGIKAEYKQYWDVEIGVTYIPWNKVKPEDLENFCEGGMLDNDTLCPEWKPLAKKPEPKDVSQNGAAETKGVGEASPAPQVLPLLSIPIRAPIPGMQVPPLQPMTAHQPVPSIPTPGVPTVQGLPPPQGLPPLQGVPPLQGMPLPQGLPPQGLPLPQGMPLPQGMPPHQPIPGMGPLQPPAFPIGIPPPGFAPGVPPPPFMRPGFNPMHMPPGFLPPPGLPPPMTPPVSIPLPTPGINIPTSTADTSSNDSSKDVSRTNPSPMVPVRDNMEEDEKADNGNGYKPTPSGGPNNAPGPLNPLHGDQQGEQGLNSGQAQGAHPGPPQGPFSGQPQGPRHGTTEGAHQGPQEGSHQGPPEDTDHSPPGGRHYTLPEGPHHGPSEGHHHSPSEGPHLGPTEGPRLGPEGPHHGPPEGSHHGPQEHPHHGPPEGLHHGPPEGPHHGTPEGQYHGPPEGPYHGPPEGPYHGPPDGPFHGPPHGPYHGPPQGPFHGPPQGPYQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPGSGPHPGPPSTGLLGARPGLIPLQRPPGIPSSNMQRFPMSQRPGPPHMMNRGPPPGQGGFGMPPHGIRGPLLGQGHFPRQRGPEGHGGPEERDGRQFRGERPVFPHGREPDRFGRRSFGRNEDERERFGRRFDDPDHERPPSRGRSSWGRGSPSRDRQRDSEERNRWPMGHERERGHPRGRGDFLENRKPDAELDENHKPFSSRMRNAETVTERKEGKAEPAGKNPPEEQPETPKSSEEAEKDPGSNPAKP

Target ORF information:

RefSeq Version	XM_012958021.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis SR-related CTD associated factor 4 (scaf4), transcript variant X3, mRNA.

Target ORF information:

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

XM_012958021.3

ORF Insert Sequence:

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAATCACCA AAGAGACGGC GTTCACGTTC TGGTTCTCGT 
TCACGGCGAT CTCGTCATCG CCGCTCTCGT TCTCGCTCTC GTGATAGACG TCGTCACTCC 
CCCAAATCTC GATCTCAAGA AAGAAGGGAC AGAGAGAAGG AAAAAGAACG AAGGCAAAAA 
GGACTTCCTC CTATTAAATC AGAGACTGTT AGCATTTGTA GTACTACACT CTGGATAGGA 
CAACTGGACA AAAAAACAAC ACAACAAGAT GTTGGAAGTT TCCTTGAAGA GTTTGGACCC 
ATTGAATCAA TTAATATGAT TCCACCACGA GGCTGTGCCT ATATTGTTAT GGTCCACCGC 
CAGGATGCAT ATCGTGCTTT AATGAAACTT AGCAGAGGAA ACGTTAAAGT AAACCAGAAG 
GCAATAAAGA TTGCCTGGGC TTTGAACAAA GGGATTAAAG CAGAATACAA ACAGTATTGG 
GATGTGGAGA TAGGAGTTAC ATACATACCA TGGAATAAAG TCAAACCTGA GGATCTTGAG 
AATTTCTGCG AAGGAGGAAT GTTAGATAAT GACACACTAT GCCCAGAATG GAAACCACTG 
GCAAAGAAAC CTGAGCCAAA GGATGTATCT CAGAATGGTG CAGCTGAGAC TAAAGGTGTG 
GGGGAGGCTT CTCCTGCACC CCAAGTTCTG CCGCTATTAT CCATTCCTAT CCGTGCACCC 
ATTCCTGGCA TGCAGGTGCC ACCCCTTCAG CCAATGACTG CACACCAGCC AGTTCCATCA 
ATTCCAACAC CAGGGGTACC AACAGTACAA GGATTACCCC CTCCCCAGGG ATTACCCCCC 
TTGCAAGGAG TTCCTCCATT ACAAGGAATG CCCCTCCCAC AAGGGCTTCC TCCACAAGGA 
TTGCCACTCC CTCAGGGCAT GCCTCTGCCT CAAGGCATGC CCCCCCATCA GCCTATACCA 
GGAATGGGAC CCCTACAACC TCCTGCGTTT CCCATAGGTA TTCCTCCCCC TGGATTTGCA 
CCTGGAGTTC CTCCTCCACC ATTTATGAGA CCAGGCTTTA ATCCAATGCA TATGCCTCCA 
GGCTTTCTGC CTCCTCCTGG ACTTCCCCCA CCTATGACCC CACCTGTTTC TATTCCTCTT 
CCTACACCTG GAATAAACAT CCCGACTTCT ACAGCAGATA CTTCATCTAA TGACTCTTCA 
AAAGATGTGT CTCGTACAAA CCCTAGTCCA ATGGTACCTG TGAGGGATAA TATGGAGGAG 
GATGAGAAGG CTGATAATGG CAATGGATAT AAGCCTACCC CATCAGGAGG GCCAAATAAT 
GCTCCGGGGC CCTTGAACCC ACTTCACGGT GATCAACAAG GGGAACAAGG ACTTAATTCT 
GGTCAAGCAC AGGGAGCCCA TCCAGGACCA CCACAAGGAC CTTTTTCAGG CCAACCACAG 
GGTCCCCGTC ATGGCACAAC AGAAGGTGCC CATCAGGGCC CCCAAGAAGG TTCCCACCAA 
GGCCCACCTG AGGATACTGA TCACAGCCCT CCAGGAGGTC GTCATTACAC TCTACCAGAA 
GGTCCTCATC ATGGTCCATC TGAGGGTCAT CATCATAGCC CATCAGAAGG TCCTCACCTG 
GGCCCAACAG AAGGTCCACG TTTGGGTCCA GAGGGTCCCC ATCATGGTCC ACCAGAAGGT 
TCCCATCACG GTCCCCAAGA ACATCCTCAT CACGGTCCCC CAGAAGGTCT GCATCATGGA 
CCGCCAGAAG GTCCTCATCA TGGGACCCCT GAAGGTCAGT ACCATGGACC ACCAGAAGGA 
CCTTATCATG GACCACCAGA GGGCCCCTAT CATGGGCCAC CAGACGGTCC ATTTCATGGT 
CCACCACATG GTCCTTATCA TGGACCTCCA CAGGGTCCAT TTCATGGCCC TCCACAAGGT 
CCTTATCAAG GACCCCATCA TGGTCCCCCA CAAGGGCCAC ATCATGGTCC ACCACAGGGA 
CCCCATCATG GCCCTCCCCA GGGACCCCAT CATGGCCCAC CTCAAGGACC TCATCATGGC 
CCCCCACAAG GACCTGGTTC TGGTCCACAC CCTGGCCCTC CTTCTACTGG TCTTTTAGGT 
GCCAGACCTG GTTTAATACC ACTGCAGAGG CCACCTGGAA TTCCTTCTTC AAACATGCAG 
CGCTTTCCCA TGTCTCAAAG GCCTGGCCCC CCTCATATGA TGAACAGAGG GCCCCCTCCA 
GGGCAGGGTG GCTTTGGCAT GCCACCTCAT GGGATAAGGG GCCCTTTACT AGGACAAGGA 
CACTTTCCTA GACAGAGAGG ACCAGAAGGG CATGGGGGAC CTGAAGAACG AGATGGTAGG 
CAGTTCAGAG GTGAAAGGCC AGTCTTTCCC CATGGCAGAG AACCAGATAG GTTTGGAAGG 
CGTTCATTTG GTCGCAATGA AGATGAGCGA GAACGCTTTG GTCGGCGCTT TGATGACCCC 
GATCATGAGC GACCTCCTAG TCGTGGGAGG AGCAGCTGGG GTAGAGGAAG TCCTAGCCGT 
GACAGACAAA GAGACTCTGA GGAAAGAAAT AGATGGCCAA TGGGACATGA GAGAGAGAGA 
GGTCACCCTA GAGGAAGGGG AGATTTCCTC GAAAATAGAA AACCTGATGC AGAGCTTGAT 
GAAAACCACA AACCTTTTAG TAGCAGAATG CGAAATGCAG AAACCGTTAC TGAAAGGAAA 
GAGGGGAAAG CAGAACCGGC AGGGAAAAAT CCCCCCGAGG AGCAGCCCGA GACGCCCAAA 
TCATCTGAAG AAGCAGAAAA GGATCCTGGA TCTAATCCAG CAAAGCCTTA A

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

scaf4 ( XM_012958019.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012813473.1 Xenopus tropicalis SR-related CTD-associated factor 4 (scaf4), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OXa28323
Clone ID Related Accession (Same CDS sequence)	XM_012958019.2 , XM_012958019.3
Accession Version	XM_012958019.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4023bp) 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	splicing factor, arginine/serine-rich 15 isoform X1
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 mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012958019.1. ##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##

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAGTCAGTA TCCAGATCAC CAAAGAGACG GCGTTCACGT 
TCTGGTTCTC GTTCACGGCG ATCTCGTCAT CGCCGCTCTC GTTCTCGCTC TCGTGATAGA 
CGTCGTCACT CCCCCAAATC TCGATCTCAA GAAAGAAGGG ACAGAGAGAA GGAAAAAGAA 
CGAAGGCAAA AAGGACTTCC TCCTATTAAA TCAGAGACTG TTAGCATTTG TAGTACTACA 
CTCTGGATAG GACAACTGGA CAAAAAAACA ACACAACAAG ATGTTGGAAG TTTCCTTGAA 
GAGTTTGGAC CCATTGAATC AATTAATATG ATTCCACCAC GAGGCTGTGC CTATATTGTT 
ATGGTCCACC GCCAGGATGC ATATCGTGCT TTAATGAAAC TTAGCAGAGG AAACGTTAAA 
GTAAACCAGA AGGCAATAAA GATTGCCTGG GCTTTGAACA AAGGGATTAA AGCAGAATAC 
AAACAGTATT GGGATGTGGA GATAGGAGTT ACATACATAC CATGGAATAA AGTCAAACCT 
GAGGATCTTG AGAATTTCTG CGAAGGAGGA ATGTTAGATA ATGACACACT ATGCCCAGAA 
TGGAAACCAC TGGCAAAGAA ACCTGAGCCA AAGGATGTAT CTCAGAATGG TGCAGCTGAG 
ACTAAAGGTG TGGGGGAGGC TTCTCCTGCA CCCCAAGTTC TGCCGCTATT ATCCATTCCT 
ATCCGTGCAC CCATTCCTGG CATGCAGGTG CCACCCCTTC AGCCAATGAC TGCACACCAG 
CCAGTTCCAT CAATTCCAAC ACCAGGGGTA CCAACAGTAC AAGGATTACC CCCTCCCCAG 
GGATTACCCC CCTTGCAAGG AGTTCCTCCA TTACAAGGAA TGCCCCTCCC ACAAGGGCTT 
CCTCCACAAG GATTGCCACT CCCTCAGGGC ATGCCTCTGC CTCAAGGCAT GCCCCCCCAT 
CAGCCTATAC CAGGAATGGG ACCCCTACAA CCTCCTGCGT TTCCCATAGG TATTCCTCCC 
CCTGGATTTG CACCTGGAGT TCCTCCTCCA CCATTTATGA GACCAGGCTT TAATCCAATG 
CATATGCCTC CAGGCTTTCT GCCTCCTCCT GGACTTCCCC CACCTATGAC CCCACCTGTT 
TCTATTCCTC TTCCTACACC TGGAATAAAC ATCCCGACTT CTACAGCAGA TACTTCATCT 
AATGACTCTT CAAAAGATGT GTCTCGTACA AACCCTAGTC CAATGGTACC TGTGAGGGAT 
AATATGGAGG AGGATGAGAA GGCTGATAAT GGCAATGGAT ATAAGCCTAC CCCATCAGGA 
GGGCCAAATA ATGCTCCGGG GCCCTTGAAC CCACTTCACG GTGATCAACA AGGGGAACAA 
GGACTTAATT CTGGTCAAGC ACAGGGAGCC CATCCAGGAC CACCACAAGG ACCTTTTTCA 
GGCCAACCAC AGGGTCCCCG TCATGGCACA ACAGAAGGTG CCCATCAGGG CCCCCAAGAA 
GGTTCCCACC AAGGCCCACC TGAGGATACT GATCACAGCC CTCCAGGAGG TCGTCATTAC 
ACTCTACCAG AAGGTCCTCA TCATGGTCCA TCTGAGGGTC ATCATCATAG CCCATCAGAA 
GGTCCTCACC TGGGCCCAAC AGAAGGTCCA CGTTTGGGTC CAGAGGGTCC CCATCATGGT 
CCACCAGAAG GTTCCCATCA CGGTCCCCAA GAACATCCTC ATCACGGTCC CCCAGAAGGT 
CTGCATCATG GACCGCCAGA AGGTCCTCAT CATGGGACCC CTGAAGGTCA GTACCATGGA 
CCACCAGAAG GACCTTATCA TGGACCACCA GAGGGCCCCT ATCATGGGCC ACCAGACGGT 
CCATTTCATG GTCCACCACA TGGTCCTTAT CATGGACCTC CACAGGGTCC ATTTCATGGC 
CCTCCACAAG GTCCTTATCA AGGACCCCAT CATGGTCCCC CACAAGGGCC ACATCATGGT 
CCACCACAGG GACCCCATCA TGGCCCTCCC CAGGGACCCC ATCATGGCCC ACCTCAAGGA 
CCTCATCATG GCCCCCCACA AGGACCTGGT TCTGGTCCAC ACCCTGGCCC TCCTTCTACT 
GGTCTTTTAG GTGCCAGACC TGGTTTAATA CCACTGCAGA GGCCACCTGG AATTCCTTCT 
TCAAACATGC AGCGCTTTCC CATGTCTCAA AGGCCTGGCC CCCCTCATAT GATGAACAGA 
GGGCCCCCTC CAGGGCAGGG TGGCTTTGGC ATGCCACCTC ATGGGATAAG GGGCCCTTTA 
CTAGGACAAG GACACTTTCC TAGACAGAGA GGACCAGAAG GGCATGGGGG ACCTGAAGAA 
CGAGATGGTA GGCAGTTCAG AGGTGAAAGG CCAGTCTTTC CCCATGGCAG AGAACCAGAT 
AGGTTTGGAA GGCGTTCATT TGGTCGCAAT GAAGATGAGC GAGAACGCTT TGGTCGGCGC 
TTTGATGACC CCGATCATGA GCGACCTCCT AGTCGTGGGA GGAGCAGCTG GGGTAGAGGA 
AGTCCTAGCC GTGACAGACA AAGAGACTCT GAGGAAAGAA ATAGATGGCC AATGGGACAT 
GAGAGAGAGA GAGGTCACCC TAGAGGAAGG GGAGATTTCC TCGAAAATAG AAAACCTGAT 
GCAGAGCTTG ATGAAAACCA CAAACCTTTT AGTAGCAGAA TGCGAAATGC AGAAACCGTT 
ACTGAAAGGA AAGAGGGGAA AGCAGAACCG GCAGGGAAAA ATCCCCCCGA GGAGCAGCCC 
GAGACGCCCA AATCATCTGA AGAAGCAGAA AAGGATCCTG GATCTAATCC AGCAAAGCCT 
TAA

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

RefSeq	XP_012813473.1
CDS	918..4940
Translation	MDAVNAFNQELFSLMDMKPPISRAKMILITKAAIKAIKLYKHVVQIVEKFIKKCKPEYKVPGLYVIDSIVRQSRHQFGIDKDVFGPRFTKNLTATFQCLYTCPSEDKSKIVRVLNLWQKNGVFKIEIIQPLLDMAAGAAAADVMTDSSMMEEGSSPPSGMILSEPPDEVQEPPPVAPVPQLPTPDAFAAVAQLFQSTQGQQLQQILQTFQQPPKPQSPAIDENVFAQVQAITSQLNAPAHQPERKTAFDKLLDRFDYDDEPDATEESKKEASSPPLSGSQQSQPPLQPFAFSADSMQPAAYPGQLPGQVPNMDQFQPMMMGMPQEPLPQQTQLPPNGQMLGFGMVPTQSFAPMVPPMGSEPSTHGFQNTFQMQPNEMHVQKEHQQEMPMDVEQPNVQENKRHMNEQSKSVSRSPKRRRSRSGSRSRRSRHRRSRSRSRDRRRHSPKSRSQERRDREKEKERRQKGLPPIKSETVSICSTTLWIGQLDKKTTQQDVGSFLEEFGPIESINMIPPRGCAYIVMVHRQDAYRALMKLSRGNVKVNQKAIKIAWALNKGIKAEYKQYWDVEIGVTYIPWNKVKPEDLENFCEGGMLDNDTLCPEWKPLAKKPEPKDVSQNGAAETKGVGEASPAPQVLPLLSIPIRAPIPGMQVPPLQPMTAHQPVPSIPTPGVPTVQGLPPPQGLPPLQGVPPLQGMPLPQGLPPQGLPLPQGMPLPQGMPPHQPIPGMGPLQPPAFPIGIPPPGFAPGVPPPPFMRPGFNPMHMPPGFLPPPGLPPPMTPPVSIPLPTPGINIPTSTADTSSNDSSKDVSRTNPSPMVPVRDNMEEDEKADNGNGYKPTPSGGPNNAPGPLNPLHGDQQGEQGLNSGQAQGAHPGPPQGPFSGQPQGPRHGTTEGAHQGPQEGSHQGPPEDTDHSPPGGRHYTLPEGPHHGPSEGHHHSPSEGPHLGPTEGPRLGPEGPHHGPPEGSHHGPQEHPHHGPPEGLHHGPPEGPHHGTPEGQYHGPPEGPYHGPPEGPYHGPPDGPFHGPPHGPYHGPPQGPFHGPPQGPYQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPGSGPHPGPPSTGLLGARPGLIPLQRPPGIPSSNMQRFPMSQRPGPPHMMNRGPPPGQGGFGMPPHGIRGPLLGQGHFPRQRGPEGHGGPEERDGRQFRGERPVFPHGREPDRFGRRSFGRNEDERERFGRRFDDPDHERPPSRGRSSWGRGSPSRDRQRDSEERNRWPMGHERERGHPRGRGDFLENRKPDAELDENHKPFSSRMRNAETVTERKEGKAEPAGKNPPEEQPETPKSSEEAEKDPGSNPAKP

Target ORF information:

RefSeq Version	XM_012958019.2
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis SR-related CTD-associated factor 4 (scaf4), transcript variant X1, mRNA.

Target ORF information:

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

XM_012958019.2

ORF Insert Sequence:

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAGTCAGTA TCCAGATCAC CAAAGAGACG GCGTTCACGT 
TCTGGTTCTC GTTCACGGCG ATCTCGTCAT CGCCGCTCTC GTTCTCGCTC TCGTGATAGA 
CGTCGTCACT CCCCCAAATC TCGATCTCAA GAAAGAAGGG ACAGAGAGAA GGAAAAAGAA 
CGAAGGCAAA AAGGACTTCC TCCTATTAAA TCAGAGACTG TTAGCATTTG TAGTACTACA 
CTCTGGATAG GACAACTGGA CAAAAAAACA ACACAACAAG ATGTTGGAAG TTTCCTTGAA 
GAGTTTGGAC CCATTGAATC AATTAATATG ATTCCACCAC GAGGCTGTGC CTATATTGTT 
ATGGTCCACC GCCAGGATGC ATATCGTGCT TTAATGAAAC TTAGCAGAGG AAACGTTAAA 
GTAAACCAGA AGGCAATAAA GATTGCCTGG GCTTTGAACA AAGGGATTAA AGCAGAATAC 
AAACAGTATT GGGATGTGGA GATAGGAGTT ACATACATAC CATGGAATAA AGTCAAACCT 
GAGGATCTTG AGAATTTCTG CGAAGGAGGA ATGTTAGATA ATGACACACT ATGCCCAGAA 
TGGAAACCAC TGGCAAAGAA ACCTGAGCCA AAGGATGTAT CTCAGAATGG TGCAGCTGAG 
ACTAAAGGTG TGGGGGAGGC TTCTCCTGCA CCCCAAGTTC TGCCGCTATT ATCCATTCCT 
ATCCGTGCAC CCATTCCTGG CATGCAGGTG CCACCCCTTC AGCCAATGAC TGCACACCAG 
CCAGTTCCAT CAATTCCAAC ACCAGGGGTA CCAACAGTAC AAGGATTACC CCCTCCCCAG 
GGATTACCCC CCTTGCAAGG AGTTCCTCCA TTACAAGGAA TGCCCCTCCC ACAAGGGCTT 
CCTCCACAAG GATTGCCACT CCCTCAGGGC ATGCCTCTGC CTCAAGGCAT GCCCCCCCAT 
CAGCCTATAC CAGGAATGGG ACCCCTACAA CCTCCTGCGT TTCCCATAGG TATTCCTCCC 
CCTGGATTTG CACCTGGAGT TCCTCCTCCA CCATTTATGA GACCAGGCTT TAATCCAATG 
CATATGCCTC CAGGCTTTCT GCCTCCTCCT GGACTTCCCC CACCTATGAC CCCACCTGTT 
TCTATTCCTC TTCCTACACC TGGAATAAAC ATCCCGACTT CTACAGCAGA TACTTCATCT 
AATGACTCTT CAAAAGATGT GTCTCGTACA AACCCTAGTC CAATGGTACC TGTGAGGGAT 
AATATGGAGG AGGATGAGAA GGCTGATAAT GGCAATGGAT ATAAGCCTAC CCCATCAGGA 
GGGCCAAATA ATGCTCCGGG GCCCTTGAAC CCACTTCACG GTGATCAACA AGGGGAACAA 
GGACTTAATT CTGGTCAAGC ACAGGGAGCC CATCCAGGAC CACCACAAGG ACCTTTTTCA 
GGCCAACCAC AGGGTCCCCG TCATGGCACA ACAGAAGGTG CCCATCAGGG CCCCCAAGAA 
GGTTCCCACC AAGGCCCACC TGAGGATACT GATCACAGCC CTCCAGGAGG TCGTCATTAC 
ACTCTACCAG AAGGTCCTCA TCATGGTCCA TCTGAGGGTC ATCATCATAG CCCATCAGAA 
GGTCCTCACC TGGGCCCAAC AGAAGGTCCA CGTTTGGGTC CAGAGGGTCC CCATCATGGT 
CCACCAGAAG GTTCCCATCA CGGTCCCCAA GAACATCCTC ATCACGGTCC CCCAGAAGGT 
CTGCATCATG GACCGCCAGA AGGTCCTCAT CATGGGACCC CTGAAGGTCA GTACCATGGA 
CCACCAGAAG GACCTTATCA TGGACCACCA GAGGGCCCCT ATCATGGGCC ACCAGACGGT 
CCATTTCATG GTCCACCACA TGGTCCTTAT CATGGACCTC CACAGGGTCC ATTTCATGGC 
CCTCCACAAG GTCCTTATCA AGGACCCCAT CATGGTCCCC CACAAGGGCC ACATCATGGT 
CCACCACAGG GACCCCATCA TGGCCCTCCC CAGGGACCCC ATCATGGCCC ACCTCAAGGA 
CCTCATCATG GCCCCCCACA AGGACCTGGT TCTGGTCCAC ACCCTGGCCC TCCTTCTACT 
GGTCTTTTAG GTGCCAGACC TGGTTTAATA CCACTGCAGA GGCCACCTGG AATTCCTTCT 
TCAAACATGC AGCGCTTTCC CATGTCTCAA AGGCCTGGCC CCCCTCATAT GATGAACAGA 
GGGCCCCCTC CAGGGCAGGG TGGCTTTGGC ATGCCACCTC ATGGGATAAG GGGCCCTTTA 
CTAGGACAAG GACACTTTCC TAGACAGAGA GGACCAGAAG GGCATGGGGG ACCTGAAGAA 
CGAGATGGTA GGCAGTTCAG AGGTGAAAGG CCAGTCTTTC CCCATGGCAG AGAACCAGAT 
AGGTTTGGAA GGCGTTCATT TGGTCGCAAT GAAGATGAGC GAGAACGCTT TGGTCGGCGC 
TTTGATGACC CCGATCATGA GCGACCTCCT AGTCGTGGGA GGAGCAGCTG GGGTAGAGGA 
AGTCCTAGCC GTGACAGACA AAGAGACTCT GAGGAAAGAA ATAGATGGCC AATGGGACAT 
GAGAGAGAGA GAGGTCACCC TAGAGGAAGG GGAGATTTCC TCGAAAATAG AAAACCTGAT 
GCAGAGCTTG ATGAAAACCA CAAACCTTTT AGTAGCAGAA TGCGAAATGC AGAAACCGTT 
ACTGAAAGGA AAGAGGGGAA AGCAGAACCG GCAGGGAAAA ATCCCCCCGA GGAGCAGCCC 
GAGACGCCCA AATCATCTGA AGAAGCAGAA AAGGATCCTG GATCTAATCC AGCAAAGCCT 
TAA

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

scaf4 ( XM_012958020.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012813474.1 Xenopus tropicalis SR-related CTD-associated factor 4 (scaf4), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OXa28324
Clone ID Related Accession (Same CDS sequence)	XM_012958020.3 , XM_012958020.2
Accession Version	XM_012958020.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4020bp) 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	splicing factor, arginine/serine-rich 15 isoform X2
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 mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012958020.1. ##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##

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAGTCAGTA TCCAGATCAC CAAAGAGACG GCGTTCACGT 
TCTGGTTCTC GTTCACGGCG ATCTCGTCAT CGCCGCTCTC GTTCTCGCTC TCGTGATAGA 
CGTCGTCACT CCCCCAAATC TCGATCTCAA GAAAGAAGGG ACAGAGAGAA GGAAAAAGAA 
CGAAGGCAAA AAGGACTTCC TCCTATTAAA TCAGAGACTG TTAGCATTTG TAGTACTACA 
CTCTGGATAG GACAACTGGA CAAAAAAACA ACACAACAAG ATGTTGGAAG TTTCCTTGAA 
GAGTTTGGAC CCATTGAATC AATTAATATG ATTCCACCAC GAGGCTGTGC CTATATTGTT 
ATGGTCCACC GCCAGGATGC ATATCGTGCT TTAATGAAAC TTAGCAGAGG AAACGTTAAA 
GTAAACCAGA AGGCAATAAA GATTGCCTGG GCTTTGAACA AAGGGATTAA AGCAGAATAC 
AAACAGTATT GGGATGTGGA GATAGGAGTT ACATACATAC CATGGAATAA AGTCAAACCT 
GAGGATCTTG AGAATTTCTG CGAAGGAGGA ATGTTAGATA ATGACACACT ATGCCCAGAA 
TGGAAACCAC TGGCAAAGAA ACCTGAGCCA AAGGATGTAT CTCAGAATGG TGCAGCTGAG 
ACTAAAGGTG TGGGGGAGGC TTCTCCTGCA CCCCAAGTTC TGCCGCTATT ATCCATTCCT 
ATCCGTGCAC CCATTCCTGG CATGGTGCCA CCCCTTCAGC CAATGACTGC ACACCAGCCA 
GTTCCATCAA TTCCAACACC AGGGGTACCA ACAGTACAAG GATTACCCCC TCCCCAGGGA 
TTACCCCCCT TGCAAGGAGT TCCTCCATTA CAAGGAATGC CCCTCCCACA AGGGCTTCCT 
CCACAAGGAT TGCCACTCCC TCAGGGCATG CCTCTGCCTC AAGGCATGCC CCCCCATCAG 
CCTATACCAG GAATGGGACC CCTACAACCT CCTGCGTTTC CCATAGGTAT TCCTCCCCCT 
GGATTTGCAC CTGGAGTTCC TCCTCCACCA TTTATGAGAC CAGGCTTTAA TCCAATGCAT 
ATGCCTCCAG GCTTTCTGCC TCCTCCTGGA CTTCCCCCAC CTATGACCCC ACCTGTTTCT 
ATTCCTCTTC CTACACCTGG AATAAACATC CCGACTTCTA CAGCAGATAC TTCATCTAAT 
GACTCTTCAA AAGATGTGTC TCGTACAAAC CCTAGTCCAA TGGTACCTGT GAGGGATAAT 
ATGGAGGAGG ATGAGAAGGC TGATAATGGC AATGGATATA AGCCTACCCC ATCAGGAGGG 
CCAAATAATG CTCCGGGGCC CTTGAACCCA CTTCACGGTG ATCAACAAGG GGAACAAGGA 
CTTAATTCTG GTCAAGCACA GGGAGCCCAT CCAGGACCAC CACAAGGACC TTTTTCAGGC 
CAACCACAGG GTCCCCGTCA TGGCACAACA GAAGGTGCCC ATCAGGGCCC CCAAGAAGGT 
TCCCACCAAG GCCCACCTGA GGATACTGAT CACAGCCCTC CAGGAGGTCG TCATTACACT 
CTACCAGAAG GTCCTCATCA TGGTCCATCT GAGGGTCATC ATCATAGCCC ATCAGAAGGT 
CCTCACCTGG GCCCAACAGA AGGTCCACGT TTGGGTCCAG AGGGTCCCCA TCATGGTCCA 
CCAGAAGGTT CCCATCACGG TCCCCAAGAA CATCCTCATC ACGGTCCCCC AGAAGGTCTG 
CATCATGGAC CGCCAGAAGG TCCTCATCAT GGGACCCCTG AAGGTCAGTA CCATGGACCA 
CCAGAAGGAC CTTATCATGG ACCACCAGAG GGCCCCTATC ATGGGCCACC AGACGGTCCA 
TTTCATGGTC CACCACATGG TCCTTATCAT GGACCTCCAC AGGGTCCATT TCATGGCCCT 
CCACAAGGTC CTTATCAAGG ACCCCATCAT GGTCCCCCAC AAGGGCCACA TCATGGTCCA 
CCACAGGGAC CCCATCATGG CCCTCCCCAG GGACCCCATC ATGGCCCACC TCAAGGACCT 
CATCATGGCC CCCCACAAGG ACCTGGTTCT GGTCCACACC CTGGCCCTCC TTCTACTGGT 
CTTTTAGGTG CCAGACCTGG TTTAATACCA CTGCAGAGGC CACCTGGAAT TCCTTCTTCA 
AACATGCAGC GCTTTCCCAT GTCTCAAAGG CCTGGCCCCC CTCATATGAT GAACAGAGGG 
CCCCCTCCAG GGCAGGGTGG CTTTGGCATG CCACCTCATG GGATAAGGGG CCCTTTACTA 
GGACAAGGAC ACTTTCCTAG ACAGAGAGGA CCAGAAGGGC ATGGGGGACC TGAAGAACGA 
GATGGTAGGC AGTTCAGAGG TGAAAGGCCA GTCTTTCCCC ATGGCAGAGA ACCAGATAGG 
TTTGGAAGGC GTTCATTTGG TCGCAATGAA GATGAGCGAG AACGCTTTGG TCGGCGCTTT 
GATGACCCCG ATCATGAGCG ACCTCCTAGT CGTGGGAGGA GCAGCTGGGG TAGAGGAAGT 
CCTAGCCGTG ACAGACAAAG AGACTCTGAG GAAAGAAATA GATGGCCAAT GGGACATGAG 
AGAGAGAGAG GTCACCCTAG AGGAAGGGGA GATTTCCTCG AAAATAGAAA ACCTGATGCA 
GAGCTTGATG AAAACCACAA ACCTTTTAGT AGCAGAATGC GAAATGCAGA AACCGTTACT 
GAAAGGAAAG AGGGGAAAGC AGAACCGGCA GGGAAAAATC CCCCCGAGGA GCAGCCCGAG 
ACGCCCAAAT CATCTGAAGA AGCAGAAAAG GATCCTGGAT CTAATCCAGC AAAGCCTTAA

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

RefSeq	XP_012813474.1
CDS	917..4936
Translation	MDAVNAFNQELFSLMDMKPPISRAKMILITKAAIKAIKLYKHVVQIVEKFIKKCKPEYKVPGLYVIDSIVRQSRHQFGIDKDVFGPRFTKNLTATFQCLYTCPSEDKSKIVRVLNLWQKNGVFKIEIIQPLLDMAAGAAAADVMTDSSMMEEGSSPPSGMILSEPPDEVQEPPPVAPVPQLPTPDAFAAVAQLFQSTQGQQLQQILQTFQQPPKPQSPAIDENVFAQVQAITSQLNAPAHQPERKTAFDKLLDRFDYDDEPDATEESKKEASSPPLSGSQQSQPPLQPFAFSADSMQPAAYPGQLPGQVPNMDQFQPMMMGMPQEPLPQQTQLPPNGQMLGFGMVPTQSFAPMVPPMGSEPSTHGFQNTFQMQPNEMHVQKEHQQEMPMDVEQPNVQENKRHMNEQSKSVSRSPKRRRSRSGSRSRRSRHRRSRSRSRDRRRHSPKSRSQERRDREKEKERRQKGLPPIKSETVSICSTTLWIGQLDKKTTQQDVGSFLEEFGPIESINMIPPRGCAYIVMVHRQDAYRALMKLSRGNVKVNQKAIKIAWALNKGIKAEYKQYWDVEIGVTYIPWNKVKPEDLENFCEGGMLDNDTLCPEWKPLAKKPEPKDVSQNGAAETKGVGEASPAPQVLPLLSIPIRAPIPGMVPPLQPMTAHQPVPSIPTPGVPTVQGLPPPQGLPPLQGVPPLQGMPLPQGLPPQGLPLPQGMPLPQGMPPHQPIPGMGPLQPPAFPIGIPPPGFAPGVPPPPFMRPGFNPMHMPPGFLPPPGLPPPMTPPVSIPLPTPGINIPTSTADTSSNDSSKDVSRTNPSPMVPVRDNMEEDEKADNGNGYKPTPSGGPNNAPGPLNPLHGDQQGEQGLNSGQAQGAHPGPPQGPFSGQPQGPRHGTTEGAHQGPQEGSHQGPPEDTDHSPPGGRHYTLPEGPHHGPSEGHHHSPSEGPHLGPTEGPRLGPEGPHHGPPEGSHHGPQEHPHHGPPEGLHHGPPEGPHHGTPEGQYHGPPEGPYHGPPEGPYHGPPDGPFHGPPHGPYHGPPQGPFHGPPQGPYQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPGSGPHPGPPSTGLLGARPGLIPLQRPPGIPSSNMQRFPMSQRPGPPHMMNRGPPPGQGGFGMPPHGIRGPLLGQGHFPRQRGPEGHGGPEERDGRQFRGERPVFPHGREPDRFGRRSFGRNEDERERFGRRFDDPDHERPPSRGRSSWGRGSPSRDRQRDSEERNRWPMGHERERGHPRGRGDFLENRKPDAELDENHKPFSSRMRNAETVTERKEGKAEPAGKNPPEEQPETPKSSEEAEKDPGSNPAKP

Target ORF information:

RefSeq Version	XM_012958020.2
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis SR-related CTD-associated factor 4 (scaf4), transcript variant X2, mRNA.

Target ORF information:

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

XM_012958020.2

ORF Insert Sequence:

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAGTCAGTA TCCAGATCAC CAAAGAGACG GCGTTCACGT 
TCTGGTTCTC GTTCACGGCG ATCTCGTCAT CGCCGCTCTC GTTCTCGCTC TCGTGATAGA 
CGTCGTCACT CCCCCAAATC TCGATCTCAA GAAAGAAGGG ACAGAGAGAA GGAAAAAGAA 
CGAAGGCAAA AAGGACTTCC TCCTATTAAA TCAGAGACTG TTAGCATTTG TAGTACTACA 
CTCTGGATAG GACAACTGGA CAAAAAAACA ACACAACAAG ATGTTGGAAG TTTCCTTGAA 
GAGTTTGGAC CCATTGAATC AATTAATATG ATTCCACCAC GAGGCTGTGC CTATATTGTT 
ATGGTCCACC GCCAGGATGC ATATCGTGCT TTAATGAAAC TTAGCAGAGG AAACGTTAAA 
GTAAACCAGA AGGCAATAAA GATTGCCTGG GCTTTGAACA AAGGGATTAA AGCAGAATAC 
AAACAGTATT GGGATGTGGA GATAGGAGTT ACATACATAC CATGGAATAA AGTCAAACCT 
GAGGATCTTG AGAATTTCTG CGAAGGAGGA ATGTTAGATA ATGACACACT ATGCCCAGAA 
TGGAAACCAC TGGCAAAGAA ACCTGAGCCA AAGGATGTAT CTCAGAATGG TGCAGCTGAG 
ACTAAAGGTG TGGGGGAGGC TTCTCCTGCA CCCCAAGTTC TGCCGCTATT ATCCATTCCT 
ATCCGTGCAC CCATTCCTGG CATGGTGCCA CCCCTTCAGC CAATGACTGC ACACCAGCCA 
GTTCCATCAA TTCCAACACC AGGGGTACCA ACAGTACAAG GATTACCCCC TCCCCAGGGA 
TTACCCCCCT TGCAAGGAGT TCCTCCATTA CAAGGAATGC CCCTCCCACA AGGGCTTCCT 
CCACAAGGAT TGCCACTCCC TCAGGGCATG CCTCTGCCTC AAGGCATGCC CCCCCATCAG 
CCTATACCAG GAATGGGACC CCTACAACCT CCTGCGTTTC CCATAGGTAT TCCTCCCCCT 
GGATTTGCAC CTGGAGTTCC TCCTCCACCA TTTATGAGAC CAGGCTTTAA TCCAATGCAT 
ATGCCTCCAG GCTTTCTGCC TCCTCCTGGA CTTCCCCCAC CTATGACCCC ACCTGTTTCT 
ATTCCTCTTC CTACACCTGG AATAAACATC CCGACTTCTA CAGCAGATAC TTCATCTAAT 
GACTCTTCAA AAGATGTGTC TCGTACAAAC CCTAGTCCAA TGGTACCTGT GAGGGATAAT 
ATGGAGGAGG ATGAGAAGGC TGATAATGGC AATGGATATA AGCCTACCCC ATCAGGAGGG 
CCAAATAATG CTCCGGGGCC CTTGAACCCA CTTCACGGTG ATCAACAAGG GGAACAAGGA 
CTTAATTCTG GTCAAGCACA GGGAGCCCAT CCAGGACCAC CACAAGGACC TTTTTCAGGC 
CAACCACAGG GTCCCCGTCA TGGCACAACA GAAGGTGCCC ATCAGGGCCC CCAAGAAGGT 
TCCCACCAAG GCCCACCTGA GGATACTGAT CACAGCCCTC CAGGAGGTCG TCATTACACT 
CTACCAGAAG GTCCTCATCA TGGTCCATCT GAGGGTCATC ATCATAGCCC ATCAGAAGGT 
CCTCACCTGG GCCCAACAGA AGGTCCACGT TTGGGTCCAG AGGGTCCCCA TCATGGTCCA 
CCAGAAGGTT CCCATCACGG TCCCCAAGAA CATCCTCATC ACGGTCCCCC AGAAGGTCTG 
CATCATGGAC CGCCAGAAGG TCCTCATCAT GGGACCCCTG AAGGTCAGTA CCATGGACCA 
CCAGAAGGAC CTTATCATGG ACCACCAGAG GGCCCCTATC ATGGGCCACC AGACGGTCCA 
TTTCATGGTC CACCACATGG TCCTTATCAT GGACCTCCAC AGGGTCCATT TCATGGCCCT 
CCACAAGGTC CTTATCAAGG ACCCCATCAT GGTCCCCCAC AAGGGCCACA TCATGGTCCA 
CCACAGGGAC CCCATCATGG CCCTCCCCAG GGACCCCATC ATGGCCCACC TCAAGGACCT 
CATCATGGCC CCCCACAAGG ACCTGGTTCT GGTCCACACC CTGGCCCTCC TTCTACTGGT 
CTTTTAGGTG CCAGACCTGG TTTAATACCA CTGCAGAGGC CACCTGGAAT TCCTTCTTCA 
AACATGCAGC GCTTTCCCAT GTCTCAAAGG CCTGGCCCCC CTCATATGAT GAACAGAGGG 
CCCCCTCCAG GGCAGGGTGG CTTTGGCATG CCACCTCATG GGATAAGGGG CCCTTTACTA 
GGACAAGGAC ACTTTCCTAG ACAGAGAGGA CCAGAAGGGC ATGGGGGACC TGAAGAACGA 
GATGGTAGGC AGTTCAGAGG TGAAAGGCCA GTCTTTCCCC ATGGCAGAGA ACCAGATAGG 
TTTGGAAGGC GTTCATTTGG TCGCAATGAA GATGAGCGAG AACGCTTTGG TCGGCGCTTT 
GATGACCCCG ATCATGAGCG ACCTCCTAGT CGTGGGAGGA GCAGCTGGGG TAGAGGAAGT 
CCTAGCCGTG ACAGACAAAG AGACTCTGAG GAAAGAAATA GATGGCCAAT GGGACATGAG 
AGAGAGAGAG GTCACCCTAG AGGAAGGGGA GATTTCCTCG AAAATAGAAA ACCTGATGCA 
GAGCTTGATG AAAACCACAA ACCTTTTAGT AGCAGAATGC GAAATGCAGA AACCGTTACT 
GAAAGGAAAG AGGGGAAAGC AGAACCGGCA GGGAAAAATC CCCCCGAGGA GCAGCCCGAG 
ACGCCCAAAT CATCTGAAGA AGCAGAAAAG GATCCTGGAT CTAATCCAGC AAAGCCTTAA

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

scaf4 ( XM_012958021.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012813475.1 Xenopus tropicalis SR-related CTD-associated factor 4 (scaf4), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OXa28325
Clone ID Related Accession (Same CDS sequence)	XM_012958021.2 , XM_012958021.3
Accession Version	XM_012958021.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4011bp) 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	splicing factor, arginine/serine-rich 15 isoform X3
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_012958021.1. ##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##

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAATCACCA AAGAGACGGC GTTCACGTTC TGGTTCTCGT 
TCACGGCGAT CTCGTCATCG CCGCTCTCGT TCTCGCTCTC GTGATAGACG TCGTCACTCC 
CCCAAATCTC GATCTCAAGA AAGAAGGGAC AGAGAGAAGG AAAAAGAACG AAGGCAAAAA 
GGACTTCCTC CTATTAAATC AGAGACTGTT AGCATTTGTA GTACTACACT CTGGATAGGA 
CAACTGGACA AAAAAACAAC ACAACAAGAT GTTGGAAGTT TCCTTGAAGA GTTTGGACCC 
ATTGAATCAA TTAATATGAT TCCACCACGA GGCTGTGCCT ATATTGTTAT GGTCCACCGC 
CAGGATGCAT ATCGTGCTTT AATGAAACTT AGCAGAGGAA ACGTTAAAGT AAACCAGAAG 
GCAATAAAGA TTGCCTGGGC TTTGAACAAA GGGATTAAAG CAGAATACAA ACAGTATTGG 
GATGTGGAGA TAGGAGTTAC ATACATACCA TGGAATAAAG TCAAACCTGA GGATCTTGAG 
AATTTCTGCG AAGGAGGAAT GTTAGATAAT GACACACTAT GCCCAGAATG GAAACCACTG 
GCAAAGAAAC CTGAGCCAAA GGATGTATCT CAGAATGGTG CAGCTGAGAC TAAAGGTGTG 
GGGGAGGCTT CTCCTGCACC CCAAGTTCTG CCGCTATTAT CCATTCCTAT CCGTGCACCC 
ATTCCTGGCA TGCAGGTGCC ACCCCTTCAG CCAATGACTG CACACCAGCC AGTTCCATCA 
ATTCCAACAC CAGGGGTACC AACAGTACAA GGATTACCCC CTCCCCAGGG ATTACCCCCC 
TTGCAAGGAG TTCCTCCATT ACAAGGAATG CCCCTCCCAC AAGGGCTTCC TCCACAAGGA 
TTGCCACTCC CTCAGGGCAT GCCTCTGCCT CAAGGCATGC CCCCCCATCA GCCTATACCA 
GGAATGGGAC CCCTACAACC TCCTGCGTTT CCCATAGGTA TTCCTCCCCC TGGATTTGCA 
CCTGGAGTTC CTCCTCCACC ATTTATGAGA CCAGGCTTTA ATCCAATGCA TATGCCTCCA 
GGCTTTCTGC CTCCTCCTGG ACTTCCCCCA CCTATGACCC CACCTGTTTC TATTCCTCTT 
CCTACACCTG GAATAAACAT CCCGACTTCT ACAGCAGATA CTTCATCTAA TGACTCTTCA 
AAAGATGTGT CTCGTACAAA CCCTAGTCCA ATGGTACCTG TGAGGGATAA TATGGAGGAG 
GATGAGAAGG CTGATAATGG CAATGGATAT AAGCCTACCC CATCAGGAGG GCCAAATAAT 
GCTCCGGGGC CCTTGAACCC ACTTCACGGT GATCAACAAG GGGAACAAGG ACTTAATTCT 
GGTCAAGCAC AGGGAGCCCA TCCAGGACCA CCACAAGGAC CTTTTTCAGG CCAACCACAG 
GGTCCCCGTC ATGGCACAAC AGAAGGTGCC CATCAGGGCC CCCAAGAAGG TTCCCACCAA 
GGCCCACCTG AGGATACTGA TCACAGCCCT CCAGGAGGTC GTCATTACAC TCTACCAGAA 
GGTCCTCATC ATGGTCCATC TGAGGGTCAT CATCATAGCC CATCAGAAGG TCCTCACCTG 
GGCCCAACAG AAGGTCCACG TTTGGGTCCA GAGGGTCCCC ATCATGGTCC ACCAGAAGGT 
TCCCATCACG GTCCCCAAGA ACATCCTCAT CACGGTCCCC CAGAAGGTCT GCATCATGGA 
CCGCCAGAAG GTCCTCATCA TGGGACCCCT GAAGGTCAGT ACCATGGACC ACCAGAAGGA 
CCTTATCATG GACCACCAGA GGGCCCCTAT CATGGGCCAC CAGACGGTCC ATTTCATGGT 
CCACCACATG GTCCTTATCA TGGACCTCCA CAGGGTCCAT TTCATGGCCC TCCACAAGGT 
CCTTATCAAG GACCCCATCA TGGTCCCCCA CAAGGGCCAC ATCATGGTCC ACCACAGGGA 
CCCCATCATG GCCCTCCCCA GGGACCCCAT CATGGCCCAC CTCAAGGACC TCATCATGGC 
CCCCCACAAG GACCTGGTTC TGGTCCACAC CCTGGCCCTC CTTCTACTGG TCTTTTAGGT 
GCCAGACCTG GTTTAATACC ACTGCAGAGG CCACCTGGAA TTCCTTCTTC AAACATGCAG 
CGCTTTCCCA TGTCTCAAAG GCCTGGCCCC CCTCATATGA TGAACAGAGG GCCCCCTCCA 
GGGCAGGGTG GCTTTGGCAT GCCACCTCAT GGGATAAGGG GCCCTTTACT AGGACAAGGA 
CACTTTCCTA GACAGAGAGG ACCAGAAGGG CATGGGGGAC CTGAAGAACG AGATGGTAGG 
CAGTTCAGAG GTGAAAGGCC AGTCTTTCCC CATGGCAGAG AACCAGATAG GTTTGGAAGG 
CGTTCATTTG GTCGCAATGA AGATGAGCGA GAACGCTTTG GTCGGCGCTT TGATGACCCC 
GATCATGAGC GACCTCCTAG TCGTGGGAGG AGCAGCTGGG GTAGAGGAAG TCCTAGCCGT 
GACAGACAAA GAGACTCTGA GGAAAGAAAT AGATGGCCAA TGGGACATGA GAGAGAGAGA 
GGTCACCCTA GAGGAAGGGG AGATTTCCTC GAAAATAGAA AACCTGATGC AGAGCTTGAT 
GAAAACCACA AACCTTTTAG TAGCAGAATG CGAAATGCAG AAACCGTTAC TGAAAGGAAA 
GAGGGGAAAG CAGAACCGGC AGGGAAAAAT CCCCCCGAGG AGCAGCCCGA GACGCCCAAA 
TCATCTGAAG AAGCAGAAAA GGATCCTGGA TCTAATCCAG CAAAGCCTTA A

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

RefSeq	XP_012813475.1
CDS	918..4928
Translation	MDAVNAFNQELFSLMDMKPPISRAKMILITKAAIKAIKLYKHVVQIVEKFIKKCKPEYKVPGLYVIDSIVRQSRHQFGIDKDVFGPRFTKNLTATFQCLYTCPSEDKSKIVRVLNLWQKNGVFKIEIIQPLLDMAAGAAAADVMTDSSMMEEGSSPPSGMILSEPPDEVQEPPPVAPVPQLPTPDAFAAVAQLFQSTQGQQLQQILQTFQQPPKPQSPAIDENVFAQVQAITSQLNAPAHQPERKTAFDKLLDRFDYDDEPDATEESKKEASSPPLSGSQQSQPPLQPFAFSADSMQPAAYPGQLPGQVPNMDQFQPMMMGMPQEPLPQQTQLPPNGQMLGFGMVPTQSFAPMVPPMGSEPSTHGFQNTFQMQPNEMHVQKEHQQEMPMDVEQPNVQENKRHMNEQSKSPKRRRSRSGSRSRRSRHRRSRSRSRDRRRHSPKSRSQERRDREKEKERRQKGLPPIKSETVSICSTTLWIGQLDKKTTQQDVGSFLEEFGPIESINMIPPRGCAYIVMVHRQDAYRALMKLSRGNVKVNQKAIKIAWALNKGIKAEYKQYWDVEIGVTYIPWNKVKPEDLENFCEGGMLDNDTLCPEWKPLAKKPEPKDVSQNGAAETKGVGEASPAPQVLPLLSIPIRAPIPGMQVPPLQPMTAHQPVPSIPTPGVPTVQGLPPPQGLPPLQGVPPLQGMPLPQGLPPQGLPLPQGMPLPQGMPPHQPIPGMGPLQPPAFPIGIPPPGFAPGVPPPPFMRPGFNPMHMPPGFLPPPGLPPPMTPPVSIPLPTPGINIPTSTADTSSNDSSKDVSRTNPSPMVPVRDNMEEDEKADNGNGYKPTPSGGPNNAPGPLNPLHGDQQGEQGLNSGQAQGAHPGPPQGPFSGQPQGPRHGTTEGAHQGPQEGSHQGPPEDTDHSPPGGRHYTLPEGPHHGPSEGHHHSPSEGPHLGPTEGPRLGPEGPHHGPPEGSHHGPQEHPHHGPPEGLHHGPPEGPHHGTPEGQYHGPPEGPYHGPPEGPYHGPPDGPFHGPPHGPYHGPPQGPFHGPPQGPYQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPHHGPPQGPGSGPHPGPPSTGLLGARPGLIPLQRPPGIPSSNMQRFPMSQRPGPPHMMNRGPPPGQGGFGMPPHGIRGPLLGQGHFPRQRGPEGHGGPEERDGRQFRGERPVFPHGREPDRFGRRSFGRNEDERERFGRRFDDPDHERPPSRGRSSWGRGSPSRDRQRDSEERNRWPMGHERERGHPRGRGDFLENRKPDAELDENHKPFSSRMRNAETVTERKEGKAEPAGKNPPEEQPETPKSSEEAEKDPGSNPAKP

Target ORF information:

RefSeq Version	XM_012958021.2
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis SR-related CTD-associated factor 4 (scaf4), transcript variant X3, mRNA.

Target ORF information:

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

XM_012958021.2

ORF Insert Sequence:

ATGGACGCCG TCAACGCCTT TAACCAGGAG CTTTTCTCAC TCATGGATAT GAAACCTCCG 
ATCTCACGTG CAAAGATGAT TCTAATTACT AAAGCTGCTA TTAAAGCAAT AAAGCTCTAT 
AAGCACGTAG TTCAGATTGT GGAAAAATTC ATCAAAAAGT GTAAACCTGA ATACAAGGTC 
CCGGGGCTTT ATGTCATTGA TTCCATCGTT CGTCAGTCTC GCCATCAGTT TGGAATTGAC 
AAAGATGTTT TTGGCCCAAG ATTCACTAAG AATTTAACAG CAACGTTTCA GTGTTTGTAT 
ACATGTCCTT CAGAAGATAA GAGTAAGATT GTCAGAGTAT TGAACCTGTG GCAAAAGAAT 
GGAGTTTTTA AAATTGAGAT TATCCAGCCC TTGCTGGATA TGGCAGCAGG TGCGGCAGCG 
GCAGATGTAA TGACTGACAG CTCTATGATG GAAGAAGGCT CTTCACCACC CTCTGGTATG 
ATCCTCTCAG AACCCCCTGA TGAAGTTCAA GAACCACCTC CTGTTGCACC TGTTCCTCAG 
TTACCTACTC CTGATGCTTT TGCAGCTGTA GCACAGTTGT TTCAGAGTAC CCAAGGACAA 
CAACTCCAGC AGATTCTTCA GACTTTCCAA CAACCTCCAA AACCACAGTC TCCAGCGATT 
GATGAAAATG TGTTTGCTCA AGTTCAGGCC ATAACATCCC AGCTGAATGC CCCAGCACAT 
CAGCCAGAGA GAAAAACTGC TTTTGATAAG TTGCTTGACA GATTTGATTA TGATGATGAA 
CCTGATGCAA CTGAGGAGTC AAAGAAAGAA GCATCAAGCC CTCCTTTGTC AGGATCACAG 
CAGTCACAAC CACCGCTGCA GCCTTTTGCA TTTTCAGCAG ACAGCATGCA GCCTGCAGCT 
TATCCTGGTC AGTTACCTGG TCAAGTGCCA AACATGGATC AGTTTCAGCC CATGATGATG 
GGAATGCCGC AGGAACCACT ACCTCAGCAG ACTCAGCTTC CTCCCAATGG CCAAATGCTT 
GGATTTGGTA TGGTTCCTAC TCAGTCATTT GCGCCTATGG TACCACCTAT GGGGTCTGAA 
CCTTCTACCC ATGGTTTCCA AAACACCTTC CAAATGCAGC CAAATGAAAT GCATGTGCAG 
AAGGAACATC AGCAGGAAAT GCCCATGGAT GTTGAACAGC CTAATGTTCA AGAAAACAAA 
CGTCATATGA ATGAACAAAG CAAATCACCA AAGAGACGGC GTTCACGTTC TGGTTCTCGT 
TCACGGCGAT CTCGTCATCG CCGCTCTCGT TCTCGCTCTC GTGATAGACG TCGTCACTCC 
CCCAAATCTC GATCTCAAGA AAGAAGGGAC AGAGAGAAGG AAAAAGAACG AAGGCAAAAA 
GGACTTCCTC CTATTAAATC AGAGACTGTT AGCATTTGTA GTACTACACT CTGGATAGGA 
CAACTGGACA AAAAAACAAC ACAACAAGAT GTTGGAAGTT TCCTTGAAGA GTTTGGACCC 
ATTGAATCAA TTAATATGAT TCCACCACGA GGCTGTGCCT ATATTGTTAT GGTCCACCGC 
CAGGATGCAT ATCGTGCTTT AATGAAACTT AGCAGAGGAA ACGTTAAAGT AAACCAGAAG 
GCAATAAAGA TTGCCTGGGC TTTGAACAAA GGGATTAAAG CAGAATACAA ACAGTATTGG 
GATGTGGAGA TAGGAGTTAC ATACATACCA TGGAATAAAG TCAAACCTGA GGATCTTGAG 
AATTTCTGCG AAGGAGGAAT GTTAGATAAT GACACACTAT GCCCAGAATG GAAACCACTG 
GCAAAGAAAC CTGAGCCAAA GGATGTATCT CAGAATGGTG CAGCTGAGAC TAAAGGTGTG 
GGGGAGGCTT CTCCTGCACC CCAAGTTCTG CCGCTATTAT CCATTCCTAT CCGTGCACCC 
ATTCCTGGCA TGCAGGTGCC ACCCCTTCAG CCAATGACTG CACACCAGCC AGTTCCATCA 
ATTCCAACAC CAGGGGTACC AACAGTACAA GGATTACCCC CTCCCCAGGG ATTACCCCCC 
TTGCAAGGAG TTCCTCCATT ACAAGGAATG CCCCTCCCAC AAGGGCTTCC TCCACAAGGA 
TTGCCACTCC CTCAGGGCAT GCCTCTGCCT CAAGGCATGC CCCCCCATCA GCCTATACCA 
GGAATGGGAC CCCTACAACC TCCTGCGTTT CCCATAGGTA TTCCTCCCCC TGGATTTGCA 
CCTGGAGTTC CTCCTCCACC ATTTATGAGA CCAGGCTTTA ATCCAATGCA TATGCCTCCA 
GGCTTTCTGC CTCCTCCTGG ACTTCCCCCA CCTATGACCC CACCTGTTTC TATTCCTCTT 
CCTACACCTG GAATAAACAT CCCGACTTCT ACAGCAGATA CTTCATCTAA TGACTCTTCA 
AAAGATGTGT CTCGTACAAA CCCTAGTCCA ATGGTACCTG TGAGGGATAA TATGGAGGAG 
GATGAGAAGG CTGATAATGG CAATGGATAT AAGCCTACCC CATCAGGAGG GCCAAATAAT 
GCTCCGGGGC CCTTGAACCC ACTTCACGGT GATCAACAAG GGGAACAAGG ACTTAATTCT 
GGTCAAGCAC AGGGAGCCCA TCCAGGACCA CCACAAGGAC CTTTTTCAGG CCAACCACAG 
GGTCCCCGTC ATGGCACAAC AGAAGGTGCC CATCAGGGCC CCCAAGAAGG TTCCCACCAA 
GGCCCACCTG AGGATACTGA TCACAGCCCT CCAGGAGGTC GTCATTACAC TCTACCAGAA 
GGTCCTCATC ATGGTCCATC TGAGGGTCAT CATCATAGCC CATCAGAAGG TCCTCACCTG 
GGCCCAACAG AAGGTCCACG TTTGGGTCCA GAGGGTCCCC ATCATGGTCC ACCAGAAGGT 
TCCCATCACG GTCCCCAAGA ACATCCTCAT CACGGTCCCC CAGAAGGTCT GCATCATGGA 
CCGCCAGAAG GTCCTCATCA TGGGACCCCT GAAGGTCAGT ACCATGGACC ACCAGAAGGA 
CCTTATCATG GACCACCAGA GGGCCCCTAT CATGGGCCAC CAGACGGTCC ATTTCATGGT 
CCACCACATG GTCCTTATCA TGGACCTCCA CAGGGTCCAT TTCATGGCCC TCCACAAGGT 
CCTTATCAAG GACCCCATCA TGGTCCCCCA CAAGGGCCAC ATCATGGTCC ACCACAGGGA 
CCCCATCATG GCCCTCCCCA GGGACCCCAT CATGGCCCAC CTCAAGGACC TCATCATGGC 
CCCCCACAAG GACCTGGTTC TGGTCCACAC CCTGGCCCTC CTTCTACTGG TCTTTTAGGT 
GCCAGACCTG GTTTAATACC ACTGCAGAGG CCACCTGGAA TTCCTTCTTC AAACATGCAG 
CGCTTTCCCA TGTCTCAAAG GCCTGGCCCC CCTCATATGA TGAACAGAGG GCCCCCTCCA 
GGGCAGGGTG GCTTTGGCAT GCCACCTCAT GGGATAAGGG GCCCTTTACT AGGACAAGGA 
CACTTTCCTA GACAGAGAGG ACCAGAAGGG CATGGGGGAC CTGAAGAACG AGATGGTAGG 
CAGTTCAGAG GTGAAAGGCC AGTCTTTCCC CATGGCAGAG AACCAGATAG GTTTGGAAGG 
CGTTCATTTG GTCGCAATGA AGATGAGCGA GAACGCTTTG GTCGGCGCTT TGATGACCCC 
GATCATGAGC GACCTCCTAG TCGTGGGAGG AGCAGCTGGG GTAGAGGAAG TCCTAGCCGT 
GACAGACAAA GAGACTCTGA GGAAAGAAAT AGATGGCCAA TGGGACATGA GAGAGAGAGA 
GGTCACCCTA GAGGAAGGGG AGATTTCCTC GAAAATAGAA AACCTGATGC AGAGCTTGAT 
GAAAACCACA AACCTTTTAG TAGCAGAATG CGAAATGCAG AAACCGTTAC TGAAAGGAAA 
GAGGGGAAAG CAGAACCGGC AGGGAAAAAT CCCCCCGAGG AGCAGCCCGA GACGCCCAAA 
TCATCTGAAG AAGCAGAAAA GGATCCTGGA TCTAATCCAG CAAAGCCTTA A

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

PubMed

見積依頼

Eメール

japanmarket@genscript.com

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文

scaf4 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:

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

見積依頼

Eメール

電話

FAX

オンラインフォーム

サポート

会社情報

サポート

会社情報