REST cDNA ORF clone, Neomonachus schauinslandi(Hawaiian monk seal)

Gene
Clones
gRNAs

Summary

Gene Symbol	REST
Entrez Gene ID	110590822
Full Name	RE1 silencing transcription factor
Gene Type	protein-coding
Organism	Neomonachus schauinslandi(Hawaiian monk seal)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021701652.1	XP_021557327.1	RE1-silencing transcription factor

Pathways from BioSystems
Gene Ontology

The following REST gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the REST 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
ONe152839	XM_021701652.1 Latest version!	Neomonachus schauinslandi RE1 silencing transcription factor (REST), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$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)

REST ( XM_021701652.1 ) cDNA ORF clone, Neomonachus schauinslandi(Hawaiian monk seal) -> XP_021557327.1 Neomonachus schauinslandi RE1 silencing transcription factor (REST), mRNA.

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CloneID	ONe152839
Clone ID Related Accession (Same CDS sequence)	XM_021701652.1
Accession Version	XM_021701652.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3030bp) 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	2017-06-27
Organism	Neomonachus schauinslandi(Hawaiian monk seal)
Product	RE1-silencing transcription factor
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018734387.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Neomonachus schauinslandi 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##

ATGGCCACCC AGGTAATGGG GCAGTCTTCT GGAGGAGGAG GCCTGTTCAC GGGCAGTGGC 
AACATTGGCA TGGCCTTGCC TAACGACATG TATGACTTGC ATGACCTCTC CAAAGCTGAA 
TTGGCTGCGC CTCAGCTTAT CATGTTGGCA AATGTGGCCT TAACTGGGGA AGTAAGTGGC 
AGCTGCTGTG ATTACCTGGT TGGTGAAGAA AGACAGATGG CAGAATTGAT GCCTGTTGGA 
GATAACAACT TTTCAGATAG TGATGGAGAA GGACTTGAGG AGTCCCCTGA AATAAAAGGT 
GAACCCAGTG GACTGGAAAA CATGGAACTG GAAAGTTTGG AACTCAGTGT TGTAGAACCA 
CAGCCTGTGT TTGAGGTCTC AGCTACTGCC CCAGAAATTT ACAGCTCCAG TAAAGATCTT 
CCCCCTGAGA CACCTGGAGC AGAGGACAAA TGCAAGAACT TGAAGAGCAA ACCTTTTCGC 
TGTAAGCCAT GCCAGTATGA AGCCGAATCT GAAGAACAGT TTGTGCATCA CATCAGAGTT 
CATAGTGCCA AGAAATTTTT TGTGGAAGAA AGTGCAGAGA AGCAAGCAAA AGCCAGAGAA 
TCTGGGTCTT CCACTGCAGA GGAGGGAGAT TTCTCCAAGG GCCCCATTCG CTGTGACCGC 
TGTGGCTATA ATACCAATCG ATACGATCAC TATACTGCTC ACCTGAAACA CCACACCAGA 
GCTGGGGATA ATGAGCGAGT CTACAAGTGT ATCATTTGCA CATACACCAC AGTAAGCGAA 
TATCACTGGA GGAAACACTT GAGAAACCAT TTTCCAAGGA AAGTATACAC ATGTGGAAAA 
TGCAACTATT TTTCAGACAG AAAAAATAAT TATGTTCAAC ATGTTCGAAC TCATACAGGG 
GAACGCCCAT ATAAATGTGA ACTTTGTCCT TACTCAAGTT CTCAGAAGAC TCATCTAACT 
AGACATATGC GTACTCATTC AGGTGAGAAG CCATTTAAAT GTGATCAGTG CAGTTACGTG 
GCCTCTAATC AACATGAAGT AACCCGCCAT GCGAGACAGG TTCATAATGG GCCTAAACCT 
CTTAACTGTC CACATTGTGA CTACAAAACA GCAGATAGAA GTAACTTCAA AAAACATGTA 
GAGCTACATG TTAATCCACG GCAGTTCAAT TGCCCTGTAT GCGACTATGC AGCTTCCAAG 
AAGTGTAATC TGCAGTATCA CTTCAAATCC AAGCATCCTA CTTGTCCTAA TAAAACAATG 
GATGTCTCAA AAGTGAAACT AAAGAAAACC AAAAAGCGAG AGGCTGACCT GCCTGATAAC 
AATATTACCA ATGAAAAAAA AGAAACAGAA CAGACAAAAA TAAAGGGGGA TGTGGCTGGA 
AAGAAGAATG AGAGGTCTGT AAAAGTGGAG AAAAAAGATA ATGTTTCAAA AGAGAAAAAG 
TCTTGTAGTA ATGCTTCAAC TCAAGTGACT ACCAGAACTC GCAAATCCGC AATGGAAACT 
AAAGAAATGG ATGTGCATAC AGGAAATAAT TCAGAAACAA CCTGTAAAAC CAAGAAAAGC 
AAAAGGAGGA TGGAAGCTGA AGCCCATTCC TTAAAAGATC CTGTTAATGA TGAGGAACCT 
ATGACAAAAA AGAAAAAGAA GGCAGAAAGC AAATCCAAAA ATAGTCAGGA AGTGCCAAAA 
GCTGATAGCA AAGTAGAGGA GACTAAAAAG CAAAATACTT GCACGAAAAA AAGTACAAAG 
AAGAAAAGTC TGAAAAATAA GTCAAGTAAA AAAGGCAGCA AGCCTGCTCA AAAGGAGCCT 
GCTCAGAAGG GGCCTGTTCA GATGGAGCCT TCTCCTCCCA GGGGGCCTGG TCAAATGGAG 
TCTTCTCCTT CCAAGGGGCC TTCTCAGATG GAGCCCTCTC CTTCCAAGGG GCCTTCTCAG 
ATGGAGCCTT CCCCTTCCAA GGGGCCTTCT CATTTGGAGC CTTCTCCCAG GGGGCCTGCT 
CAGATGGAGC CACCCCCTGC CATGGAGTCT GCTCAGATGG ATGTTGGTCA GATGGAGCCT 
CCTCCTCCAA TGGAGTCTGC TCAGTTAGGG CCTGCTCAGA CAGAGCCACC TCCTCCCATG 
GGGCCCGCTC AGCTGGAGGT TGATCAGATG GAGCCTCCTC CTCCCACAGA GCCTCCTCTT 
CACATGGAAC CAAGTCCCAA AAAGTCTCCT CGAAAAGATA AAAAGGAAAA GTCCAACACG 
CAGAGTGAAA TGGCATGGAA GGAGCAAGTC CTTATTGAAG TTGGCTTAGT GCCTGTCAAA 
GATAGCCAAC TTCTGAAGGA AAGTGCAGGT GCACAGGATC TCTCACCACC ATCAACACCA 
CCGCCAAAGG AAAACTTAAA AGAAGAGGAG TCAAAAGACC AAAAATTATT CACTGAAGGC 
GAAGGAAGCA AAGAAGGCCC TCTTCAAAAA GTAGAAGAGG CAGAGAAGAG TCTAGCTGGT 
CTTGCTGCTA TTATCAAGGA ATCTGCCAAT ATTTCATCCT CTGAACAAAA CTTGACTATG 
CCAGAGGGTG AAATTTTAGA TGTTAAGTGT CAGGCTGACA CTGTGCTTTG TGAAATGGAA 
ATGGACACTG ATGAGAACAA AACAGAGAAT CCCCCTGGCA AAGACCCAGC AGTTGAAGAA 
CCAGTTTCAC CAGTGCTCCT TCCCCTACCA ATAGAAAACC ACGAAGCAGT GTCCAAAACT 
GCTGTGACAT CACCTCCTGT CATTGTAGCA GTAAATGAGT CTCAGGAAAT GGATGAAGAT 
GAAGGCATCC ACAGTCATGA TGGAAGTGAT CTAAGTGACA ACATGTCAGA GGGTAGTGAT 
GACTCTGGAT TGAATGGGGC CCGGCCAGTT CCACAAGAAA CCAACAGGAA AAATGCAAAG 
GAAGCCTTGG CAGTCAAAGT GGCTGAGGGA GATTTTGTTT GTATCTTCTG TGATCGCTCT 
TTTAGAAAGG AAAAAGATTA CAGCAAGCAC CTCAATCGCC ATTTGGTTAA TGTATACTTC 
CTTGAAAAAG CAGCTAAAGG GCAGGAGTAA

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

RefSeq	XP_021557327.1
CDS	87..3116
Translation	MATQVMGQSSGGGGLFTGSGNIGMALPNDMYDLHDLSKAELAAPQLIMLANVALTGEVSGSCCDYLVGEERQMAELMPVGDNNFSDSDGEGLEESPEIKGEPSGLENMELESLELSVVEPQPVFEVSATAPEIYSSSKDLPPETPGAEDKCKNLKSKPFRCKPCQYEAESEEQFVHHIRVHSAKKFFVEESAEKQAKARESGSSTAEEGDFSKGPIRCDRCGYNTNRYDHYTAHLKHHTRAGDNERVYKCIICTYTTVSEYHWRKHLRNHFPRKVYTCGKCNYFSDRKNNYVQHVRTHTGERPYKCELCPYSSSQKTHLTRHMRTHSGEKPFKCDQCSYVASNQHEVTRHARQVHNGPKPLNCPHCDYKTADRSNFKKHVELHVNPRQFNCPVCDYAASKKCNLQYHFKSKHPTCPNKTMDVSKVKLKKTKKREADLPDNNITNEKKETEQTKIKGDVAGKKNERSVKVEKKDNVSKEKKSCSNASTQVTTRTRKSAMETKEMDVHTGNNSETTCKTKKSKRRMEAEAHSLKDPVNDEEPMTKKKKKAESKSKNSQEVPKADSKVEETKKQNTCTKKSTKKKSLKNKSSKKGSKPAQKEPAQKGPVQMEPSPPRGPGQMESSPSKGPSQMEPSPSKGPSQMEPSPSKGPSHLEPSPRGPAQMEPPPAMESAQMDVGQMEPPPPMESAQLGPAQTEPPPPMGPAQLEVDQMEPPPPTEPPLHMEPSPKKSPRKDKKEKSNTQSEMAWKEQVLIEVGLVPVKDSQLLKESAGAQDLSPPSTPPPKENLKEEESKDQKLFTEGEGSKEGPLQKVEEAEKSLAGLAAIIKESANISSSEQNLTMPEGEILDVKCQADTVLCEMEMDTDENKTENPPGKDPAVEEPVSPVLLPLPIENHEAVSKTAVTSPPVIVAVNESQEMDEDEGIHSHDGSDLSDNMSEGSDDSGLNGARPVPQETNRKNAKEALAVKVAEGDFVCIFCDRSFRKEKDYSKHLNRHLVNVYFLEKAAKGQE

Target ORF information:

RefSeq Version	XM_021701652.1
Organism	Neomonachus schauinslandi(Hawaiian monk seal)
Definition	Neomonachus schauinslandi RE1 silencing transcription factor (REST), mRNA.

Target ORF information:

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

XM_021701652.1

ORF Insert Sequence:

ATGGCCACCC AGGTAATGGG GCAGTCTTCT GGAGGAGGAG GCCTGTTCAC GGGCAGTGGC 
AACATTGGCA TGGCCTTGCC TAACGACATG TATGACTTGC ATGACCTCTC CAAAGCTGAA 
TTGGCTGCGC CTCAGCTTAT CATGTTGGCA AATGTGGCCT TAACTGGGGA AGTAAGTGGC 
AGCTGCTGTG ATTACCTGGT TGGTGAAGAA AGACAGATGG CAGAATTGAT GCCTGTTGGA 
GATAACAACT TTTCAGATAG TGATGGAGAA GGACTTGAGG AGTCCCCTGA AATAAAAGGT 
GAACCCAGTG GACTGGAAAA CATGGAACTG GAAAGTTTGG AACTCAGTGT TGTAGAACCA 
CAGCCTGTGT TTGAGGTCTC AGCTACTGCC CCAGAAATTT ACAGCTCCAG TAAAGATCTT 
CCCCCTGAGA CACCTGGAGC AGAGGACAAA TGCAAGAACT TGAAGAGCAA ACCTTTTCGC 
TGTAAGCCAT GCCAGTATGA AGCCGAATCT GAAGAACAGT TTGTGCATCA CATCAGAGTT 
CATAGTGCCA AGAAATTTTT TGTGGAAGAA AGTGCAGAGA AGCAAGCAAA AGCCAGAGAA 
TCTGGGTCTT CCACTGCAGA GGAGGGAGAT TTCTCCAAGG GCCCCATTCG CTGTGACCGC 
TGTGGCTATA ATACCAATCG ATACGATCAC TATACTGCTC ACCTGAAACA CCACACCAGA 
GCTGGGGATA ATGAGCGAGT CTACAAGTGT ATCATTTGCA CATACACCAC AGTAAGCGAA 
TATCACTGGA GGAAACACTT GAGAAACCAT TTTCCAAGGA AAGTATACAC ATGTGGAAAA 
TGCAACTATT TTTCAGACAG AAAAAATAAT TATGTTCAAC ATGTTCGAAC TCATACAGGG 
GAACGCCCAT ATAAATGTGA ACTTTGTCCT TACTCAAGTT CTCAGAAGAC TCATCTAACT 
AGACATATGC GTACTCATTC AGGTGAGAAG CCATTTAAAT GTGATCAGTG CAGTTACGTG 
GCCTCTAATC AACATGAAGT AACCCGCCAT GCGAGACAGG TTCATAATGG GCCTAAACCT 
CTTAACTGTC CACATTGTGA CTACAAAACA GCAGATAGAA GTAACTTCAA AAAACATGTA 
GAGCTACATG TTAATCCACG GCAGTTCAAT TGCCCTGTAT GCGACTATGC AGCTTCCAAG 
AAGTGTAATC TGCAGTATCA CTTCAAATCC AAGCATCCTA CTTGTCCTAA TAAAACAATG 
GATGTCTCAA AAGTGAAACT AAAGAAAACC AAAAAGCGAG AGGCTGACCT GCCTGATAAC 
AATATTACCA ATGAAAAAAA AGAAACAGAA CAGACAAAAA TAAAGGGGGA TGTGGCTGGA 
AAGAAGAATG AGAGGTCTGT AAAAGTGGAG AAAAAAGATA ATGTTTCAAA AGAGAAAAAG 
TCTTGTAGTA ATGCTTCAAC TCAAGTGACT ACCAGAACTC GCAAATCCGC AATGGAAACT 
AAAGAAATGG ATGTGCATAC AGGAAATAAT TCAGAAACAA CCTGTAAAAC CAAGAAAAGC 
AAAAGGAGGA TGGAAGCTGA AGCCCATTCC TTAAAAGATC CTGTTAATGA TGAGGAACCT 
ATGACAAAAA AGAAAAAGAA GGCAGAAAGC AAATCCAAAA ATAGTCAGGA AGTGCCAAAA 
GCTGATAGCA AAGTAGAGGA GACTAAAAAG CAAAATACTT GCACGAAAAA AAGTACAAAG 
AAGAAAAGTC TGAAAAATAA GTCAAGTAAA AAAGGCAGCA AGCCTGCTCA AAAGGAGCCT 
GCTCAGAAGG GGCCTGTTCA GATGGAGCCT TCTCCTCCCA GGGGGCCTGG TCAAATGGAG 
TCTTCTCCTT CCAAGGGGCC TTCTCAGATG GAGCCCTCTC CTTCCAAGGG GCCTTCTCAG 
ATGGAGCCTT CCCCTTCCAA GGGGCCTTCT CATTTGGAGC CTTCTCCCAG GGGGCCTGCT 
CAGATGGAGC CACCCCCTGC CATGGAGTCT GCTCAGATGG ATGTTGGTCA GATGGAGCCT 
CCTCCTCCAA TGGAGTCTGC TCAGTTAGGG CCTGCTCAGA CAGAGCCACC TCCTCCCATG 
GGGCCCGCTC AGCTGGAGGT TGATCAGATG GAGCCTCCTC CTCCCACAGA GCCTCCTCTT 
CACATGGAAC CAAGTCCCAA AAAGTCTCCT CGAAAAGATA AAAAGGAAAA GTCCAACACG 
CAGAGTGAAA TGGCATGGAA GGAGCAAGTC CTTATTGAAG TTGGCTTAGT GCCTGTCAAA 
GATAGCCAAC TTCTGAAGGA AAGTGCAGGT GCACAGGATC TCTCACCACC ATCAACACCA 
CCGCCAAAGG AAAACTTAAA AGAAGAGGAG TCAAAAGACC AAAAATTATT CACTGAAGGC 
GAAGGAAGCA AAGAAGGCCC TCTTCAAAAA GTAGAAGAGG CAGAGAAGAG TCTAGCTGGT 
CTTGCTGCTA TTATCAAGGA ATCTGCCAAT ATTTCATCCT CTGAACAAAA CTTGACTATG 
CCAGAGGGTG AAATTTTAGA TGTTAAGTGT CAGGCTGACA CTGTGCTTTG TGAAATGGAA 
ATGGACACTG ATGAGAACAA AACAGAGAAT CCCCCTGGCA AAGACCCAGC AGTTGAAGAA 
CCAGTTTCAC CAGTGCTCCT TCCCCTACCA ATAGAAAACC ACGAAGCAGT GTCCAAAACT 
GCTGTGACAT CACCTCCTGT CATTGTAGCA GTAAATGAGT CTCAGGAAAT GGATGAAGAT 
GAAGGCATCC ACAGTCATGA TGGAAGTGAT CTAAGTGACA ACATGTCAGA GGGTAGTGAT 
GACTCTGGAT TGAATGGGGC CCGGCCAGTT CCACAAGAAA CCAACAGGAA AAATGCAAAG 
GAAGCCTTGG CAGTCAAAGT GGCTGAGGGA GATTTTGTTT GTATCTTCTG TGATCGCTCT 
TTTAGAAAGG AAAAAGATTA CAGCAAGCAC CTCAATCGCC ATTTGGTTAA TGTATACTTC 
CTTGAAAAAG CAGCTAAAGG GCAGGAGTAA