FMNL2 cDNA ORF clone, Elephantulus edwardii(Cape elephant shrew)

Gene
Clones
gRNAs

Summary

Gene Symbol	FMNL2
Entrez Gene ID	102853931
Full Name	formin like 2
Gene Type	protein-coding
Organism	Elephantulus edwardii(Cape elephant shrew)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006880775.1	XP_006880837.1	formin-like protein 2

Pathways from BioSystems
Gene Ontology

The following FMNL2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FMNL2 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
OEl37083	XM_006880775.1 Latest version!	Elephantulus edwardii formin-like 2 (FMNL2), 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)

FMNL2 ( XM_006880775.1 ) cDNA ORF clone, Elephantulus edwardii(Cape elephant shrew) -> XP_006880837.1 Elephantulus edwardii formin-like 2 (FMNL2), mRNA.

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CloneID	OEl37083
Clone ID Related Accession (Same CDS sequence)	XM_006880775.1
Accession Version	XM_006880775.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3261bp) 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	2014-02-17
Organism	Elephantulus edwardii(Cape elephant shrew)
Product	formin-like protein 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006399760.1) 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 Version :: Elephantulus edwardii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGCAACG CGGGGAGCAT GGATTCGCAG CAGACCGATT TCAGGGCGCA CAACGTGCCT 
TTGAAGCTAC CGATGCCGGA GCCAGGTGAA CTGGAGGAGA GATTTGCCAT CGTGCTGAAT 
GCTATGAACC TACCTCCTGA CAAAGCCAGG TTACTAAGGC AGTATGACAA TGAGAAGAAA 
TGGGAACTGA TTTGTGATCA GGAACGATTC CAGGTGAAGA ATCCTCCCCA CACGTATATC 
CAAAAGCTCA AAGGCTATCT GGATCCAGCT GTAACCAGGA AGAAGTTCAG GCGGCGTGTT 
CAAGAATCCA CACAAGTGCT AAGAGAACTG GAAATTTCTT TAAGAACAAA CCACATTGGG 
TGGGTCAGAG AGTTTCTGAA TGAAGAAAAC AAAGGTCTTG ATGTTCTGGT GGAATATCTT 
TCATTTGCAC AGTACGCAGT AACCTTTGAC TTTGAAAGTG TGGAAAGCAC TGTGGAGAGC 
TCCATGGACA AATCCAAGCC CTGGAGTCGG TCCATCGAGG ACCTGCACCG AGGGAGTAAC 
TTGCCCTCAC CCGTGGGCAA CAGTGTGTCC CGCTCCGGAA GGCATTCTGC GCTACGGTAT 
AATACTTTGC CAAGCAGAAG AACCCTGAAA AACTCAAGAT TAGTGAGTAA AAAAGATGAT 
GTCCATGTAT GTATCATGTG TTTACGTGCC ATCATGAACT ATCAGTATGG TTTCAACATG 
GTCATGTCTC ACCCCCACGC TGTCAACGAG ATTGCACTAA GTTTAAACAA CAAGAATCCC 
AGAACAAAAG CCCTTGTCTT AGAACTGTTG GCAGCTGTTT GTCTTGTCAG AGGTGGACAT 
GAAATAATTT TATCAGCATT TGATAACTTT AAGGAGGTTT GTGGAGAGAA ACAGCGCTTC 
GAGAAGCTGA TGGAACATTT CAGGAATGAA GACAATAACA TAGATTTTAT GGTGGCCTCT 
ATGCAGTTCA TTAATATTGT AGTCCATTCA GTAGAAGACA TGAATTTCAG GGTTCACCTC 
CAATATGAAT TCACCAAATT GGGCCTGGAT GAGTACTTGG ATAAGCTGAA ACACACCGAG 
AGTGACAAGC TGCAGGTCCA GATTCAGGCT TACCTGGACA ATGTTTTTGA TGTTGGAGCT 
CTGCTGGAAG ATGCTGAAAC CAAGAACGCA GCCTTAGAGA GAGTGGAAGA ACTGGAAGAA 
AATATTTCTC ATTTGTCTGA AAAACTACAA GACACAGAGA ATGAAGCCAT GTCCAAGATT 
GTGGAACTGG AAAAGCAGCT CATGCAGAGG AATAAAGAGC TGGATGTTGT TCGGGAAATC 
TACAAAGATG CGAACACCCA GGTTCACACG TTACGAAAAA TGGTCAAGGA GAAAGAAGAA 
GCCATTCAAA GACAGTCTAC CCTGGAAAAA AAGATTCATG AACTAGAAAA ACAAGGGACC 
ATTAAAATTC AGAAGAAAGG AGATGGGGAG ATTGCCATCC TGCCCGTTGT GGCCTCGGGC 
ACATTGCCCT CAGGGTCCGA AGCAGCGGCT GGTAACCCTG TGGGACCAGT AATAGGGGCC 
ACTTCCTTGG GGCCCTTGCC CACTCCTCCC CCACCACTAC CTCTGTCAGC AGATACACCT 
GAAGCAGTGC AAAATGGCCC AGTAACACCA CCTATGCCAC CGCCCCCACC TCCTCCCCCT 
CCTCCACCCC CTCCTCTCCC AGGACCTGCA GCTGAGGCTG TGCCGGCTCC TCCTTTACCA 
CCCCCACCAC CCCCCTCTGC ACCCCCACTG CCCGGAACGT CTTCACCCAC AGTGGTTTTC 
AACTCAGGAT TAGCAGCTGT GAAAATTAAG AAGCCAATCA AGACAAAGTT CCGAATGCCA 
GTTTTCAACT GGGTTGCTCT GAAGCCCAAT CAGATCAATG GCACAGTCTT CAATGAAATT 
GATGATGAGC GCATTCTGGA GGATTTAAAT GTGGATGAGT TTGAGGAAAT ATTCAAGACA 
AAAGCTCAAG GTCCTGCCAT TGACCTTTCT TCAAGCAAAC AGAAGATAAC GCAGAAGGGG 
TCAAGCAAAG TGACATTGCT AGAAGCAAAT AGAGCCAAAA ACCTTGCCAT CACTTTACGG 
AAAGCTGGAA AGACTGCTGA TGAGATTTGT AAAGCTATTC ACATATTTGA CTTGAAGACG 
TTGCCTGTAG ACTTTGTAGA GTGCTTGATG AGGTTCTTGC CAACTGAGAA TGAGGTGAAA 
GTGCTTCGGC TCTATGAGCG GGAAAGGAAG CCCCTGGAGA ACTTGTCGGA TGAGGACCGG 
TTCATGATGC AGTTCAGTAA AATCGAGAGG CTCATGCAGA AGATGACCAT CATGGCCTTT 
ATCGGGAACT TTGCTGAGAG CATTCAGATG CTGACTCCTC AACTGCACGC AATTATAGCA 
GCATCTGTCT CTATAAAGTC ATCCCAAAAA CTCAAGAAAA TTCTGGAGAT CATCTTAGCT 
CTTGGAAACT ATATGAATAG CAGTAAACGG GGAGCAGTTT ATGGATTTAA ACTTCAGAGT 
TTAGATCTGC TCTTAGATAC AAAGTCAACA GATCGAAAGC AAACACTGTT GCACTATATA 
TCCAATGTGG TGAAAGAGAA ATACCACCAG GTGTCCGTGT TCTATAATGA GCTGCATTAT 
GTGGAGAAAG CTGCCGCAGT CTCCCTTGAA AATGTCTTAC TGGATGTCAA AGAGCTCCAG 
AGGGGCATGG ACTTGACCAA GAGGGAGTAC ACCATGCACG ACCACAACAC GCTGCTGAAG 
GAGTTCATCC TCAACAACGA GGGGAAGCTG AAGAAGCTAC AGGATGATGC TAAGATTGCA 
CAGGATGCCT TTGATGATGT CGTAAAATAT TTTGGAGAAA ACCCCAAGAC GACACCACCT 
TCTGTCTTCT TTCCAGTTTT TGTCCGGTTT GTGAAAGCCT ATAAGCAAGC AGAAGAGGAG 
AATGAGCTAA GGAAAAAGCA GGAACAAGCT CTCATGGAAA AACTCCTGGA ACAGGAAGCT 
CTGATGGAAC AGCAGGATCC CAAGTCTCCT TCTCATAAAT CAAAGAGACA ACAGCAAGAG 
TTAATTGCAG AGTTAAGGCG GCGACAGGTT AAAGATAACA GACATGTCTA TGAGGGCAAG 
GATGGTGCCA TTGAAGATAT CATCACAGAT CTTAGAAACC AGCCATATAG ACGGGCCGAT 
GCGGTGAGGA GAAGTGTCAG GCGGCGCTTT GATGACCAGA ACTTGCGTTC TGTTAATGGT 
GCCGCTGAAA TAATGATGTG A

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

RefSeq	XP_006880837.1
CDS	369..3629
Translation	MGNAGSMDSQQTDFRAHNVPLKLPMPEPGELEERFAIVLNAMNLPPDKARLLRQYDNEKKWELICDQERFQVKNPPHTYIQKLKGYLDPAVTRKKFRRRVQESTQVLRELEISLRTNHIGWVREFLNEENKGLDVLVEYLSFAQYAVTFDFESVESTVESSMDKSKPWSRSIEDLHRGSNLPSPVGNSVSRSGRHSALRYNTLPSRRTLKNSRLVSKKDDVHVCIMCLRAIMNYQYGFNMVMSHPHAVNEIALSLNNKNPRTKALVLELLAAVCLVRGGHEIILSAFDNFKEVCGEKQRFEKLMEHFRNEDNNIDFMVASMQFINIVVHSVEDMNFRVHLQYEFTKLGLDEYLDKLKHTESDKLQVQIQAYLDNVFDVGALLEDAETKNAALERVEELEENISHLSEKLQDTENEAMSKIVELEKQLMQRNKELDVVREIYKDANTQVHTLRKMVKEKEEAIQRQSTLEKKIHELEKQGTIKIQKKGDGEIAILPVVASGTLPSGSEAAAGNPVGPVIGATSLGPLPTPPPPLPLSADTPEAVQNGPVTPPMPPPPPPPPPPPPPLPGPAAEAVPAPPLPPPPPPSAPPLPGTSSPTVVFNSGLAAVKIKKPIKTKFRMPVFNWVALKPNQINGTVFNEIDDERILEDLNVDEFEEIFKTKAQGPAIDLSSSKQKITQKGSSKVTLLEANRAKNLAITLRKAGKTADEICKAIHIFDLKTLPVDFVECLMRFLPTENEVKVLRLYERERKPLENLSDEDRFMMQFSKIERLMQKMTIMAFIGNFAESIQMLTPQLHAIIAASVSIKSSQKLKKILEIILALGNYMNSSKRGAVYGFKLQSLDLLLDTKSTDRKQTLLHYISNVVKEKYHQVSVFYNELHYVEKAAAVSLENVLLDVKELQRGMDLTKREYTMHDHNTLLKEFILNNEGKLKKLQDDAKIAQDAFDDVVKYFGENPKTTPPSVFFPVFVRFVKAYKQAEEENELRKKQEQALMEKLLEQEALMEQQDPKSPSHKSKRQQQELIAELRRRQVKDNRHVYEGKDGAIEDIITDLRNQPYRRADAVRRSVRRRFDDQNLRSVNGAAEIMM

Target ORF information:

RefSeq Version	XM_006880775.1
Organism	Elephantulus edwardii(Cape elephant shrew)
Definition	Elephantulus edwardii formin-like 2 (FMNL2), mRNA.

Target ORF information:

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

XM_006880775.1

ORF Insert Sequence:

ATGGGCAACG CGGGGAGCAT GGATTCGCAG CAGACCGATT TCAGGGCGCA CAACGTGCCT 
TTGAAGCTAC CGATGCCGGA GCCAGGTGAA CTGGAGGAGA GATTTGCCAT CGTGCTGAAT 
GCTATGAACC TACCTCCTGA CAAAGCCAGG TTACTAAGGC AGTATGACAA TGAGAAGAAA 
TGGGAACTGA TTTGTGATCA GGAACGATTC CAGGTGAAGA ATCCTCCCCA CACGTATATC 
CAAAAGCTCA AAGGCTATCT GGATCCAGCT GTAACCAGGA AGAAGTTCAG GCGGCGTGTT 
CAAGAATCCA CACAAGTGCT AAGAGAACTG GAAATTTCTT TAAGAACAAA CCACATTGGG 
TGGGTCAGAG AGTTTCTGAA TGAAGAAAAC AAAGGTCTTG ATGTTCTGGT GGAATATCTT 
TCATTTGCAC AGTACGCAGT AACCTTTGAC TTTGAAAGTG TGGAAAGCAC TGTGGAGAGC 
TCCATGGACA AATCCAAGCC CTGGAGTCGG TCCATCGAGG ACCTGCACCG AGGGAGTAAC 
TTGCCCTCAC CCGTGGGCAA CAGTGTGTCC CGCTCCGGAA GGCATTCTGC GCTACGGTAT 
AATACTTTGC CAAGCAGAAG AACCCTGAAA AACTCAAGAT TAGTGAGTAA AAAAGATGAT 
GTCCATGTAT GTATCATGTG TTTACGTGCC ATCATGAACT ATCAGTATGG TTTCAACATG 
GTCATGTCTC ACCCCCACGC TGTCAACGAG ATTGCACTAA GTTTAAACAA CAAGAATCCC 
AGAACAAAAG CCCTTGTCTT AGAACTGTTG GCAGCTGTTT GTCTTGTCAG AGGTGGACAT 
GAAATAATTT TATCAGCATT TGATAACTTT AAGGAGGTTT GTGGAGAGAA ACAGCGCTTC 
GAGAAGCTGA TGGAACATTT CAGGAATGAA GACAATAACA TAGATTTTAT GGTGGCCTCT 
ATGCAGTTCA TTAATATTGT AGTCCATTCA GTAGAAGACA TGAATTTCAG GGTTCACCTC 
CAATATGAAT TCACCAAATT GGGCCTGGAT GAGTACTTGG ATAAGCTGAA ACACACCGAG 
AGTGACAAGC TGCAGGTCCA GATTCAGGCT TACCTGGACA ATGTTTTTGA TGTTGGAGCT 
CTGCTGGAAG ATGCTGAAAC CAAGAACGCA GCCTTAGAGA GAGTGGAAGA ACTGGAAGAA 
AATATTTCTC ATTTGTCTGA AAAACTACAA GACACAGAGA ATGAAGCCAT GTCCAAGATT 
GTGGAACTGG AAAAGCAGCT CATGCAGAGG AATAAAGAGC TGGATGTTGT TCGGGAAATC 
TACAAAGATG CGAACACCCA GGTTCACACG TTACGAAAAA TGGTCAAGGA GAAAGAAGAA 
GCCATTCAAA GACAGTCTAC CCTGGAAAAA AAGATTCATG AACTAGAAAA ACAAGGGACC 
ATTAAAATTC AGAAGAAAGG AGATGGGGAG ATTGCCATCC TGCCCGTTGT GGCCTCGGGC 
ACATTGCCCT CAGGGTCCGA AGCAGCGGCT GGTAACCCTG TGGGACCAGT AATAGGGGCC 
ACTTCCTTGG GGCCCTTGCC CACTCCTCCC CCACCACTAC CTCTGTCAGC AGATACACCT 
GAAGCAGTGC AAAATGGCCC AGTAACACCA CCTATGCCAC CGCCCCCACC TCCTCCCCCT 
CCTCCACCCC CTCCTCTCCC AGGACCTGCA GCTGAGGCTG TGCCGGCTCC TCCTTTACCA 
CCCCCACCAC CCCCCTCTGC ACCCCCACTG CCCGGAACGT CTTCACCCAC AGTGGTTTTC 
AACTCAGGAT TAGCAGCTGT GAAAATTAAG AAGCCAATCA AGACAAAGTT CCGAATGCCA 
GTTTTCAACT GGGTTGCTCT GAAGCCCAAT CAGATCAATG GCACAGTCTT CAATGAAATT 
GATGATGAGC GCATTCTGGA GGATTTAAAT GTGGATGAGT TTGAGGAAAT ATTCAAGACA 
AAAGCTCAAG GTCCTGCCAT TGACCTTTCT TCAAGCAAAC AGAAGATAAC GCAGAAGGGG 
TCAAGCAAAG TGACATTGCT AGAAGCAAAT AGAGCCAAAA ACCTTGCCAT CACTTTACGG 
AAAGCTGGAA AGACTGCTGA TGAGATTTGT AAAGCTATTC ACATATTTGA CTTGAAGACG 
TTGCCTGTAG ACTTTGTAGA GTGCTTGATG AGGTTCTTGC CAACTGAGAA TGAGGTGAAA 
GTGCTTCGGC TCTATGAGCG GGAAAGGAAG CCCCTGGAGA ACTTGTCGGA TGAGGACCGG 
TTCATGATGC AGTTCAGTAA AATCGAGAGG CTCATGCAGA AGATGACCAT CATGGCCTTT 
ATCGGGAACT TTGCTGAGAG CATTCAGATG CTGACTCCTC AACTGCACGC AATTATAGCA 
GCATCTGTCT CTATAAAGTC ATCCCAAAAA CTCAAGAAAA TTCTGGAGAT CATCTTAGCT 
CTTGGAAACT ATATGAATAG CAGTAAACGG GGAGCAGTTT ATGGATTTAA ACTTCAGAGT 
TTAGATCTGC TCTTAGATAC AAAGTCAACA GATCGAAAGC AAACACTGTT GCACTATATA 
TCCAATGTGG TGAAAGAGAA ATACCACCAG GTGTCCGTGT TCTATAATGA GCTGCATTAT 
GTGGAGAAAG CTGCCGCAGT CTCCCTTGAA AATGTCTTAC TGGATGTCAA AGAGCTCCAG 
AGGGGCATGG ACTTGACCAA GAGGGAGTAC ACCATGCACG ACCACAACAC GCTGCTGAAG 
GAGTTCATCC TCAACAACGA GGGGAAGCTG AAGAAGCTAC AGGATGATGC TAAGATTGCA 
CAGGATGCCT TTGATGATGT CGTAAAATAT TTTGGAGAAA ACCCCAAGAC GACACCACCT 
TCTGTCTTCT TTCCAGTTTT TGTCCGGTTT GTGAAAGCCT ATAAGCAAGC AGAAGAGGAG 
AATGAGCTAA GGAAAAAGCA GGAACAAGCT CTCATGGAAA AACTCCTGGA ACAGGAAGCT 
CTGATGGAAC AGCAGGATCC CAAGTCTCCT TCTCATAAAT CAAAGAGACA ACAGCAAGAG 
TTAATTGCAG AGTTAAGGCG GCGACAGGTT AAAGATAACA GACATGTCTA TGAGGGCAAG 
GATGGTGCCA TTGAAGATAT CATCACAGAT CTTAGAAACC AGCCATATAG ACGGGCCGAT 
GCGGTGAGGA GAAGTGTCAG GCGGCGCTTT GATGACCAGA ACTTGCGTTC TGTTAATGGT 
GCCGCTGAAA TAATGATGTG A