rbm26 cDNA ORF clone, Pygocentrus nattereri(red-bellied piranha)

Gene
Clones
gRNAs

Summary

Gene Symbol	rbm26
Entrez Gene ID	108430853
Full Name	RNA binding motif protein 26
Gene Type	protein-coding
Organism	Pygocentrus nattereri(red-bellied piranha)

mRNA and Protein(s)

mRNA	Protein	Name
XM_017703640.1	XP_017559129.1	RNA-binding protein 26 isoform X1
XM_017703641.1	XP_017559130.1	RNA-binding protein 26 isoform X2

Pathways from BioSystems
Gene Ontology

The following rbm26 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the rbm26 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
OPy34870	XM_017703640.1 Latest version!	Pygocentrus nattereri RNA binding motif protein 26 (rbm26), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OPy34871	XM_017703641.1 Latest version!	Pygocentrus nattereri RNA binding motif protein 26 (rbm26), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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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)

rbm26 ( XM_017703640.1 ) cDNA ORF clone, Pygocentrus nattereri(red-bellied piranha) -> XP_017559129.1 Pygocentrus nattereri RNA binding motif protein 26 (rbm26), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPy34870
Clone ID Related Accession (Same CDS sequence)	XM_017703640.1
Accession Version	XM_017703640.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3093bp) 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	2016-08-01
Organism	Pygocentrus nattereri(red-bellied piranha)
Product	RNA-binding protein 26 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016243848.1) 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 :: Pygocentrus nattereri Annotation Release 100 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##

ATGATCATTG AAAACCTCGA TGCCTTGAAG ACGTGGCTTT CCCGGACCCT CGAGCCCATA 
TGCGACGCTG ACCCATCTGC CCTTGCTAAA TATGTGGTTG CCTTGGTGAA GAAAGACAAG 
TCTGAGAAAG AACTGAAAGC ACTATGCATA GACCAGTTGG ATGTATTCCT CCAGAAAGAG 
ACCCAAATAT TTGTGGATAA ACTTTTTGAA GCTGTGAACA CAAAGAGTTA CCTACCTCAG 
CCTGAGCAGC CCAGCGCCGC GAGCCGGACA GACGGCCACC CACGGGCCGA AAAAGATGAG 
CCGAAGAAAG AGGAGCAGCC CAGTCGAGAT GAGGAGAGGG ATAAGAAGTT CTCCAGAAGA 
GTGAACCACA GTCCTCAGTC CAGCTCTCGC TACAGCCGAG ACAGCAGGAG GGTTGACGAG 
CGTAAGAAGG ATGATCGGTC CAGAAAGAGA GAGTATGACC GTAACCCACC CCGCAGAGAC 
TCTTACCGGG ACCGCTATAA CCGGCGGCGT GGACGCAGCC GGAGTTACAG CCGGAGCCGA 
AGCCGCAGCT GGAGCAAAGA CCGTGCCCGC GAGCGAGATA GAGACAGAGA GCGGGACAGG 
GACCGAGAGC GGGACCGAGA GAGAGAGCGC AGCAGGACAC GGTCACGCAG CCGGTCCAGA 
ACCAGGAGCA GAGAGAGGGA TTCTGGGAAG TCGAAGTATG ACCATGAGCG TCCTGAGCGC 
CCAGAAGGAG GAGCTAGTGA GGGTTACGTG GCCACACCTC TTGCCACAGG CACTTCCTCT 
ACGCACTTCC CAGTCCCCGC CCTCAGCAGC ACCATCACAG TCATCGCCCC GACTCACCAT 
GGCAACAGCA CCACGGAGAG CTGGTCCGAC TTCCATCAGG ACCACCATGC CCCCTATGGG 
AGAGCGGCTC CGCCCCCGCG CAAACGCTGC CGAGACTACG ATGAGAAAGG GTTCTGCATG 
CGGGGGGACA TGTGCCCATT TGACCATGGC AGTGACCCTG TGGTGGTGGA GGACGTAAAC 
CTGCCCAGCA TCCTTCCCTT CCAAGCCCCA CCTCTTCCTG TGGTCGACGG CCCACCTCCC 
CCTGGTCTGC CGCCCCCTCC TTCTCTCCTC ACTCCTCCGC CGGTTAACCT GCGGCCCCCT 
GTGCCTCCGC CTGGCACGAT GCCCCCCAGC CTCCCACCTG TGGCAGGTCC TCCTCCTCCG 
CTTCCCGCGC TACAGCCTTC TGGAATGGAT GCTCCTCCGA ACTCCATCAC CAGCTCTGTT 
CCCACCATCG TCACCTCAGG GGTCCGGCCT CCGCTCACAC AACCTCCTCC ACATCTCATC 
ACCTCTGGGG GGCGCCCTCC CCTTCCCCAG CCTCCTCCTG CCCTCTACAC CTCTGATTCA 
TTTGAACCAG ACGTTTATAA CCCAGAGGCT CCCAGTATGA CCTCGCGACC CATGTACAGA 
CACCGGGTTA ACATCCAACG GCCCAATCTA ATTGGTCTCA CCATGGGGGA GGTGGACATG 
CCCCCACGAG ACAAAATGTT GAACAGCAAT AGTGCGCGGA TTGTTCTGGA ATCAGACTCC 
AGGAAGAGGG GGCTGGGTCC ACATGATGGG GGCATGCCCT CAAAGAAACC TTGGTTTGAT 
AAACACAACT TCAACAAGCC CAACCATCAT GGTTACCATA AAAAAGTGCC ATTCTCTTTG 
CCAAATACTA AACTGGCCAT CCGGCAGATT CCCCCAGAGC TCAACAACAT CAGCAAACTC 
AATGAGCACT TCAGCAAGTT TGGCACTATA GTCAACCTCC AGGTTGCCTA TAACAATGAC 
CCAGAGGGGG CGCTGATCCA GTTTGCATCT CCAGAGGAGG CGAGGCGGGC TATGCAGAGC 
ACGGAAGCTG TTCTAAATAA CCGCTTCATT AAAGTTCACT GGCACAGGGA GGATGAACCG 
GGACCCACAC ACACGGTTCC GCCTATGAGT GTCCAGCCAC CCCAGCAGCC CGCAGTCACC 
ACTCTGAAAC AGTCTGTGAA GGACCGGCTG GGCCCCCTGC CCATCGGAAA CACAGAGCCT 
CTGCAGGACC CCAGCCACCC CTCACAGGAC TCTGGAAAAT CATCAGTGAA AGAACGACTG 
GACTTCTCGA AACCAGCAGC CTCTGCAGGA AAGGTCTTCT CCACCTCAAC TGGACTTACT 
AAGACATTTT ATAACCCAGC AGCGCTGAAG ACGGGCCAGA AGGGGGTGCC GTTTGGGACT 
ATGCCTGAGG AAGCTCTGAA GAAGAAACAG GAGGCACTGA AGCTTCAGCA GGACGTGAGG 
AAGAAGAAGC AGGAGATTCT AGAGAAGCAC ATTGAGACCC AGAAATTACT GATCTCTAAG 
CTGGAGAAGA ACAAGTGTAT GAAAGCGGAG GATAAGGCTC AGATCATGCA GACGCTGACC 
ACACTCACCA ACAGCATCAG CAAACTGCAG GAGGAGATTA AAGGCATCTC CAGCTCCAAC 
ACACTGCAGA CCTGCATCAA AACCAAGGCC CAGGCTCAGA AGGAGCTACT GGACACTGAG 
CTTGACCTGT ACAAGAAAAC CCAAGCTGGG GAGGACACAG CTCAGCTCAA ACTCAAATAC 
ACCCAGCTGC AGCTCGAGGC GGCCAAAAGG GGTCTCCTCA CCTCAGGGCG TGGGAGGGGG 
GCCCATGCCA GGGGCCGTGG GGGCCTCAGG GGCCGAGGAC GGGGCTTTCG GGGCCGAGCG 
AGGGGCGTGC CCACTCATGC TGTGGTGGAC CATCGGCCCA GAGCCCTGGA GATCAGCGGC 
TTCACTGAAG CGGATCGGGT CGACCTGCTG CCACACTTTG CACAATTTGG AGAGATTGAG 
GATTGCCAGA TGGAAGACGG CAGTCTGAGT GCCATCATAA CCTACAGAAC CCGTGCAGAG 
GCAGAACAGG CGGCGGTCCA CGGGATGAGG CTGAACAACC AGGAGCTCCG TCTGTCCTGG 
CATAAACCGG CTGCTTCCCA AGGCGCAGCG GACACTGAGG AGGTAGAGCC GGAGGAAGAG 
GAGTTCCAGG AGGATTCTCT GGTGGACGAC TCCCTCCTGC AGGACGACGA CGAAGAGGAG 
GAGGATAATG AATCTCGCTC CTGGCGCAGA TGA

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

RefSeq	XP_017559129.1
CDS	329..3421
Translation	MIIENLDALKTWLSRTLEPICDADPSALAKYVVALVKKDKSEKELKALCIDQLDVFLQKETQIFVDKLFEAVNTKSYLPQPEQPSAASRTDGHPRAEKDEPKKEEQPSRDEERDKKFSRRVNHSPQSSSRYSRDSRRVDERKKDDRSRKREYDRNPPRRDSYRDRYNRRRGRSRSYSRSRSRSWSKDRARERDRDRERDRDRERDRERERSRTRSRSRSRTRSRERDSGKSKYDHERPERPEGGASEGYVATPLATGTSSTHFPVPALSSTITVIAPTHHGNSTTESWSDFHQDHHAPYGRAAPPPRKRCRDYDEKGFCMRGDMCPFDHGSDPVVVEDVNLPSILPFQAPPLPVVDGPPPPGLPPPPSLLTPPPVNLRPPVPPPGTMPPSLPPVAGPPPPLPALQPSGMDAPPNSITSSVPTIVTSGVRPPLTQPPPHLITSGGRPPLPQPPPALYTSDSFEPDVYNPEAPSMTSRPMYRHRVNIQRPNLIGLTMGEVDMPPRDKMLNSNSARIVLESDSRKRGLGPHDGGMPSKKPWFDKHNFNKPNHHGYHKKVPFSLPNTKLAIRQIPPELNNISKLNEHFSKFGTIVNLQVAYNNDPEGALIQFASPEEARRAMQSTEAVLNNRFIKVHWHREDEPGPTHTVPPMSVQPPQQPAVTTLKQSVKDRLGPLPIGNTEPLQDPSHPSQDSGKSSVKERLDFSKPAASAGKVFSTSTGLTKTFYNPAALKTGQKGVPFGTMPEEALKKKQEALKLQQDVRKKKQEILEKHIETQKLLISKLEKNKCMKAEDKAQIMQTLTTLTNSISKLQEEIKGISSSNTLQTCIKTKAQAQKELLDTELDLYKKTQAGEDTAQLKLKYTQLQLEAAKRGLLTSGRGRGAHARGRGGLRGRGRGFRGRARGVPTHAVVDHRPRALEISGFTEADRVDLLPHFAQFGEIEDCQMEDGSLSAIITYRTRAEAEQAAVHGMRLNNQELRLSWHKPAASQGAADTEEVEPEEEEFQEDSLVDDSLLQDDDEEEEDNESRSWRR

Target ORF information:

RefSeq Version	XM_017703640.1
Organism	Pygocentrus nattereri(red-bellied piranha)
Definition	Pygocentrus nattereri RNA binding motif protein 26 (rbm26), transcript variant X1, mRNA.

Target ORF information:

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

XM_017703640.1

ORF Insert Sequence:

ATGATCATTG AAAACCTCGA TGCCTTGAAG ACGTGGCTTT CCCGGACCCT CGAGCCCATA 
TGCGACGCTG ACCCATCTGC CCTTGCTAAA TATGTGGTTG CCTTGGTGAA GAAAGACAAG 
TCTGAGAAAG AACTGAAAGC ACTATGCATA GACCAGTTGG ATGTATTCCT CCAGAAAGAG 
ACCCAAATAT TTGTGGATAA ACTTTTTGAA GCTGTGAACA CAAAGAGTTA CCTACCTCAG 
CCTGAGCAGC CCAGCGCCGC GAGCCGGACA GACGGCCACC CACGGGCCGA AAAAGATGAG 
CCGAAGAAAG AGGAGCAGCC CAGTCGAGAT GAGGAGAGGG ATAAGAAGTT CTCCAGAAGA 
GTGAACCACA GTCCTCAGTC CAGCTCTCGC TACAGCCGAG ACAGCAGGAG GGTTGACGAG 
CGTAAGAAGG ATGATCGGTC CAGAAAGAGA GAGTATGACC GTAACCCACC CCGCAGAGAC 
TCTTACCGGG ACCGCTATAA CCGGCGGCGT GGACGCAGCC GGAGTTACAG CCGGAGCCGA 
AGCCGCAGCT GGAGCAAAGA CCGTGCCCGC GAGCGAGATA GAGACAGAGA GCGGGACAGG 
GACCGAGAGC GGGACCGAGA GAGAGAGCGC AGCAGGACAC GGTCACGCAG CCGGTCCAGA 
ACCAGGAGCA GAGAGAGGGA TTCTGGGAAG TCGAAGTATG ACCATGAGCG TCCTGAGCGC 
CCAGAAGGAG GAGCTAGTGA GGGTTACGTG GCCACACCTC TTGCCACAGG CACTTCCTCT 
ACGCACTTCC CAGTCCCCGC CCTCAGCAGC ACCATCACAG TCATCGCCCC GACTCACCAT 
GGCAACAGCA CCACGGAGAG CTGGTCCGAC TTCCATCAGG ACCACCATGC CCCCTATGGG 
AGAGCGGCTC CGCCCCCGCG CAAACGCTGC CGAGACTACG ATGAGAAAGG GTTCTGCATG 
CGGGGGGACA TGTGCCCATT TGACCATGGC AGTGACCCTG TGGTGGTGGA GGACGTAAAC 
CTGCCCAGCA TCCTTCCCTT CCAAGCCCCA CCTCTTCCTG TGGTCGACGG CCCACCTCCC 
CCTGGTCTGC CGCCCCCTCC TTCTCTCCTC ACTCCTCCGC CGGTTAACCT GCGGCCCCCT 
GTGCCTCCGC CTGGCACGAT GCCCCCCAGC CTCCCACCTG TGGCAGGTCC TCCTCCTCCG 
CTTCCCGCGC TACAGCCTTC TGGAATGGAT GCTCCTCCGA ACTCCATCAC CAGCTCTGTT 
CCCACCATCG TCACCTCAGG GGTCCGGCCT CCGCTCACAC AACCTCCTCC ACATCTCATC 
ACCTCTGGGG GGCGCCCTCC CCTTCCCCAG CCTCCTCCTG CCCTCTACAC CTCTGATTCA 
TTTGAACCAG ACGTTTATAA CCCAGAGGCT CCCAGTATGA CCTCGCGACC CATGTACAGA 
CACCGGGTTA ACATCCAACG GCCCAATCTA ATTGGTCTCA CCATGGGGGA GGTGGACATG 
CCCCCACGAG ACAAAATGTT GAACAGCAAT AGTGCGCGGA TTGTTCTGGA ATCAGACTCC 
AGGAAGAGGG GGCTGGGTCC ACATGATGGG GGCATGCCCT CAAAGAAACC TTGGTTTGAT 
AAACACAACT TCAACAAGCC CAACCATCAT GGTTACCATA AAAAAGTGCC ATTCTCTTTG 
CCAAATACTA AACTGGCCAT CCGGCAGATT CCCCCAGAGC TCAACAACAT CAGCAAACTC 
AATGAGCACT TCAGCAAGTT TGGCACTATA GTCAACCTCC AGGTTGCCTA TAACAATGAC 
CCAGAGGGGG CGCTGATCCA GTTTGCATCT CCAGAGGAGG CGAGGCGGGC TATGCAGAGC 
ACGGAAGCTG TTCTAAATAA CCGCTTCATT AAAGTTCACT GGCACAGGGA GGATGAACCG 
GGACCCACAC ACACGGTTCC GCCTATGAGT GTCCAGCCAC CCCAGCAGCC CGCAGTCACC 
ACTCTGAAAC AGTCTGTGAA GGACCGGCTG GGCCCCCTGC CCATCGGAAA CACAGAGCCT 
CTGCAGGACC CCAGCCACCC CTCACAGGAC TCTGGAAAAT CATCAGTGAA AGAACGACTG 
GACTTCTCGA AACCAGCAGC CTCTGCAGGA AAGGTCTTCT CCACCTCAAC TGGACTTACT 
AAGACATTTT ATAACCCAGC AGCGCTGAAG ACGGGCCAGA AGGGGGTGCC GTTTGGGACT 
ATGCCTGAGG AAGCTCTGAA GAAGAAACAG GAGGCACTGA AGCTTCAGCA GGACGTGAGG 
AAGAAGAAGC AGGAGATTCT AGAGAAGCAC ATTGAGACCC AGAAATTACT GATCTCTAAG 
CTGGAGAAGA ACAAGTGTAT GAAAGCGGAG GATAAGGCTC AGATCATGCA GACGCTGACC 
ACACTCACCA ACAGCATCAG CAAACTGCAG GAGGAGATTA AAGGCATCTC CAGCTCCAAC 
ACACTGCAGA CCTGCATCAA AACCAAGGCC CAGGCTCAGA AGGAGCTACT GGACACTGAG 
CTTGACCTGT ACAAGAAAAC CCAAGCTGGG GAGGACACAG CTCAGCTCAA ACTCAAATAC 
ACCCAGCTGC AGCTCGAGGC GGCCAAAAGG GGTCTCCTCA CCTCAGGGCG TGGGAGGGGG 
GCCCATGCCA GGGGCCGTGG GGGCCTCAGG GGCCGAGGAC GGGGCTTTCG GGGCCGAGCG 
AGGGGCGTGC CCACTCATGC TGTGGTGGAC CATCGGCCCA GAGCCCTGGA GATCAGCGGC 
TTCACTGAAG CGGATCGGGT CGACCTGCTG CCACACTTTG CACAATTTGG AGAGATTGAG 
GATTGCCAGA TGGAAGACGG CAGTCTGAGT GCCATCATAA CCTACAGAAC CCGTGCAGAG 
GCAGAACAGG CGGCGGTCCA CGGGATGAGG CTGAACAACC AGGAGCTCCG TCTGTCCTGG 
CATAAACCGG CTGCTTCCCA AGGCGCAGCG GACACTGAGG AGGTAGAGCC GGAGGAAGAG 
GAGTTCCAGG AGGATTCTCT GGTGGACGAC TCCCTCCTGC AGGACGACGA CGAAGAGGAG 
GAGGATAATG AATCTCGCTC CTGGCGCAGA TGA

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

rbm26 ( XM_017703641.1 ) cDNA ORF clone, Pygocentrus nattereri(red-bellied piranha) -> XP_017559130.1 Pygocentrus nattereri RNA binding motif protein 26 (rbm26), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPy34871
Clone ID Related Accession (Same CDS sequence)	XM_017703641.1
Accession Version	XM_017703641.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3090bp) 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	2016-08-01
Organism	Pygocentrus nattereri(red-bellied piranha)
Product	RNA-binding protein 26 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016243848.1) 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 :: Pygocentrus nattereri Annotation Release 100 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##

ATGATCATTG AAAACCTCGA TGCCTTGAAG ACGTGGCTTT CCCGGACCCT CGAGCCCATA 
TGCGACGCTG ACCCATCTGC CCTTGCTAAA TATGTGGTTG CCTTGGTGAA GAAAGACAAG 
TCTGAGAAAG AACTGAAAGC ACTATGCATA GACCAGTTGG ATGTATTCCT CCAGAAAGAG 
ACCCAAATAT TTGTGGATAA ACTTTTTGAA GCTGTGAACA CAAAGAGTTA CCTACCTCAG 
CCTGAGCAGC CCAGCGCCGC GAGCCGGACA GACGGCCACC CACGGGCCGA AAAAGATGAG 
CCGAAGAAAG AGGAGCCCAG TCGAGATGAG GAGAGGGATA AGAAGTTCTC CAGAAGAGTG 
AACCACAGTC CTCAGTCCAG CTCTCGCTAC AGCCGAGACA GCAGGAGGGT TGACGAGCGT 
AAGAAGGATG ATCGGTCCAG AAAGAGAGAG TATGACCGTA ACCCACCCCG CAGAGACTCT 
TACCGGGACC GCTATAACCG GCGGCGTGGA CGCAGCCGGA GTTACAGCCG GAGCCGAAGC 
CGCAGCTGGA GCAAAGACCG TGCCCGCGAG CGAGATAGAG ACAGAGAGCG GGACAGGGAC 
CGAGAGCGGG ACCGAGAGAG AGAGCGCAGC AGGACACGGT CACGCAGCCG GTCCAGAACC 
AGGAGCAGAG AGAGGGATTC TGGGAAGTCG AAGTATGACC ATGAGCGTCC TGAGCGCCCA 
GAAGGAGGAG CTAGTGAGGG TTACGTGGCC ACACCTCTTG CCACAGGCAC TTCCTCTACG 
CACTTCCCAG TCCCCGCCCT CAGCAGCACC ATCACAGTCA TCGCCCCGAC TCACCATGGC 
AACAGCACCA CGGAGAGCTG GTCCGACTTC CATCAGGACC ACCATGCCCC CTATGGGAGA 
GCGGCTCCGC CCCCGCGCAA ACGCTGCCGA GACTACGATG AGAAAGGGTT CTGCATGCGG 
GGGGACATGT GCCCATTTGA CCATGGCAGT GACCCTGTGG TGGTGGAGGA CGTAAACCTG 
CCCAGCATCC TTCCCTTCCA AGCCCCACCT CTTCCTGTGG TCGACGGCCC ACCTCCCCCT 
GGTCTGCCGC CCCCTCCTTC TCTCCTCACT CCTCCGCCGG TTAACCTGCG GCCCCCTGTG 
CCTCCGCCTG GCACGATGCC CCCCAGCCTC CCACCTGTGG CAGGTCCTCC TCCTCCGCTT 
CCCGCGCTAC AGCCTTCTGG AATGGATGCT CCTCCGAACT CCATCACCAG CTCTGTTCCC 
ACCATCGTCA CCTCAGGGGT CCGGCCTCCG CTCACACAAC CTCCTCCACA TCTCATCACC 
TCTGGGGGGC GCCCTCCCCT TCCCCAGCCT CCTCCTGCCC TCTACACCTC TGATTCATTT 
GAACCAGACG TTTATAACCC AGAGGCTCCC AGTATGACCT CGCGACCCAT GTACAGACAC 
CGGGTTAACA TCCAACGGCC CAATCTAATT GGTCTCACCA TGGGGGAGGT GGACATGCCC 
CCACGAGACA AAATGTTGAA CAGCAATAGT GCGCGGATTG TTCTGGAATC AGACTCCAGG 
AAGAGGGGGC TGGGTCCACA TGATGGGGGC ATGCCCTCAA AGAAACCTTG GTTTGATAAA 
CACAACTTCA ACAAGCCCAA CCATCATGGT TACCATAAAA AAGTGCCATT CTCTTTGCCA 
AATACTAAAC TGGCCATCCG GCAGATTCCC CCAGAGCTCA ACAACATCAG CAAACTCAAT 
GAGCACTTCA GCAAGTTTGG CACTATAGTC AACCTCCAGG TTGCCTATAA CAATGACCCA 
GAGGGGGCGC TGATCCAGTT TGCATCTCCA GAGGAGGCGA GGCGGGCTAT GCAGAGCACG 
GAAGCTGTTC TAAATAACCG CTTCATTAAA GTTCACTGGC ACAGGGAGGA TGAACCGGGA 
CCCACACACA CGGTTCCGCC TATGAGTGTC CAGCCACCCC AGCAGCCCGC AGTCACCACT 
CTGAAACAGT CTGTGAAGGA CCGGCTGGGC CCCCTGCCCA TCGGAAACAC AGAGCCTCTG 
CAGGACCCCA GCCACCCCTC ACAGGACTCT GGAAAATCAT CAGTGAAAGA ACGACTGGAC 
TTCTCGAAAC CAGCAGCCTC TGCAGGAAAG GTCTTCTCCA CCTCAACTGG ACTTACTAAG 
ACATTTTATA ACCCAGCAGC GCTGAAGACG GGCCAGAAGG GGGTGCCGTT TGGGACTATG 
CCTGAGGAAG CTCTGAAGAA GAAACAGGAG GCACTGAAGC TTCAGCAGGA CGTGAGGAAG 
AAGAAGCAGG AGATTCTAGA GAAGCACATT GAGACCCAGA AATTACTGAT CTCTAAGCTG 
GAGAAGAACA AGTGTATGAA AGCGGAGGAT AAGGCTCAGA TCATGCAGAC GCTGACCACA 
CTCACCAACA GCATCAGCAA ACTGCAGGAG GAGATTAAAG GCATCTCCAG CTCCAACACA 
CTGCAGACCT GCATCAAAAC CAAGGCCCAG GCTCAGAAGG AGCTACTGGA CACTGAGCTT 
GACCTGTACA AGAAAACCCA AGCTGGGGAG GACACAGCTC AGCTCAAACT CAAATACACC 
CAGCTGCAGC TCGAGGCGGC CAAAAGGGGT CTCCTCACCT CAGGGCGTGG GAGGGGGGCC 
CATGCCAGGG GCCGTGGGGG CCTCAGGGGC CGAGGACGGG GCTTTCGGGG CCGAGCGAGG 
GGCGTGCCCA CTCATGCTGT GGTGGACCAT CGGCCCAGAG CCCTGGAGAT CAGCGGCTTC 
ACTGAAGCGG ATCGGGTCGA CCTGCTGCCA CACTTTGCAC AATTTGGAGA GATTGAGGAT 
TGCCAGATGG AAGACGGCAG TCTGAGTGCC ATCATAACCT ACAGAACCCG TGCAGAGGCA 
GAACAGGCGG CGGTCCACGG GATGAGGCTG AACAACCAGG AGCTCCGTCT GTCCTGGCAT 
AAACCGGCTG CTTCCCAAGG CGCAGCGGAC ACTGAGGAGG TAGAGCCGGA GGAAGAGGAG 
TTCCAGGAGG ATTCTCTGGT GGACGACTCC CTCCTGCAGG ACGACGACGA AGAGGAGGAG 
GATAATGAAT CTCGCTCCTG GCGCAGATGA

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

RefSeq	XP_017559130.1
CDS	329..3418
Translation	MIIENLDALKTWLSRTLEPICDADPSALAKYVVALVKKDKSEKELKALCIDQLDVFLQKETQIFVDKLFEAVNTKSYLPQPEQPSAASRTDGHPRAEKDEPKKEEPSRDEERDKKFSRRVNHSPQSSSRYSRDSRRVDERKKDDRSRKREYDRNPPRRDSYRDRYNRRRGRSRSYSRSRSRSWSKDRARERDRDRERDRDRERDRERERSRTRSRSRSRTRSRERDSGKSKYDHERPERPEGGASEGYVATPLATGTSSTHFPVPALSSTITVIAPTHHGNSTTESWSDFHQDHHAPYGRAAPPPRKRCRDYDEKGFCMRGDMCPFDHGSDPVVVEDVNLPSILPFQAPPLPVVDGPPPPGLPPPPSLLTPPPVNLRPPVPPPGTMPPSLPPVAGPPPPLPALQPSGMDAPPNSITSSVPTIVTSGVRPPLTQPPPHLITSGGRPPLPQPPPALYTSDSFEPDVYNPEAPSMTSRPMYRHRVNIQRPNLIGLTMGEVDMPPRDKMLNSNSARIVLESDSRKRGLGPHDGGMPSKKPWFDKHNFNKPNHHGYHKKVPFSLPNTKLAIRQIPPELNNISKLNEHFSKFGTIVNLQVAYNNDPEGALIQFASPEEARRAMQSTEAVLNNRFIKVHWHREDEPGPTHTVPPMSVQPPQQPAVTTLKQSVKDRLGPLPIGNTEPLQDPSHPSQDSGKSSVKERLDFSKPAASAGKVFSTSTGLTKTFYNPAALKTGQKGVPFGTMPEEALKKKQEALKLQQDVRKKKQEILEKHIETQKLLISKLEKNKCMKAEDKAQIMQTLTTLTNSISKLQEEIKGISSSNTLQTCIKTKAQAQKELLDTELDLYKKTQAGEDTAQLKLKYTQLQLEAAKRGLLTSGRGRGAHARGRGGLRGRGRGFRGRARGVPTHAVVDHRPRALEISGFTEADRVDLLPHFAQFGEIEDCQMEDGSLSAIITYRTRAEAEQAAVHGMRLNNQELRLSWHKPAASQGAADTEEVEPEEEEFQEDSLVDDSLLQDDDEEEEDNESRSWRR

Target ORF information:

RefSeq Version	XM_017703641.1
Organism	Pygocentrus nattereri(red-bellied piranha)
Definition	Pygocentrus nattereri RNA binding motif protein 26 (rbm26), transcript variant X2, mRNA.

Target ORF information:

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

XM_017703641.1

ORF Insert Sequence:

ATGATCATTG AAAACCTCGA TGCCTTGAAG ACGTGGCTTT CCCGGACCCT CGAGCCCATA 
TGCGACGCTG ACCCATCTGC CCTTGCTAAA TATGTGGTTG CCTTGGTGAA GAAAGACAAG 
TCTGAGAAAG AACTGAAAGC ACTATGCATA GACCAGTTGG ATGTATTCCT CCAGAAAGAG 
ACCCAAATAT TTGTGGATAA ACTTTTTGAA GCTGTGAACA CAAAGAGTTA CCTACCTCAG 
CCTGAGCAGC CCAGCGCCGC GAGCCGGACA GACGGCCACC CACGGGCCGA AAAAGATGAG 
CCGAAGAAAG AGGAGCCCAG TCGAGATGAG GAGAGGGATA AGAAGTTCTC CAGAAGAGTG 
AACCACAGTC CTCAGTCCAG CTCTCGCTAC AGCCGAGACA GCAGGAGGGT TGACGAGCGT 
AAGAAGGATG ATCGGTCCAG AAAGAGAGAG TATGACCGTA ACCCACCCCG CAGAGACTCT 
TACCGGGACC GCTATAACCG GCGGCGTGGA CGCAGCCGGA GTTACAGCCG GAGCCGAAGC 
CGCAGCTGGA GCAAAGACCG TGCCCGCGAG CGAGATAGAG ACAGAGAGCG GGACAGGGAC 
CGAGAGCGGG ACCGAGAGAG AGAGCGCAGC AGGACACGGT CACGCAGCCG GTCCAGAACC 
AGGAGCAGAG AGAGGGATTC TGGGAAGTCG AAGTATGACC ATGAGCGTCC TGAGCGCCCA 
GAAGGAGGAG CTAGTGAGGG TTACGTGGCC ACACCTCTTG CCACAGGCAC TTCCTCTACG 
CACTTCCCAG TCCCCGCCCT CAGCAGCACC ATCACAGTCA TCGCCCCGAC TCACCATGGC 
AACAGCACCA CGGAGAGCTG GTCCGACTTC CATCAGGACC ACCATGCCCC CTATGGGAGA 
GCGGCTCCGC CCCCGCGCAA ACGCTGCCGA GACTACGATG AGAAAGGGTT CTGCATGCGG 
GGGGACATGT GCCCATTTGA CCATGGCAGT GACCCTGTGG TGGTGGAGGA CGTAAACCTG 
CCCAGCATCC TTCCCTTCCA AGCCCCACCT CTTCCTGTGG TCGACGGCCC ACCTCCCCCT 
GGTCTGCCGC CCCCTCCTTC TCTCCTCACT CCTCCGCCGG TTAACCTGCG GCCCCCTGTG 
CCTCCGCCTG GCACGATGCC CCCCAGCCTC CCACCTGTGG CAGGTCCTCC TCCTCCGCTT 
CCCGCGCTAC AGCCTTCTGG AATGGATGCT CCTCCGAACT CCATCACCAG CTCTGTTCCC 
ACCATCGTCA CCTCAGGGGT CCGGCCTCCG CTCACACAAC CTCCTCCACA TCTCATCACC 
TCTGGGGGGC GCCCTCCCCT TCCCCAGCCT CCTCCTGCCC TCTACACCTC TGATTCATTT 
GAACCAGACG TTTATAACCC AGAGGCTCCC AGTATGACCT CGCGACCCAT GTACAGACAC 
CGGGTTAACA TCCAACGGCC CAATCTAATT GGTCTCACCA TGGGGGAGGT GGACATGCCC 
CCACGAGACA AAATGTTGAA CAGCAATAGT GCGCGGATTG TTCTGGAATC AGACTCCAGG 
AAGAGGGGGC TGGGTCCACA TGATGGGGGC ATGCCCTCAA AGAAACCTTG GTTTGATAAA 
CACAACTTCA ACAAGCCCAA CCATCATGGT TACCATAAAA AAGTGCCATT CTCTTTGCCA 
AATACTAAAC TGGCCATCCG GCAGATTCCC CCAGAGCTCA ACAACATCAG CAAACTCAAT 
GAGCACTTCA GCAAGTTTGG CACTATAGTC AACCTCCAGG TTGCCTATAA CAATGACCCA 
GAGGGGGCGC TGATCCAGTT TGCATCTCCA GAGGAGGCGA GGCGGGCTAT GCAGAGCACG 
GAAGCTGTTC TAAATAACCG CTTCATTAAA GTTCACTGGC ACAGGGAGGA TGAACCGGGA 
CCCACACACA CGGTTCCGCC TATGAGTGTC CAGCCACCCC AGCAGCCCGC AGTCACCACT 
CTGAAACAGT CTGTGAAGGA CCGGCTGGGC CCCCTGCCCA TCGGAAACAC AGAGCCTCTG 
CAGGACCCCA GCCACCCCTC ACAGGACTCT GGAAAATCAT CAGTGAAAGA ACGACTGGAC 
TTCTCGAAAC CAGCAGCCTC TGCAGGAAAG GTCTTCTCCA CCTCAACTGG ACTTACTAAG 
ACATTTTATA ACCCAGCAGC GCTGAAGACG GGCCAGAAGG GGGTGCCGTT TGGGACTATG 
CCTGAGGAAG CTCTGAAGAA GAAACAGGAG GCACTGAAGC TTCAGCAGGA CGTGAGGAAG 
AAGAAGCAGG AGATTCTAGA GAAGCACATT GAGACCCAGA AATTACTGAT CTCTAAGCTG 
GAGAAGAACA AGTGTATGAA AGCGGAGGAT AAGGCTCAGA TCATGCAGAC GCTGACCACA 
CTCACCAACA GCATCAGCAA ACTGCAGGAG GAGATTAAAG GCATCTCCAG CTCCAACACA 
CTGCAGACCT GCATCAAAAC CAAGGCCCAG GCTCAGAAGG AGCTACTGGA CACTGAGCTT 
GACCTGTACA AGAAAACCCA AGCTGGGGAG GACACAGCTC AGCTCAAACT CAAATACACC 
CAGCTGCAGC TCGAGGCGGC CAAAAGGGGT CTCCTCACCT CAGGGCGTGG GAGGGGGGCC 
CATGCCAGGG GCCGTGGGGG CCTCAGGGGC CGAGGACGGG GCTTTCGGGG CCGAGCGAGG 
GGCGTGCCCA CTCATGCTGT GGTGGACCAT CGGCCCAGAG CCCTGGAGAT CAGCGGCTTC 
ACTGAAGCGG ATCGGGTCGA CCTGCTGCCA CACTTTGCAC AATTTGGAGA GATTGAGGAT 
TGCCAGATGG AAGACGGCAG TCTGAGTGCC ATCATAACCT ACAGAACCCG TGCAGAGGCA 
GAACAGGCGG CGGTCCACGG GATGAGGCTG AACAACCAGG AGCTCCGTCT GTCCTGGCAT 
AAACCGGCTG CTTCCCAAGG CGCAGCGGAC ACTGAGGAGG TAGAGCCGGA GGAAGAGGAG 
TTCCAGGAGG ATTCTCTGGT GGACGACTCC CTCCTGCAGG ACGACGACGA AGAGGAGGAG 
GATAATGAAT CTCGCTCCTG GCGCAGATGA