Rnf43 cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Rnf43
Entrez Gene ID	103741782
Full Name	ring finger protein 43
Gene Type	protein-coding
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008842692.2	XP_008840914.1	E3 ubiquitin-protein ligase RNF43
XM_029568104.1	XP_029423964.1	E3 ubiquitin-protein ligase RNF43

Pathways from BioSystems
Gene Ontology

The following Rnf43 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Rnf43 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
ONa25212	XM_008842692.2 Latest version!	Nannospalax galili ring finger protein 43 (Rnf43), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00
ONa25212	XM_029568104.1 Latest version!	Nannospalax galili ring finger protein 43 (Rnf43), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00

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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)

Rnf43 ( XM_008842692.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008840914.1 Nannospalax galili ring finger protein 43 (Rnf43), mRNA.

Price & Availability↑

CloneID	ONa25212
Clone ID Related Accession (Same CDS sequence)	XM_008842692.2 , XM_029568104.1
Accession Version	XM_008842692.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2355bp) 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	2016-08-10
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	E3 ubiquitin-protein ligase RNF43
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008346261.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008842692.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 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##

ATGAGTGGTG GCCACCAGCT GCAGTTGGCT GCCCTCTGGC CCTGGCTGCT GATGGCTACC 
CTGCATGCAG GCTTTGGACG CACAGGACTG GTATTGGCAG CAGCGGTGGA GTCTGAAAGA 
TCAGCAGAAC AGAAAGCTAT TATCAAAGTG ATCCCCTTGA AAATGGACCC CACAGGAAAA 
CTAAATCTCA CTTTGGAAGG TGTGTTTGCT GGTGTTGCAG AAGTAACTCC AGCAGAAGGA 
AAATTAATGC AGTCCCATCC CCTGTACCTG TGCAACGCCA GTGATGATGA CAATTTGGAG 
CCTGGATTTA TCAGCATCGT CAAGCTGGAG AGTCCTCGAC GGGCTCCTCG CCCCTGCCTG 
TCGCTGGCCA GTAAGGCCCG CATGGCTGGT GAGCGAGGAG CCAGTGCGGT GCTCTTTGAC 
ATCACTGAGG ATCGAGCTGC TGCTGAGCAG CTGCAGCAGC CCCTGGGGCT GACTTGGCCA 
GTGGTGCTGA TCTGGGGTAA TGATGCTGAG AAGCTGATGG AGTTCGTGTA CAAGAACCAG 
AAGGCCCATG TGAGGATTGA GCTGAAGGAG CCCCCAGCCT GGCCAGATTA CGATGTGTGG 
ATCCTCTTGA CTGTGGTGGG CACCATCTTT GTGATCATCC TGGCTTCAGT GCTGCGCATC 
CGGTGCCGCC CCCACCACAG CACGCCGGAC CCTCTTCAGC AGAGAACAGC CTGGGCCATC 
AGCCAACTGG CCACCAGGAG ATATCAAGCC AGCTATAGGC AGACTCGGGC TGAGTGGCAG 
GACTCAGGCA GTAGCTGCAG CTCAGCTCCT ATGTGTGCTA TCTGCTTGGA GGAATTCTCT 
GAGGGGCAGG AGCTACGGGT TATTTCCTGC CTCCATGAGT TCCATCGTAC CTGTGTGGAC 
CCCTGGCTAT ATCAACATCG GACTTGTCCC CTCTGCATGT TCAACATCGT AGAGGGAGAT 
TCATTTTCCC AGGCCCTGGC ATCCTCTCCA TCTTACCATG AACCAGGCAG GAGACTGCAC 
CTCATTCGTC AACATCCTGG CCATGCCCAC TATCATCTCC CTTCTGCCTA CCTGTTGGGC 
CCTTCCAGAA ATTCAGTGGC TCGGCCTCCA AGGCCTAGAC CCTTCCTGCC ATCTCAAGGG 
CCAAATATGG GATCTCGGCA CCAGCGCCTC TCCAGAGCTG CACATGTGCG GGCATCAGGC 
GAGCAACAGC ACCTGACAGT GGCCCAGCAC CCCTATGCAC AGGGCTGGGG ACTGGGCCGC 
CTCCGATGTA CCTCTCAGCA TCCCACAGCT TGCCCAGTGT CCCTGCGCCG GGCCAGGCCT 
CATGACAGCA GCGGATCTGG AGAAAGCTAC TGTACAGAAC GCAGTGGCTA CCTGGCAGAT 
GGGCCAGCCA GTGACTCCAG CTCAGGGCCC TGTCATGGCT CCTCCAGTGA CTCAGTGGTC 
AATTGCACGG ACATCAGTTT GCAGGGCATC CATGGCAGCA GTTCTACCTT CCGCAGCTCC 
CTGAGCAGTG ACTTTGACCC CCTGGTGTAC TGCAGTCCTG AGGGGGATCT CCCGGGAAAG 
GGGTTGCAGC CTAGTGTGAC CTCTCGACCC CGTTCCCTAG ACTCAGTAGT GCCCACAGGG 
GAAACCCGGG TTTCCAGCCA CGTCCACTAT CACCGCCACC GGCACCATCA CTACAAAAAG 
CGGTTCCAGT GGCATGGCAG GAAGCCTGGC CTAGAAACGG GGGTCAACCA GTCCAAATCT 
GCTGTTTCTC GGACTCAGCT CCAGCCAGAG CCATCTTTCC CTGACCAACA GTTCACCAGA 
CCCAACCCAA CAGCTCCTTC AATGCTCCCC AACCCACAAC GGCCCAGGGC CCTTACAGAG 
CCAGTCCCTG GACCAGCGGA AGCTGCCAGC CCCAGCCCCG GTCCCAGCCC CAGCAGTCTT 
CTGAACTTGC AGAAATCCAA CCTCCCTGTC CGACACCCAC AGAGAAAACG GCGGGGTGGT 
CCTTCAGAAC CCACGCCAAC CTCTCGGCCC CAGGACTTGA CTCTGCACCC AGCTTGCCAG 
GTTTTCCCCC ATTATAGCCC CAGCCTGGCA TACCCTTGGC CCCCAGAGAC TCACCCATTG 
ATCTTCAGAC CTCCAGGCCT GGATAGGAGG CTGCTACCCG AAGCCCCAGG CCCCTGTTAC 
TCAAGTTCAC AGCCAGTGTG GTTGTATCTG ACTCCTCACC GGCCTCTGGG ACCACACCCA 
CCTGGAGAGG GACATTCTGA ATGGAGTTCT GACACCCCAG AGGGCAGGCC ATGCCCTTAC 
CCACACTGCC AGGTGCTATC AGCCCAGCCT GGCTCGGAGG AGGAGCTTGA GGAGCTGTGT 
GAACAGGCCG TGTGA

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

RefSeq	XP_008840914.1
CDS	924..3278
Translation	MSGGHQLQLAALWPWLLMATLHAGFGRTGLVLAAAVESERSAEQKAIIKVIPLKMDPTGKLNLTLEGVFAGVAEVTPAEGKLMQSHPLYLCNASDDDNLEPGFISIVKLESPRRAPRPCLSLASKARMAGERGASAVLFDITEDRAAAEQLQQPLGLTWPVVLIWGNDAEKLMEFVYKNQKAHVRIELKEPPAWPDYDVWILLTVVGTIFVIILASVLRIRCRPHHSTPDPLQQRTAWAISQLATRRYQASYRQTRAEWQDSGSSCSSAPMCAICLEEFSEGQELRVISCLHEFHRTCVDPWLYQHRTCPLCMFNIVEGDSFSQALASSPSYHEPGRRLHLIRQHPGHAHYHLPSAYLLGPSRNSVARPPRPRPFLPSQGPNMGSRHQRLSRAAHVRASGEQQHLTVAQHPYAQGWGLGRLRCTSQHPTACPVSLRRARPHDSSGSGESYCTERSGYLADGPASDSSSGPCHGSSSDSVVNCTDISLQGIHGSSSTFRSSLSSDFDPLVYCSPEGDLPGKGLQPSVTSRPRSLDSVVPTGETRVSSHVHYHRHRHHHYKKRFQWHGRKPGLETGVNQSKSAVSRTQLQPEPSFPDQQFTRPNPTAPSMLPNPQRPRALTEPVPGPAEAASPSPGPSPSSLLNLQKSNLPVRHPQRKRRGGPSEPTPTSRPQDLTLHPACQVFPHYSPSLAYPWPPETHPLIFRPPGLDRRLLPEAPGPCYSSSQPVWLYLTPHRPLGPHPPGEGHSEWSSDTPEGRPCPYPHCQVLSAQPGSEEELEELCEQAV

Target ORF information:

RefSeq Version	XM_008842692.2
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili ring finger protein 43 (Rnf43), mRNA.

Target ORF information:

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

XM_008842692.2

ORF Insert Sequence:

ATGAGTGGTG GCCACCAGCT GCAGTTGGCT GCCCTCTGGC CCTGGCTGCT GATGGCTACC 
CTGCATGCAG GCTTTGGACG CACAGGACTG GTATTGGCAG CAGCGGTGGA GTCTGAAAGA 
TCAGCAGAAC AGAAAGCTAT TATCAAAGTG ATCCCCTTGA AAATGGACCC CACAGGAAAA 
CTAAATCTCA CTTTGGAAGG TGTGTTTGCT GGTGTTGCAG AAGTAACTCC AGCAGAAGGA 
AAATTAATGC AGTCCCATCC CCTGTACCTG TGCAACGCCA GTGATGATGA CAATTTGGAG 
CCTGGATTTA TCAGCATCGT CAAGCTGGAG AGTCCTCGAC GGGCTCCTCG CCCCTGCCTG 
TCGCTGGCCA GTAAGGCCCG CATGGCTGGT GAGCGAGGAG CCAGTGCGGT GCTCTTTGAC 
ATCACTGAGG ATCGAGCTGC TGCTGAGCAG CTGCAGCAGC CCCTGGGGCT GACTTGGCCA 
GTGGTGCTGA TCTGGGGTAA TGATGCTGAG AAGCTGATGG AGTTCGTGTA CAAGAACCAG 
AAGGCCCATG TGAGGATTGA GCTGAAGGAG CCCCCAGCCT GGCCAGATTA CGATGTGTGG 
ATCCTCTTGA CTGTGGTGGG CACCATCTTT GTGATCATCC TGGCTTCAGT GCTGCGCATC 
CGGTGCCGCC CCCACCACAG CACGCCGGAC CCTCTTCAGC AGAGAACAGC CTGGGCCATC 
AGCCAACTGG CCACCAGGAG ATATCAAGCC AGCTATAGGC AGACTCGGGC TGAGTGGCAG 
GACTCAGGCA GTAGCTGCAG CTCAGCTCCT ATGTGTGCTA TCTGCTTGGA GGAATTCTCT 
GAGGGGCAGG AGCTACGGGT TATTTCCTGC CTCCATGAGT TCCATCGTAC CTGTGTGGAC 
CCCTGGCTAT ATCAACATCG GACTTGTCCC CTCTGCATGT TCAACATCGT AGAGGGAGAT 
TCATTTTCCC AGGCCCTGGC ATCCTCTCCA TCTTACCATG AACCAGGCAG GAGACTGCAC 
CTCATTCGTC AACATCCTGG CCATGCCCAC TATCATCTCC CTTCTGCCTA CCTGTTGGGC 
CCTTCCAGAA ATTCAGTGGC TCGGCCTCCA AGGCCTAGAC CCTTCCTGCC ATCTCAAGGG 
CCAAATATGG GATCTCGGCA CCAGCGCCTC TCCAGAGCTG CACATGTGCG GGCATCAGGC 
GAGCAACAGC ACCTGACAGT GGCCCAGCAC CCCTATGCAC AGGGCTGGGG ACTGGGCCGC 
CTCCGATGTA CCTCTCAGCA TCCCACAGCT TGCCCAGTGT CCCTGCGCCG GGCCAGGCCT 
CATGACAGCA GCGGATCTGG AGAAAGCTAC TGTACAGAAC GCAGTGGCTA CCTGGCAGAT 
GGGCCAGCCA GTGACTCCAG CTCAGGGCCC TGTCATGGCT CCTCCAGTGA CTCAGTGGTC 
AATTGCACGG ACATCAGTTT GCAGGGCATC CATGGCAGCA GTTCTACCTT CCGCAGCTCC 
CTGAGCAGTG ACTTTGACCC CCTGGTGTAC TGCAGTCCTG AGGGGGATCT CCCGGGAAAG 
GGGTTGCAGC CTAGTGTGAC CTCTCGACCC CGTTCCCTAG ACTCAGTAGT GCCCACAGGG 
GAAACCCGGG TTTCCAGCCA CGTCCACTAT CACCGCCACC GGCACCATCA CTACAAAAAG 
CGGTTCCAGT GGCATGGCAG GAAGCCTGGC CTAGAAACGG GGGTCAACCA GTCCAAATCT 
GCTGTTTCTC GGACTCAGCT CCAGCCAGAG CCATCTTTCC CTGACCAACA GTTCACCAGA 
CCCAACCCAA CAGCTCCTTC AATGCTCCCC AACCCACAAC GGCCCAGGGC CCTTACAGAG 
CCAGTCCCTG GACCAGCGGA AGCTGCCAGC CCCAGCCCCG GTCCCAGCCC CAGCAGTCTT 
CTGAACTTGC AGAAATCCAA CCTCCCTGTC CGACACCCAC AGAGAAAACG GCGGGGTGGT 
CCTTCAGAAC CCACGCCAAC CTCTCGGCCC CAGGACTTGA CTCTGCACCC AGCTTGCCAG 
GTTTTCCCCC ATTATAGCCC CAGCCTGGCA TACCCTTGGC CCCCAGAGAC TCACCCATTG 
ATCTTCAGAC CTCCAGGCCT GGATAGGAGG CTGCTACCCG AAGCCCCAGG CCCCTGTTAC 
TCAAGTTCAC AGCCAGTGTG GTTGTATCTG ACTCCTCACC GGCCTCTGGG ACCACACCCA 
CCTGGAGAGG GACATTCTGA ATGGAGTTCT GACACCCCAG AGGGCAGGCC ATGCCCTTAC 
CCACACTGCC AGGTGCTATC AGCCCAGCCT GGCTCGGAGG AGGAGCTTGA GGAGCTGTGT 
GAACAGGCCG TGTGA

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

Rnf43 ( XM_029568104.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029423964.1 Nannospalax galili ring finger protein 43 (Rnf43), mRNA.

Price & Availability↑

CloneID	ONa25212
Clone ID Related Accession (Same CDS sequence)	XM_008842692.2 , XM_029568104.1
Accession Version	XM_029568104.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2355bp) 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	2019-06-23
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	E3 ubiquitin-protein ligase RNF43
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008346261.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGTGGTG GCCACCAGCT GCAGTTGGCT GCCCTCTGGC CCTGGCTGCT GATGGCTACC 
CTGCATGCAG GCTTTGGACG CACAGGACTG GTATTGGCAG CAGCGGTGGA GTCTGAAAGA 
TCAGCAGAAC AGAAAGCTAT TATCAAAGTG ATCCCCTTGA AAATGGACCC CACAGGAAAA 
CTAAATCTCA CTTTGGAAGG TGTGTTTGCT GGTGTTGCAG AAGTAACTCC AGCAGAAGGA 
AAATTAATGC AGTCCCATCC CCTGTACCTG TGCAACGCCA GTGATGATGA CAATTTGGAG 
CCTGGATTTA TCAGCATCGT CAAGCTGGAG AGTCCTCGAC GGGCTCCTCG CCCCTGCCTG 
TCGCTGGCCA GTAAGGCCCG CATGGCTGGT GAGCGAGGAG CCAGTGCGGT GCTCTTTGAC 
ATCACTGAGG ATCGAGCTGC TGCTGAGCAG CTGCAGCAGC CCCTGGGGCT GACTTGGCCA 
GTGGTGCTGA TCTGGGGTAA TGATGCTGAG AAGCTGATGG AGTTCGTGTA CAAGAACCAG 
AAGGCCCATG TGAGGATTGA GCTGAAGGAG CCCCCAGCCT GGCCAGATTA CGATGTGTGG 
ATCCTCTTGA CTGTGGTGGG CACCATCTTT GTGATCATCC TGGCTTCAGT GCTGCGCATC 
CGGTGCCGCC CCCACCACAG CACGCCGGAC CCTCTTCAGC AGAGAACAGC CTGGGCCATC 
AGCCAACTGG CCACCAGGAG ATATCAAGCC AGCTATAGGC AGACTCGGGC TGAGTGGCAG 
GACTCAGGCA GTAGCTGCAG CTCAGCTCCT ATGTGTGCTA TCTGCTTGGA GGAATTCTCT 
GAGGGGCAGG AGCTACGGGT TATTTCCTGC CTCCATGAGT TCCATCGTAC CTGTGTGGAC 
CCCTGGCTAT ATCAACATCG GACTTGTCCC CTCTGCATGT TCAACATCGT AGAGGGAGAT 
TCATTTTCCC AGGCCCTGGC ATCCTCTCCA TCTTACCATG AACCAGGCAG GAGACTGCAC 
CTCATTCGTC AACATCCTGG CCATGCCCAC TATCATCTCC CTTCTGCCTA CCTGTTGGGC 
CCTTCCAGAA ATTCAGTGGC TCGGCCTCCA AGGCCTAGAC CCTTCCTGCC ATCTCAAGGG 
CCAAATATGG GATCTCGGCA CCAGCGCCTC TCCAGAGCTG CACATGTGCG GGCATCAGGC 
GAGCAACAGC ACCTGACAGT GGCCCAGCAC CCCTATGCAC AGGGCTGGGG ACTGGGCCGC 
CTCCGATGTA CCTCTCAGCA TCCCACAGCT TGCCCAGTGT CCCTGCGCCG GGCCAGGCCT 
CATGACAGCA GCGGATCTGG AGAAAGCTAC TGTACAGAAC GCAGTGGCTA CCTGGCAGAT 
GGGCCAGCCA GTGACTCCAG CTCAGGGCCC TGTCATGGCT CCTCCAGTGA CTCAGTGGTC 
AATTGCACGG ACATCAGTTT GCAGGGCATC CATGGCAGCA GTTCTACCTT CCGCAGCTCC 
CTGAGCAGTG ACTTTGACCC CCTGGTGTAC TGCAGTCCTG AGGGGGATCT CCCGGGAAAG 
GGGTTGCAGC CTAGTGTGAC CTCTCGACCC CGTTCCCTAG ACTCAGTAGT GCCCACAGGG 
GAAACCCGGG TTTCCAGCCA CGTCCACTAT CACCGCCACC GGCACCATCA CTACAAAAAG 
CGGTTCCAGT GGCATGGCAG GAAGCCTGGC CTAGAAACGG GGGTCAACCA GTCCAAATCT 
GCTGTTTCTC GGACTCAGCT CCAGCCAGAG CCATCTTTCC CTGACCAACA GTTCACCAGA 
CCCAACCCAA CAGCTCCTTC AATGCTCCCC AACCCACAAC GGCCCAGGGC CCTTACAGAG 
CCAGTCCCTG GACCAGCGGA AGCTGCCAGC CCCAGCCCCG GTCCCAGCCC CAGCAGTCTT 
CTGAACTTGC AGAAATCCAA CCTCCCTGTC CGACACCCAC AGAGAAAACG GCGGGGTGGT 
CCTTCAGAAC CCACGCCAAC CTCTCGGCCC CAGGACTTGA CTCTGCACCC AGCTTGCCAG 
GTTTTCCCCC ATTATAGCCC CAGCCTGGCA TACCCTTGGC CCCCAGAGAC TCACCCATTG 
ATCTTCAGAC CTCCAGGCCT GGATAGGAGG CTGCTACCCG AAGCCCCAGG CCCCTGTTAC 
TCAAGTTCAC AGCCAGTGTG GTTGTATCTG ACTCCTCACC GGCCTCTGGG ACCACACCCA 
CCTGGAGAGG GACATTCTGA ATGGAGTTCT GACACCCCAG AGGGCAGGCC ATGCCCTTAC 
CCACACTGCC AGGTGCTATC AGCCCAGCCT GGCTCGGAGG AGGAGCTTGA GGAGCTGTGT 
GAACAGGCCG TGTGA

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

RefSeq	XP_029423964.1
CDS	1022..3376
Translation	MSGGHQLQLAALWPWLLMATLHAGFGRTGLVLAAAVESERSAEQKAIIKVIPLKMDPTGKLNLTLEGVFAGVAEVTPAEGKLMQSHPLYLCNASDDDNLEPGFISIVKLESPRRAPRPCLSLASKARMAGERGASAVLFDITEDRAAAEQLQQPLGLTWPVVLIWGNDAEKLMEFVYKNQKAHVRIELKEPPAWPDYDVWILLTVVGTIFVIILASVLRIRCRPHHSTPDPLQQRTAWAISQLATRRYQASYRQTRAEWQDSGSSCSSAPMCAICLEEFSEGQELRVISCLHEFHRTCVDPWLYQHRTCPLCMFNIVEGDSFSQALASSPSYHEPGRRLHLIRQHPGHAHYHLPSAYLLGPSRNSVARPPRPRPFLPSQGPNMGSRHQRLSRAAHVRASGEQQHLTVAQHPYAQGWGLGRLRCTSQHPTACPVSLRRARPHDSSGSGESYCTERSGYLADGPASDSSSGPCHGSSSDSVVNCTDISLQGIHGSSSTFRSSLSSDFDPLVYCSPEGDLPGKGLQPSVTSRPRSLDSVVPTGETRVSSHVHYHRHRHHHYKKRFQWHGRKPGLETGVNQSKSAVSRTQLQPEPSFPDQQFTRPNPTAPSMLPNPQRPRALTEPVPGPAEAASPSPGPSPSSLLNLQKSNLPVRHPQRKRRGGPSEPTPTSRPQDLTLHPACQVFPHYSPSLAYPWPPETHPLIFRPPGLDRRLLPEAPGPCYSSSQPVWLYLTPHRPLGPHPPGEGHSEWSSDTPEGRPCPYPHCQVLSAQPGSEEELEELCEQAV

Target ORF information:

RefSeq Version	XM_029568104.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili ring finger protein 43 (Rnf43), mRNA.

Target ORF information:

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

XM_029568104.1

ORF Insert Sequence:

ATGAGTGGTG GCCACCAGCT GCAGTTGGCT GCCCTCTGGC CCTGGCTGCT GATGGCTACC 
CTGCATGCAG GCTTTGGACG CACAGGACTG GTATTGGCAG CAGCGGTGGA GTCTGAAAGA 
TCAGCAGAAC AGAAAGCTAT TATCAAAGTG ATCCCCTTGA AAATGGACCC CACAGGAAAA 
CTAAATCTCA CTTTGGAAGG TGTGTTTGCT GGTGTTGCAG AAGTAACTCC AGCAGAAGGA 
AAATTAATGC AGTCCCATCC CCTGTACCTG TGCAACGCCA GTGATGATGA CAATTTGGAG 
CCTGGATTTA TCAGCATCGT CAAGCTGGAG AGTCCTCGAC GGGCTCCTCG CCCCTGCCTG 
TCGCTGGCCA GTAAGGCCCG CATGGCTGGT GAGCGAGGAG CCAGTGCGGT GCTCTTTGAC 
ATCACTGAGG ATCGAGCTGC TGCTGAGCAG CTGCAGCAGC CCCTGGGGCT GACTTGGCCA 
GTGGTGCTGA TCTGGGGTAA TGATGCTGAG AAGCTGATGG AGTTCGTGTA CAAGAACCAG 
AAGGCCCATG TGAGGATTGA GCTGAAGGAG CCCCCAGCCT GGCCAGATTA CGATGTGTGG 
ATCCTCTTGA CTGTGGTGGG CACCATCTTT GTGATCATCC TGGCTTCAGT GCTGCGCATC 
CGGTGCCGCC CCCACCACAG CACGCCGGAC CCTCTTCAGC AGAGAACAGC CTGGGCCATC 
AGCCAACTGG CCACCAGGAG ATATCAAGCC AGCTATAGGC AGACTCGGGC TGAGTGGCAG 
GACTCAGGCA GTAGCTGCAG CTCAGCTCCT ATGTGTGCTA TCTGCTTGGA GGAATTCTCT 
GAGGGGCAGG AGCTACGGGT TATTTCCTGC CTCCATGAGT TCCATCGTAC CTGTGTGGAC 
CCCTGGCTAT ATCAACATCG GACTTGTCCC CTCTGCATGT TCAACATCGT AGAGGGAGAT 
TCATTTTCCC AGGCCCTGGC ATCCTCTCCA TCTTACCATG AACCAGGCAG GAGACTGCAC 
CTCATTCGTC AACATCCTGG CCATGCCCAC TATCATCTCC CTTCTGCCTA CCTGTTGGGC 
CCTTCCAGAA ATTCAGTGGC TCGGCCTCCA AGGCCTAGAC CCTTCCTGCC ATCTCAAGGG 
CCAAATATGG GATCTCGGCA CCAGCGCCTC TCCAGAGCTG CACATGTGCG GGCATCAGGC 
GAGCAACAGC ACCTGACAGT GGCCCAGCAC CCCTATGCAC AGGGCTGGGG ACTGGGCCGC 
CTCCGATGTA CCTCTCAGCA TCCCACAGCT TGCCCAGTGT CCCTGCGCCG GGCCAGGCCT 
CATGACAGCA GCGGATCTGG AGAAAGCTAC TGTACAGAAC GCAGTGGCTA CCTGGCAGAT 
GGGCCAGCCA GTGACTCCAG CTCAGGGCCC TGTCATGGCT CCTCCAGTGA CTCAGTGGTC 
AATTGCACGG ACATCAGTTT GCAGGGCATC CATGGCAGCA GTTCTACCTT CCGCAGCTCC 
CTGAGCAGTG ACTTTGACCC CCTGGTGTAC TGCAGTCCTG AGGGGGATCT CCCGGGAAAG 
GGGTTGCAGC CTAGTGTGAC CTCTCGACCC CGTTCCCTAG ACTCAGTAGT GCCCACAGGG 
GAAACCCGGG TTTCCAGCCA CGTCCACTAT CACCGCCACC GGCACCATCA CTACAAAAAG 
CGGTTCCAGT GGCATGGCAG GAAGCCTGGC CTAGAAACGG GGGTCAACCA GTCCAAATCT 
GCTGTTTCTC GGACTCAGCT CCAGCCAGAG CCATCTTTCC CTGACCAACA GTTCACCAGA 
CCCAACCCAA CAGCTCCTTC AATGCTCCCC AACCCACAAC GGCCCAGGGC CCTTACAGAG 
CCAGTCCCTG GACCAGCGGA AGCTGCCAGC CCCAGCCCCG GTCCCAGCCC CAGCAGTCTT 
CTGAACTTGC AGAAATCCAA CCTCCCTGTC CGACACCCAC AGAGAAAACG GCGGGGTGGT 
CCTTCAGAAC CCACGCCAAC CTCTCGGCCC CAGGACTTGA CTCTGCACCC AGCTTGCCAG 
GTTTTCCCCC ATTATAGCCC CAGCCTGGCA TACCCTTGGC CCCCAGAGAC TCACCCATTG 
ATCTTCAGAC CTCCAGGCCT GGATAGGAGG CTGCTACCCG AAGCCCCAGG CCCCTGTTAC 
TCAAGTTCAC AGCCAGTGTG GTTGTATCTG ACTCCTCACC GGCCTCTGGG ACCACACCCA 
CCTGGAGAGG GACATTCTGA ATGGAGTTCT GACACCCCAG AGGGCAGGCC ATGCCCTTAC 
CCACACTGCC AGGTGCTATC AGCCCAGCCT GGCTCGGAGG AGGAGCTTGA GGAGCTGTGT 
GAACAGGCCG TGTGA