SF3B1 cDNA ORF clone, Numida meleagris(helmeted guineafowl)

Gene
Clones
gRNAs

Summary

Gene Symbol	SF3B1
Entrez Gene ID	110399413
Full Name	splicing factor 3b subunit 1
Gene Type	protein-coding
Organism	Numida meleagris(helmeted guineafowl)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021398052.1	XP_021253727.1	splicing factor 3B subunit 1 isoform X1
XM_021398053.1	XP_021253728.1	splicing factor 3B subunit 1 isoform X2

Pathways from BioSystems
Gene Ontology

The following SF3B1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SF3B1 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
ONu24295	XM_021398052.1 Latest version!	Numida meleagris splicing factor 3b subunit 1 (SF3B1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
ONu24296	XM_021398053.1 Latest version!	Numida meleagris splicing factor 3b subunit 1 (SF3B1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

SF3B1 ( XM_021398052.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021253727.1 Numida meleagris splicing factor 3b subunit 1 (SF3B1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ONu24295
Clone ID Related Accession (Same CDS sequence)	XM_021398052.1
Accession Version	XM_021398052.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3906bp) 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	2017-06-06
Organism	Numida meleagris(helmeted guineafowl)
Product	splicing factor 3B subunit 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034413.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGAAGA TCGCCAAGAC CCACGAAGAT ATCGAAGCGC AGATCCGAGA AATTCAAGGA 
AAAAAGCCTG CCCTCGATGA AGCACAAGGA GTAGGCCTCG ACTCCACCGG ATATTACGAT 
CAAGAAATTT ATGGTGGCAG TGACAGCAGG TTTGCTGGAT ATGTAACATC CATTGCAGCA 
ACTGAATTGG AAGATGATGA TGACGATTAC CCATCTACAA GTTTGCTTGG CCAGAAGAAG 
CCAGGGTACC ATGCTCCAGT GGCACTGCTT AATGACATAC CGCAGTCAAC TGAACAGTAT 
GATCCTTTTG CAGAACACCG TCCTCAAAAG ATTGCAGATC GGGAAGATGA GTACAAAAAG 
CACAGGCGGA TGATGATAAT TTCCCCTGAG CGTCTTGATC CTTTTGCAGA TGGAGGGAAG 
ACACCAGACC CTAAAATGAA TGCCAGAACA TACATGGATG TTATGCGTGA ACAGCATTTA 
ACAAAGGAAG AGAGGGAAAT TAGGCAACAG CTAGCTGAAA AAGCTAAAGC TGGAGAGCTT 
AAAGTCGTCA ATGGAGCCGC ATCTCAGCCA CCTTCAAAAC GCAAGCGGCG TTGGGATCAG 
ACAGCTGATC AGACTCCTGG TGCGACACCT AAAAAGTTAT CCAGTTGGGA TCAAGCAGAG 
ACTCCTGGAC ATACACCATC TCTGCGATGG GATGAAACTC CAGGCCGTGC AAAGGGTAGC 
GAAACTCCTG GTGCCACCCC TGGCTCAAAG ATCTGGGATC CCACTCCCAG TCACACGCCG 
GCAGGAGCTG CAACACCTGG ACGAGACACA CCCGGTCATG CAACACCAGG CCACGGAGGT 
GCCACGTCCA GTGCACGTAA AAACCGATGG GATGAAACAC CTAAAACAGA AAGAGATACT 
CCGGGACATG GCAGTGGATG GGCTGAGACT CCTCGTACAG ATAGAGGTGG TGATTCCATT 
GGTGAGACAC CGACCCCAGG AGCAAGTAAA AGAAAGTCAC GATGGGATGA AACACCTGCT 
AGCCAGATGG GTGGCAGCAC TCCTGTTCTG ACACCTGGCA AAACACCCAT TGGTACACCA 
GCTATGAACA TGGCAACTCC TACGCCGGGT CATATCATGA GCATGACTCC TGAACAGCTG 
CAGGCTTGGC GTTGGGAGAG GGAAATTGAT GAGAGAAACA GACCACTTTC TGATGAAGAA 
TTGGATGCTA TGTTCCCAGA AGGATATAAG GTTCTTCCCC CACCAGCTGG TTACGTACCT 
ATTCGTACTC CGGCGCGTAA ACTTACAGCG ACTCCCACAC CTTTGGGCGG TATGACCGGA 
TTCCACATGC AGACAGAGGA CCGCACCATG AAGAGTGTCA ATGACCAGCC TTCTGGCAAT 
CTTCCATTCC TAAAGCCAGA TGATATCCAG TACTTTGATA AGCTGCTGGT TGATGTTGAT 
GAATCGACTC TGAGTCCTGA AGAGCAGAAG GAGAGGAAGA TAATGAAATT ACTTTTGAAA 
ATAAAGAATG GCACACCGCC CATGAGAAAG GCTGCATTGA GACAAATTAC TGATAAAGCT 
CGGGAATTTG GAGCTGGGCC ACTGTTTAAT CAGATTCTAC CTTTGCTGAT GTCACCGACG 
CTCGAGGATC AGGAGCGCCA CTTACTTGTC AAAGTCATAG ACAGAATTCT GTACAAACTG 
GATGACCTGG TCCGGCCATA TGTACATAAG ATCCTTGTTG TCATTGAACC ACTGCTGATT 
GATGAAGACT ATTATGCCAG AGTGGAAGGC AGAGAAATTA TTTCAAACTT GGCTAAGGCT 
GCTGGTTTGG CAACAATGAT TTCTACGATG CGACCTGATA TTGATAACAT GGATGAATAT 
GTCCGAAATA CCACAGCTCG AGCCTTTGCT GTTGTTGCCT CTGCTTTGGG CATTCCTTCT 
CTGTTGCCGT TCTTGAAAGC TGTCTGTAAA AGCAAGAAGT CCTGGCAGGC GAGGCATACT 
GGCATCAAGA TTGTGCAGCA AATTGCTATT CTGATGGGTT GTGCTATCTT GCCTCATCTC 
AGGAGCTTGG TTGAAATTAT TGAGCATGGT CTTGTGGATG AGCAGCAGAA GGTTCGTACC 
ATCAGTGCTT TGGCTATTGC CGCTTTAGCT GAGGCAGCTA CTCCCTATGG TATCGAGTCA 
TTTGATTCTG TTCTGAAGCC CTTATGGAAG GGTATACGTC AACACAGAGG AAAGGGCTTG 
GCTGCCTTTT TGAAGGCTAT TGGTTATCTG ATTCCACTCA TGGATGCTGA GTATGCGAAC 
TATTATACCA GAGAAGTCAT GTTAATTCTT ATCAGAGAGT TCCAGTCTCC TGATGAAGAG 
ATGAAAAAAA TTGTTTTGAA GGTGGTAAAG CAATGTTGTG GTACGGATGG TGTTGAAGCA 
AACTACATTA AAACAGAGAT CTTGCCACCA TTTTTCAAAC ACTTCTGGCA ACACAGAATG 
GCATTGGACA GGAGAAATTA CAGACAGTTG GTGGACACAA CAGTGGAGCT GGCAAATAAA 
GTTGGAGCAG CAGAAATTAT TTCTAGAATT GTGGATGATC TGAAGGATGA GGCTGAACAG 
TACAGAAAAA TGGTCATGGA AACAATTGAG AAGATAATGG GAAACCTGGG TGCGGCAGAC 
ATTGATCATA AGCTAGAGGA ACAACTTATT GATGGCATCT TGTATGCCTT TCAAGAACAG 
ACCACAGAGG ATTCTGTGAT GCTGAATGGC TTTGGCACAG TGGTTAATGC TCTTGGCAAA 
AGAGTTAAGC CCTACTTGCC ACAGATCTGC GGTACGGTTC TGTGGCGTTT GAACAACAAG 
TCGGCTAAAG TGCGGCAGCA GGCTGCTGAC CTCATCTCTC GTACCGCAGT TGTCATGAAG 
ACTTGTCAAG AGGAAAAACT GATGGGACAT CTGGGTGTTG TGTTGTATGA GTACCTCGGT 
GAAGAATATC CTGAAGTACT GGGCAGCATA CTTGGAGCGC TTAAGGCTAT TGTTAATGTC 
ATAGGTATGC ACAAGATGAC ACCGCCTATC AAAGATCTGC TGCCGCGGCT TACGCCTATT 
CTGAAGAACA GGCATGAGAA AGTACAGGAG AATTGTATCG ATCTTGTTGG GCGCATTGCA 
GACAGAGGTG CAGAATATGT TTCTGCAAGA GAATGGATGA GGATCTGCTT TGAGCTGCTT 
GAGTTACTAA AAGCTCACAA GAAAGCGATT CGAAGAGCCA CAGTAAATAC TTTTGGATAT 
ATTGCAAAAG CTATTGGACC TCACGATGTC TTGGCTACTC TGTTGAATAA CTTGAAAGTA 
CAGGAAAGGC AGAACAGAGT ATGTACTACA GTAGCAATTG CTATTGTAGC TGAAACATGC 
TCACCGTTCA CAGTGCTGCC TGCGCTCATG AATGAATACA GAGTTCCCGA ACTGAATGTC 
CAGAATGGTG TGTTAAAATC TCTTTCTTTC CTGTTTGAAT ACATTGGAGA GATGGGAAAA 
GATTATATTT ATGCCGTTAC GCCATTGCTT GAAGACGCTT TAATGGACAG AGATCTTGTA 
CACAGACAAA CAGCCAGTGC CGTGGTGCAG CACATGTCTC TTGGTGTTTA TGGGTTTGGC 
TGTGAAGATT CTCTTAATCA TTTGTTAAAC TACGTATGGC CTAATGTGTT TGAAACTTCT 
CCGCACGTCA TTCAGGCAGT CATGGGGGCT CTGGAGGGCC TCAGAGTGGC TATTGGCCCT 
TGTCGAATGT TGCAGTATTG TTTGCAGGGT TTGTTTCACC CTGCCCGGAA AGTCAGAGAT 
GTTTATTGGA AGATTTATAA TTCCATCTAC ATTGGCTCAC AGGATGCTCT GATAGCACAC 
TATCCGAGAA TCTATAATGA TGAAAAGAAC ACCTATATTC GTTATGAACT TGACTACATC 
TTATAA

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

RefSeq	XP_021253727.1
CDS	1..3906
Translation	MAKIAKTHEDIEAQIREIQGKKPALDEAQGVGLDSTGYYDQEIYGGSDSRFAGYVTSIAATELEDDDDDYPSTSLLGQKKPGYHAPVALLNDIPQSTEQYDPFAEHRPQKIADREDEYKKHRRMMIISPERLDPFADGGKTPDPKMNARTYMDVMREQHLTKEEREIRQQLAEKAKAGELKVVNGAASQPPSKRKRRWDQTADQTPGATPKKLSSWDQAETPGHTPSLRWDETPGRAKGSETPGATPGSKIWDPTPSHTPAGAATPGRDTPGHATPGHGGATSSARKNRWDETPKTERDTPGHGSGWAETPRTDRGGDSIGETPTPGASKRKSRWDETPASQMGGSTPVLTPGKTPIGTPAMNMATPTPGHIMSMTPEQLQAWRWEREIDERNRPLSDEELDAMFPEGYKVLPPPAGYVPIRTPARKLTATPTPLGGMTGFHMQTEDRTMKSVNDQPSGNLPFLKPDDIQYFDKLLVDVDESTLSPEEQKERKIMKLLLKIKNGTPPMRKAALRQITDKAREFGAGPLFNQILPLLMSPTLEDQERHLLVKVIDRILYKLDDLVRPYVHKILVVIEPLLIDEDYYARVEGREIISNLAKAAGLATMISTMRPDIDNMDEYVRNTTARAFAVVASALGIPSLLPFLKAVCKSKKSWQARHTGIKIVQQIAILMGCAILPHLRSLVEIIEHGLVDEQQKVRTISALAIAALAEAATPYGIESFDSVLKPLWKGIRQHRGKGLAAFLKAIGYLIPLMDAEYANYYTREVMLILIREFQSPDEEMKKIVLKVVKQCCGTDGVEANYIKTEILPPFFKHFWQHRMALDRRNYRQLVDTTVELANKVGAAEIISRIVDDLKDEAEQYRKMVMETIEKIMGNLGAADIDHKLEEQLIDGILYAFQEQTTEDSVMLNGFGTVVNALGKRVKPYLPQICGTVLWRLNNKSAKVRQQAADLISRTAVVMKTCQEEKLMGHLGVVLYEYLGEEYPEVLGSILGALKAIVNVIGMHKMTPPIKDLLPRLTPILKNRHEKVQENCIDLVGRIADRGAEYVSAREWMRICFELLELLKAHKKAIRRATVNTFGYIAKAIGPHDVLATLLNNLKVQERQNRVCTTVAIAIVAETCSPFTVLPALMNEYRVPELNVQNGVLKSLSFLFEYIGEMGKDYIYAVTPLLEDALMDRDLVHRQTASAVVQHMSLGVYGFGCEDSLNHLLNYVWPNVFETSPHVIQAVMGALEGLRVAIGPCRMLQYCLQGLFHPARKVRDVYWKIYNSIYIGSQDALIAHYPRIYNDEKNTYIRYELDYIL

Target ORF information:

RefSeq Version	XM_021398052.1
Organism	Numida meleagris(helmeted guineafowl)
Definition	Numida meleagris splicing factor 3b subunit 1 (SF3B1), transcript variant X1, mRNA.

Target ORF information:

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

XM_021398052.1

ORF Insert Sequence:

ATGGCGAAGA TCGCCAAGAC CCACGAAGAT ATCGAAGCGC AGATCCGAGA AATTCAAGGA 
AAAAAGCCTG CCCTCGATGA AGCACAAGGA GTAGGCCTCG ACTCCACCGG ATATTACGAT 
CAAGAAATTT ATGGTGGCAG TGACAGCAGG TTTGCTGGAT ATGTAACATC CATTGCAGCA 
ACTGAATTGG AAGATGATGA TGACGATTAC CCATCTACAA GTTTGCTTGG CCAGAAGAAG 
CCAGGGTACC ATGCTCCAGT GGCACTGCTT AATGACATAC CGCAGTCAAC TGAACAGTAT 
GATCCTTTTG CAGAACACCG TCCTCAAAAG ATTGCAGATC GGGAAGATGA GTACAAAAAG 
CACAGGCGGA TGATGATAAT TTCCCCTGAG CGTCTTGATC CTTTTGCAGA TGGAGGGAAG 
ACACCAGACC CTAAAATGAA TGCCAGAACA TACATGGATG TTATGCGTGA ACAGCATTTA 
ACAAAGGAAG AGAGGGAAAT TAGGCAACAG CTAGCTGAAA AAGCTAAAGC TGGAGAGCTT 
AAAGTCGTCA ATGGAGCCGC ATCTCAGCCA CCTTCAAAAC GCAAGCGGCG TTGGGATCAG 
ACAGCTGATC AGACTCCTGG TGCGACACCT AAAAAGTTAT CCAGTTGGGA TCAAGCAGAG 
ACTCCTGGAC ATACACCATC TCTGCGATGG GATGAAACTC CAGGCCGTGC AAAGGGTAGC 
GAAACTCCTG GTGCCACCCC TGGCTCAAAG ATCTGGGATC CCACTCCCAG TCACACGCCG 
GCAGGAGCTG CAACACCTGG ACGAGACACA CCCGGTCATG CAACACCAGG CCACGGAGGT 
GCCACGTCCA GTGCACGTAA AAACCGATGG GATGAAACAC CTAAAACAGA AAGAGATACT 
CCGGGACATG GCAGTGGATG GGCTGAGACT CCTCGTACAG ATAGAGGTGG TGATTCCATT 
GGTGAGACAC CGACCCCAGG AGCAAGTAAA AGAAAGTCAC GATGGGATGA AACACCTGCT 
AGCCAGATGG GTGGCAGCAC TCCTGTTCTG ACACCTGGCA AAACACCCAT TGGTACACCA 
GCTATGAACA TGGCAACTCC TACGCCGGGT CATATCATGA GCATGACTCC TGAACAGCTG 
CAGGCTTGGC GTTGGGAGAG GGAAATTGAT GAGAGAAACA GACCACTTTC TGATGAAGAA 
TTGGATGCTA TGTTCCCAGA AGGATATAAG GTTCTTCCCC CACCAGCTGG TTACGTACCT 
ATTCGTACTC CGGCGCGTAA ACTTACAGCG ACTCCCACAC CTTTGGGCGG TATGACCGGA 
TTCCACATGC AGACAGAGGA CCGCACCATG AAGAGTGTCA ATGACCAGCC TTCTGGCAAT 
CTTCCATTCC TAAAGCCAGA TGATATCCAG TACTTTGATA AGCTGCTGGT TGATGTTGAT 
GAATCGACTC TGAGTCCTGA AGAGCAGAAG GAGAGGAAGA TAATGAAATT ACTTTTGAAA 
ATAAAGAATG GCACACCGCC CATGAGAAAG GCTGCATTGA GACAAATTAC TGATAAAGCT 
CGGGAATTTG GAGCTGGGCC ACTGTTTAAT CAGATTCTAC CTTTGCTGAT GTCACCGACG 
CTCGAGGATC AGGAGCGCCA CTTACTTGTC AAAGTCATAG ACAGAATTCT GTACAAACTG 
GATGACCTGG TCCGGCCATA TGTACATAAG ATCCTTGTTG TCATTGAACC ACTGCTGATT 
GATGAAGACT ATTATGCCAG AGTGGAAGGC AGAGAAATTA TTTCAAACTT GGCTAAGGCT 
GCTGGTTTGG CAACAATGAT TTCTACGATG CGACCTGATA TTGATAACAT GGATGAATAT 
GTCCGAAATA CCACAGCTCG AGCCTTTGCT GTTGTTGCCT CTGCTTTGGG CATTCCTTCT 
CTGTTGCCGT TCTTGAAAGC TGTCTGTAAA AGCAAGAAGT CCTGGCAGGC GAGGCATACT 
GGCATCAAGA TTGTGCAGCA AATTGCTATT CTGATGGGTT GTGCTATCTT GCCTCATCTC 
AGGAGCTTGG TTGAAATTAT TGAGCATGGT CTTGTGGATG AGCAGCAGAA GGTTCGTACC 
ATCAGTGCTT TGGCTATTGC CGCTTTAGCT GAGGCAGCTA CTCCCTATGG TATCGAGTCA 
TTTGATTCTG TTCTGAAGCC CTTATGGAAG GGTATACGTC AACACAGAGG AAAGGGCTTG 
GCTGCCTTTT TGAAGGCTAT TGGTTATCTG ATTCCACTCA TGGATGCTGA GTATGCGAAC 
TATTATACCA GAGAAGTCAT GTTAATTCTT ATCAGAGAGT TCCAGTCTCC TGATGAAGAG 
ATGAAAAAAA TTGTTTTGAA GGTGGTAAAG CAATGTTGTG GTACGGATGG TGTTGAAGCA 
AACTACATTA AAACAGAGAT CTTGCCACCA TTTTTCAAAC ACTTCTGGCA ACACAGAATG 
GCATTGGACA GGAGAAATTA CAGACAGTTG GTGGACACAA CAGTGGAGCT GGCAAATAAA 
GTTGGAGCAG CAGAAATTAT TTCTAGAATT GTGGATGATC TGAAGGATGA GGCTGAACAG 
TACAGAAAAA TGGTCATGGA AACAATTGAG AAGATAATGG GAAACCTGGG TGCGGCAGAC 
ATTGATCATA AGCTAGAGGA ACAACTTATT GATGGCATCT TGTATGCCTT TCAAGAACAG 
ACCACAGAGG ATTCTGTGAT GCTGAATGGC TTTGGCACAG TGGTTAATGC TCTTGGCAAA 
AGAGTTAAGC CCTACTTGCC ACAGATCTGC GGTACGGTTC TGTGGCGTTT GAACAACAAG 
TCGGCTAAAG TGCGGCAGCA GGCTGCTGAC CTCATCTCTC GTACCGCAGT TGTCATGAAG 
ACTTGTCAAG AGGAAAAACT GATGGGACAT CTGGGTGTTG TGTTGTATGA GTACCTCGGT 
GAAGAATATC CTGAAGTACT GGGCAGCATA CTTGGAGCGC TTAAGGCTAT TGTTAATGTC 
ATAGGTATGC ACAAGATGAC ACCGCCTATC AAAGATCTGC TGCCGCGGCT TACGCCTATT 
CTGAAGAACA GGCATGAGAA AGTACAGGAG AATTGTATCG ATCTTGTTGG GCGCATTGCA 
GACAGAGGTG CAGAATATGT TTCTGCAAGA GAATGGATGA GGATCTGCTT TGAGCTGCTT 
GAGTTACTAA AAGCTCACAA GAAAGCGATT CGAAGAGCCA CAGTAAATAC TTTTGGATAT 
ATTGCAAAAG CTATTGGACC TCACGATGTC TTGGCTACTC TGTTGAATAA CTTGAAAGTA 
CAGGAAAGGC AGAACAGAGT ATGTACTACA GTAGCAATTG CTATTGTAGC TGAAACATGC 
TCACCGTTCA CAGTGCTGCC TGCGCTCATG AATGAATACA GAGTTCCCGA ACTGAATGTC 
CAGAATGGTG TGTTAAAATC TCTTTCTTTC CTGTTTGAAT ACATTGGAGA GATGGGAAAA 
GATTATATTT ATGCCGTTAC GCCATTGCTT GAAGACGCTT TAATGGACAG AGATCTTGTA 
CACAGACAAA CAGCCAGTGC CGTGGTGCAG CACATGTCTC TTGGTGTTTA TGGGTTTGGC 
TGTGAAGATT CTCTTAATCA TTTGTTAAAC TACGTATGGC CTAATGTGTT TGAAACTTCT 
CCGCACGTCA TTCAGGCAGT CATGGGGGCT CTGGAGGGCC TCAGAGTGGC TATTGGCCCT 
TGTCGAATGT TGCAGTATTG TTTGCAGGGT TTGTTTCACC CTGCCCGGAA AGTCAGAGAT 
GTTTATTGGA AGATTTATAA TTCCATCTAC ATTGGCTCAC AGGATGCTCT GATAGCACAC 
TATCCGAGAA TCTATAATGA TGAAAAGAAC ACCTATATTC GTTATGAACT TGACTACATC 
TTATAA

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

SF3B1 ( XM_021398053.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021253728.1 Numida meleagris splicing factor 3b subunit 1 (SF3B1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ONu24296
Clone ID Related Accession (Same CDS sequence)	XM_021398053.1
Accession Version	XM_021398053.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3471bp) 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	2017-06-06
Organism	Numida meleagris(helmeted guineafowl)
Product	splicing factor 3B subunit 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034413.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAATGCCA GAACATACAT GGATGTTATG CGTGAACAGC ATTTAACAAA GGAAGAGAGG 
GAAATTAGGC AACAGCTAGC TGAAAAAGCT AAAGCTGGAG AGCTTAAAGT CGTCAATGGA 
GCCGCATCTC AGCCACCTTC AAAACGCAAG CGGCGTTGGG ATCAGACAGC TGATCAGACT 
CCTGGTGCGA CACCTAAAAA GTTATCCAGT TGGGATCAAG CAGAGACTCC TGGACATACA 
CCATCTCTGC GATGGGATGA AACTCCAGGC CGTGCAAAGG GTAGCGAAAC TCCTGGTGCC 
ACCCCTGGCT CAAAGATCTG GGATCCCACT CCCAGTCACA CGCCGGCAGG AGCTGCAACA 
CCTGGACGAG ACACACCCGG TCATGCAACA CCAGGCCACG GAGGTGCCAC GTCCAGTGCA 
CGTAAAAACC GATGGGATGA AACACCTAAA ACAGAAAGAG ATACTCCGGG ACATGGCAGT 
GGATGGGCTG AGACTCCTCG TACAGATAGA GGTGGTGATT CCATTGGTGA GACACCGACC 
CCAGGAGCAA GTAAAAGAAA GTCACGATGG GATGAAACAC CTGCTAGCCA GATGGGTGGC 
AGCACTCCTG TTCTGACACC TGGCAAAACA CCCATTGGTA CACCAGCTAT GAACATGGCA 
ACTCCTACGC CGGGTCATAT CATGAGCATG ACTCCTGAAC AGCTGCAGGC TTGGCGTTGG 
GAGAGGGAAA TTGATGAGAG AAACAGACCA CTTTCTGATG AAGAATTGGA TGCTATGTTC 
CCAGAAGGAT ATAAGGTTCT TCCCCCACCA GCTGGTTACG TACCTATTCG TACTCCGGCG 
CGTAAACTTA CAGCGACTCC CACACCTTTG GGCGGTATGA CCGGATTCCA CATGCAGACA 
GAGGACCGCA CCATGAAGAG TGTCAATGAC CAGCCTTCTG GCAATCTTCC ATTCCTAAAG 
CCAGATGATA TCCAGTACTT TGATAAGCTG CTGGTTGATG TTGATGAATC GACTCTGAGT 
CCTGAAGAGC AGAAGGAGAG GAAGATAATG AAATTACTTT TGAAAATAAA GAATGGCACA 
CCGCCCATGA GAAAGGCTGC ATTGAGACAA ATTACTGATA AAGCTCGGGA ATTTGGAGCT 
GGGCCACTGT TTAATCAGAT TCTACCTTTG CTGATGTCAC CGACGCTCGA GGATCAGGAG 
CGCCACTTAC TTGTCAAAGT CATAGACAGA ATTCTGTACA AACTGGATGA CCTGGTCCGG 
CCATATGTAC ATAAGATCCT TGTTGTCATT GAACCACTGC TGATTGATGA AGACTATTAT 
GCCAGAGTGG AAGGCAGAGA AATTATTTCA AACTTGGCTA AGGCTGCTGG TTTGGCAACA 
ATGATTTCTA CGATGCGACC TGATATTGAT AACATGGATG AATATGTCCG AAATACCACA 
GCTCGAGCCT TTGCTGTTGT TGCCTCTGCT TTGGGCATTC CTTCTCTGTT GCCGTTCTTG 
AAAGCTGTCT GTAAAAGCAA GAAGTCCTGG CAGGCGAGGC ATACTGGCAT CAAGATTGTG 
CAGCAAATTG CTATTCTGAT GGGTTGTGCT ATCTTGCCTC ATCTCAGGAG CTTGGTTGAA 
ATTATTGAGC ATGGTCTTGT GGATGAGCAG CAGAAGGTTC GTACCATCAG TGCTTTGGCT 
ATTGCCGCTT TAGCTGAGGC AGCTACTCCC TATGGTATCG AGTCATTTGA TTCTGTTCTG 
AAGCCCTTAT GGAAGGGTAT ACGTCAACAC AGAGGAAAGG GCTTGGCTGC CTTTTTGAAG 
GCTATTGGTT ATCTGATTCC ACTCATGGAT GCTGAGTATG CGAACTATTA TACCAGAGAA 
GTCATGTTAA TTCTTATCAG AGAGTTCCAG TCTCCTGATG AAGAGATGAA AAAAATTGTT 
TTGAAGGTGG TAAAGCAATG TTGTGGTACG GATGGTGTTG AAGCAAACTA CATTAAAACA 
GAGATCTTGC CACCATTTTT CAAACACTTC TGGCAACACA GAATGGCATT GGACAGGAGA 
AATTACAGAC AGTTGGTGGA CACAACAGTG GAGCTGGCAA ATAAAGTTGG AGCAGCAGAA 
ATTATTTCTA GAATTGTGGA TGATCTGAAG GATGAGGCTG AACAGTACAG AAAAATGGTC 
ATGGAAACAA TTGAGAAGAT AATGGGAAAC CTGGGTGCGG CAGACATTGA TCATAAGCTA 
GAGGAACAAC TTATTGATGG CATCTTGTAT GCCTTTCAAG AACAGACCAC AGAGGATTCT 
GTGATGCTGA ATGGCTTTGG CACAGTGGTT AATGCTCTTG GCAAAAGAGT TAAGCCCTAC 
TTGCCACAGA TCTGCGGTAC GGTTCTGTGG CGTTTGAACA ACAAGTCGGC TAAAGTGCGG 
CAGCAGGCTG CTGACCTCAT CTCTCGTACC GCAGTTGTCA TGAAGACTTG TCAAGAGGAA 
AAACTGATGG GACATCTGGG TGTTGTGTTG TATGAGTACC TCGGTGAAGA ATATCCTGAA 
GTACTGGGCA GCATACTTGG AGCGCTTAAG GCTATTGTTA ATGTCATAGG TATGCACAAG 
ATGACACCGC CTATCAAAGA TCTGCTGCCG CGGCTTACGC CTATTCTGAA GAACAGGCAT 
GAGAAAGTAC AGGAGAATTG TATCGATCTT GTTGGGCGCA TTGCAGACAG AGGTGCAGAA 
TATGTTTCTG CAAGAGAATG GATGAGGATC TGCTTTGAGC TGCTTGAGTT ACTAAAAGCT 
CACAAGAAAG CGATTCGAAG AGCCACAGTA AATACTTTTG GATATATTGC AAAAGCTATT 
GGACCTCACG ATGTCTTGGC TACTCTGTTG AATAACTTGA AAGTACAGGA AAGGCAGAAC 
AGAGTATGTA CTACAGTAGC AATTGCTATT GTAGCTGAAA CATGCTCACC GTTCACAGTG 
CTGCCTGCGC TCATGAATGA ATACAGAGTT CCCGAACTGA ATGTCCAGAA TGGTGTGTTA 
AAATCTCTTT CTTTCCTGTT TGAATACATT GGAGAGATGG GAAAAGATTA TATTTATGCC 
GTTACGCCAT TGCTTGAAGA CGCTTTAATG GACAGAGATC TTGTACACAG ACAAACAGCC 
AGTGCCGTGG TGCAGCACAT GTCTCTTGGT GTTTATGGGT TTGGCTGTGA AGATTCTCTT 
AATCATTTGT TAAACTACGT ATGGCCTAAT GTGTTTGAAA CTTCTCCGCA CGTCATTCAG 
GCAGTCATGG GGGCTCTGGA GGGCCTCAGA GTGGCTATTG GCCCTTGTCG AATGTTGCAG 
TATTGTTTGC AGGGTTTGTT TCACCCTGCC CGGAAAGTCA GAGATGTTTA TTGGAAGATT 
TATAATTCCA TCTACATTGG CTCACAGGAT GCTCTGATAG CACACTATCC GAGAATCTAT 
AATGATGAAA AGAACACCTA TATTCGTTAT GAACTTGACT ACATCTTATA A

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

RefSeq	XP_021253728.1
CDS	1497..4967
Translation	MNARTYMDVMREQHLTKEEREIRQQLAEKAKAGELKVVNGAASQPPSKRKRRWDQTADQTPGATPKKLSSWDQAETPGHTPSLRWDETPGRAKGSETPGATPGSKIWDPTPSHTPAGAATPGRDTPGHATPGHGGATSSARKNRWDETPKTERDTPGHGSGWAETPRTDRGGDSIGETPTPGASKRKSRWDETPASQMGGSTPVLTPGKTPIGTPAMNMATPTPGHIMSMTPEQLQAWRWEREIDERNRPLSDEELDAMFPEGYKVLPPPAGYVPIRTPARKLTATPTPLGGMTGFHMQTEDRTMKSVNDQPSGNLPFLKPDDIQYFDKLLVDVDESTLSPEEQKERKIMKLLLKIKNGTPPMRKAALRQITDKAREFGAGPLFNQILPLLMSPTLEDQERHLLVKVIDRILYKLDDLVRPYVHKILVVIEPLLIDEDYYARVEGREIISNLAKAAGLATMISTMRPDIDNMDEYVRNTTARAFAVVASALGIPSLLPFLKAVCKSKKSWQARHTGIKIVQQIAILMGCAILPHLRSLVEIIEHGLVDEQQKVRTISALAIAALAEAATPYGIESFDSVLKPLWKGIRQHRGKGLAAFLKAIGYLIPLMDAEYANYYTREVMLILIREFQSPDEEMKKIVLKVVKQCCGTDGVEANYIKTEILPPFFKHFWQHRMALDRRNYRQLVDTTVELANKVGAAEIISRIVDDLKDEAEQYRKMVMETIEKIMGNLGAADIDHKLEEQLIDGILYAFQEQTTEDSVMLNGFGTVVNALGKRVKPYLPQICGTVLWRLNNKSAKVRQQAADLISRTAVVMKTCQEEKLMGHLGVVLYEYLGEEYPEVLGSILGALKAIVNVIGMHKMTPPIKDLLPRLTPILKNRHEKVQENCIDLVGRIADRGAEYVSAREWMRICFELLELLKAHKKAIRRATVNTFGYIAKAIGPHDVLATLLNNLKVQERQNRVCTTVAIAIVAETCSPFTVLPALMNEYRVPELNVQNGVLKSLSFLFEYIGEMGKDYIYAVTPLLEDALMDRDLVHRQTASAVVQHMSLGVYGFGCEDSLNHLLNYVWPNVFETSPHVIQAVMGALEGLRVAIGPCRMLQYCLQGLFHPARKVRDVYWKIYNSIYIGSQDALIAHYPRIYNDEKNTYIRYELDYIL

Target ORF information:

RefSeq Version	XM_021398053.1
Organism	Numida meleagris(helmeted guineafowl)
Definition	Numida meleagris splicing factor 3b subunit 1 (SF3B1), transcript variant X2, mRNA.

Target ORF information:

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

XM_021398053.1

ORF Insert Sequence:

ATGAATGCCA GAACATACAT GGATGTTATG CGTGAACAGC ATTTAACAAA GGAAGAGAGG 
GAAATTAGGC AACAGCTAGC TGAAAAAGCT AAAGCTGGAG AGCTTAAAGT CGTCAATGGA 
GCCGCATCTC AGCCACCTTC AAAACGCAAG CGGCGTTGGG ATCAGACAGC TGATCAGACT 
CCTGGTGCGA CACCTAAAAA GTTATCCAGT TGGGATCAAG CAGAGACTCC TGGACATACA 
CCATCTCTGC GATGGGATGA AACTCCAGGC CGTGCAAAGG GTAGCGAAAC TCCTGGTGCC 
ACCCCTGGCT CAAAGATCTG GGATCCCACT CCCAGTCACA CGCCGGCAGG AGCTGCAACA 
CCTGGACGAG ACACACCCGG TCATGCAACA CCAGGCCACG GAGGTGCCAC GTCCAGTGCA 
CGTAAAAACC GATGGGATGA AACACCTAAA ACAGAAAGAG ATACTCCGGG ACATGGCAGT 
GGATGGGCTG AGACTCCTCG TACAGATAGA GGTGGTGATT CCATTGGTGA GACACCGACC 
CCAGGAGCAA GTAAAAGAAA GTCACGATGG GATGAAACAC CTGCTAGCCA GATGGGTGGC 
AGCACTCCTG TTCTGACACC TGGCAAAACA CCCATTGGTA CACCAGCTAT GAACATGGCA 
ACTCCTACGC CGGGTCATAT CATGAGCATG ACTCCTGAAC AGCTGCAGGC TTGGCGTTGG 
GAGAGGGAAA TTGATGAGAG AAACAGACCA CTTTCTGATG AAGAATTGGA TGCTATGTTC 
CCAGAAGGAT ATAAGGTTCT TCCCCCACCA GCTGGTTACG TACCTATTCG TACTCCGGCG 
CGTAAACTTA CAGCGACTCC CACACCTTTG GGCGGTATGA CCGGATTCCA CATGCAGACA 
GAGGACCGCA CCATGAAGAG TGTCAATGAC CAGCCTTCTG GCAATCTTCC ATTCCTAAAG 
CCAGATGATA TCCAGTACTT TGATAAGCTG CTGGTTGATG TTGATGAATC GACTCTGAGT 
CCTGAAGAGC AGAAGGAGAG GAAGATAATG AAATTACTTT TGAAAATAAA GAATGGCACA 
CCGCCCATGA GAAAGGCTGC ATTGAGACAA ATTACTGATA AAGCTCGGGA ATTTGGAGCT 
GGGCCACTGT TTAATCAGAT TCTACCTTTG CTGATGTCAC CGACGCTCGA GGATCAGGAG 
CGCCACTTAC TTGTCAAAGT CATAGACAGA ATTCTGTACA AACTGGATGA CCTGGTCCGG 
CCATATGTAC ATAAGATCCT TGTTGTCATT GAACCACTGC TGATTGATGA AGACTATTAT 
GCCAGAGTGG AAGGCAGAGA AATTATTTCA AACTTGGCTA AGGCTGCTGG TTTGGCAACA 
ATGATTTCTA CGATGCGACC TGATATTGAT AACATGGATG AATATGTCCG AAATACCACA 
GCTCGAGCCT TTGCTGTTGT TGCCTCTGCT TTGGGCATTC CTTCTCTGTT GCCGTTCTTG 
AAAGCTGTCT GTAAAAGCAA GAAGTCCTGG CAGGCGAGGC ATACTGGCAT CAAGATTGTG 
CAGCAAATTG CTATTCTGAT GGGTTGTGCT ATCTTGCCTC ATCTCAGGAG CTTGGTTGAA 
ATTATTGAGC ATGGTCTTGT GGATGAGCAG CAGAAGGTTC GTACCATCAG TGCTTTGGCT 
ATTGCCGCTT TAGCTGAGGC AGCTACTCCC TATGGTATCG AGTCATTTGA TTCTGTTCTG 
AAGCCCTTAT GGAAGGGTAT ACGTCAACAC AGAGGAAAGG GCTTGGCTGC CTTTTTGAAG 
GCTATTGGTT ATCTGATTCC ACTCATGGAT GCTGAGTATG CGAACTATTA TACCAGAGAA 
GTCATGTTAA TTCTTATCAG AGAGTTCCAG TCTCCTGATG AAGAGATGAA AAAAATTGTT 
TTGAAGGTGG TAAAGCAATG TTGTGGTACG GATGGTGTTG AAGCAAACTA CATTAAAACA 
GAGATCTTGC CACCATTTTT CAAACACTTC TGGCAACACA GAATGGCATT GGACAGGAGA 
AATTACAGAC AGTTGGTGGA CACAACAGTG GAGCTGGCAA ATAAAGTTGG AGCAGCAGAA 
ATTATTTCTA GAATTGTGGA TGATCTGAAG GATGAGGCTG AACAGTACAG AAAAATGGTC 
ATGGAAACAA TTGAGAAGAT AATGGGAAAC CTGGGTGCGG CAGACATTGA TCATAAGCTA 
GAGGAACAAC TTATTGATGG CATCTTGTAT GCCTTTCAAG AACAGACCAC AGAGGATTCT 
GTGATGCTGA ATGGCTTTGG CACAGTGGTT AATGCTCTTG GCAAAAGAGT TAAGCCCTAC 
TTGCCACAGA TCTGCGGTAC GGTTCTGTGG CGTTTGAACA ACAAGTCGGC TAAAGTGCGG 
CAGCAGGCTG CTGACCTCAT CTCTCGTACC GCAGTTGTCA TGAAGACTTG TCAAGAGGAA 
AAACTGATGG GACATCTGGG TGTTGTGTTG TATGAGTACC TCGGTGAAGA ATATCCTGAA 
GTACTGGGCA GCATACTTGG AGCGCTTAAG GCTATTGTTA ATGTCATAGG TATGCACAAG 
ATGACACCGC CTATCAAAGA TCTGCTGCCG CGGCTTACGC CTATTCTGAA GAACAGGCAT 
GAGAAAGTAC AGGAGAATTG TATCGATCTT GTTGGGCGCA TTGCAGACAG AGGTGCAGAA 
TATGTTTCTG CAAGAGAATG GATGAGGATC TGCTTTGAGC TGCTTGAGTT ACTAAAAGCT 
CACAAGAAAG CGATTCGAAG AGCCACAGTA AATACTTTTG GATATATTGC AAAAGCTATT 
GGACCTCACG ATGTCTTGGC TACTCTGTTG AATAACTTGA AAGTACAGGA AAGGCAGAAC 
AGAGTATGTA CTACAGTAGC AATTGCTATT GTAGCTGAAA CATGCTCACC GTTCACAGTG 
CTGCCTGCGC TCATGAATGA ATACAGAGTT CCCGAACTGA ATGTCCAGAA TGGTGTGTTA 
AAATCTCTTT CTTTCCTGTT TGAATACATT GGAGAGATGG GAAAAGATTA TATTTATGCC 
GTTACGCCAT TGCTTGAAGA CGCTTTAATG GACAGAGATC TTGTACACAG ACAAACAGCC 
AGTGCCGTGG TGCAGCACAT GTCTCTTGGT GTTTATGGGT TTGGCTGTGA AGATTCTCTT 
AATCATTTGT TAAACTACGT ATGGCCTAAT GTGTTTGAAA CTTCTCCGCA CGTCATTCAG 
GCAGTCATGG GGGCTCTGGA GGGCCTCAGA GTGGCTATTG GCCCTTGTCG AATGTTGCAG 
TATTGTTTGC AGGGTTTGTT TCACCCTGCC CGGAAAGTCA GAGATGTTTA TTGGAAGATT 
TATAATTCCA TCTACATTGG CTCACAGGAT GCTCTGATAG CACACTATCC GAGAATCTAT 
AATGATGAAA AGAACACCTA TATTCGTTAT GAACTTGACT ACATCTTATA A