RBM27 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	RBM27
Entrez Gene ID	100478174
Full Name	RNA binding motif protein 27
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011231636.2	XP_011229938.1	RNA-binding protein 27 isoform X1
XM_011231637.2	XP_011229939.1	RNA-binding protein 27 isoform X2
XM_011231638.2	XP_011229940.1	RNA-binding protein 27 isoform X3

Pathways from BioSystems
Gene Ontology

The following RBM27 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RBM27 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)
OAc28590	XM_011231636.2 Latest version!	Ailuropoda melanoleuca RNA binding motif protein 27 (RBM27), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OAc28591	XM_011231637.2 Latest version!	Ailuropoda melanoleuca RNA binding motif protein 27 (RBM27), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OAc28592	XM_011231638.2 Latest version!	Ailuropoda melanoleuca RNA binding motif protein 27 (RBM27), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

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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)

RBM27 ( XM_011231636.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011229938.1 Ailuropoda melanoleuca RNA binding motif protein 27 (RBM27), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc28590
Clone ID Related Accession (Same CDS sequence)	XM_011231636.2
Accession Version	XM_011231636.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3186bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	RNA-binding protein 27 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218127.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011231636.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTCATAG AGGATGTGGA TGCCCTCAAG TCCTGGCTGG CCAAGTTACT GGAGCCGATA 
TGCGACGCTG ACCCTTCAGC CTTAGCCAAC TATGTTGTAG CACTGGTCAA GAAGGACAAA 
CCTGAGAAAG AATTGAAAGC CTTTTGTGCT GATCAACTTG ACGTCTTTTT ACAAAAAGAA 
ACTTCGGGTT TTGTGGATAA ACTGTTCGAA AGTCTCTATA CTAAGAACTA CCTTCCACCT 
CTGGAACCAG TTAAGCCTGA GCCAAAACCA CCAGTCCAAG AAAAAGAAGA AATTAAAGAA 
GAGGTTTTTC AGGAGCCAGC AGAGGAAGAA CGAGATGGTA GAAAAAAGAA GTATCCTAGT 
CCCCAGAAGA CTCGTTCAGA ATCTAGTGAA CGAAGGACAC GTGAGAAAAA AAGAGAAGAT 
GGCAAGTGGA GAGACTATGA CCGGTACTAT GAGCGGAATG AACTATACCG TGAGAAATAT 
GACTGGAGAA GAGGCAGGAG TAAGAGTCGG AGTAAGAGCC GAGGCTTGAG TCGAAGTCGA 
AGCCGAAGTA GAGGGCGCAG CAAAGACCGG GATCCAAATA GGAATGTTGC AGAGCACAGG 
GAAAGATCAA AGTTTAAGAG TGAAAGGAAT GACTTGGAGA GCTCCTATGT GCCTGTGTCT 
GCACCACCTC CGAGCTCTTC TGAGCAGTAC TCCTCTGGGG CACAGTCTAT TCCCAGCACT 
GTTACTGTGA TCGCACCTGC GCACCACTCT GAAAACACAA CGGAGAGTTG GTCTAATTAC 
TATAACAATC ACAGCTCTTC CAATTCTTTT GGTCGAAACC CACCACCAAA GAGGCGATGC 
AGAGATTATG ATGAAAGAGG ATTTTGTGTA CTTGGTGACC TTTGTCAGTT TGATCATGGA 
AATGATCCCC TGGTTGTTGA TGAAGTTGCT TTGCCAAGCA TGATTCCTTT CCCTCCACCT 
CCTCCTGGGC TTCCTCCTCC ACCACCTCCT GGAATGTTAA TGCCTCCGAT GCCAGGCCCA 
GGCCCAGGCC CTGGCCCAGG TCCAGGCCCA GGCCCAGGTC CAGGTCCAGG TCCAGGCCAC 
AGTATGAGAC TTCCTGTTCC CCAGGGACAT GGCCAACCTC CACCTTCTGT TGTGCTTCCC 
ATACCAAGAC CACCCATAAC ACAGTCAAGC TTGATAAACA ACCGTGACCA GCCTGGGACA 
AGTGCAGTGC CCAATCTTGC ACCAGTGGGA GCAAGACTAC CTCCTCCTTT ACCCCAGAAC 
CTCCTTTATA CAGTATCAGA ACGACAGCCC ATGTACTCTC GTGAACATGG TGCTGCTGCA 
TCTGAGCGAC TTCAGTTGGG GACACCGCCT CCTCTGTTGG CAGCTCGTTT GGTGCCACCT 
CGAAACCTCA TGGGATCCTC CATTGGGTAC CATACCTCAG TCTCCAGCCC CACCCCTCTG 
GTCCCAGATA CGTATGAACC AGATGGTTAT AATCCAGAAG CTCCTAGTAT TACCAGTTCT 
GGTAGATCTC AGTACAGACA GTTCTTTTCA AGAACACAGA CACAGCGCCC AAACCTGATT 
GGCCTAACAT CTGGAGATAT GGATGCAAAT CCAAGAGCTG CTAACATTGT CATCCAGACT 
GAACCACCAG TTCCTGTTTC AATTAATAGC AACATAACCA GAGTAGTTCT TGAACCAGAT 
AGCCGAAAAA GAGCTATAAG TGGTTTGGAA GGGCCACTCA CAAAGAAACC TTGGCTGGGA 
AAGCAAGGGA ATAACAGTCA GAATAAACCA GGATTCTTGA GAAAGAATCA GTATACAAAC 
ACCAAATTAG AAGTCAAGAA AATCCCTCAG GAATTGAACA ATATTACCAA GCTCAACGAA 
CACTTCAGCA AATTTGGAAC TATTGTAAAC ATCCAGGTTG CTTTTAAGGG AGATCCGGAA 
GCAGCACTCA TCCAGTATCT TACCAATGAG GAGGCCAGGA AAGCCATTTC CAGCACTGAA 
GCAGTTCTAA ACAACCGATT CATTCGAGTT CTGTGGCATA GAGGAAACAA CGAGCAGCCA 
GCACTACAGT CTCCAACACA GCTACTCCTG CAGCAGCAGC AAACACTTAG TCACCTGTCA 
CAACAGCACC ATCATCTGCC ACAGCACCTT CATCAGCAGC AGGTGCTGGT GGCCCAGTCT 
CCTCCCTCTA CAGTACATGG GGGTATCCAG AAGATGATGA GTAAACCACA GACATCGGGC 
GCCTATGTTC TTAACAAAGT TCCTGTTAAA CATCGTCTTG GACATGCAAG TGGTAACCAG 
AGTGATGCAT CACACTTACT GAATCAGTCA GGTGGTGCTG GAGAGGATTG CCAGATATTT 
TCAGCTCCAG GCCATCCAAA AATGATTTAC AGCTCCTCAA ACTTAAAGAC ACCTTCAAAA 
CTTTGTTCAG GGTCTAAATC TCATGATGTT CAAGAAGTTC TTAAAAAGAA GCAGGAAGCA 
ATGAAGCTAC AACAAGACAT GAGGAAAAAG AGGCAAGAAG TGCTAGAAAA ACAAATAGAA 
TGCCAGAAGA TGCTAATATC TAAGCTAGAA AAGAACAAAA ACATGAAACC AGAAGAGAGG 
GCAAACATAA TGAAGACTTT GAAAGAGCTT GGTGAAAAGA TCTCACAATT GAAAGATGAA 
TTAAAAACAT CTTCTGCAGT CTCCACACCA TCTAAAGTAA AGACAAAAAC AGAGGCTCAG 
AAAGAACTAT TAGATACTGA ACTGGACCTT CACAAGAGGC TATCCTCAGG AGAAGACACA 
ACAGAGTTGC GGAAAAAACT CAGTCAGTTA CAGGTTGAGG CTGCACGATT AGGTATTTTA 
CCTGTGGGTC GAGGAAAGAC TATGTCCTCT CAAGGTCGAG GAAGAGGCAG AGGCCGTGGA 
GGAAGAGGAA GGGGCTCACT GAATCACATG GTGGTGGACC ACCGCCCCAA AGCACTAACA 
GTTGGGGGAT TCATTGAGGA GGAGAAAGAT GAATTACTTC AGCATTTCTC AACTGCAAAC 
CAAGGGTCAA AATTCAAAGA CCGTCGGCTA CAAATATCAT GGCACAAGGC CAAGGTGCCT 
TCTGTATCCA CTGAGACCGA GGAAGAAGAA GTCAAGGAGG AGGAAACAGA GACCTCAGAT 
TTGTTTCTCC ATGATGATGA TGATGAAGAT GAAGATGAGT ATGAGTCTCG TTCATGGCGA 
AGATGA

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

RefSeq	XP_011229938.1
CDS	191..3376
Translation	MLIEDVDALKSWLAKLLEPICDADPSALANYVVALVKKDKPEKELKAFCADQLDVFLQKETSGFVDKLFESLYTKNYLPPLEPVKPEPKPPVQEKEEIKEEVFQEPAEEERDGRKKKYPSPQKTRSESSERRTREKKREDGKWRDYDRYYERNELYREKYDWRRGRSKSRSKSRGLSRSRSRSRGRSKDRDPNRNVAEHRERSKFKSERNDLESSYVPVSAPPPSSSEQYSSGAQSIPSTVTVIAPAHHSENTTESWSNYYNNHSSSNSFGRNPPPKRRCRDYDERGFCVLGDLCQFDHGNDPLVVDEVALPSMIPFPPPPPGLPPPPPPGMLMPPMPGPGPGPGPGPGPGPGPGPGPGHSMRLPVPQGHGQPPPSVVLPIPRPPITQSSLINNRDQPGTSAVPNLAPVGARLPPPLPQNLLYTVSERQPMYSREHGAAASERLQLGTPPPLLAARLVPPRNLMGSSIGYHTSVSSPTPLVPDTYEPDGYNPEAPSITSSGRSQYRQFFSRTQTQRPNLIGLTSGDMDANPRAANIVIQTEPPVPVSINSNITRVVLEPDSRKRAISGLEGPLTKKPWLGKQGNNSQNKPGFLRKNQYTNTKLEVKKIPQELNNITKLNEHFSKFGTIVNIQVAFKGDPEAALIQYLTNEEARKAISSTEAVLNNRFIRVLWHRGNNEQPALQSPTQLLLQQQQTLSHLSQQHHHLPQHLHQQQVLVAQSPPSTVHGGIQKMMSKPQTSGAYVLNKVPVKHRLGHASGNQSDASHLLNQSGGAGEDCQIFSAPGHPKMIYSSSNLKTPSKLCSGSKSHDVQEVLKKKQEAMKLQQDMRKKRQEVLEKQIECQKMLISKLEKNKNMKPEERANIMKTLKELGEKISQLKDELKTSSAVSTPSKVKTKTEAQKELLDTELDLHKRLSSGEDTTELRKKLSQLQVEAARLGILPVGRGKTMSSQGRGRGRGRGGRGRGSLNHMVVDHRPKALTVGGFIEEEKDELLQHFSTANQGSKFKDRRLQISWHKAKVPSVSTETEEEEVKEEETETSDLFLHDDDDEDEDEYESRSWRR

Target ORF information:

RefSeq Version	XM_011231636.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca RNA binding motif protein 27 (RBM27), transcript variant X1, mRNA.

Target ORF information:

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

XM_011231636.2

ORF Insert Sequence:

ATGCTCATAG AGGATGTGGA TGCCCTCAAG TCCTGGCTGG CCAAGTTACT GGAGCCGATA 
TGCGACGCTG ACCCTTCAGC CTTAGCCAAC TATGTTGTAG CACTGGTCAA GAAGGACAAA 
CCTGAGAAAG AATTGAAAGC CTTTTGTGCT GATCAACTTG ACGTCTTTTT ACAAAAAGAA 
ACTTCGGGTT TTGTGGATAA ACTGTTCGAA AGTCTCTATA CTAAGAACTA CCTTCCACCT 
CTGGAACCAG TTAAGCCTGA GCCAAAACCA CCAGTCCAAG AAAAAGAAGA AATTAAAGAA 
GAGGTTTTTC AGGAGCCAGC AGAGGAAGAA CGAGATGGTA GAAAAAAGAA GTATCCTAGT 
CCCCAGAAGA CTCGTTCAGA ATCTAGTGAA CGAAGGACAC GTGAGAAAAA AAGAGAAGAT 
GGCAAGTGGA GAGACTATGA CCGGTACTAT GAGCGGAATG AACTATACCG TGAGAAATAT 
GACTGGAGAA GAGGCAGGAG TAAGAGTCGG AGTAAGAGCC GAGGCTTGAG TCGAAGTCGA 
AGCCGAAGTA GAGGGCGCAG CAAAGACCGG GATCCAAATA GGAATGTTGC AGAGCACAGG 
GAAAGATCAA AGTTTAAGAG TGAAAGGAAT GACTTGGAGA GCTCCTATGT GCCTGTGTCT 
GCACCACCTC CGAGCTCTTC TGAGCAGTAC TCCTCTGGGG CACAGTCTAT TCCCAGCACT 
GTTACTGTGA TCGCACCTGC GCACCACTCT GAAAACACAA CGGAGAGTTG GTCTAATTAC 
TATAACAATC ACAGCTCTTC CAATTCTTTT GGTCGAAACC CACCACCAAA GAGGCGATGC 
AGAGATTATG ATGAAAGAGG ATTTTGTGTA CTTGGTGACC TTTGTCAGTT TGATCATGGA 
AATGATCCCC TGGTTGTTGA TGAAGTTGCT TTGCCAAGCA TGATTCCTTT CCCTCCACCT 
CCTCCTGGGC TTCCTCCTCC ACCACCTCCT GGAATGTTAA TGCCTCCGAT GCCAGGCCCA 
GGCCCAGGCC CTGGCCCAGG TCCAGGCCCA GGCCCAGGTC CAGGTCCAGG TCCAGGCCAC 
AGTATGAGAC TTCCTGTTCC CCAGGGACAT GGCCAACCTC CACCTTCTGT TGTGCTTCCC 
ATACCAAGAC CACCCATAAC ACAGTCAAGC TTGATAAACA ACCGTGACCA GCCTGGGACA 
AGTGCAGTGC CCAATCTTGC ACCAGTGGGA GCAAGACTAC CTCCTCCTTT ACCCCAGAAC 
CTCCTTTATA CAGTATCAGA ACGACAGCCC ATGTACTCTC GTGAACATGG TGCTGCTGCA 
TCTGAGCGAC TTCAGTTGGG GACACCGCCT CCTCTGTTGG CAGCTCGTTT GGTGCCACCT 
CGAAACCTCA TGGGATCCTC CATTGGGTAC CATACCTCAG TCTCCAGCCC CACCCCTCTG 
GTCCCAGATA CGTATGAACC AGATGGTTAT AATCCAGAAG CTCCTAGTAT TACCAGTTCT 
GGTAGATCTC AGTACAGACA GTTCTTTTCA AGAACACAGA CACAGCGCCC AAACCTGATT 
GGCCTAACAT CTGGAGATAT GGATGCAAAT CCAAGAGCTG CTAACATTGT CATCCAGACT 
GAACCACCAG TTCCTGTTTC AATTAATAGC AACATAACCA GAGTAGTTCT TGAACCAGAT 
AGCCGAAAAA GAGCTATAAG TGGTTTGGAA GGGCCACTCA CAAAGAAACC TTGGCTGGGA 
AAGCAAGGGA ATAACAGTCA GAATAAACCA GGATTCTTGA GAAAGAATCA GTATACAAAC 
ACCAAATTAG AAGTCAAGAA AATCCCTCAG GAATTGAACA ATATTACCAA GCTCAACGAA 
CACTTCAGCA AATTTGGAAC TATTGTAAAC ATCCAGGTTG CTTTTAAGGG AGATCCGGAA 
GCAGCACTCA TCCAGTATCT TACCAATGAG GAGGCCAGGA AAGCCATTTC CAGCACTGAA 
GCAGTTCTAA ACAACCGATT CATTCGAGTT CTGTGGCATA GAGGAAACAA CGAGCAGCCA 
GCACTACAGT CTCCAACACA GCTACTCCTG CAGCAGCAGC AAACACTTAG TCACCTGTCA 
CAACAGCACC ATCATCTGCC ACAGCACCTT CATCAGCAGC AGGTGCTGGT GGCCCAGTCT 
CCTCCCTCTA CAGTACATGG GGGTATCCAG AAGATGATGA GTAAACCACA GACATCGGGC 
GCCTATGTTC TTAACAAAGT TCCTGTTAAA CATCGTCTTG GACATGCAAG TGGTAACCAG 
AGTGATGCAT CACACTTACT GAATCAGTCA GGTGGTGCTG GAGAGGATTG CCAGATATTT 
TCAGCTCCAG GCCATCCAAA AATGATTTAC AGCTCCTCAA ACTTAAAGAC ACCTTCAAAA 
CTTTGTTCAG GGTCTAAATC TCATGATGTT CAAGAAGTTC TTAAAAAGAA GCAGGAAGCA 
ATGAAGCTAC AACAAGACAT GAGGAAAAAG AGGCAAGAAG TGCTAGAAAA ACAAATAGAA 
TGCCAGAAGA TGCTAATATC TAAGCTAGAA AAGAACAAAA ACATGAAACC AGAAGAGAGG 
GCAAACATAA TGAAGACTTT GAAAGAGCTT GGTGAAAAGA TCTCACAATT GAAAGATGAA 
TTAAAAACAT CTTCTGCAGT CTCCACACCA TCTAAAGTAA AGACAAAAAC AGAGGCTCAG 
AAAGAACTAT TAGATACTGA ACTGGACCTT CACAAGAGGC TATCCTCAGG AGAAGACACA 
ACAGAGTTGC GGAAAAAACT CAGTCAGTTA CAGGTTGAGG CTGCACGATT AGGTATTTTA 
CCTGTGGGTC GAGGAAAGAC TATGTCCTCT CAAGGTCGAG GAAGAGGCAG AGGCCGTGGA 
GGAAGAGGAA GGGGCTCACT GAATCACATG GTGGTGGACC ACCGCCCCAA AGCACTAACA 
GTTGGGGGAT TCATTGAGGA GGAGAAAGAT GAATTACTTC AGCATTTCTC AACTGCAAAC 
CAAGGGTCAA AATTCAAAGA CCGTCGGCTA CAAATATCAT GGCACAAGGC CAAGGTGCCT 
TCTGTATCCA CTGAGACCGA GGAAGAAGAA GTCAAGGAGG AGGAAACAGA GACCTCAGAT 
TTGTTTCTCC ATGATGATGA TGATGAAGAT GAAGATGAGT ATGAGTCTCG TTCATGGCGA 
AGATGA

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

RBM27 ( XM_011231637.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011229939.1 Ailuropoda melanoleuca RNA binding motif protein 27 (RBM27), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc28591
Clone ID Related Accession (Same CDS sequence)	XM_011231637.2
Accession Version	XM_011231637.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3183bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	RNA-binding protein 27 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218127.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011231637.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTCATAG AGGATGTGGA TGCCCTCAAG TCCTGGCTGG CCAAGTTACT GGAGCCGATA 
TGCGACGCTG ACCCTTCAGC CTTAGCCAAC TATGTTGTAG CACTGGTCAA GAAGGACAAA 
CCTGAGAAAG AATTGAAAGC CTTTTGTGCT GATCAACTTG ACGTCTTTTT ACAAAAAGAA 
ACTTCGGGTT TTGTGGATAA ACTGTTCGAA AGTCTCTATA CTAAGAACTA CCTTCCACCT 
CTGGAACCAG TTAAGCCTGA GCCAAAACCA CCAGTCCAAG AAAAAGAAGA AATTAAAGAA 
GAGGTTTTTC AGGAGCCAGC AGAGGAAGAA CGAGATGGTA GAAAAAAGAA GTATCCTAGT 
CCCCAGAAGA CTCGTTCAGA ATCTAGTGAA CGAAGGACAC GTGAGAAAAA AAGAGAAGAT 
GGCAAGTGGA GAGACTATGA CCGGTACTAT GAGCGGAATG AACTATACCG TGAGAAATAT 
GACTGGAGAA GAGGCAGGAG TAAGAGTCGG AGTAAGAGCC GAGGCTTGAG TCGAAGTCGA 
AGCCGAAGTA GAGGGCGCAG CAAAGACCGG GATCCAAATA GGAATGTTGA GCACAGGGAA 
AGATCAAAGT TTAAGAGTGA AAGGAATGAC TTGGAGAGCT CCTATGTGCC TGTGTCTGCA 
CCACCTCCGA GCTCTTCTGA GCAGTACTCC TCTGGGGCAC AGTCTATTCC CAGCACTGTT 
ACTGTGATCG CACCTGCGCA CCACTCTGAA AACACAACGG AGAGTTGGTC TAATTACTAT 
AACAATCACA GCTCTTCCAA TTCTTTTGGT CGAAACCCAC CACCAAAGAG GCGATGCAGA 
GATTATGATG AAAGAGGATT TTGTGTACTT GGTGACCTTT GTCAGTTTGA TCATGGAAAT 
GATCCCCTGG TTGTTGATGA AGTTGCTTTG CCAAGCATGA TTCCTTTCCC TCCACCTCCT 
CCTGGGCTTC CTCCTCCACC ACCTCCTGGA ATGTTAATGC CTCCGATGCC AGGCCCAGGC 
CCAGGCCCTG GCCCAGGTCC AGGCCCAGGC CCAGGTCCAG GTCCAGGTCC AGGCCACAGT 
ATGAGACTTC CTGTTCCCCA GGGACATGGC CAACCTCCAC CTTCTGTTGT GCTTCCCATA 
CCAAGACCAC CCATAACACA GTCAAGCTTG ATAAACAACC GTGACCAGCC TGGGACAAGT 
GCAGTGCCCA ATCTTGCACC AGTGGGAGCA AGACTACCTC CTCCTTTACC CCAGAACCTC 
CTTTATACAG TATCAGAACG ACAGCCCATG TACTCTCGTG AACATGGTGC TGCTGCATCT 
GAGCGACTTC AGTTGGGGAC ACCGCCTCCT CTGTTGGCAG CTCGTTTGGT GCCACCTCGA 
AACCTCATGG GATCCTCCAT TGGGTACCAT ACCTCAGTCT CCAGCCCCAC CCCTCTGGTC 
CCAGATACGT ATGAACCAGA TGGTTATAAT CCAGAAGCTC CTAGTATTAC CAGTTCTGGT 
AGATCTCAGT ACAGACAGTT CTTTTCAAGA ACACAGACAC AGCGCCCAAA CCTGATTGGC 
CTAACATCTG GAGATATGGA TGCAAATCCA AGAGCTGCTA ACATTGTCAT CCAGACTGAA 
CCACCAGTTC CTGTTTCAAT TAATAGCAAC ATAACCAGAG TAGTTCTTGA ACCAGATAGC 
CGAAAAAGAG CTATAAGTGG TTTGGAAGGG CCACTCACAA AGAAACCTTG GCTGGGAAAG 
CAAGGGAATA ACAGTCAGAA TAAACCAGGA TTCTTGAGAA AGAATCAGTA TACAAACACC 
AAATTAGAAG TCAAGAAAAT CCCTCAGGAA TTGAACAATA TTACCAAGCT CAACGAACAC 
TTCAGCAAAT TTGGAACTAT TGTAAACATC CAGGTTGCTT TTAAGGGAGA TCCGGAAGCA 
GCACTCATCC AGTATCTTAC CAATGAGGAG GCCAGGAAAG CCATTTCCAG CACTGAAGCA 
GTTCTAAACA ACCGATTCAT TCGAGTTCTG TGGCATAGAG GAAACAACGA GCAGCCAGCA 
CTACAGTCTC CAACACAGCT ACTCCTGCAG CAGCAGCAAA CACTTAGTCA CCTGTCACAA 
CAGCACCATC ATCTGCCACA GCACCTTCAT CAGCAGCAGG TGCTGGTGGC CCAGTCTCCT 
CCCTCTACAG TACATGGGGG TATCCAGAAG ATGATGAGTA AACCACAGAC ATCGGGCGCC 
TATGTTCTTA ACAAAGTTCC TGTTAAACAT CGTCTTGGAC ATGCAAGTGG TAACCAGAGT 
GATGCATCAC ACTTACTGAA TCAGTCAGGT GGTGCTGGAG AGGATTGCCA GATATTTTCA 
GCTCCAGGCC ATCCAAAAAT GATTTACAGC TCCTCAAACT TAAAGACACC TTCAAAACTT 
TGTTCAGGGT CTAAATCTCA TGATGTTCAA GAAGTTCTTA AAAAGAAGCA GGAAGCAATG 
AAGCTACAAC AAGACATGAG GAAAAAGAGG CAAGAAGTGC TAGAAAAACA AATAGAATGC 
CAGAAGATGC TAATATCTAA GCTAGAAAAG AACAAAAACA TGAAACCAGA AGAGAGGGCA 
AACATAATGA AGACTTTGAA AGAGCTTGGT GAAAAGATCT CACAATTGAA AGATGAATTA 
AAAACATCTT CTGCAGTCTC CACACCATCT AAAGTAAAGA CAAAAACAGA GGCTCAGAAA 
GAACTATTAG ATACTGAACT GGACCTTCAC AAGAGGCTAT CCTCAGGAGA AGACACAACA 
GAGTTGCGGA AAAAACTCAG TCAGTTACAG GTTGAGGCTG CACGATTAGG TATTTTACCT 
GTGGGTCGAG GAAAGACTAT GTCCTCTCAA GGTCGAGGAA GAGGCAGAGG CCGTGGAGGA 
AGAGGAAGGG GCTCACTGAA TCACATGGTG GTGGACCACC GCCCCAAAGC ACTAACAGTT 
GGGGGATTCA TTGAGGAGGA GAAAGATGAA TTACTTCAGC ATTTCTCAAC TGCAAACCAA 
GGGTCAAAAT TCAAAGACCG TCGGCTACAA ATATCATGGC ACAAGGCCAA GGTGCCTTCT 
GTATCCACTG AGACCGAGGA AGAAGAAGTC AAGGAGGAGG AAACAGAGAC CTCAGATTTG 
TTTCTCCATG ATGATGATGA TGAAGATGAA GATGAGTATG AGTCTCGTTC ATGGCGAAGA 
TGA

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

RefSeq	XP_011229939.1
CDS	191..3373
Translation	MLIEDVDALKSWLAKLLEPICDADPSALANYVVALVKKDKPEKELKAFCADQLDVFLQKETSGFVDKLFESLYTKNYLPPLEPVKPEPKPPVQEKEEIKEEVFQEPAEEERDGRKKKYPSPQKTRSESSERRTREKKREDGKWRDYDRYYERNELYREKYDWRRGRSKSRSKSRGLSRSRSRSRGRSKDRDPNRNVEHRERSKFKSERNDLESSYVPVSAPPPSSSEQYSSGAQSIPSTVTVIAPAHHSENTTESWSNYYNNHSSSNSFGRNPPPKRRCRDYDERGFCVLGDLCQFDHGNDPLVVDEVALPSMIPFPPPPPGLPPPPPPGMLMPPMPGPGPGPGPGPGPGPGPGPGPGHSMRLPVPQGHGQPPPSVVLPIPRPPITQSSLINNRDQPGTSAVPNLAPVGARLPPPLPQNLLYTVSERQPMYSREHGAAASERLQLGTPPPLLAARLVPPRNLMGSSIGYHTSVSSPTPLVPDTYEPDGYNPEAPSITSSGRSQYRQFFSRTQTQRPNLIGLTSGDMDANPRAANIVIQTEPPVPVSINSNITRVVLEPDSRKRAISGLEGPLTKKPWLGKQGNNSQNKPGFLRKNQYTNTKLEVKKIPQELNNITKLNEHFSKFGTIVNIQVAFKGDPEAALIQYLTNEEARKAISSTEAVLNNRFIRVLWHRGNNEQPALQSPTQLLLQQQQTLSHLSQQHHHLPQHLHQQQVLVAQSPPSTVHGGIQKMMSKPQTSGAYVLNKVPVKHRLGHASGNQSDASHLLNQSGGAGEDCQIFSAPGHPKMIYSSSNLKTPSKLCSGSKSHDVQEVLKKKQEAMKLQQDMRKKRQEVLEKQIECQKMLISKLEKNKNMKPEERANIMKTLKELGEKISQLKDELKTSSAVSTPSKVKTKTEAQKELLDTELDLHKRLSSGEDTTELRKKLSQLQVEAARLGILPVGRGKTMSSQGRGRGRGRGGRGRGSLNHMVVDHRPKALTVGGFIEEEKDELLQHFSTANQGSKFKDRRLQISWHKAKVPSVSTETEEEEVKEEETETSDLFLHDDDDEDEDEYESRSWRR

Target ORF information:

RefSeq Version	XM_011231637.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca RNA binding motif protein 27 (RBM27), transcript variant X2, mRNA.

Target ORF information:

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

XM_011231637.2

ORF Insert Sequence:

ATGCTCATAG AGGATGTGGA TGCCCTCAAG TCCTGGCTGG CCAAGTTACT GGAGCCGATA 
TGCGACGCTG ACCCTTCAGC CTTAGCCAAC TATGTTGTAG CACTGGTCAA GAAGGACAAA 
CCTGAGAAAG AATTGAAAGC CTTTTGTGCT GATCAACTTG ACGTCTTTTT ACAAAAAGAA 
ACTTCGGGTT TTGTGGATAA ACTGTTCGAA AGTCTCTATA CTAAGAACTA CCTTCCACCT 
CTGGAACCAG TTAAGCCTGA GCCAAAACCA CCAGTCCAAG AAAAAGAAGA AATTAAAGAA 
GAGGTTTTTC AGGAGCCAGC AGAGGAAGAA CGAGATGGTA GAAAAAAGAA GTATCCTAGT 
CCCCAGAAGA CTCGTTCAGA ATCTAGTGAA CGAAGGACAC GTGAGAAAAA AAGAGAAGAT 
GGCAAGTGGA GAGACTATGA CCGGTACTAT GAGCGGAATG AACTATACCG TGAGAAATAT 
GACTGGAGAA GAGGCAGGAG TAAGAGTCGG AGTAAGAGCC GAGGCTTGAG TCGAAGTCGA 
AGCCGAAGTA GAGGGCGCAG CAAAGACCGG GATCCAAATA GGAATGTTGA GCACAGGGAA 
AGATCAAAGT TTAAGAGTGA AAGGAATGAC TTGGAGAGCT CCTATGTGCC TGTGTCTGCA 
CCACCTCCGA GCTCTTCTGA GCAGTACTCC TCTGGGGCAC AGTCTATTCC CAGCACTGTT 
ACTGTGATCG CACCTGCGCA CCACTCTGAA AACACAACGG AGAGTTGGTC TAATTACTAT 
AACAATCACA GCTCTTCCAA TTCTTTTGGT CGAAACCCAC CACCAAAGAG GCGATGCAGA 
GATTATGATG AAAGAGGATT TTGTGTACTT GGTGACCTTT GTCAGTTTGA TCATGGAAAT 
GATCCCCTGG TTGTTGATGA AGTTGCTTTG CCAAGCATGA TTCCTTTCCC TCCACCTCCT 
CCTGGGCTTC CTCCTCCACC ACCTCCTGGA ATGTTAATGC CTCCGATGCC AGGCCCAGGC 
CCAGGCCCTG GCCCAGGTCC AGGCCCAGGC CCAGGTCCAG GTCCAGGTCC AGGCCACAGT 
ATGAGACTTC CTGTTCCCCA GGGACATGGC CAACCTCCAC CTTCTGTTGT GCTTCCCATA 
CCAAGACCAC CCATAACACA GTCAAGCTTG ATAAACAACC GTGACCAGCC TGGGACAAGT 
GCAGTGCCCA ATCTTGCACC AGTGGGAGCA AGACTACCTC CTCCTTTACC CCAGAACCTC 
CTTTATACAG TATCAGAACG ACAGCCCATG TACTCTCGTG AACATGGTGC TGCTGCATCT 
GAGCGACTTC AGTTGGGGAC ACCGCCTCCT CTGTTGGCAG CTCGTTTGGT GCCACCTCGA 
AACCTCATGG GATCCTCCAT TGGGTACCAT ACCTCAGTCT CCAGCCCCAC CCCTCTGGTC 
CCAGATACGT ATGAACCAGA TGGTTATAAT CCAGAAGCTC CTAGTATTAC CAGTTCTGGT 
AGATCTCAGT ACAGACAGTT CTTTTCAAGA ACACAGACAC AGCGCCCAAA CCTGATTGGC 
CTAACATCTG GAGATATGGA TGCAAATCCA AGAGCTGCTA ACATTGTCAT CCAGACTGAA 
CCACCAGTTC CTGTTTCAAT TAATAGCAAC ATAACCAGAG TAGTTCTTGA ACCAGATAGC 
CGAAAAAGAG CTATAAGTGG TTTGGAAGGG CCACTCACAA AGAAACCTTG GCTGGGAAAG 
CAAGGGAATA ACAGTCAGAA TAAACCAGGA TTCTTGAGAA AGAATCAGTA TACAAACACC 
AAATTAGAAG TCAAGAAAAT CCCTCAGGAA TTGAACAATA TTACCAAGCT CAACGAACAC 
TTCAGCAAAT TTGGAACTAT TGTAAACATC CAGGTTGCTT TTAAGGGAGA TCCGGAAGCA 
GCACTCATCC AGTATCTTAC CAATGAGGAG GCCAGGAAAG CCATTTCCAG CACTGAAGCA 
GTTCTAAACA ACCGATTCAT TCGAGTTCTG TGGCATAGAG GAAACAACGA GCAGCCAGCA 
CTACAGTCTC CAACACAGCT ACTCCTGCAG CAGCAGCAAA CACTTAGTCA CCTGTCACAA 
CAGCACCATC ATCTGCCACA GCACCTTCAT CAGCAGCAGG TGCTGGTGGC CCAGTCTCCT 
CCCTCTACAG TACATGGGGG TATCCAGAAG ATGATGAGTA AACCACAGAC ATCGGGCGCC 
TATGTTCTTA ACAAAGTTCC TGTTAAACAT CGTCTTGGAC ATGCAAGTGG TAACCAGAGT 
GATGCATCAC ACTTACTGAA TCAGTCAGGT GGTGCTGGAG AGGATTGCCA GATATTTTCA 
GCTCCAGGCC ATCCAAAAAT GATTTACAGC TCCTCAAACT TAAAGACACC TTCAAAACTT 
TGTTCAGGGT CTAAATCTCA TGATGTTCAA GAAGTTCTTA AAAAGAAGCA GGAAGCAATG 
AAGCTACAAC AAGACATGAG GAAAAAGAGG CAAGAAGTGC TAGAAAAACA AATAGAATGC 
CAGAAGATGC TAATATCTAA GCTAGAAAAG AACAAAAACA TGAAACCAGA AGAGAGGGCA 
AACATAATGA AGACTTTGAA AGAGCTTGGT GAAAAGATCT CACAATTGAA AGATGAATTA 
AAAACATCTT CTGCAGTCTC CACACCATCT AAAGTAAAGA CAAAAACAGA GGCTCAGAAA 
GAACTATTAG ATACTGAACT GGACCTTCAC AAGAGGCTAT CCTCAGGAGA AGACACAACA 
GAGTTGCGGA AAAAACTCAG TCAGTTACAG GTTGAGGCTG CACGATTAGG TATTTTACCT 
GTGGGTCGAG GAAAGACTAT GTCCTCTCAA GGTCGAGGAA GAGGCAGAGG CCGTGGAGGA 
AGAGGAAGGG GCTCACTGAA TCACATGGTG GTGGACCACC GCCCCAAAGC ACTAACAGTT 
GGGGGATTCA TTGAGGAGGA GAAAGATGAA TTACTTCAGC ATTTCTCAAC TGCAAACCAA 
GGGTCAAAAT TCAAAGACCG TCGGCTACAA ATATCATGGC ACAAGGCCAA GGTGCCTTCT 
GTATCCACTG AGACCGAGGA AGAAGAAGTC AAGGAGGAGG AAACAGAGAC CTCAGATTTG 
TTTCTCCATG ATGATGATGA TGAAGATGAA GATGAGTATG AGTCTCGTTC ATGGCGAAGA 
TGA

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

RBM27 ( XM_011231638.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011229940.1 Ailuropoda melanoleuca RNA binding motif protein 27 (RBM27), transcript variant X3, mRNA.

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CloneID	OAc28592
Clone ID Related Accession (Same CDS sequence)	XM_011231638.2
Accession Version	XM_011231638.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3066bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	RNA-binding protein 27 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218127.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011231638.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTCATAG AGGATGTGGA TGCCCTCAAG TCCTGGCTGG CCAAGTTACT GGAGCCGATA 
TGCGACGCTG ACCCTTCAGC CTTAGCCAAC TATGTTGTAG CACTGGTCAA GAAGGACAAA 
CCTGAGAAAG AATTGAAAGC CTTTTGTGCT GATCAACTTG ACGTCTTTTT ACAAAAAGAA 
ACTTCGGGTT TTGTGGATAA ACTGTTCGAA AGTCTCTATA CTAAGAACTA CCTTCCACCT 
CTGGAACCAG TTAAGCCTGA GCCAAAACCA CCAGTCCAAG AAAAAGAAGA AATTAAAGAA 
GAGGTTTTTC AGGAGCCAGC AGAGGAAGAA CGAGATGGTA GAAAAAAGAA GTATCCTAGT 
CCCCAGAAGA CTCGTTCAGA ATCTAGTGAA CGAAGGACAC GTGAGAAAAA AAGAGAAGAT 
GGCAAGTGGA GAGACTATGA CCGGTACTAT GAGCGGAATG AACTATACCG TGAGAAATAT 
GACTGGAGAA GAGGCAGGAG TAAGAGTCGG AGTAAGAGCC GAGGCTTGAG TCGAAGTCGA 
AGCCGAAGTA GAGGGCGCAG CAAAGACCGG GATCCAAATA GGAATGTTGC AGAGCACAGG 
GAAAGATCAA AGTTTAAGAG TGAAAGGAAT GACTTGGAGA GCTCCTATGT GCCTGTGTCT 
GCACCACCTC CGAGCTCTTC TGAGCAGTAC TCCTCTGGGG CACAGTCTAT TCCCAGCACT 
GTTACTGTGA TCGCACCTGC GCACCACTCT GAAAACACAA CGGAGAGTTG GTCTAATTAC 
TATAACAATC ACAGCTCTTC CAATTCTTTT GGTCGAAACC CACCACCAAA GAGGCGATGC 
AGAGATTATG ATGAAAGAGG ATTTTGTGTA CTTGGTGACC TTTGTCAGTT TGATCATGGA 
AATGATCCCC TGGTTGTTGA TGAAGTTGCT TTGCCAAGCA TGATTCCTTT CCCTCCACCT 
CCTCCTGGGC TTCCTCCTCC ACCACCTCCT GGAATGTTAA TGCCTCCGAT GCCAGGCCCA 
GGCCCAGGCC CTGGCCCAGG TCCAGGCCCA GGCCCAGGTC CAGGTCCAGG TCCAGGCCAC 
AGTATGAGAC TTCCTGTTCC CCAGGGACAT GGCCAACCTC CACCTTCTGT TGTGCTTCCC 
ATACCAAGAC CACCCATAAC ACAGTCAAGC TTGATAAACA ACCGTGACCA GCCTGGGACA 
AGTGCAGTGC CCAATCTTGC ACCAGTGGGA GCAAGACTAC CTCCTCCTTT ACCCCAGAAC 
CTCCTTTATA CAGTATCAGA ACGACAGCCC ATGTACTCTC GTGAACATGG TGCTGCTGCA 
TCTGAGCGAC TTCAGTTGGG GACACCGCCT CCTCTGTTGG CAGCTCGTTT GGTGCCACCT 
CGAAACCTCA TGGGATCCTC CATTGGGTAC CATACCTCAG TCTCCAGCCC CACCCCTCTG 
GTCCCAGATA CGTATGAACC AGATGGTTAT AATCCAGAAG CTCCTAGTAT TACCAGTTCT 
GGTAGATCTC AGTACAGACA GTTCTTTTCA AGAACACAGA CACAGCGCCC AAACCTGATT 
GGCCTAACAT CTGGAGATAT GGATGCAAAT CCAAGAGCTG CTAACATTGT CATCCAGACT 
GAACCACCAG TTCCTGTTTC AATTAATAGC AACATAACCA GAGTAGTTCT TGAACCAGAT 
AGCCGAAAAA GAGCTATAAG TGGTTTGGAA GGGCCACTCA CAAAGAAACC TTGGCTGGGA 
AAGCAAGGGA ATAACAGTCA GAATAAACCA GGATTCTTGA GAAAGAATCA GTATACAAAC 
ACCAAATTAG AAGTCAAGAA AATCCCTCAG GAATTGAACA ATATTACCAA GCTCAACGAA 
CACTTCAGCA AATTTGGAAC TATTGTAAAC ATCCAGGTTG CTTTTAAGGG AGATCCGGAA 
GCAGCACTCA TCCAGTATCT TACCAATGAG GAGGCCAGGA AAGCCATTTC CAGCACTGAA 
GCAGTTCTAA ACAACCGATT CATTCGAGTT CTGTGGCATA GAGGAAACAA CGAGCAGCCA 
GCACTACAGT CTCCAACACA GCTACTCCTG CAGCAGCAGC AAACACTTAG TCACCTGTCA 
CAACAGCACC ATCATCTGCC ACAGCACCTT CATCAGCAGC AGGTGCTGGT GGCCCAGTCT 
CCTCCCTCTA CAGTACATGG GGGTATCCAG AAGATGATGA GTAAACCACA GACATCGGGC 
GCCTATGTTC TTAACAAAGT TCCTGTTAAA CATCGTCTTG GACATGCAAG TGGTAACCAG 
AGTGATGCAT CACACTTACT GAATCAGTCA GGTGGTGCTG GAGAGGATTG CCAGGAAGCA 
ATGAAGCTAC AACAAGACAT GAGGAAAAAG AGGCAAGAAG TGCTAGAAAA ACAAATAGAA 
TGCCAGAAGA TGCTAATATC TAAGCTAGAA AAGAACAAAA ACATGAAACC AGAAGAGAGG 
GCAAACATAA TGAAGACTTT GAAAGAGCTT GGTGAAAAGA TCTCACAATT GAAAGATGAA 
TTAAAAACAT CTTCTGCAGT CTCCACACCA TCTAAAGTAA AGACAAAAAC AGAGGCTCAG 
AAAGAACTAT TAGATACTGA ACTGGACCTT CACAAGAGGC TATCCTCAGG AGAAGACACA 
ACAGAGTTGC GGAAAAAACT CAGTCAGTTA CAGGTTGAGG CTGCACGATT AGGTATTTTA 
CCTGTGGGTC GAGGAAAGAC TATGTCCTCT CAAGGTCGAG GAAGAGGCAG AGGCCGTGGA 
GGAAGAGGAA GGGGCTCACT GAATCACATG GTGGTGGACC ACCGCCCCAA AGCACTAACA 
GTTGGGGGAT TCATTGAGGA GGAGAAAGAT GAATTACTTC AGCATTTCTC AACTGCAAAC 
CAAGGGTCAA AATTCAAAGA CCGTCGGCTA CAAATATCAT GGCACAAGGC CAAGGTGCCT 
TCTGTATCCA CTGAGACCGA GGAAGAAGAA GTCAAGGAGG AGGAAACAGA GACCTCAGAT 
TTGTTTCTCC ATGATGATGA TGATGAAGAT GAAGATGAGT ATGAGTCTCG TTCATGGCGA 
AGATGA

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

RefSeq	XP_011229940.1
CDS	191..3256
Translation	MLIEDVDALKSWLAKLLEPICDADPSALANYVVALVKKDKPEKELKAFCADQLDVFLQKETSGFVDKLFESLYTKNYLPPLEPVKPEPKPPVQEKEEIKEEVFQEPAEEERDGRKKKYPSPQKTRSESSERRTREKKREDGKWRDYDRYYERNELYREKYDWRRGRSKSRSKSRGLSRSRSRSRGRSKDRDPNRNVAEHRERSKFKSERNDLESSYVPVSAPPPSSSEQYSSGAQSIPSTVTVIAPAHHSENTTESWSNYYNNHSSSNSFGRNPPPKRRCRDYDERGFCVLGDLCQFDHGNDPLVVDEVALPSMIPFPPPPPGLPPPPPPGMLMPPMPGPGPGPGPGPGPGPGPGPGPGHSMRLPVPQGHGQPPPSVVLPIPRPPITQSSLINNRDQPGTSAVPNLAPVGARLPPPLPQNLLYTVSERQPMYSREHGAAASERLQLGTPPPLLAARLVPPRNLMGSSIGYHTSVSSPTPLVPDTYEPDGYNPEAPSITSSGRSQYRQFFSRTQTQRPNLIGLTSGDMDANPRAANIVIQTEPPVPVSINSNITRVVLEPDSRKRAISGLEGPLTKKPWLGKQGNNSQNKPGFLRKNQYTNTKLEVKKIPQELNNITKLNEHFSKFGTIVNIQVAFKGDPEAALIQYLTNEEARKAISSTEAVLNNRFIRVLWHRGNNEQPALQSPTQLLLQQQQTLSHLSQQHHHLPQHLHQQQVLVAQSPPSTVHGGIQKMMSKPQTSGAYVLNKVPVKHRLGHASGNQSDASHLLNQSGGAGEDCQEAMKLQQDMRKKRQEVLEKQIECQKMLISKLEKNKNMKPEERANIMKTLKELGEKISQLKDELKTSSAVSTPSKVKTKTEAQKELLDTELDLHKRLSSGEDTTELRKKLSQLQVEAARLGILPVGRGKTMSSQGRGRGRGRGGRGRGSLNHMVVDHRPKALTVGGFIEEEKDELLQHFSTANQGSKFKDRRLQISWHKAKVPSVSTETEEEEVKEEETETSDLFLHDDDDEDEDEYESRSWRR

Target ORF information:

RefSeq Version	XM_011231638.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca RNA binding motif protein 27 (RBM27), transcript variant X3, mRNA.

Target ORF information:

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

XM_011231638.2

ORF Insert Sequence:

ATGCTCATAG AGGATGTGGA TGCCCTCAAG TCCTGGCTGG CCAAGTTACT GGAGCCGATA 
TGCGACGCTG ACCCTTCAGC CTTAGCCAAC TATGTTGTAG CACTGGTCAA GAAGGACAAA 
CCTGAGAAAG AATTGAAAGC CTTTTGTGCT GATCAACTTG ACGTCTTTTT ACAAAAAGAA 
ACTTCGGGTT TTGTGGATAA ACTGTTCGAA AGTCTCTATA CTAAGAACTA CCTTCCACCT 
CTGGAACCAG TTAAGCCTGA GCCAAAACCA CCAGTCCAAG AAAAAGAAGA AATTAAAGAA 
GAGGTTTTTC AGGAGCCAGC AGAGGAAGAA CGAGATGGTA GAAAAAAGAA GTATCCTAGT 
CCCCAGAAGA CTCGTTCAGA ATCTAGTGAA CGAAGGACAC GTGAGAAAAA AAGAGAAGAT 
GGCAAGTGGA GAGACTATGA CCGGTACTAT GAGCGGAATG AACTATACCG TGAGAAATAT 
GACTGGAGAA GAGGCAGGAG TAAGAGTCGG AGTAAGAGCC GAGGCTTGAG TCGAAGTCGA 
AGCCGAAGTA GAGGGCGCAG CAAAGACCGG GATCCAAATA GGAATGTTGC AGAGCACAGG 
GAAAGATCAA AGTTTAAGAG TGAAAGGAAT GACTTGGAGA GCTCCTATGT GCCTGTGTCT 
GCACCACCTC CGAGCTCTTC TGAGCAGTAC TCCTCTGGGG CACAGTCTAT TCCCAGCACT 
GTTACTGTGA TCGCACCTGC GCACCACTCT GAAAACACAA CGGAGAGTTG GTCTAATTAC 
TATAACAATC ACAGCTCTTC CAATTCTTTT GGTCGAAACC CACCACCAAA GAGGCGATGC 
AGAGATTATG ATGAAAGAGG ATTTTGTGTA CTTGGTGACC TTTGTCAGTT TGATCATGGA 
AATGATCCCC TGGTTGTTGA TGAAGTTGCT TTGCCAAGCA TGATTCCTTT CCCTCCACCT 
CCTCCTGGGC TTCCTCCTCC ACCACCTCCT GGAATGTTAA TGCCTCCGAT GCCAGGCCCA 
GGCCCAGGCC CTGGCCCAGG TCCAGGCCCA GGCCCAGGTC CAGGTCCAGG TCCAGGCCAC 
AGTATGAGAC TTCCTGTTCC CCAGGGACAT GGCCAACCTC CACCTTCTGT TGTGCTTCCC 
ATACCAAGAC CACCCATAAC ACAGTCAAGC TTGATAAACA ACCGTGACCA GCCTGGGACA 
AGTGCAGTGC CCAATCTTGC ACCAGTGGGA GCAAGACTAC CTCCTCCTTT ACCCCAGAAC 
CTCCTTTATA CAGTATCAGA ACGACAGCCC ATGTACTCTC GTGAACATGG TGCTGCTGCA 
TCTGAGCGAC TTCAGTTGGG GACACCGCCT CCTCTGTTGG CAGCTCGTTT GGTGCCACCT 
CGAAACCTCA TGGGATCCTC CATTGGGTAC CATACCTCAG TCTCCAGCCC CACCCCTCTG 
GTCCCAGATA CGTATGAACC AGATGGTTAT AATCCAGAAG CTCCTAGTAT TACCAGTTCT 
GGTAGATCTC AGTACAGACA GTTCTTTTCA AGAACACAGA CACAGCGCCC AAACCTGATT 
GGCCTAACAT CTGGAGATAT GGATGCAAAT CCAAGAGCTG CTAACATTGT CATCCAGACT 
GAACCACCAG TTCCTGTTTC AATTAATAGC AACATAACCA GAGTAGTTCT TGAACCAGAT 
AGCCGAAAAA GAGCTATAAG TGGTTTGGAA GGGCCACTCA CAAAGAAACC TTGGCTGGGA 
AAGCAAGGGA ATAACAGTCA GAATAAACCA GGATTCTTGA GAAAGAATCA GTATACAAAC 
ACCAAATTAG AAGTCAAGAA AATCCCTCAG GAATTGAACA ATATTACCAA GCTCAACGAA 
CACTTCAGCA AATTTGGAAC TATTGTAAAC ATCCAGGTTG CTTTTAAGGG AGATCCGGAA 
GCAGCACTCA TCCAGTATCT TACCAATGAG GAGGCCAGGA AAGCCATTTC CAGCACTGAA 
GCAGTTCTAA ACAACCGATT CATTCGAGTT CTGTGGCATA GAGGAAACAA CGAGCAGCCA 
GCACTACAGT CTCCAACACA GCTACTCCTG CAGCAGCAGC AAACACTTAG TCACCTGTCA 
CAACAGCACC ATCATCTGCC ACAGCACCTT CATCAGCAGC AGGTGCTGGT GGCCCAGTCT 
CCTCCCTCTA CAGTACATGG GGGTATCCAG AAGATGATGA GTAAACCACA GACATCGGGC 
GCCTATGTTC TTAACAAAGT TCCTGTTAAA CATCGTCTTG GACATGCAAG TGGTAACCAG 
AGTGATGCAT CACACTTACT GAATCAGTCA GGTGGTGCTG GAGAGGATTG CCAGGAAGCA 
ATGAAGCTAC AACAAGACAT GAGGAAAAAG AGGCAAGAAG TGCTAGAAAA ACAAATAGAA 
TGCCAGAAGA TGCTAATATC TAAGCTAGAA AAGAACAAAA ACATGAAACC AGAAGAGAGG 
GCAAACATAA TGAAGACTTT GAAAGAGCTT GGTGAAAAGA TCTCACAATT GAAAGATGAA 
TTAAAAACAT CTTCTGCAGT CTCCACACCA TCTAAAGTAA AGACAAAAAC AGAGGCTCAG 
AAAGAACTAT TAGATACTGA ACTGGACCTT CACAAGAGGC TATCCTCAGG AGAAGACACA 
ACAGAGTTGC GGAAAAAACT CAGTCAGTTA CAGGTTGAGG CTGCACGATT AGGTATTTTA 
CCTGTGGGTC GAGGAAAGAC TATGTCCTCT CAAGGTCGAG GAAGAGGCAG AGGCCGTGGA 
GGAAGAGGAA GGGGCTCACT GAATCACATG GTGGTGGACC ACCGCCCCAA AGCACTAACA 
GTTGGGGGAT TCATTGAGGA GGAGAAAGAT GAATTACTTC AGCATTTCTC AACTGCAAAC 
CAAGGGTCAA AATTCAAAGA CCGTCGGCTA CAAATATCAT GGCACAAGGC CAAGGTGCCT 
TCTGTATCCA CTGAGACCGA GGAAGAAGAA GTCAAGGAGG AGGAAACAGA GACCTCAGAT 
TTGTTTCTCC ATGATGATGA TGATGAAGAT GAAGATGAGT ATGAGTCTCG TTCATGGCGA 
AGATGA

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

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RBM27 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

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:

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