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

Gene
Clones
gRNAs

Summary

Gene Symbol	Flii
Entrez Gene ID	103724831
Full Name	FLII, actin remodeling protein
Gene Type	protein-coding
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008821959.1	XP_008820181.1	protein flightless-1 homolog isoform X1
XM_008821961.1	XP_008820183.1	protein flightless-1 homolog isoform X3
XM_008821962.1	XP_008820184.1	protein flightless-1 homolog isoform X4
XM_008821959.2	XP_008820181.1	protein flightless-1 homolog isoform X1
XM_008821960.2	XP_008820182.1	protein flightless-1 homolog isoform X2
XM_029558100.1	XP_029413960.1	protein flightless-1 homolog isoform X3
XM_029558101.1	XP_029413961.1	protein flightless-1 homolog isoform X4
XM_008821960.1	XP_008820182.1	protein flightless-1 homolog isoform X2

Pathways from BioSystems
Gene Ontology

The following Flii gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Flii 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)
ONa138312	XM_029558100.1 Latest version!	Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
ONa138313	XM_029558101.1 Latest version!	Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
ONa39173	XM_008821959.2 Latest version!	Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
ONa39174	XM_008821960.2 Latest version!	Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
ONa39175	XM_008821961.1 Latest version!	Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
ONa39176	XM_008821962.1 Latest version!	Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
View Old Accession Versions >>
ONa39173	XM_008821959.1	Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
ONa39174	XM_008821960.1	Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
Hide Old Accession Versions >>

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** 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)

Flii ( XM_029558100.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029413960.1 Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X3, mRNA.

Price & Availability↑

CloneID	ONa138312
Clone ID Related Accession (Same CDS sequence)	XM_029558100.1
Accession Version	XM_029558100.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3741bp) 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	protein flightless-1 homolog isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358646.1) 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##

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGGT CCTGGATGTG CGGGAGAACC CCAGCCTGGT CATGCCGCCA 
AAGCCTGCTG ACCATGCTGC TGAGTGGTAC AACATTGACT TCTCACTGCA GAACCAGCTG 
AGGCTGGCAG GCGCTTCCCC TGCCACAGTG GCTGCAGCTG CAGCTGTAGG GAGTGGGGCC 
AAAGACCCCT TGGCTCGAAA GATGCGGCTA CGGAGGCGCA AGGACTCAGC CCAGGATGAC 
CAGGCTAAGC AGGTGCTAAA AGGCATGTCA GATGTGGCCC AGGAGAAGAA CAAAAAGCAA 
GAGGAGAATG CAGATGCCCG GACCCCTGGG GGGAAGGTAC GGCGCTGGGA CCAGGGCCTG 
GAGAAGCCAC GCCTTGACTA CTCAGAGTTC TTCACAGAGG ATGTGGGCCA GCTGCCTGGC 
TTAACCATTT GGCAAATTGA GAACTTTGTG CCCGTGTTGG TGGAGGAAGC CTTCCATGGC 
AAGTTCTATG AGGCTGACTG CTACATTGTA CTCAAGACCT TTTTGGATGA CAGCGGCTCC 
CTGAACTGGG AGATCTACTA CTGGATCGGC GGAGAGGCCA CTCTTGACAA GAAAGCCTGC 
TCTGCTATCC ATGCTGTTAA CCTGCGAAAC TACCTGGGTG CTGAGTGCCG TACTGTTCGG 
GAAGAGATGG GCGATGAAAG TGAAGAGTTC CTGCAGGTTT TTGACAACGA CATCTCCTAC 
ATTGAAGGAG GAACAGCCAG TGGCTTCTAC ACTGTGGAAG ATACACACTA TGTCACCAGG 
ATGTACCGTG TATATGGGAA AAAGAACATC AGGTTGGAGC CTGTACCCAT CAAGGGTGCC 
TCCCTGGATC CAAGGTTTGT GTTCCTGCTG GACGGAGGGC TGGACATCTA CGTGTGGCGA 
GGGGCCCAAG CCACACTGAG CAGCACTACC AAGGCCAGGC TTTTTGCAGA GAAAATCAAC 
AAGAATGAGC GTAAAGGGAA AGCAGAAATC ACGCTCCTGG TGCAAGGCCA AGAGCCCCCC 
GAGTTCTGGG AGGTGCTGGG TGGGGAGCCA TCTGAAATCA AGAAACATGT ACCTGACAAC 
TTTTGGCCAC CCCAGCCCAA GCTGTACAAG GTGGGCCTGG GCCTGGGCTA CCTGGAACTG 
CCACAGATCA ACTACAAGCT CTCAGTGGAA CATAAAAAAC GGCCCAAGGT GGAACTGATG 
CCCGGAATGA GACTGCTGCA GAGCCTGCTG GACACACGAT GTGTGTACAT CCTGGACTGT 
TGGTCTGATG TGTTCATCTG GCTTGGCCGC AAGTCCCCAC GCCTGGTGCG TGCTGCAGCA 
CTCAAGCTGG GCCAAGAACT ATGTGGGATG CTACACCGAC CTCGCCATGC AGTGGTTAGC 
CGCAGCCTGG AGGGCACTGA GGCTCAGGTG TTTAAAGCCA AGTTCAAAAA TTGGGACGAT 
GTATTGACAG TGGACTACAC ACGCAACGCA GAGGCTGTGT TGCAGGGCCT GGGGCTCTCT 
GGGAAGGTGA AGCGTGACAC TGAGAAAAAA GACCAGATGA AGGCTGACCT CACTGCACTC 
TTCCTGCCTC GGCAGCCACC AATGGCACTG GCTGAGGTGC CACCGCAGTA CGCTACCCTC 
TTGTCCTCTT CCCTGGGCAG CCCCTGCTCA CCCCTGTCTA ATCACAGGTA CTGGGTGCCT 
GTGGAGTATG AGGAGGAAGG GAAAAAGGAA GACAAGGAGA AGGCCTCAGC AGAGAGCAAA 
GAAGGGGAAG AGGCAGCAGC CGAAGCAGAA AAGCAACCAG AGGAGGATTT CCAGTGCATC 
GTTTACTTCT GGCAGGGTCG GGAAGCTTCC AATATGGGCT GGCTCACCTT CACTTTTAGT 
CTGCAGAAGA AGTTTGAGAG CCTCTTCCCC GGCAAGCTGG AGGTAGTACG CATGACACAG 
CAGCAGGAGA ACCCCAAGTT TCTGACACAT TTTAAGAGAA AATTCATCAT CCACCGAGGC 
AAAAGAAAGG TGGCCCAGGG TGCCCTCCAG CCAAGCCTCT ACCAGATCCG CACCAATGGC 
AGTGCACTCT GTACCCGGTG CATCCAGATC AATACTGATT CCAGCCTCCT CAACTCTGAG 
TTCTGCTTCA TCCTCAAGGT CCCCTTTGAG AGTGAAGACA ATCAAGGCAT TGTATATGCC 
TGGGTGGGCC GAGCATCAGA CCCTGACGAA GCCAAGCTGG CAGAGGACAT CCTGAATACT 
ATGTTTGATA CCTCCTACAG CAAACAGGTC ATCAACGAAG GCGAGGAGCC CGAGAACTTC 
TTCTGGGTGG GCATTGGAGC ACAGAAGCCC TATGACGACG ATGCCGAGTA CATGAAGCAC 
ACGAGGCTGT TCAGATGCTC CAATGAGAAG GGCTACTTTG CAGTGACTGA AAAGTGCTCT 
GATTTCTGCC AAGATGACCT GGCGGATGAC GATATCATGT TGCTAGACAA TGGCCGAGAG 
GTCTACATGT GGGTGGGGAC CCAGACAAGC CAAGTAGAGA TCAAACTGAG TCTGAAGGCC 
TGCCAGGTAT ACATCCAGCA CACACGCTCC AAAGAAAATG AACGACCACG TTGTCTGCGC 
CTGGTCCGCA AAGGCAATGA GCAGCGGGCC TTCACCCGCT GCTTCCATGC CTGGAGCACC 
TTCCGCCAAG CTCCAGCGTA G

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

RefSeq	XP_029413960.1
CDS	87..3827
Translation	MEATGVLPFVRGVDLSGNDFKGGYFPENVKAMTSLRWLKLNRTGLCYLPEELAALQKLEHLSVSHNNLTTLHGELSSLPSLRAIVARANNLKNSGVPDDIFKLDDLSVLDLSHNQLTECPRELENAKNMLVLNLSHNSIDSIPNQLFINLTDLLYLDLSENHLESLPPQMRRLVHLQTLVLNGNPLLHAQLRQLPAMIALQTLHLRNTQRTQSNLPTSLEGLSNLADVDLSCNDLTRVPECLYTLPSLRRLNLSSNQISELSLCVDQWVHMETLNLSRNQLTSLPSAICKLTKLKKLYLNSNKLDFDGLPSGIGKLSSLEEFMAANNNLELIPESLCRCPKLKKLVLNRNRLVTLPEAIHFLTEIEVLDVRENPSLVMPPKPADHAAEWYNIDFSLQNQLRLAGASPATVAAAAAVGSGAKDPLARKMRLRRRKDSAQDDQAKQVLKGMSDVAQEKNKKQEENADARTPGGKVRRWDQGLEKPRLDYSEFFTEDVGQLPGLTIWQIENFVPVLVEEAFHGKFYEADCYIVLKTFLDDSGSLNWEIYYWIGGEATLDKKACSAIHAVNLRNYLGAECRTVREEMGDESEEFLQVFDNDISYIEGGTASGFYTVEDTHYVTRMYRVYGKKNIRLEPVPIKGASLDPRFVFLLDGGLDIYVWRGAQATLSSTTKARLFAEKINKNERKGKAEITLLVQGQEPPEFWEVLGGEPSEIKKHVPDNFWPPQPKLYKVGLGLGYLELPQINYKLSVEHKKRPKVELMPGMRLLQSLLDTRCVYILDCWSDVFIWLGRKSPRLVRAAALKLGQELCGMLHRPRHAVVSRSLEGTEAQVFKAKFKNWDDVLTVDYTRNAEAVLQGLGLSGKVKRDTEKKDQMKADLTALFLPRQPPMALAEVPPQYATLLSSSLGSPCSPLSNHRYWVPVEYEEEGKKEDKEKASAESKEGEEAAAEAEKQPEEDFQCIVYFWQGREASNMGWLTFTFSLQKKFESLFPGKLEVVRMTQQQENPKFLTHFKRKFIIHRGKRKVAQGALQPSLYQIRTNGSALCTRCIQINTDSSLLNSEFCFILKVPFESEDNQGIVYAWVGRASDPDEAKLAEDILNTMFDTSYSKQVINEGEEPENFFWVGIGAQKPYDDDAEYMKHTRLFRCSNEKGYFAVTEKCSDFCQDDLADDDIMLLDNGREVYMWVGTQTSQVEIKLSLKACQVYIQHTRSKENERPRCLRLVRKGNEQRAFTRCFHAWSTFRQAPA

Target ORF information:

RefSeq Version	XM_029558100.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X3, mRNA.

Target ORF information:

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

XM_029558100.1

ORF Insert Sequence:

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGGT CCTGGATGTG CGGGAGAACC CCAGCCTGGT CATGCCGCCA 
AAGCCTGCTG ACCATGCTGC TGAGTGGTAC AACATTGACT TCTCACTGCA GAACCAGCTG 
AGGCTGGCAG GCGCTTCCCC TGCCACAGTG GCTGCAGCTG CAGCTGTAGG GAGTGGGGCC 
AAAGACCCCT TGGCTCGAAA GATGCGGCTA CGGAGGCGCA AGGACTCAGC CCAGGATGAC 
CAGGCTAAGC AGGTGCTAAA AGGCATGTCA GATGTGGCCC AGGAGAAGAA CAAAAAGCAA 
GAGGAGAATG CAGATGCCCG GACCCCTGGG GGGAAGGTAC GGCGCTGGGA CCAGGGCCTG 
GAGAAGCCAC GCCTTGACTA CTCAGAGTTC TTCACAGAGG ATGTGGGCCA GCTGCCTGGC 
TTAACCATTT GGCAAATTGA GAACTTTGTG CCCGTGTTGG TGGAGGAAGC CTTCCATGGC 
AAGTTCTATG AGGCTGACTG CTACATTGTA CTCAAGACCT TTTTGGATGA CAGCGGCTCC 
CTGAACTGGG AGATCTACTA CTGGATCGGC GGAGAGGCCA CTCTTGACAA GAAAGCCTGC 
TCTGCTATCC ATGCTGTTAA CCTGCGAAAC TACCTGGGTG CTGAGTGCCG TACTGTTCGG 
GAAGAGATGG GCGATGAAAG TGAAGAGTTC CTGCAGGTTT TTGACAACGA CATCTCCTAC 
ATTGAAGGAG GAACAGCCAG TGGCTTCTAC ACTGTGGAAG ATACACACTA TGTCACCAGG 
ATGTACCGTG TATATGGGAA AAAGAACATC AGGTTGGAGC CTGTACCCAT CAAGGGTGCC 
TCCCTGGATC CAAGGTTTGT GTTCCTGCTG GACGGAGGGC TGGACATCTA CGTGTGGCGA 
GGGGCCCAAG CCACACTGAG CAGCACTACC AAGGCCAGGC TTTTTGCAGA GAAAATCAAC 
AAGAATGAGC GTAAAGGGAA AGCAGAAATC ACGCTCCTGG TGCAAGGCCA AGAGCCCCCC 
GAGTTCTGGG AGGTGCTGGG TGGGGAGCCA TCTGAAATCA AGAAACATGT ACCTGACAAC 
TTTTGGCCAC CCCAGCCCAA GCTGTACAAG GTGGGCCTGG GCCTGGGCTA CCTGGAACTG 
CCACAGATCA ACTACAAGCT CTCAGTGGAA CATAAAAAAC GGCCCAAGGT GGAACTGATG 
CCCGGAATGA GACTGCTGCA GAGCCTGCTG GACACACGAT GTGTGTACAT CCTGGACTGT 
TGGTCTGATG TGTTCATCTG GCTTGGCCGC AAGTCCCCAC GCCTGGTGCG TGCTGCAGCA 
CTCAAGCTGG GCCAAGAACT ATGTGGGATG CTACACCGAC CTCGCCATGC AGTGGTTAGC 
CGCAGCCTGG AGGGCACTGA GGCTCAGGTG TTTAAAGCCA AGTTCAAAAA TTGGGACGAT 
GTATTGACAG TGGACTACAC ACGCAACGCA GAGGCTGTGT TGCAGGGCCT GGGGCTCTCT 
GGGAAGGTGA AGCGTGACAC TGAGAAAAAA GACCAGATGA AGGCTGACCT CACTGCACTC 
TTCCTGCCTC GGCAGCCACC AATGGCACTG GCTGAGGTGC CACCGCAGTA CGCTACCCTC 
TTGTCCTCTT CCCTGGGCAG CCCCTGCTCA CCCCTGTCTA ATCACAGGTA CTGGGTGCCT 
GTGGAGTATG AGGAGGAAGG GAAAAAGGAA GACAAGGAGA AGGCCTCAGC AGAGAGCAAA 
GAAGGGGAAG AGGCAGCAGC CGAAGCAGAA AAGCAACCAG AGGAGGATTT CCAGTGCATC 
GTTTACTTCT GGCAGGGTCG GGAAGCTTCC AATATGGGCT GGCTCACCTT CACTTTTAGT 
CTGCAGAAGA AGTTTGAGAG CCTCTTCCCC GGCAAGCTGG AGGTAGTACG CATGACACAG 
CAGCAGGAGA ACCCCAAGTT TCTGACACAT TTTAAGAGAA AATTCATCAT CCACCGAGGC 
AAAAGAAAGG TGGCCCAGGG TGCCCTCCAG CCAAGCCTCT ACCAGATCCG CACCAATGGC 
AGTGCACTCT GTACCCGGTG CATCCAGATC AATACTGATT CCAGCCTCCT CAACTCTGAG 
TTCTGCTTCA TCCTCAAGGT CCCCTTTGAG AGTGAAGACA ATCAAGGCAT TGTATATGCC 
TGGGTGGGCC GAGCATCAGA CCCTGACGAA GCCAAGCTGG CAGAGGACAT CCTGAATACT 
ATGTTTGATA CCTCCTACAG CAAACAGGTC ATCAACGAAG GCGAGGAGCC CGAGAACTTC 
TTCTGGGTGG GCATTGGAGC ACAGAAGCCC TATGACGACG ATGCCGAGTA CATGAAGCAC 
ACGAGGCTGT TCAGATGCTC CAATGAGAAG GGCTACTTTG CAGTGACTGA AAAGTGCTCT 
GATTTCTGCC AAGATGACCT GGCGGATGAC GATATCATGT TGCTAGACAA TGGCCGAGAG 
GTCTACATGT GGGTGGGGAC CCAGACAAGC CAAGTAGAGA TCAAACTGAG TCTGAAGGCC 
TGCCAGGTAT ACATCCAGCA CACACGCTCC AAAGAAAATG AACGACCACG TTGTCTGCGC 
CTGGTCCGCA AAGGCAATGA GCAGCGGGCC TTCACCCGCT GCTTCCATGC CTGGAGCACC 
TTCCGCCAAG CTCCAGCGTA G

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

Flii ( XM_029558101.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029413961.1 Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X4, mRNA.

Price & Availability↑

CloneID	ONa138313
Clone ID Related Accession (Same CDS sequence)	XM_029558101.1
Accession Version	XM_029558101.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3627bp) 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	protein flightless-1 homolog isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358646.1) 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##

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGCCATTG TAGCACGAGC CAACAACCTG AAGAATTCTG GAGTTCCTGA TGATATCTTC 
AAGCTGGATG ACCTCTCAGT CCTGGACTTG AGCCACAACC AGTTGACAGA GTGCCCACGG 
GAGCTGGAGA ATGCCAAGAA CATGCTGGTG CTCAACCTCA GCCATAACAG CATTGACTCC 
ATCCCCAACC AACTATTCAT CAACCTTACG GACCTGCTGT ACCTGGACCT CAGTGAGAAT 
CACCTGGAGA GCCTACCGCC TCAGATGCGC CGCCTTGTGC ACCTGCAGAC ACTGGTGCTC 
AACGGGAACC CACTGCTGCA TGCTCAACTC CGGCAGCTCC CAGCGATGAT AGCCCTACAG 
ACCCTTCACC TTCGGAACAC ACAGCGCACC CAGAGCAATC TTCCCACTAG CCTGGAGGGC 
CTGAGCAACC TTGCAGATGT GGACCTGTCA TGCAACGACT TGACACGGGT GCCTGAGTGC 
CTATATACCC TCCCCAGCCT GCGCCGCCTC AACCTTAGCA GCAACCAGAT TTCAGAGCTG 
TCGCTGTGTG TTGACCAGTG GGTGCACATG GAGACTTTGA ACCTGTCCCG CAACCAGCTC 
ACCTCTCTGC CTTCAGCCAT TTGCAAGCTG ACCAAGCTGA AGAAGCTGTA CTTGAACTCC 
AACAAGCTGG ACTTCGATGG GCTGCCCTCT GGCATTGGCA AGCTCAGCAG CCTGGAGGAG 
TTCATGGCTG CCAACAACAA CCTGGAGCTG ATTCCCGAAA GTCTCTGCAG ATGCCCAAAG 
CTGAAGAAAC TCGTCTTGAA CAGGAATCGC CTGGTGACCC TCCCAGAGGC CATTCACTTC 
CTTACAGAGA TTGAGGTCCT GGATGTGCGG GAGAACCCCA GCCTGGTCAT GCCGCCAAAG 
CCTGCTGACC ATGCTGCTGA GTGGTACAAC ATTGACTTCT CACTGCAGAA CCAGCTGAGG 
CTGGCAGGCG CTTCCCCTGC CACAGTGGCT GCAGCTGCAG CTGTAGGGAG TGGGGCCAAA 
GACCCCTTGG CTCGAAAGAT GCGGCTACGG AGGCGCAAGG ACTCAGCCCA GGATGACCAG 
GCTAAGCAGG TGCTAAAAGG CATGTCAGAT GTGGCCCAGG AGAAGAACAA AAAGCAAGAG 
GAGAATGCAG ATGCCCGGAC CCCTGGGGGG AAGGTACGGC GCTGGGACCA GGGCCTGGAG 
AAGCCACGCC TTGACTACTC AGAGTTCTTC ACAGAGGATG TGGGCCAGCT GCCTGGCTTA 
ACCATTTGGC AAATTGAGAA CTTTGTGCCC GTGTTGGTGG AGGAAGCCTT CCATGGCAAG 
TTCTATGAGG CTGACTGCTA CATTGTACTC AAGACCTTTT TGGATGACAG CGGCTCCCTG 
AACTGGGAGA TCTACTACTG GATCGGCGGA GAGGCCACTC TTGACAAGAA AGCCTGCTCT 
GCTATCCATG CTGTTAACCT GCGAAACTAC CTGGGTGCTG AGTGCCGTAC TGTTCGGGAA 
GAGATGGGCG ATGAAAGTGA AGAGTTCCTG CAGGTTTTTG ACAACGACAT CTCCTACATT 
GAAGGAGGAA CAGCCAGTGG CTTCTACACT GTGGAAGATA CACACTATGT CACCAGGATG 
TACCGTGTAT ATGGGAAAAA GAACATCAGG TTGGAGCCTG TACCCATCAA GGGTGCCTCC 
CTGGATCCAA GGTTTGTGTT CCTGCTGGAC GGAGGGCTGG ACATCTACGT GTGGCGAGGG 
GCCCAAGCCA CACTGAGCAG CACTACCAAG GCCAGGCTTT TTGCAGAGAA AATCAACAAG 
AATGAGCGTA AAGGGAAAGC AGAAATCACG CTCCTGGTGC AAGGCCAAGA GCCCCCCGAG 
TTCTGGGAGG TGCTGGGTGG GGAGCCATCT GAAATCAAGA AACATGTACC TGACAACTTT 
TGGCCACCCC AGCCCAAGCT GTACAAGGTG GGCCTGGGCC TGGGCTACCT GGAACTGCCA 
CAGATCAACT ACAAGCTCTC AGTGGAACAT AAAAAACGGC CCAAGGTGGA ACTGATGCCC 
GGAATGAGAC TGCTGCAGAG CCTGCTGGAC ACACGATGTG TGTACATCCT GGACTGTTGG 
TCTGATGTGT TCATCTGGCT TGGCCGCAAG TCCCCACGCC TGGTGCGTGC TGCAGCACTC 
AAGCTGGGCC AAGAACTATG TGGGATGCTA CACCGACCTC GCCATGCAGT GGTTAGCCGC 
AGCCTGGAGG GCACTGAGGC TCAGGTGTTT AAAGCCAAGT TCAAAAATTG GGACGATGTA 
TTGACAGTGG ACTACACACG CAACGCAGAG GCTGTGTTGC AGGGCCTGGG GCTCTCTGGG 
AAGGTGAAGC GTGACACTGA GAAAAAAGAC CAGATGAAGG CTGACCTCAC TGCACTCTTC 
CTGCCTCGGC AGCCACCAAT GGCACTGGCT GAGGCAGAGC AGCTTATGGA AGAATGGAAC 
GAGGACCTAG ACGGCATGGA GGGCTTCGTG CTAGAGGGCC GGAAGTTCAC ACGGCTACCA 
GAGGAGGAAT TTGGCCACTT CTACATGCAG GACTGCTACG TCTTCCTCTG CAGGTACTGG 
GTGCCTGTGG AGTATGAGGA GGAAGGGAAA AAGGAAGACA AGGAGAAGGC CTCAGCAGAG 
AGCAAAGAAG GGGAAGAGGC AGCAGCCGAA GCAGAAAAGC AACCAGAGGA GGATTTCCAG 
TGCATCGTTT ACTTCTGGCA GGGTCGGGAA GCTTCCAATA TGGGCTGGCT CACCTTCACT 
TTTAGTCTGC AGAAGAAGTT TGAGAGCCTC TTCCCCGGCA AGCTGGAGGT AGTACGCATG 
ACACAGCAGC AGGAGAACCC CAAGTTTCTG ACACATTTTA AGAGAAAATT CATCATCCAC 
CGAGGCAAAA GAAAGGTGGC CCAGGGTGCC CTCCAGCCAA GCCTCTACCA GATCCGCACC 
AATGGCAGTG CACTCTGTAC CCGGTGCATC CAGATCAATA CTGATTCCAG CCTCCTCAAC 
TCTGAGTTCT GCTTCATCCT CAAGGTCCCC TTTGAGAGTG AAGACAATCA AGGCATTGTA 
TATGCCTGGG TGGGCCGAGC ATCAGACCCT GACGAAGCCA AGCTGGCAGA GGACATCCTG 
AATACTATGT TTGATACCTC CTACAGCAAA CAGGTCATCA ACGAAGGCGA GGAGCCCGAG 
AACTTCTTCT GGGTGGGCAT TGGAGCACAG AAGCCCTATG ACGACGATGC CGAGTACATG 
AAGCACACGA GGCTGTTCAG ATGCTCCAAT GAGAAGGGCT ACTTTGCAGT GACTGAAAAG 
TGCTCTGATT TCTGCCAAGA TGACCTGGCG GATGACGATA TCATGTTGCT AGACAATGGC 
CGAGAGGTCT ACATGTGGGT GGGGACCCAG ACAAGCCAAG TAGAGATCAA ACTGAGTCTG 
AAGGCCTGCC AGGTATACAT CCAGCACACA CGCTCCAAAG AAAATGAACG ACCACGTTGT 
CTGCGCCTGG TCCGCAAAGG CAATGAGCAG CGGGCCTTCA CCCGCTGCTT CCATGCCTGG 
AGCACCTTCC GCCAAGCTCC AGCGTAG

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

RefSeq	XP_029413961.1
CDS	58..3684
Translation	MEATGVLPFVRGVDLSGNDFKAIVARANNLKNSGVPDDIFKLDDLSVLDLSHNQLTECPRELENAKNMLVLNLSHNSIDSIPNQLFINLTDLLYLDLSENHLESLPPQMRRLVHLQTLVLNGNPLLHAQLRQLPAMIALQTLHLRNTQRTQSNLPTSLEGLSNLADVDLSCNDLTRVPECLYTLPSLRRLNLSSNQISELSLCVDQWVHMETLNLSRNQLTSLPSAICKLTKLKKLYLNSNKLDFDGLPSGIGKLSSLEEFMAANNNLELIPESLCRCPKLKKLVLNRNRLVTLPEAIHFLTEIEVLDVRENPSLVMPPKPADHAAEWYNIDFSLQNQLRLAGASPATVAAAAAVGSGAKDPLARKMRLRRRKDSAQDDQAKQVLKGMSDVAQEKNKKQEENADARTPGGKVRRWDQGLEKPRLDYSEFFTEDVGQLPGLTIWQIENFVPVLVEEAFHGKFYEADCYIVLKTFLDDSGSLNWEIYYWIGGEATLDKKACSAIHAVNLRNYLGAECRTVREEMGDESEEFLQVFDNDISYIEGGTASGFYTVEDTHYVTRMYRVYGKKNIRLEPVPIKGASLDPRFVFLLDGGLDIYVWRGAQATLSSTTKARLFAEKINKNERKGKAEITLLVQGQEPPEFWEVLGGEPSEIKKHVPDNFWPPQPKLYKVGLGLGYLELPQINYKLSVEHKKRPKVELMPGMRLLQSLLDTRCVYILDCWSDVFIWLGRKSPRLVRAAALKLGQELCGMLHRPRHAVVSRSLEGTEAQVFKAKFKNWDDVLTVDYTRNAEAVLQGLGLSGKVKRDTEKKDQMKADLTALFLPRQPPMALAEAEQLMEEWNEDLDGMEGFVLEGRKFTRLPEEEFGHFYMQDCYVFLCRYWVPVEYEEEGKKEDKEKASAESKEGEEAAAEAEKQPEEDFQCIVYFWQGREASNMGWLTFTFSLQKKFESLFPGKLEVVRMTQQQENPKFLTHFKRKFIIHRGKRKVAQGALQPSLYQIRTNGSALCTRCIQINTDSSLLNSEFCFILKVPFESEDNQGIVYAWVGRASDPDEAKLAEDILNTMFDTSYSKQVINEGEEPENFFWVGIGAQKPYDDDAEYMKHTRLFRCSNEKGYFAVTEKCSDFCQDDLADDDIMLLDNGREVYMWVGTQTSQVEIKLSLKACQVYIQHTRSKENERPRCLRLVRKGNEQRAFTRCFHAWSTFRQAPA

Target ORF information:

RefSeq Version	XM_029558101.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X4, mRNA.

Target ORF information:

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

XM_029558101.1

ORF Insert Sequence:

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGCCATTG TAGCACGAGC CAACAACCTG AAGAATTCTG GAGTTCCTGA TGATATCTTC 
AAGCTGGATG ACCTCTCAGT CCTGGACTTG AGCCACAACC AGTTGACAGA GTGCCCACGG 
GAGCTGGAGA ATGCCAAGAA CATGCTGGTG CTCAACCTCA GCCATAACAG CATTGACTCC 
ATCCCCAACC AACTATTCAT CAACCTTACG GACCTGCTGT ACCTGGACCT CAGTGAGAAT 
CACCTGGAGA GCCTACCGCC TCAGATGCGC CGCCTTGTGC ACCTGCAGAC ACTGGTGCTC 
AACGGGAACC CACTGCTGCA TGCTCAACTC CGGCAGCTCC CAGCGATGAT AGCCCTACAG 
ACCCTTCACC TTCGGAACAC ACAGCGCACC CAGAGCAATC TTCCCACTAG CCTGGAGGGC 
CTGAGCAACC TTGCAGATGT GGACCTGTCA TGCAACGACT TGACACGGGT GCCTGAGTGC 
CTATATACCC TCCCCAGCCT GCGCCGCCTC AACCTTAGCA GCAACCAGAT TTCAGAGCTG 
TCGCTGTGTG TTGACCAGTG GGTGCACATG GAGACTTTGA ACCTGTCCCG CAACCAGCTC 
ACCTCTCTGC CTTCAGCCAT TTGCAAGCTG ACCAAGCTGA AGAAGCTGTA CTTGAACTCC 
AACAAGCTGG ACTTCGATGG GCTGCCCTCT GGCATTGGCA AGCTCAGCAG CCTGGAGGAG 
TTCATGGCTG CCAACAACAA CCTGGAGCTG ATTCCCGAAA GTCTCTGCAG ATGCCCAAAG 
CTGAAGAAAC TCGTCTTGAA CAGGAATCGC CTGGTGACCC TCCCAGAGGC CATTCACTTC 
CTTACAGAGA TTGAGGTCCT GGATGTGCGG GAGAACCCCA GCCTGGTCAT GCCGCCAAAG 
CCTGCTGACC ATGCTGCTGA GTGGTACAAC ATTGACTTCT CACTGCAGAA CCAGCTGAGG 
CTGGCAGGCG CTTCCCCTGC CACAGTGGCT GCAGCTGCAG CTGTAGGGAG TGGGGCCAAA 
GACCCCTTGG CTCGAAAGAT GCGGCTACGG AGGCGCAAGG ACTCAGCCCA GGATGACCAG 
GCTAAGCAGG TGCTAAAAGG CATGTCAGAT GTGGCCCAGG AGAAGAACAA AAAGCAAGAG 
GAGAATGCAG ATGCCCGGAC CCCTGGGGGG AAGGTACGGC GCTGGGACCA GGGCCTGGAG 
AAGCCACGCC TTGACTACTC AGAGTTCTTC ACAGAGGATG TGGGCCAGCT GCCTGGCTTA 
ACCATTTGGC AAATTGAGAA CTTTGTGCCC GTGTTGGTGG AGGAAGCCTT CCATGGCAAG 
TTCTATGAGG CTGACTGCTA CATTGTACTC AAGACCTTTT TGGATGACAG CGGCTCCCTG 
AACTGGGAGA TCTACTACTG GATCGGCGGA GAGGCCACTC TTGACAAGAA AGCCTGCTCT 
GCTATCCATG CTGTTAACCT GCGAAACTAC CTGGGTGCTG AGTGCCGTAC TGTTCGGGAA 
GAGATGGGCG ATGAAAGTGA AGAGTTCCTG CAGGTTTTTG ACAACGACAT CTCCTACATT 
GAAGGAGGAA CAGCCAGTGG CTTCTACACT GTGGAAGATA CACACTATGT CACCAGGATG 
TACCGTGTAT ATGGGAAAAA GAACATCAGG TTGGAGCCTG TACCCATCAA GGGTGCCTCC 
CTGGATCCAA GGTTTGTGTT CCTGCTGGAC GGAGGGCTGG ACATCTACGT GTGGCGAGGG 
GCCCAAGCCA CACTGAGCAG CACTACCAAG GCCAGGCTTT TTGCAGAGAA AATCAACAAG 
AATGAGCGTA AAGGGAAAGC AGAAATCACG CTCCTGGTGC AAGGCCAAGA GCCCCCCGAG 
TTCTGGGAGG TGCTGGGTGG GGAGCCATCT GAAATCAAGA AACATGTACC TGACAACTTT 
TGGCCACCCC AGCCCAAGCT GTACAAGGTG GGCCTGGGCC TGGGCTACCT GGAACTGCCA 
CAGATCAACT ACAAGCTCTC AGTGGAACAT AAAAAACGGC CCAAGGTGGA ACTGATGCCC 
GGAATGAGAC TGCTGCAGAG CCTGCTGGAC ACACGATGTG TGTACATCCT GGACTGTTGG 
TCTGATGTGT TCATCTGGCT TGGCCGCAAG TCCCCACGCC TGGTGCGTGC TGCAGCACTC 
AAGCTGGGCC AAGAACTATG TGGGATGCTA CACCGACCTC GCCATGCAGT GGTTAGCCGC 
AGCCTGGAGG GCACTGAGGC TCAGGTGTTT AAAGCCAAGT TCAAAAATTG GGACGATGTA 
TTGACAGTGG ACTACACACG CAACGCAGAG GCTGTGTTGC AGGGCCTGGG GCTCTCTGGG 
AAGGTGAAGC GTGACACTGA GAAAAAAGAC CAGATGAAGG CTGACCTCAC TGCACTCTTC 
CTGCCTCGGC AGCCACCAAT GGCACTGGCT GAGGCAGAGC AGCTTATGGA AGAATGGAAC 
GAGGACCTAG ACGGCATGGA GGGCTTCGTG CTAGAGGGCC GGAAGTTCAC ACGGCTACCA 
GAGGAGGAAT TTGGCCACTT CTACATGCAG GACTGCTACG TCTTCCTCTG CAGGTACTGG 
GTGCCTGTGG AGTATGAGGA GGAAGGGAAA AAGGAAGACA AGGAGAAGGC CTCAGCAGAG 
AGCAAAGAAG GGGAAGAGGC AGCAGCCGAA GCAGAAAAGC AACCAGAGGA GGATTTCCAG 
TGCATCGTTT ACTTCTGGCA GGGTCGGGAA GCTTCCAATA TGGGCTGGCT CACCTTCACT 
TTTAGTCTGC AGAAGAAGTT TGAGAGCCTC TTCCCCGGCA AGCTGGAGGT AGTACGCATG 
ACACAGCAGC AGGAGAACCC CAAGTTTCTG ACACATTTTA AGAGAAAATT CATCATCCAC 
CGAGGCAAAA GAAAGGTGGC CCAGGGTGCC CTCCAGCCAA GCCTCTACCA GATCCGCACC 
AATGGCAGTG CACTCTGTAC CCGGTGCATC CAGATCAATA CTGATTCCAG CCTCCTCAAC 
TCTGAGTTCT GCTTCATCCT CAAGGTCCCC TTTGAGAGTG AAGACAATCA AGGCATTGTA 
TATGCCTGGG TGGGCCGAGC ATCAGACCCT GACGAAGCCA AGCTGGCAGA GGACATCCTG 
AATACTATGT TTGATACCTC CTACAGCAAA CAGGTCATCA ACGAAGGCGA GGAGCCCGAG 
AACTTCTTCT GGGTGGGCAT TGGAGCACAG AAGCCCTATG ACGACGATGC CGAGTACATG 
AAGCACACGA GGCTGTTCAG ATGCTCCAAT GAGAAGGGCT ACTTTGCAGT GACTGAAAAG 
TGCTCTGATT TCTGCCAAGA TGACCTGGCG GATGACGATA TCATGTTGCT AGACAATGGC 
CGAGAGGTCT ACATGTGGGT GGGGACCCAG ACAAGCCAAG TAGAGATCAA ACTGAGTCTG 
AAGGCCTGCC AGGTATACAT CCAGCACACA CGCTCCAAAG AAAATGAACG ACCACGTTGT 
CTGCGCCTGG TCCGCAAAGG CAATGAGCAG CGGGCCTTCA CCCGCTGCTT CCATGCCTGG 
AGCACCTTCC GCCAAGCTCC AGCGTAG

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

Flii ( XM_008821959.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008820181.1 Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X1, mRNA.

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CloneID	ONa39173
Clone ID Related Accession (Same CDS sequence)	XM_008821959.1 , XM_008821959.2
Accession Version	XM_008821959.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3810bp) 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	protein flightless-1 homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358646.1) 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 :: 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##

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGGT CCTGGATGTG CGGGAGAACC CCAGCCTGGT CATGCCGCCA 
AAGCCTGCTG ACCATGCTGC TGAGTGGTAC AACATTGACT TCTCACTGCA GAACCAGCTG 
AGGCTGGCAG GCGCTTCCCC TGCCACAGTG GCTGCAGCTG CAGCTGTAGG GAGTGGGGCC 
AAAGACCCCT TGGCTCGAAA GATGCGGCTA CGGAGGCGCA AGGACTCAGC CCAGGATGAC 
CAGGCTAAGC AGGTGCTAAA AGGCATGTCA GATGTGGCCC AGGAGAAGAA CAAAAAGCAA 
GAGGAGAATG CAGATGCCCG GACCCCTGGG GGGAAGGTAC GGCGCTGGGA CCAGGGCCTG 
GAGAAGCCAC GCCTTGACTA CTCAGAGTTC TTCACAGAGG ATGTGGGCCA GCTGCCTGGC 
TTAACCATTT GGCAAATTGA GAACTTTGTG CCCGTGTTGG TGGAGGAAGC CTTCCATGGC 
AAGTTCTATG AGGCTGACTG CTACATTGTA CTCAAGACCT TTTTGGATGA CAGCGGCTCC 
CTGAACTGGG AGATCTACTA CTGGATCGGC GGAGAGGCCA CTCTTGACAA GAAAGCCTGC 
TCTGCTATCC ATGCTGTTAA CCTGCGAAAC TACCTGGGTG CTGAGTGCCG TACTGTTCGG 
GAAGAGATGG GCGATGAAAG TGAAGAGTTC CTGCAGGTTT TTGACAACGA CATCTCCTAC 
ATTGAAGGAG GAACAGCCAG TGGCTTCTAC ACTGTGGAAG ATACACACTA TGTCACCAGG 
ATGTACCGTG TATATGGGAA AAAGAACATC AGGTTGGAGC CTGTACCCAT CAAGGGTGCC 
TCCCTGGATC CAAGGTTTGT GTTCCTGCTG GACGGAGGGC TGGACATCTA CGTGTGGCGA 
GGGGCCCAAG CCACACTGAG CAGCACTACC AAGGCCAGGC TTTTTGCAGA GAAAATCAAC 
AAGAATGAGC GTAAAGGGAA AGCAGAAATC ACGCTCCTGG TGCAAGGCCA AGAGCCCCCC 
GAGTTCTGGG AGGTGCTGGG TGGGGAGCCA TCTGAAATCA AGAAACATGT ACCTGACAAC 
TTTTGGCCAC CCCAGCCCAA GCTGTACAAG GTGGGCCTGG GCCTGGGCTA CCTGGAACTG 
CCACAGATCA ACTACAAGCT CTCAGTGGAA CATAAAAAAC GGCCCAAGGT GGAACTGATG 
CCCGGAATGA GACTGCTGCA GAGCCTGCTG GACACACGAT GTGTGTACAT CCTGGACTGT 
TGGTCTGATG TGTTCATCTG GCTTGGCCGC AAGTCCCCAC GCCTGGTGCG TGCTGCAGCA 
CTCAAGCTGG GCCAAGAACT ATGTGGGATG CTACACCGAC CTCGCCATGC AGTGGTTAGC 
CGCAGCCTGG AGGGCACTGA GGCTCAGGTG TTTAAAGCCA AGTTCAAAAA TTGGGACGAT 
GTATTGACAG TGGACTACAC ACGCAACGCA GAGGCTGTGT TGCAGGGCCT GGGGCTCTCT 
GGGAAGGTGA AGCGTGACAC TGAGAAAAAA GACCAGATGA AGGCTGACCT CACTGCACTC 
TTCCTGCCTC GGCAGCCACC AATGGCACTG GCTGAGGCAG AGCAGCTTAT GGAAGAATGG 
AACGAGGACC TAGACGGCAT GGAGGGCTTC GTGCTAGAGG GCCGGAAGTT CACACGGCTA 
CCAGAGGAGG AATTTGGCCA CTTCTACATG CAGGACTGCT ACGTCTTCCT CTGCAGGTAC 
TGGGTGCCTG TGGAGTATGA GGAGGAAGGG AAAAAGGAAG ACAAGGAGAA GGCCTCAGCA 
GAGAGCAAAG AAGGGGAAGA GGCAGCAGCC GAAGCAGAAA AGCAACCAGA GGAGGATTTC 
CAGTGCATCG TTTACTTCTG GCAGGGTCGG GAAGCTTCCA ATATGGGCTG GCTCACCTTC 
ACTTTTAGTC TGCAGAAGAA GTTTGAGAGC CTCTTCCCCG GCAAGCTGGA GGTAGTACGC 
ATGACACAGC AGCAGGAGAA CCCCAAGTTT CTGACACATT TTAAGAGAAA ATTCATCATC 
CACCGAGGCA AAAGAAAGGT GGCCCAGGGT GCCCTCCAGC CAAGCCTCTA CCAGATCCGC 
ACCAATGGCA GTGCACTCTG TACCCGGTGC ATCCAGATCA ATACTGATTC CAGCCTCCTC 
AACTCTGAGT TCTGCTTCAT CCTCAAGGTC CCCTTTGAGA GTGAAGACAA TCAAGGCATT 
GTATATGCCT GGGTGGGCCG AGCATCAGAC CCTGACGAAG CCAAGCTGGC AGAGGACATC 
CTGAATACTA TGTTTGATAC CTCCTACAGC AAACAGGTCA TCAACGAAGG CGAGGAGCCC 
GAGAACTTCT TCTGGGTGGG CATTGGAGCA CAGAAGCCCT ATGACGACGA TGCCGAGTAC 
ATGAAGCACA CGAGGCTGTT CAGATGCTCC AATGAGAAGG GCTACTTTGC AGTGACTGAA 
AAGTGCTCTG ATTTCTGCCA AGATGACCTG GCGGATGACG ATATCATGTT GCTAGACAAT 
GGCCGAGAGG TCTACATGTG GGTGGGGACC CAGACAAGCC AAGTAGAGAT CAAACTGAGT 
CTGAAGGCCT GCCAGGTATA CATCCAGCAC ACACGCTCCA AAGAAAATGA ACGACCACGT 
TGTCTGCGCC TGGTCCGCAA AGGCAATGAG CAGCGGGCCT TCACCCGCTG CTTCCATGCC 
TGGAGCACCT TCCGCCAAGC TCCAGCGTAG

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

RefSeq	XP_008820181.1
CDS	62..3871
Translation	MEATGVLPFVRGVDLSGNDFKGGYFPENVKAMTSLRWLKLNRTGLCYLPEELAALQKLEHLSVSHNNLTTLHGELSSLPSLRAIVARANNLKNSGVPDDIFKLDDLSVLDLSHNQLTECPRELENAKNMLVLNLSHNSIDSIPNQLFINLTDLLYLDLSENHLESLPPQMRRLVHLQTLVLNGNPLLHAQLRQLPAMIALQTLHLRNTQRTQSNLPTSLEGLSNLADVDLSCNDLTRVPECLYTLPSLRRLNLSSNQISELSLCVDQWVHMETLNLSRNQLTSLPSAICKLTKLKKLYLNSNKLDFDGLPSGIGKLSSLEEFMAANNNLELIPESLCRCPKLKKLVLNRNRLVTLPEAIHFLTEIEVLDVRENPSLVMPPKPADHAAEWYNIDFSLQNQLRLAGASPATVAAAAAVGSGAKDPLARKMRLRRRKDSAQDDQAKQVLKGMSDVAQEKNKKQEENADARTPGGKVRRWDQGLEKPRLDYSEFFTEDVGQLPGLTIWQIENFVPVLVEEAFHGKFYEADCYIVLKTFLDDSGSLNWEIYYWIGGEATLDKKACSAIHAVNLRNYLGAECRTVREEMGDESEEFLQVFDNDISYIEGGTASGFYTVEDTHYVTRMYRVYGKKNIRLEPVPIKGASLDPRFVFLLDGGLDIYVWRGAQATLSSTTKARLFAEKINKNERKGKAEITLLVQGQEPPEFWEVLGGEPSEIKKHVPDNFWPPQPKLYKVGLGLGYLELPQINYKLSVEHKKRPKVELMPGMRLLQSLLDTRCVYILDCWSDVFIWLGRKSPRLVRAAALKLGQELCGMLHRPRHAVVSRSLEGTEAQVFKAKFKNWDDVLTVDYTRNAEAVLQGLGLSGKVKRDTEKKDQMKADLTALFLPRQPPMALAEAEQLMEEWNEDLDGMEGFVLEGRKFTRLPEEEFGHFYMQDCYVFLCRYWVPVEYEEEGKKEDKEKASAESKEGEEAAAEAEKQPEEDFQCIVYFWQGREASNMGWLTFTFSLQKKFESLFPGKLEVVRMTQQQENPKFLTHFKRKFIIHRGKRKVAQGALQPSLYQIRTNGSALCTRCIQINTDSSLLNSEFCFILKVPFESEDNQGIVYAWVGRASDPDEAKLAEDILNTMFDTSYSKQVINEGEEPENFFWVGIGAQKPYDDDAEYMKHTRLFRCSNEKGYFAVTEKCSDFCQDDLADDDIMLLDNGREVYMWVGTQTSQVEIKLSLKACQVYIQHTRSKENERPRCLRLVRKGNEQRAFTRCFHAWSTFRQAPA

Target ORF information:

RefSeq Version	XM_008821959.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X1, mRNA.

Target ORF information:

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

XM_008821959.1

ORF Insert Sequence:

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGGT CCTGGATGTG CGGGAGAACC CCAGCCTGGT CATGCCGCCA 
AAGCCTGCTG ACCATGCTGC TGAGTGGTAC AACATTGACT TCTCACTGCA GAACCAGCTG 
AGGCTGGCAG GCGCTTCCCC TGCCACAGTG GCTGCAGCTG CAGCTGTAGG GAGTGGGGCC 
AAAGACCCCT TGGCTCGAAA GATGCGGCTA CGGAGGCGCA AGGACTCAGC CCAGGATGAC 
CAGGCTAAGC AGGTGCTAAA AGGCATGTCA GATGTGGCCC AGGAGAAGAA CAAAAAGCAA 
GAGGAGAATG CAGATGCCCG GACCCCTGGG GGGAAGGTAC GGCGCTGGGA CCAGGGCCTG 
GAGAAGCCAC GCCTTGACTA CTCAGAGTTC TTCACAGAGG ATGTGGGCCA GCTGCCTGGC 
TTAACCATTT GGCAAATTGA GAACTTTGTG CCCGTGTTGG TGGAGGAAGC CTTCCATGGC 
AAGTTCTATG AGGCTGACTG CTACATTGTA CTCAAGACCT TTTTGGATGA CAGCGGCTCC 
CTGAACTGGG AGATCTACTA CTGGATCGGC GGAGAGGCCA CTCTTGACAA GAAAGCCTGC 
TCTGCTATCC ATGCTGTTAA CCTGCGAAAC TACCTGGGTG CTGAGTGCCG TACTGTTCGG 
GAAGAGATGG GCGATGAAAG TGAAGAGTTC CTGCAGGTTT TTGACAACGA CATCTCCTAC 
ATTGAAGGAG GAACAGCCAG TGGCTTCTAC ACTGTGGAAG ATACACACTA TGTCACCAGG 
ATGTACCGTG TATATGGGAA AAAGAACATC AGGTTGGAGC CTGTACCCAT CAAGGGTGCC 
TCCCTGGATC CAAGGTTTGT GTTCCTGCTG GACGGAGGGC TGGACATCTA CGTGTGGCGA 
GGGGCCCAAG CCACACTGAG CAGCACTACC AAGGCCAGGC TTTTTGCAGA GAAAATCAAC 
AAGAATGAGC GTAAAGGGAA AGCAGAAATC ACGCTCCTGG TGCAAGGCCA AGAGCCCCCC 
GAGTTCTGGG AGGTGCTGGG TGGGGAGCCA TCTGAAATCA AGAAACATGT ACCTGACAAC 
TTTTGGCCAC CCCAGCCCAA GCTGTACAAG GTGGGCCTGG GCCTGGGCTA CCTGGAACTG 
CCACAGATCA ACTACAAGCT CTCAGTGGAA CATAAAAAAC GGCCCAAGGT GGAACTGATG 
CCCGGAATGA GACTGCTGCA GAGCCTGCTG GACACACGAT GTGTGTACAT CCTGGACTGT 
TGGTCTGATG TGTTCATCTG GCTTGGCCGC AAGTCCCCAC GCCTGGTGCG TGCTGCAGCA 
CTCAAGCTGG GCCAAGAACT ATGTGGGATG CTACACCGAC CTCGCCATGC AGTGGTTAGC 
CGCAGCCTGG AGGGCACTGA GGCTCAGGTG TTTAAAGCCA AGTTCAAAAA TTGGGACGAT 
GTATTGACAG TGGACTACAC ACGCAACGCA GAGGCTGTGT TGCAGGGCCT GGGGCTCTCT 
GGGAAGGTGA AGCGTGACAC TGAGAAAAAA GACCAGATGA AGGCTGACCT CACTGCACTC 
TTCCTGCCTC GGCAGCCACC AATGGCACTG GCTGAGGCAG AGCAGCTTAT GGAAGAATGG 
AACGAGGACC TAGACGGCAT GGAGGGCTTC GTGCTAGAGG GCCGGAAGTT CACACGGCTA 
CCAGAGGAGG AATTTGGCCA CTTCTACATG CAGGACTGCT ACGTCTTCCT CTGCAGGTAC 
TGGGTGCCTG TGGAGTATGA GGAGGAAGGG AAAAAGGAAG ACAAGGAGAA GGCCTCAGCA 
GAGAGCAAAG AAGGGGAAGA GGCAGCAGCC GAAGCAGAAA AGCAACCAGA GGAGGATTTC 
CAGTGCATCG TTTACTTCTG GCAGGGTCGG GAAGCTTCCA ATATGGGCTG GCTCACCTTC 
ACTTTTAGTC TGCAGAAGAA GTTTGAGAGC CTCTTCCCCG GCAAGCTGGA GGTAGTACGC 
ATGACACAGC AGCAGGAGAA CCCCAAGTTT CTGACACATT TTAAGAGAAA ATTCATCATC 
CACCGAGGCA AAAGAAAGGT GGCCCAGGGT GCCCTCCAGC CAAGCCTCTA CCAGATCCGC 
ACCAATGGCA GTGCACTCTG TACCCGGTGC ATCCAGATCA ATACTGATTC CAGCCTCCTC 
AACTCTGAGT TCTGCTTCAT CCTCAAGGTC CCCTTTGAGA GTGAAGACAA TCAAGGCATT 
GTATATGCCT GGGTGGGCCG AGCATCAGAC CCTGACGAAG CCAAGCTGGC AGAGGACATC 
CTGAATACTA TGTTTGATAC CTCCTACAGC AAACAGGTCA TCAACGAAGG CGAGGAGCCC 
GAGAACTTCT TCTGGGTGGG CATTGGAGCA CAGAAGCCCT ATGACGACGA TGCCGAGTAC 
ATGAAGCACA CGAGGCTGTT CAGATGCTCC AATGAGAAGG GCTACTTTGC AGTGACTGAA 
AAGTGCTCTG ATTTCTGCCA AGATGACCTG GCGGATGACG ATATCATGTT GCTAGACAAT 
GGCCGAGAGG TCTACATGTG GGTGGGGACC CAGACAAGCC AAGTAGAGAT CAAACTGAGT 
CTGAAGGCCT GCCAGGTATA CATCCAGCAC ACACGCTCCA AAGAAAATGA ACGACCACGT 
TGTCTGCGCC TGGTCCGCAA AGGCAATGAG CAGCGGGCCT TCACCCGCTG CTTCCATGCC 
TGGAGCACCT TCCGCCAAGC TCCAGCGTAG

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

Flii ( XM_008821959.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008820181.1 Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ONa39173
Clone ID Related Accession (Same CDS sequence)	XM_008821959.1 , XM_008821959.2
Accession Version	XM_008821959.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3810bp) 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	protein flightless-1 homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358646.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008821959.1. ##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##

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGGT CCTGGATGTG CGGGAGAACC CCAGCCTGGT CATGCCGCCA 
AAGCCTGCTG ACCATGCTGC TGAGTGGTAC AACATTGACT TCTCACTGCA GAACCAGCTG 
AGGCTGGCAG GCGCTTCCCC TGCCACAGTG GCTGCAGCTG CAGCTGTAGG GAGTGGGGCC 
AAAGACCCCT TGGCTCGAAA GATGCGGCTA CGGAGGCGCA AGGACTCAGC CCAGGATGAC 
CAGGCTAAGC AGGTGCTAAA AGGCATGTCA GATGTGGCCC AGGAGAAGAA CAAAAAGCAA 
GAGGAGAATG CAGATGCCCG GACCCCTGGG GGGAAGGTAC GGCGCTGGGA CCAGGGCCTG 
GAGAAGCCAC GCCTTGACTA CTCAGAGTTC TTCACAGAGG ATGTGGGCCA GCTGCCTGGC 
TTAACCATTT GGCAAATTGA GAACTTTGTG CCCGTGTTGG TGGAGGAAGC CTTCCATGGC 
AAGTTCTATG AGGCTGACTG CTACATTGTA CTCAAGACCT TTTTGGATGA CAGCGGCTCC 
CTGAACTGGG AGATCTACTA CTGGATCGGC GGAGAGGCCA CTCTTGACAA GAAAGCCTGC 
TCTGCTATCC ATGCTGTTAA CCTGCGAAAC TACCTGGGTG CTGAGTGCCG TACTGTTCGG 
GAAGAGATGG GCGATGAAAG TGAAGAGTTC CTGCAGGTTT TTGACAACGA CATCTCCTAC 
ATTGAAGGAG GAACAGCCAG TGGCTTCTAC ACTGTGGAAG ATACACACTA TGTCACCAGG 
ATGTACCGTG TATATGGGAA AAAGAACATC AGGTTGGAGC CTGTACCCAT CAAGGGTGCC 
TCCCTGGATC CAAGGTTTGT GTTCCTGCTG GACGGAGGGC TGGACATCTA CGTGTGGCGA 
GGGGCCCAAG CCACACTGAG CAGCACTACC AAGGCCAGGC TTTTTGCAGA GAAAATCAAC 
AAGAATGAGC GTAAAGGGAA AGCAGAAATC ACGCTCCTGG TGCAAGGCCA AGAGCCCCCC 
GAGTTCTGGG AGGTGCTGGG TGGGGAGCCA TCTGAAATCA AGAAACATGT ACCTGACAAC 
TTTTGGCCAC CCCAGCCCAA GCTGTACAAG GTGGGCCTGG GCCTGGGCTA CCTGGAACTG 
CCACAGATCA ACTACAAGCT CTCAGTGGAA CATAAAAAAC GGCCCAAGGT GGAACTGATG 
CCCGGAATGA GACTGCTGCA GAGCCTGCTG GACACACGAT GTGTGTACAT CCTGGACTGT 
TGGTCTGATG TGTTCATCTG GCTTGGCCGC AAGTCCCCAC GCCTGGTGCG TGCTGCAGCA 
CTCAAGCTGG GCCAAGAACT ATGTGGGATG CTACACCGAC CTCGCCATGC AGTGGTTAGC 
CGCAGCCTGG AGGGCACTGA GGCTCAGGTG TTTAAAGCCA AGTTCAAAAA TTGGGACGAT 
GTATTGACAG TGGACTACAC ACGCAACGCA GAGGCTGTGT TGCAGGGCCT GGGGCTCTCT 
GGGAAGGTGA AGCGTGACAC TGAGAAAAAA GACCAGATGA AGGCTGACCT CACTGCACTC 
TTCCTGCCTC GGCAGCCACC AATGGCACTG GCTGAGGCAG AGCAGCTTAT GGAAGAATGG 
AACGAGGACC TAGACGGCAT GGAGGGCTTC GTGCTAGAGG GCCGGAAGTT CACACGGCTA 
CCAGAGGAGG AATTTGGCCA CTTCTACATG CAGGACTGCT ACGTCTTCCT CTGCAGGTAC 
TGGGTGCCTG TGGAGTATGA GGAGGAAGGG AAAAAGGAAG ACAAGGAGAA GGCCTCAGCA 
GAGAGCAAAG AAGGGGAAGA GGCAGCAGCC GAAGCAGAAA AGCAACCAGA GGAGGATTTC 
CAGTGCATCG TTTACTTCTG GCAGGGTCGG GAAGCTTCCA ATATGGGCTG GCTCACCTTC 
ACTTTTAGTC TGCAGAAGAA GTTTGAGAGC CTCTTCCCCG GCAAGCTGGA GGTAGTACGC 
ATGACACAGC AGCAGGAGAA CCCCAAGTTT CTGACACATT TTAAGAGAAA ATTCATCATC 
CACCGAGGCA AAAGAAAGGT GGCCCAGGGT GCCCTCCAGC CAAGCCTCTA CCAGATCCGC 
ACCAATGGCA GTGCACTCTG TACCCGGTGC ATCCAGATCA ATACTGATTC CAGCCTCCTC 
AACTCTGAGT TCTGCTTCAT CCTCAAGGTC CCCTTTGAGA GTGAAGACAA TCAAGGCATT 
GTATATGCCT GGGTGGGCCG AGCATCAGAC CCTGACGAAG CCAAGCTGGC AGAGGACATC 
CTGAATACTA TGTTTGATAC CTCCTACAGC AAACAGGTCA TCAACGAAGG CGAGGAGCCC 
GAGAACTTCT TCTGGGTGGG CATTGGAGCA CAGAAGCCCT ATGACGACGA TGCCGAGTAC 
ATGAAGCACA CGAGGCTGTT CAGATGCTCC AATGAGAAGG GCTACTTTGC AGTGACTGAA 
AAGTGCTCTG ATTTCTGCCA AGATGACCTG GCGGATGACG ATATCATGTT GCTAGACAAT 
GGCCGAGAGG TCTACATGTG GGTGGGGACC CAGACAAGCC AAGTAGAGAT CAAACTGAGT 
CTGAAGGCCT GCCAGGTATA CATCCAGCAC ACACGCTCCA AAGAAAATGA ACGACCACGT 
TGTCTGCGCC TGGTCCGCAA AGGCAATGAG CAGCGGGCCT TCACCCGCTG CTTCCATGCC 
TGGAGCACCT TCCGCCAAGC TCCAGCGTAG

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

RefSeq	XP_008820181.1
CDS	1..3810
Translation	MEATGVLPFVRGVDLSGNDFKGGYFPENVKAMTSLRWLKLNRTGLCYLPEELAALQKLEHLSVSHNNLTTLHGELSSLPSLRAIVARANNLKNSGVPDDIFKLDDLSVLDLSHNQLTECPRELENAKNMLVLNLSHNSIDSIPNQLFINLTDLLYLDLSENHLESLPPQMRRLVHLQTLVLNGNPLLHAQLRQLPAMIALQTLHLRNTQRTQSNLPTSLEGLSNLADVDLSCNDLTRVPECLYTLPSLRRLNLSSNQISELSLCVDQWVHMETLNLSRNQLTSLPSAICKLTKLKKLYLNSNKLDFDGLPSGIGKLSSLEEFMAANNNLELIPESLCRCPKLKKLVLNRNRLVTLPEAIHFLTEIEVLDVRENPSLVMPPKPADHAAEWYNIDFSLQNQLRLAGASPATVAAAAAVGSGAKDPLARKMRLRRRKDSAQDDQAKQVLKGMSDVAQEKNKKQEENADARTPGGKVRRWDQGLEKPRLDYSEFFTEDVGQLPGLTIWQIENFVPVLVEEAFHGKFYEADCYIVLKTFLDDSGSLNWEIYYWIGGEATLDKKACSAIHAVNLRNYLGAECRTVREEMGDESEEFLQVFDNDISYIEGGTASGFYTVEDTHYVTRMYRVYGKKNIRLEPVPIKGASLDPRFVFLLDGGLDIYVWRGAQATLSSTTKARLFAEKINKNERKGKAEITLLVQGQEPPEFWEVLGGEPSEIKKHVPDNFWPPQPKLYKVGLGLGYLELPQINYKLSVEHKKRPKVELMPGMRLLQSLLDTRCVYILDCWSDVFIWLGRKSPRLVRAAALKLGQELCGMLHRPRHAVVSRSLEGTEAQVFKAKFKNWDDVLTVDYTRNAEAVLQGLGLSGKVKRDTEKKDQMKADLTALFLPRQPPMALAEAEQLMEEWNEDLDGMEGFVLEGRKFTRLPEEEFGHFYMQDCYVFLCRYWVPVEYEEEGKKEDKEKASAESKEGEEAAAEAEKQPEEDFQCIVYFWQGREASNMGWLTFTFSLQKKFESLFPGKLEVVRMTQQQENPKFLTHFKRKFIIHRGKRKVAQGALQPSLYQIRTNGSALCTRCIQINTDSSLLNSEFCFILKVPFESEDNQGIVYAWVGRASDPDEAKLAEDILNTMFDTSYSKQVINEGEEPENFFWVGIGAQKPYDDDAEYMKHTRLFRCSNEKGYFAVTEKCSDFCQDDLADDDIMLLDNGREVYMWVGTQTSQVEIKLSLKACQVYIQHTRSKENERPRCLRLVRKGNEQRAFTRCFHAWSTFRQAPA

Target ORF information:

RefSeq Version	XM_008821959.2
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X1, mRNA.

Target ORF information:

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

XM_008821959.2

ORF Insert Sequence:

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGGT CCTGGATGTG CGGGAGAACC CCAGCCTGGT CATGCCGCCA 
AAGCCTGCTG ACCATGCTGC TGAGTGGTAC AACATTGACT TCTCACTGCA GAACCAGCTG 
AGGCTGGCAG GCGCTTCCCC TGCCACAGTG GCTGCAGCTG CAGCTGTAGG GAGTGGGGCC 
AAAGACCCCT TGGCTCGAAA GATGCGGCTA CGGAGGCGCA AGGACTCAGC CCAGGATGAC 
CAGGCTAAGC AGGTGCTAAA AGGCATGTCA GATGTGGCCC AGGAGAAGAA CAAAAAGCAA 
GAGGAGAATG CAGATGCCCG GACCCCTGGG GGGAAGGTAC GGCGCTGGGA CCAGGGCCTG 
GAGAAGCCAC GCCTTGACTA CTCAGAGTTC TTCACAGAGG ATGTGGGCCA GCTGCCTGGC 
TTAACCATTT GGCAAATTGA GAACTTTGTG CCCGTGTTGG TGGAGGAAGC CTTCCATGGC 
AAGTTCTATG AGGCTGACTG CTACATTGTA CTCAAGACCT TTTTGGATGA CAGCGGCTCC 
CTGAACTGGG AGATCTACTA CTGGATCGGC GGAGAGGCCA CTCTTGACAA GAAAGCCTGC 
TCTGCTATCC ATGCTGTTAA CCTGCGAAAC TACCTGGGTG CTGAGTGCCG TACTGTTCGG 
GAAGAGATGG GCGATGAAAG TGAAGAGTTC CTGCAGGTTT TTGACAACGA CATCTCCTAC 
ATTGAAGGAG GAACAGCCAG TGGCTTCTAC ACTGTGGAAG ATACACACTA TGTCACCAGG 
ATGTACCGTG TATATGGGAA AAAGAACATC AGGTTGGAGC CTGTACCCAT CAAGGGTGCC 
TCCCTGGATC CAAGGTTTGT GTTCCTGCTG GACGGAGGGC TGGACATCTA CGTGTGGCGA 
GGGGCCCAAG CCACACTGAG CAGCACTACC AAGGCCAGGC TTTTTGCAGA GAAAATCAAC 
AAGAATGAGC GTAAAGGGAA AGCAGAAATC ACGCTCCTGG TGCAAGGCCA AGAGCCCCCC 
GAGTTCTGGG AGGTGCTGGG TGGGGAGCCA TCTGAAATCA AGAAACATGT ACCTGACAAC 
TTTTGGCCAC CCCAGCCCAA GCTGTACAAG GTGGGCCTGG GCCTGGGCTA CCTGGAACTG 
CCACAGATCA ACTACAAGCT CTCAGTGGAA CATAAAAAAC GGCCCAAGGT GGAACTGATG 
CCCGGAATGA GACTGCTGCA GAGCCTGCTG GACACACGAT GTGTGTACAT CCTGGACTGT 
TGGTCTGATG TGTTCATCTG GCTTGGCCGC AAGTCCCCAC GCCTGGTGCG TGCTGCAGCA 
CTCAAGCTGG GCCAAGAACT ATGTGGGATG CTACACCGAC CTCGCCATGC AGTGGTTAGC 
CGCAGCCTGG AGGGCACTGA GGCTCAGGTG TTTAAAGCCA AGTTCAAAAA TTGGGACGAT 
GTATTGACAG TGGACTACAC ACGCAACGCA GAGGCTGTGT TGCAGGGCCT GGGGCTCTCT 
GGGAAGGTGA AGCGTGACAC TGAGAAAAAA GACCAGATGA AGGCTGACCT CACTGCACTC 
TTCCTGCCTC GGCAGCCACC AATGGCACTG GCTGAGGCAG AGCAGCTTAT GGAAGAATGG 
AACGAGGACC TAGACGGCAT GGAGGGCTTC GTGCTAGAGG GCCGGAAGTT CACACGGCTA 
CCAGAGGAGG AATTTGGCCA CTTCTACATG CAGGACTGCT ACGTCTTCCT CTGCAGGTAC 
TGGGTGCCTG TGGAGTATGA GGAGGAAGGG AAAAAGGAAG ACAAGGAGAA GGCCTCAGCA 
GAGAGCAAAG AAGGGGAAGA GGCAGCAGCC GAAGCAGAAA AGCAACCAGA GGAGGATTTC 
CAGTGCATCG TTTACTTCTG GCAGGGTCGG GAAGCTTCCA ATATGGGCTG GCTCACCTTC 
ACTTTTAGTC TGCAGAAGAA GTTTGAGAGC CTCTTCCCCG GCAAGCTGGA GGTAGTACGC 
ATGACACAGC AGCAGGAGAA CCCCAAGTTT CTGACACATT TTAAGAGAAA ATTCATCATC 
CACCGAGGCA AAAGAAAGGT GGCCCAGGGT GCCCTCCAGC CAAGCCTCTA CCAGATCCGC 
ACCAATGGCA GTGCACTCTG TACCCGGTGC ATCCAGATCA ATACTGATTC CAGCCTCCTC 
AACTCTGAGT TCTGCTTCAT CCTCAAGGTC CCCTTTGAGA GTGAAGACAA TCAAGGCATT 
GTATATGCCT GGGTGGGCCG AGCATCAGAC CCTGACGAAG CCAAGCTGGC AGAGGACATC 
CTGAATACTA TGTTTGATAC CTCCTACAGC AAACAGGTCA TCAACGAAGG CGAGGAGCCC 
GAGAACTTCT TCTGGGTGGG CATTGGAGCA CAGAAGCCCT ATGACGACGA TGCCGAGTAC 
ATGAAGCACA CGAGGCTGTT CAGATGCTCC AATGAGAAGG GCTACTTTGC AGTGACTGAA 
AAGTGCTCTG ATTTCTGCCA AGATGACCTG GCGGATGACG ATATCATGTT GCTAGACAAT 
GGCCGAGAGG TCTACATGTG GGTGGGGACC CAGACAAGCC AAGTAGAGAT CAAACTGAGT 
CTGAAGGCCT GCCAGGTATA CATCCAGCAC ACACGCTCCA AAGAAAATGA ACGACCACGT 
TGTCTGCGCC TGGTCCGCAA AGGCAATGAG CAGCGGGCCT TCACCCGCTG CTTCCATGCC 
TGGAGCACCT TCCGCCAAGC TCCAGCGTAG

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

Flii ( XM_008821960.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008820182.1 Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ONa39174
Clone ID Related Accession (Same CDS sequence)	XM_008821960.2 , XM_008821960.1
Accession Version	XM_008821960.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3807bp) 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	protein flightless-1 homolog isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358646.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008821960.1. ##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##

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGGT CCTGGATGTG CGGGAGAACC CCAGCCTGGT CATGCCGCCA 
AAGCCTGCTG ACCATGCTGC TGAGTGGTAC AACATTGACT TCTCACTGCA GAACCAGCTG 
AGGCTGGCAG GCGCTTCCCC TGCCACAGTG GCTGCAGCTG CAGCTGGGAG TGGGGCCAAA 
GACCCCTTGG CTCGAAAGAT GCGGCTACGG AGGCGCAAGG ACTCAGCCCA GGATGACCAG 
GCTAAGCAGG TGCTAAAAGG CATGTCAGAT GTGGCCCAGG AGAAGAACAA AAAGCAAGAG 
GAGAATGCAG ATGCCCGGAC CCCTGGGGGG AAGGTACGGC GCTGGGACCA GGGCCTGGAG 
AAGCCACGCC TTGACTACTC AGAGTTCTTC ACAGAGGATG TGGGCCAGCT GCCTGGCTTA 
ACCATTTGGC AAATTGAGAA CTTTGTGCCC GTGTTGGTGG AGGAAGCCTT CCATGGCAAG 
TTCTATGAGG CTGACTGCTA CATTGTACTC AAGACCTTTT TGGATGACAG CGGCTCCCTG 
AACTGGGAGA TCTACTACTG GATCGGCGGA GAGGCCACTC TTGACAAGAA AGCCTGCTCT 
GCTATCCATG CTGTTAACCT GCGAAACTAC CTGGGTGCTG AGTGCCGTAC TGTTCGGGAA 
GAGATGGGCG ATGAAAGTGA AGAGTTCCTG CAGGTTTTTG ACAACGACAT CTCCTACATT 
GAAGGAGGAA CAGCCAGTGG CTTCTACACT GTGGAAGATA CACACTATGT CACCAGGATG 
TACCGTGTAT ATGGGAAAAA GAACATCAGG TTGGAGCCTG TACCCATCAA GGGTGCCTCC 
CTGGATCCAA GGTTTGTGTT CCTGCTGGAC GGAGGGCTGG ACATCTACGT GTGGCGAGGG 
GCCCAAGCCA CACTGAGCAG CACTACCAAG GCCAGGCTTT TTGCAGAGAA AATCAACAAG 
AATGAGCGTA AAGGGAAAGC AGAAATCACG CTCCTGGTGC AAGGCCAAGA GCCCCCCGAG 
TTCTGGGAGG TGCTGGGTGG GGAGCCATCT GAAATCAAGA AACATGTACC TGACAACTTT 
TGGCCACCCC AGCCCAAGCT GTACAAGGTG GGCCTGGGCC TGGGCTACCT GGAACTGCCA 
CAGATCAACT ACAAGCTCTC AGTGGAACAT AAAAAACGGC CCAAGGTGGA ACTGATGCCC 
GGAATGAGAC TGCTGCAGAG CCTGCTGGAC ACACGATGTG TGTACATCCT GGACTGTTGG 
TCTGATGTGT TCATCTGGCT TGGCCGCAAG TCCCCACGCC TGGTGCGTGC TGCAGCACTC 
AAGCTGGGCC AAGAACTATG TGGGATGCTA CACCGACCTC GCCATGCAGT GGTTAGCCGC 
AGCCTGGAGG GCACTGAGGC TCAGGTGTTT AAAGCCAAGT TCAAAAATTG GGACGATGTA 
TTGACAGTGG ACTACACACG CAACGCAGAG GCTGTGTTGC AGGGCCTGGG GCTCTCTGGG 
AAGGTGAAGC GTGACACTGA GAAAAAAGAC CAGATGAAGG CTGACCTCAC TGCACTCTTC 
CTGCCTCGGC AGCCACCAAT GGCACTGGCT GAGGCAGAGC AGCTTATGGA AGAATGGAAC 
GAGGACCTAG ACGGCATGGA GGGCTTCGTG CTAGAGGGCC GGAAGTTCAC ACGGCTACCA 
GAGGAGGAAT TTGGCCACTT CTACATGCAG GACTGCTACG TCTTCCTCTG CAGGTACTGG 
GTGCCTGTGG AGTATGAGGA GGAAGGGAAA AAGGAAGACA AGGAGAAGGC CTCAGCAGAG 
AGCAAAGAAG GGGAAGAGGC AGCAGCCGAA GCAGAAAAGC AACCAGAGGA GGATTTCCAG 
TGCATCGTTT ACTTCTGGCA GGGTCGGGAA GCTTCCAATA TGGGCTGGCT CACCTTCACT 
TTTAGTCTGC AGAAGAAGTT TGAGAGCCTC TTCCCCGGCA AGCTGGAGGT AGTACGCATG 
ACACAGCAGC AGGAGAACCC CAAGTTTCTG ACACATTTTA AGAGAAAATT CATCATCCAC 
CGAGGCAAAA GAAAGGTGGC CCAGGGTGCC CTCCAGCCAA GCCTCTACCA GATCCGCACC 
AATGGCAGTG CACTCTGTAC CCGGTGCATC CAGATCAATA CTGATTCCAG CCTCCTCAAC 
TCTGAGTTCT GCTTCATCCT CAAGGTCCCC TTTGAGAGTG AAGACAATCA AGGCATTGTA 
TATGCCTGGG TGGGCCGAGC ATCAGACCCT GACGAAGCCA AGCTGGCAGA GGACATCCTG 
AATACTATGT TTGATACCTC CTACAGCAAA CAGGTCATCA ACGAAGGCGA GGAGCCCGAG 
AACTTCTTCT GGGTGGGCAT TGGAGCACAG AAGCCCTATG ACGACGATGC CGAGTACATG 
AAGCACACGA GGCTGTTCAG ATGCTCCAAT GAGAAGGGCT ACTTTGCAGT GACTGAAAAG 
TGCTCTGATT TCTGCCAAGA TGACCTGGCG GATGACGATA TCATGTTGCT AGACAATGGC 
CGAGAGGTCT ACATGTGGGT GGGGACCCAG ACAAGCCAAG TAGAGATCAA ACTGAGTCTG 
AAGGCCTGCC AGGTATACAT CCAGCACACA CGCTCCAAAG AAAATGAACG ACCACGTTGT 
CTGCGCCTGG TCCGCAAAGG CAATGAGCAG CGGGCCTTCA CCCGCTGCTT CCATGCCTGG 
AGCACCTTCC GCCAAGCTCC AGCGTAG

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

RefSeq	XP_008820182.1
CDS	87..3893
Translation	MEATGVLPFVRGVDLSGNDFKGGYFPENVKAMTSLRWLKLNRTGLCYLPEELAALQKLEHLSVSHNNLTTLHGELSSLPSLRAIVARANNLKNSGVPDDIFKLDDLSVLDLSHNQLTECPRELENAKNMLVLNLSHNSIDSIPNQLFINLTDLLYLDLSENHLESLPPQMRRLVHLQTLVLNGNPLLHAQLRQLPAMIALQTLHLRNTQRTQSNLPTSLEGLSNLADVDLSCNDLTRVPECLYTLPSLRRLNLSSNQISELSLCVDQWVHMETLNLSRNQLTSLPSAICKLTKLKKLYLNSNKLDFDGLPSGIGKLSSLEEFMAANNNLELIPESLCRCPKLKKLVLNRNRLVTLPEAIHFLTEIEVLDVRENPSLVMPPKPADHAAEWYNIDFSLQNQLRLAGASPATVAAAAAGSGAKDPLARKMRLRRRKDSAQDDQAKQVLKGMSDVAQEKNKKQEENADARTPGGKVRRWDQGLEKPRLDYSEFFTEDVGQLPGLTIWQIENFVPVLVEEAFHGKFYEADCYIVLKTFLDDSGSLNWEIYYWIGGEATLDKKACSAIHAVNLRNYLGAECRTVREEMGDESEEFLQVFDNDISYIEGGTASGFYTVEDTHYVTRMYRVYGKKNIRLEPVPIKGASLDPRFVFLLDGGLDIYVWRGAQATLSSTTKARLFAEKINKNERKGKAEITLLVQGQEPPEFWEVLGGEPSEIKKHVPDNFWPPQPKLYKVGLGLGYLELPQINYKLSVEHKKRPKVELMPGMRLLQSLLDTRCVYILDCWSDVFIWLGRKSPRLVRAAALKLGQELCGMLHRPRHAVVSRSLEGTEAQVFKAKFKNWDDVLTVDYTRNAEAVLQGLGLSGKVKRDTEKKDQMKADLTALFLPRQPPMALAEAEQLMEEWNEDLDGMEGFVLEGRKFTRLPEEEFGHFYMQDCYVFLCRYWVPVEYEEEGKKEDKEKASAESKEGEEAAAEAEKQPEEDFQCIVYFWQGREASNMGWLTFTFSLQKKFESLFPGKLEVVRMTQQQENPKFLTHFKRKFIIHRGKRKVAQGALQPSLYQIRTNGSALCTRCIQINTDSSLLNSEFCFILKVPFESEDNQGIVYAWVGRASDPDEAKLAEDILNTMFDTSYSKQVINEGEEPENFFWVGIGAQKPYDDDAEYMKHTRLFRCSNEKGYFAVTEKCSDFCQDDLADDDIMLLDNGREVYMWVGTQTSQVEIKLSLKACQVYIQHTRSKENERPRCLRLVRKGNEQRAFTRCFHAWSTFRQAPA

Target ORF information:

RefSeq Version	XM_008821960.2
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili FLII actin remodeling protein (Flii), transcript variant X2, mRNA.

Target ORF information:

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

XM_008821960.2

ORF Insert Sequence:

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGGT CCTGGATGTG CGGGAGAACC CCAGCCTGGT CATGCCGCCA 
AAGCCTGCTG ACCATGCTGC TGAGTGGTAC AACATTGACT TCTCACTGCA GAACCAGCTG 
AGGCTGGCAG GCGCTTCCCC TGCCACAGTG GCTGCAGCTG CAGCTGGGAG TGGGGCCAAA 
GACCCCTTGG CTCGAAAGAT GCGGCTACGG AGGCGCAAGG ACTCAGCCCA GGATGACCAG 
GCTAAGCAGG TGCTAAAAGG CATGTCAGAT GTGGCCCAGG AGAAGAACAA AAAGCAAGAG 
GAGAATGCAG ATGCCCGGAC CCCTGGGGGG AAGGTACGGC GCTGGGACCA GGGCCTGGAG 
AAGCCACGCC TTGACTACTC AGAGTTCTTC ACAGAGGATG TGGGCCAGCT GCCTGGCTTA 
ACCATTTGGC AAATTGAGAA CTTTGTGCCC GTGTTGGTGG AGGAAGCCTT CCATGGCAAG 
TTCTATGAGG CTGACTGCTA CATTGTACTC AAGACCTTTT TGGATGACAG CGGCTCCCTG 
AACTGGGAGA TCTACTACTG GATCGGCGGA GAGGCCACTC TTGACAAGAA AGCCTGCTCT 
GCTATCCATG CTGTTAACCT GCGAAACTAC CTGGGTGCTG AGTGCCGTAC TGTTCGGGAA 
GAGATGGGCG ATGAAAGTGA AGAGTTCCTG CAGGTTTTTG ACAACGACAT CTCCTACATT 
GAAGGAGGAA CAGCCAGTGG CTTCTACACT GTGGAAGATA CACACTATGT CACCAGGATG 
TACCGTGTAT ATGGGAAAAA GAACATCAGG TTGGAGCCTG TACCCATCAA GGGTGCCTCC 
CTGGATCCAA GGTTTGTGTT CCTGCTGGAC GGAGGGCTGG ACATCTACGT GTGGCGAGGG 
GCCCAAGCCA CACTGAGCAG CACTACCAAG GCCAGGCTTT TTGCAGAGAA AATCAACAAG 
AATGAGCGTA AAGGGAAAGC AGAAATCACG CTCCTGGTGC AAGGCCAAGA GCCCCCCGAG 
TTCTGGGAGG TGCTGGGTGG GGAGCCATCT GAAATCAAGA AACATGTACC TGACAACTTT 
TGGCCACCCC AGCCCAAGCT GTACAAGGTG GGCCTGGGCC TGGGCTACCT GGAACTGCCA 
CAGATCAACT ACAAGCTCTC AGTGGAACAT AAAAAACGGC CCAAGGTGGA ACTGATGCCC 
GGAATGAGAC TGCTGCAGAG CCTGCTGGAC ACACGATGTG TGTACATCCT GGACTGTTGG 
TCTGATGTGT TCATCTGGCT TGGCCGCAAG TCCCCACGCC TGGTGCGTGC TGCAGCACTC 
AAGCTGGGCC AAGAACTATG TGGGATGCTA CACCGACCTC GCCATGCAGT GGTTAGCCGC 
AGCCTGGAGG GCACTGAGGC TCAGGTGTTT AAAGCCAAGT TCAAAAATTG GGACGATGTA 
TTGACAGTGG ACTACACACG CAACGCAGAG GCTGTGTTGC AGGGCCTGGG GCTCTCTGGG 
AAGGTGAAGC GTGACACTGA GAAAAAAGAC CAGATGAAGG CTGACCTCAC TGCACTCTTC 
CTGCCTCGGC AGCCACCAAT GGCACTGGCT GAGGCAGAGC AGCTTATGGA AGAATGGAAC 
GAGGACCTAG ACGGCATGGA GGGCTTCGTG CTAGAGGGCC GGAAGTTCAC ACGGCTACCA 
GAGGAGGAAT TTGGCCACTT CTACATGCAG GACTGCTACG TCTTCCTCTG CAGGTACTGG 
GTGCCTGTGG AGTATGAGGA GGAAGGGAAA AAGGAAGACA AGGAGAAGGC CTCAGCAGAG 
AGCAAAGAAG GGGAAGAGGC AGCAGCCGAA GCAGAAAAGC AACCAGAGGA GGATTTCCAG 
TGCATCGTTT ACTTCTGGCA GGGTCGGGAA GCTTCCAATA TGGGCTGGCT CACCTTCACT 
TTTAGTCTGC AGAAGAAGTT TGAGAGCCTC TTCCCCGGCA AGCTGGAGGT AGTACGCATG 
ACACAGCAGC AGGAGAACCC CAAGTTTCTG ACACATTTTA AGAGAAAATT CATCATCCAC 
CGAGGCAAAA GAAAGGTGGC CCAGGGTGCC CTCCAGCCAA GCCTCTACCA GATCCGCACC 
AATGGCAGTG CACTCTGTAC CCGGTGCATC CAGATCAATA CTGATTCCAG CCTCCTCAAC 
TCTGAGTTCT GCTTCATCCT CAAGGTCCCC TTTGAGAGTG AAGACAATCA AGGCATTGTA 
TATGCCTGGG TGGGCCGAGC ATCAGACCCT GACGAAGCCA AGCTGGCAGA GGACATCCTG 
AATACTATGT TTGATACCTC CTACAGCAAA CAGGTCATCA ACGAAGGCGA GGAGCCCGAG 
AACTTCTTCT GGGTGGGCAT TGGAGCACAG AAGCCCTATG ACGACGATGC CGAGTACATG 
AAGCACACGA GGCTGTTCAG ATGCTCCAAT GAGAAGGGCT ACTTTGCAGT GACTGAAAAG 
TGCTCTGATT TCTGCCAAGA TGACCTGGCG GATGACGATA TCATGTTGCT AGACAATGGC 
CGAGAGGTCT ACATGTGGGT GGGGACCCAG ACAAGCCAAG TAGAGATCAA ACTGAGTCTG 
AAGGCCTGCC AGGTATACAT CCAGCACACA CGCTCCAAAG AAAATGAACG ACCACGTTGT 
CTGCGCCTGG TCCGCAAAGG CAATGAGCAG CGGGCCTTCA CCCGCTGCTT CCATGCCTGG 
AGCACCTTCC GCCAAGCTCC AGCGTAG

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

Flii ( XM_008821960.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008820182.1 Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X2, mRNA.

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CloneID	ONa39174
Clone ID Related Accession (Same CDS sequence)	XM_008821960.2 , XM_008821960.1
Accession Version	XM_008821960.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3807bp) 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	protein flightless-1 homolog isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358646.1) 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 :: 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##

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGGT CCTGGATGTG CGGGAGAACC CCAGCCTGGT CATGCCGCCA 
AAGCCTGCTG ACCATGCTGC TGAGTGGTAC AACATTGACT TCTCACTGCA GAACCAGCTG 
AGGCTGGCAG GCGCTTCCCC TGCCACAGTG GCTGCAGCTG CAGCTGGGAG TGGGGCCAAA 
GACCCCTTGG CTCGAAAGAT GCGGCTACGG AGGCGCAAGG ACTCAGCCCA GGATGACCAG 
GCTAAGCAGG TGCTAAAAGG CATGTCAGAT GTGGCCCAGG AGAAGAACAA AAAGCAAGAG 
GAGAATGCAG ATGCCCGGAC CCCTGGGGGG AAGGTACGGC GCTGGGACCA GGGCCTGGAG 
AAGCCACGCC TTGACTACTC AGAGTTCTTC ACAGAGGATG TGGGCCAGCT GCCTGGCTTA 
ACCATTTGGC AAATTGAGAA CTTTGTGCCC GTGTTGGTGG AGGAAGCCTT CCATGGCAAG 
TTCTATGAGG CTGACTGCTA CATTGTACTC AAGACCTTTT TGGATGACAG CGGCTCCCTG 
AACTGGGAGA TCTACTACTG GATCGGCGGA GAGGCCACTC TTGACAAGAA AGCCTGCTCT 
GCTATCCATG CTGTTAACCT GCGAAACTAC CTGGGTGCTG AGTGCCGTAC TGTTCGGGAA 
GAGATGGGCG ATGAAAGTGA AGAGTTCCTG CAGGTTTTTG ACAACGACAT CTCCTACATT 
GAAGGAGGAA CAGCCAGTGG CTTCTACACT GTGGAAGATA CACACTATGT CACCAGGATG 
TACCGTGTAT ATGGGAAAAA GAACATCAGG TTGGAGCCTG TACCCATCAA GGGTGCCTCC 
CTGGATCCAA GGTTTGTGTT CCTGCTGGAC GGAGGGCTGG ACATCTACGT GTGGCGAGGG 
GCCCAAGCCA CACTGAGCAG CACTACCAAG GCCAGGCTTT TTGCAGAGAA AATCAACAAG 
AATGAGCGTA AAGGGAAAGC AGAAATCACG CTCCTGGTGC AAGGCCAAGA GCCCCCCGAG 
TTCTGGGAGG TGCTGGGTGG GGAGCCATCT GAAATCAAGA AACATGTACC TGACAACTTT 
TGGCCACCCC AGCCCAAGCT GTACAAGGTG GGCCTGGGCC TGGGCTACCT GGAACTGCCA 
CAGATCAACT ACAAGCTCTC AGTGGAACAT AAAAAACGGC CCAAGGTGGA ACTGATGCCC 
GGAATGAGAC TGCTGCAGAG CCTGCTGGAC ACACGATGTG TGTACATCCT GGACTGTTGG 
TCTGATGTGT TCATCTGGCT TGGCCGCAAG TCCCCACGCC TGGTGCGTGC TGCAGCACTC 
AAGCTGGGCC AAGAACTATG TGGGATGCTA CACCGACCTC GCCATGCAGT GGTTAGCCGC 
AGCCTGGAGG GCACTGAGGC TCAGGTGTTT AAAGCCAAGT TCAAAAATTG GGACGATGTA 
TTGACAGTGG ACTACACACG CAACGCAGAG GCTGTGTTGC AGGGCCTGGG GCTCTCTGGG 
AAGGTGAAGC GTGACACTGA GAAAAAAGAC CAGATGAAGG CTGACCTCAC TGCACTCTTC 
CTGCCTCGGC AGCCACCAAT GGCACTGGCT GAGGCAGAGC AGCTTATGGA AGAATGGAAC 
GAGGACCTAG ACGGCATGGA GGGCTTCGTG CTAGAGGGCC GGAAGTTCAC ACGGCTACCA 
GAGGAGGAAT TTGGCCACTT CTACATGCAG GACTGCTACG TCTTCCTCTG CAGGTACTGG 
GTGCCTGTGG AGTATGAGGA GGAAGGGAAA AAGGAAGACA AGGAGAAGGC CTCAGCAGAG 
AGCAAAGAAG GGGAAGAGGC AGCAGCCGAA GCAGAAAAGC AACCAGAGGA GGATTTCCAG 
TGCATCGTTT ACTTCTGGCA GGGTCGGGAA GCTTCCAATA TGGGCTGGCT CACCTTCACT 
TTTAGTCTGC AGAAGAAGTT TGAGAGCCTC TTCCCCGGCA AGCTGGAGGT AGTACGCATG 
ACACAGCAGC AGGAGAACCC CAAGTTTCTG ACACATTTTA AGAGAAAATT CATCATCCAC 
CGAGGCAAAA GAAAGGTGGC CCAGGGTGCC CTCCAGCCAA GCCTCTACCA GATCCGCACC 
AATGGCAGTG CACTCTGTAC CCGGTGCATC CAGATCAATA CTGATTCCAG CCTCCTCAAC 
TCTGAGTTCT GCTTCATCCT CAAGGTCCCC TTTGAGAGTG AAGACAATCA AGGCATTGTA 
TATGCCTGGG TGGGCCGAGC ATCAGACCCT GACGAAGCCA AGCTGGCAGA GGACATCCTG 
AATACTATGT TTGATACCTC CTACAGCAAA CAGGTCATCA ACGAAGGCGA GGAGCCCGAG 
AACTTCTTCT GGGTGGGCAT TGGAGCACAG AAGCCCTATG ACGACGATGC CGAGTACATG 
AAGCACACGA GGCTGTTCAG ATGCTCCAAT GAGAAGGGCT ACTTTGCAGT GACTGAAAAG 
TGCTCTGATT TCTGCCAAGA TGACCTGGCG GATGACGATA TCATGTTGCT AGACAATGGC 
CGAGAGGTCT ACATGTGGGT GGGGACCCAG ACAAGCCAAG TAGAGATCAA ACTGAGTCTG 
AAGGCCTGCC AGGTATACAT CCAGCACACA CGCTCCAAAG AAAATGAACG ACCACGTTGT 
CTGCGCCTGG TCCGCAAAGG CAATGAGCAG CGGGCCTTCA CCCGCTGCTT CCATGCCTGG 
AGCACCTTCC GCCAAGCTCC AGCGTAG

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

RefSeq	XP_008820182.1
CDS	62..3868
Translation	MEATGVLPFVRGVDLSGNDFKGGYFPENVKAMTSLRWLKLNRTGLCYLPEELAALQKLEHLSVSHNNLTTLHGELSSLPSLRAIVARANNLKNSGVPDDIFKLDDLSVLDLSHNQLTECPRELENAKNMLVLNLSHNSIDSIPNQLFINLTDLLYLDLSENHLESLPPQMRRLVHLQTLVLNGNPLLHAQLRQLPAMIALQTLHLRNTQRTQSNLPTSLEGLSNLADVDLSCNDLTRVPECLYTLPSLRRLNLSSNQISELSLCVDQWVHMETLNLSRNQLTSLPSAICKLTKLKKLYLNSNKLDFDGLPSGIGKLSSLEEFMAANNNLELIPESLCRCPKLKKLVLNRNRLVTLPEAIHFLTEIEVLDVRENPSLVMPPKPADHAAEWYNIDFSLQNQLRLAGASPATVAAAAAGSGAKDPLARKMRLRRRKDSAQDDQAKQVLKGMSDVAQEKNKKQEENADARTPGGKVRRWDQGLEKPRLDYSEFFTEDVGQLPGLTIWQIENFVPVLVEEAFHGKFYEADCYIVLKTFLDDSGSLNWEIYYWIGGEATLDKKACSAIHAVNLRNYLGAECRTVREEMGDESEEFLQVFDNDISYIEGGTASGFYTVEDTHYVTRMYRVYGKKNIRLEPVPIKGASLDPRFVFLLDGGLDIYVWRGAQATLSSTTKARLFAEKINKNERKGKAEITLLVQGQEPPEFWEVLGGEPSEIKKHVPDNFWPPQPKLYKVGLGLGYLELPQINYKLSVEHKKRPKVELMPGMRLLQSLLDTRCVYILDCWSDVFIWLGRKSPRLVRAAALKLGQELCGMLHRPRHAVVSRSLEGTEAQVFKAKFKNWDDVLTVDYTRNAEAVLQGLGLSGKVKRDTEKKDQMKADLTALFLPRQPPMALAEAEQLMEEWNEDLDGMEGFVLEGRKFTRLPEEEFGHFYMQDCYVFLCRYWVPVEYEEEGKKEDKEKASAESKEGEEAAAEAEKQPEEDFQCIVYFWQGREASNMGWLTFTFSLQKKFESLFPGKLEVVRMTQQQENPKFLTHFKRKFIIHRGKRKVAQGALQPSLYQIRTNGSALCTRCIQINTDSSLLNSEFCFILKVPFESEDNQGIVYAWVGRASDPDEAKLAEDILNTMFDTSYSKQVINEGEEPENFFWVGIGAQKPYDDDAEYMKHTRLFRCSNEKGYFAVTEKCSDFCQDDLADDDIMLLDNGREVYMWVGTQTSQVEIKLSLKACQVYIQHTRSKENERPRCLRLVRKGNEQRAFTRCFHAWSTFRQAPA

Target ORF information:

RefSeq Version	XM_008821960.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X2, mRNA.

Target ORF information:

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

XM_008821960.1

ORF Insert Sequence:

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGGT CCTGGATGTG CGGGAGAACC CCAGCCTGGT CATGCCGCCA 
AAGCCTGCTG ACCATGCTGC TGAGTGGTAC AACATTGACT TCTCACTGCA GAACCAGCTG 
AGGCTGGCAG GCGCTTCCCC TGCCACAGTG GCTGCAGCTG CAGCTGGGAG TGGGGCCAAA 
GACCCCTTGG CTCGAAAGAT GCGGCTACGG AGGCGCAAGG ACTCAGCCCA GGATGACCAG 
GCTAAGCAGG TGCTAAAAGG CATGTCAGAT GTGGCCCAGG AGAAGAACAA AAAGCAAGAG 
GAGAATGCAG ATGCCCGGAC CCCTGGGGGG AAGGTACGGC GCTGGGACCA GGGCCTGGAG 
AAGCCACGCC TTGACTACTC AGAGTTCTTC ACAGAGGATG TGGGCCAGCT GCCTGGCTTA 
ACCATTTGGC AAATTGAGAA CTTTGTGCCC GTGTTGGTGG AGGAAGCCTT CCATGGCAAG 
TTCTATGAGG CTGACTGCTA CATTGTACTC AAGACCTTTT TGGATGACAG CGGCTCCCTG 
AACTGGGAGA TCTACTACTG GATCGGCGGA GAGGCCACTC TTGACAAGAA AGCCTGCTCT 
GCTATCCATG CTGTTAACCT GCGAAACTAC CTGGGTGCTG AGTGCCGTAC TGTTCGGGAA 
GAGATGGGCG ATGAAAGTGA AGAGTTCCTG CAGGTTTTTG ACAACGACAT CTCCTACATT 
GAAGGAGGAA CAGCCAGTGG CTTCTACACT GTGGAAGATA CACACTATGT CACCAGGATG 
TACCGTGTAT ATGGGAAAAA GAACATCAGG TTGGAGCCTG TACCCATCAA GGGTGCCTCC 
CTGGATCCAA GGTTTGTGTT CCTGCTGGAC GGAGGGCTGG ACATCTACGT GTGGCGAGGG 
GCCCAAGCCA CACTGAGCAG CACTACCAAG GCCAGGCTTT TTGCAGAGAA AATCAACAAG 
AATGAGCGTA AAGGGAAAGC AGAAATCACG CTCCTGGTGC AAGGCCAAGA GCCCCCCGAG 
TTCTGGGAGG TGCTGGGTGG GGAGCCATCT GAAATCAAGA AACATGTACC TGACAACTTT 
TGGCCACCCC AGCCCAAGCT GTACAAGGTG GGCCTGGGCC TGGGCTACCT GGAACTGCCA 
CAGATCAACT ACAAGCTCTC AGTGGAACAT AAAAAACGGC CCAAGGTGGA ACTGATGCCC 
GGAATGAGAC TGCTGCAGAG CCTGCTGGAC ACACGATGTG TGTACATCCT GGACTGTTGG 
TCTGATGTGT TCATCTGGCT TGGCCGCAAG TCCCCACGCC TGGTGCGTGC TGCAGCACTC 
AAGCTGGGCC AAGAACTATG TGGGATGCTA CACCGACCTC GCCATGCAGT GGTTAGCCGC 
AGCCTGGAGG GCACTGAGGC TCAGGTGTTT AAAGCCAAGT TCAAAAATTG GGACGATGTA 
TTGACAGTGG ACTACACACG CAACGCAGAG GCTGTGTTGC AGGGCCTGGG GCTCTCTGGG 
AAGGTGAAGC GTGACACTGA GAAAAAAGAC CAGATGAAGG CTGACCTCAC TGCACTCTTC 
CTGCCTCGGC AGCCACCAAT GGCACTGGCT GAGGCAGAGC AGCTTATGGA AGAATGGAAC 
GAGGACCTAG ACGGCATGGA GGGCTTCGTG CTAGAGGGCC GGAAGTTCAC ACGGCTACCA 
GAGGAGGAAT TTGGCCACTT CTACATGCAG GACTGCTACG TCTTCCTCTG CAGGTACTGG 
GTGCCTGTGG AGTATGAGGA GGAAGGGAAA AAGGAAGACA AGGAGAAGGC CTCAGCAGAG 
AGCAAAGAAG GGGAAGAGGC AGCAGCCGAA GCAGAAAAGC AACCAGAGGA GGATTTCCAG 
TGCATCGTTT ACTTCTGGCA GGGTCGGGAA GCTTCCAATA TGGGCTGGCT CACCTTCACT 
TTTAGTCTGC AGAAGAAGTT TGAGAGCCTC TTCCCCGGCA AGCTGGAGGT AGTACGCATG 
ACACAGCAGC AGGAGAACCC CAAGTTTCTG ACACATTTTA AGAGAAAATT CATCATCCAC 
CGAGGCAAAA GAAAGGTGGC CCAGGGTGCC CTCCAGCCAA GCCTCTACCA GATCCGCACC 
AATGGCAGTG CACTCTGTAC CCGGTGCATC CAGATCAATA CTGATTCCAG CCTCCTCAAC 
TCTGAGTTCT GCTTCATCCT CAAGGTCCCC TTTGAGAGTG AAGACAATCA AGGCATTGTA 
TATGCCTGGG TGGGCCGAGC ATCAGACCCT GACGAAGCCA AGCTGGCAGA GGACATCCTG 
AATACTATGT TTGATACCTC CTACAGCAAA CAGGTCATCA ACGAAGGCGA GGAGCCCGAG 
AACTTCTTCT GGGTGGGCAT TGGAGCACAG AAGCCCTATG ACGACGATGC CGAGTACATG 
AAGCACACGA GGCTGTTCAG ATGCTCCAAT GAGAAGGGCT ACTTTGCAGT GACTGAAAAG 
TGCTCTGATT TCTGCCAAGA TGACCTGGCG GATGACGATA TCATGTTGCT AGACAATGGC 
CGAGAGGTCT ACATGTGGGT GGGGACCCAG ACAAGCCAAG TAGAGATCAA ACTGAGTCTG 
AAGGCCTGCC AGGTATACAT CCAGCACACA CGCTCCAAAG AAAATGAACG ACCACGTTGT 
CTGCGCCTGG TCCGCAAAGG CAATGAGCAG CGGGCCTTCA CCCGCTGCTT CCATGCCTGG 
AGCACCTTCC GCCAAGCTCC AGCGTAG

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

Flii ( XM_008821961.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008820183.1 Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X3, mRNA.

Price & Availability↑

CloneID	ONa39175
Clone ID Related Accession (Same CDS sequence)	XM_008821961.1
Accession Version	XM_008821961.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3717bp) 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	protein flightless-1 homolog isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358646.1) 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 :: 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##

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGAA CCAGCTGAGG CTGGCAGGCG CTTCCCCTGC CACAGTGGCT 
GCAGCTGCAG CTGTAGGGAG TGGGGCCAAA GACCCCTTGG CTCGAAAGAT GCGGCTACGG 
AGGCGCAAGG ACTCAGCCCA GGATGACCAG GCTAAGCAGG TGCTAAAAGG CATGTCAGAT 
GTGGCCCAGG AGAAGAACAA AAAGCAAGAG GAGAATGCAG ATGCCCGGAC CCCTGGGGGG 
AAGGTACGGC GCTGGGACCA GGGCCTGGAG AAGCCACGCC TTGACTACTC AGAGTTCTTC 
ACAGAGGATG TGGGCCAGCT GCCTGGCTTA ACCATTTGGC AAATTGAGAA CTTTGTGCCC 
GTGTTGGTGG AGGAAGCCTT CCATGGCAAG TTCTATGAGG CTGACTGCTA CATTGTACTC 
AAGACCTTTT TGGATGACAG CGGCTCCCTG AACTGGGAGA TCTACTACTG GATCGGCGGA 
GAGGCCACTC TTGACAAGAA AGCCTGCTCT GCTATCCATG CTGTTAACCT GCGAAACTAC 
CTGGGTGCTG AGTGCCGTAC TGTTCGGGAA GAGATGGGCG ATGAAAGTGA AGAGTTCCTG 
CAGGTTTTTG ACAACGACAT CTCCTACATT GAAGGAGGAA CAGCCAGTGG CTTCTACACT 
GTGGAAGATA CACACTATGT CACCAGGATG TACCGTGTAT ATGGGAAAAA GAACATCAGG 
TTGGAGCCTG TACCCATCAA GGGTGCCTCC CTGGATCCAA GGTTTGTGTT CCTGCTGGAC 
GGAGGGCTGG ACATCTACGT GTGGCGAGGG GCCCAAGCCA CACTGAGCAG CACTACCAAG 
GCCAGGCTTT TTGCAGAGAA AATCAACAAG AATGAGCGTA AAGGGAAAGC AGAAATCACG 
CTCCTGGTGC AAGGCCAAGA GCCCCCCGAG TTCTGGGAGG TGCTGGGTGG GGAGCCATCT 
GAAATCAAGA AACATGTACC TGACAACTTT TGGCCACCCC AGCCCAAGCT GTACAAGGTG 
GGCCTGGGCC TGGGCTACCT GGAACTGCCA CAGATCAACT ACAAGCTCTC AGTGGAACAT 
AAAAAACGGC CCAAGGTGGA ACTGATGCCC GGAATGAGAC TGCTGCAGAG CCTGCTGGAC 
ACACGATGTG TGTACATCCT GGACTGTTGG TCTGATGTGT TCATCTGGCT TGGCCGCAAG 
TCCCCACGCC TGGTGCGTGC TGCAGCACTC AAGCTGGGCC AAGAACTATG TGGGATGCTA 
CACCGACCTC GCCATGCAGT GGTTAGCCGC AGCCTGGAGG GCACTGAGGC TCAGGTGTTT 
AAAGCCAAGT TCAAAAATTG GGACGATGTA TTGACAGTGG ACTACACACG CAACGCAGAG 
GCTGTGTTGC AGGGCCTGGG GCTCTCTGGG AAGGTGAAGC GTGACACTGA GAAAAAAGAC 
CAGATGAAGG CTGACCTCAC TGCACTCTTC CTGCCTCGGC AGCCACCAAT GGCACTGGCT 
GAGGCAGAGC AGCTTATGGA AGAATGGAAC GAGGACCTAG ACGGCATGGA GGGCTTCGTG 
CTAGAGGGCC GGAAGTTCAC ACGGCTACCA GAGGAGGAAT TTGGCCACTT CTACATGCAG 
GACTGCTACG TCTTCCTCTG CAGGTACTGG GTGCCTGTGG AGTATGAGGA GGAAGGGAAA 
AAGGAAGACA AGGAGAAGGC CTCAGCAGAG AGCAAAGAAG GGGAAGAGGC AGCAGCCGAA 
GCAGAAAAGC AACCAGAGGA GGATTTCCAG TGCATCGTTT ACTTCTGGCA GGGTCGGGAA 
GCTTCCAATA TGGGCTGGCT CACCTTCACT TTTAGTCTGC AGAAGAAGTT TGAGAGCCTC 
TTCCCCGGCA AGCTGGAGGT AGTACGCATG ACACAGCAGC AGGAGAACCC CAAGTTTCTG 
ACACATTTTA AGAGAAAATT CATCATCCAC CGAGGCAAAA GAAAGGTGGC CCAGGGTGCC 
CTCCAGCCAA GCCTCTACCA GATCCGCACC AATGGCAGTG CACTCTGTAC CCGGTGCATC 
CAGATCAATA CTGATTCCAG CCTCCTCAAC TCTGAGTTCT GCTTCATCCT CAAGGTCCCC 
TTTGAGAGTG AAGACAATCA AGGCATTGTA TATGCCTGGG TGGGCCGAGC ATCAGACCCT 
GACGAAGCCA AGCTGGCAGA GGACATCCTG AATACTATGT TTGATACCTC CTACAGCAAA 
CAGGTCATCA ACGAAGGCGA GGAGCCCGAG AACTTCTTCT GGGTGGGCAT TGGAGCACAG 
AAGCCCTATG ACGACGATGC CGAGTACATG AAGCACACGA GGCTGTTCAG ATGCTCCAAT 
GAGAAGGGCT ACTTTGCAGT GACTGAAAAG TGCTCTGATT TCTGCCAAGA TGACCTGGCG 
GATGACGATA TCATGTTGCT AGACAATGGC CGAGAGGTCT ACATGTGGGT GGGGACCCAG 
ACAAGCCAAG TAGAGATCAA ACTGAGTCTG AAGGCCTGCC AGGTATACAT CCAGCACACA 
CGCTCCAAAG AAAATGAACG ACCACGTTGT CTGCGCCTGG TCCGCAAAGG CAATGAGCAG 
CGGGCCTTCA CCCGCTGCTT CCATGCCTGG AGCACCTTCC GCCAAGCTCC AGCGTAG

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

RefSeq	XP_008820183.1
CDS	62..3778
Translation	MEATGVLPFVRGVDLSGNDFKGGYFPENVKAMTSLRWLKLNRTGLCYLPEELAALQKLEHLSVSHNNLTTLHGELSSLPSLRAIVARANNLKNSGVPDDIFKLDDLSVLDLSHNQLTECPRELENAKNMLVLNLSHNSIDSIPNQLFINLTDLLYLDLSENHLESLPPQMRRLVHLQTLVLNGNPLLHAQLRQLPAMIALQTLHLRNTQRTQSNLPTSLEGLSNLADVDLSCNDLTRVPECLYTLPSLRRLNLSSNQISELSLCVDQWVHMETLNLSRNQLTSLPSAICKLTKLKKLYLNSNKLDFDGLPSGIGKLSSLEEFMAANNNLELIPESLCRCPKLKKLVLNRNRLVTLPEAIHFLTEIENQLRLAGASPATVAAAAAVGSGAKDPLARKMRLRRRKDSAQDDQAKQVLKGMSDVAQEKNKKQEENADARTPGGKVRRWDQGLEKPRLDYSEFFTEDVGQLPGLTIWQIENFVPVLVEEAFHGKFYEADCYIVLKTFLDDSGSLNWEIYYWIGGEATLDKKACSAIHAVNLRNYLGAECRTVREEMGDESEEFLQVFDNDISYIEGGTASGFYTVEDTHYVTRMYRVYGKKNIRLEPVPIKGASLDPRFVFLLDGGLDIYVWRGAQATLSSTTKARLFAEKINKNERKGKAEITLLVQGQEPPEFWEVLGGEPSEIKKHVPDNFWPPQPKLYKVGLGLGYLELPQINYKLSVEHKKRPKVELMPGMRLLQSLLDTRCVYILDCWSDVFIWLGRKSPRLVRAAALKLGQELCGMLHRPRHAVVSRSLEGTEAQVFKAKFKNWDDVLTVDYTRNAEAVLQGLGLSGKVKRDTEKKDQMKADLTALFLPRQPPMALAEAEQLMEEWNEDLDGMEGFVLEGRKFTRLPEEEFGHFYMQDCYVFLCRYWVPVEYEEEGKKEDKEKASAESKEGEEAAAEAEKQPEEDFQCIVYFWQGREASNMGWLTFTFSLQKKFESLFPGKLEVVRMTQQQENPKFLTHFKRKFIIHRGKRKVAQGALQPSLYQIRTNGSALCTRCIQINTDSSLLNSEFCFILKVPFESEDNQGIVYAWVGRASDPDEAKLAEDILNTMFDTSYSKQVINEGEEPENFFWVGIGAQKPYDDDAEYMKHTRLFRCSNEKGYFAVTEKCSDFCQDDLADDDIMLLDNGREVYMWVGTQTSQVEIKLSLKACQVYIQHTRSKENERPRCLRLVRKGNEQRAFTRCFHAWSTFRQAPA

Target ORF information:

RefSeq Version	XM_008821961.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X3, mRNA.

Target ORF information:

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

XM_008821961.1

ORF Insert Sequence:

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGAA CCAGCTGAGG CTGGCAGGCG CTTCCCCTGC CACAGTGGCT 
GCAGCTGCAG CTGTAGGGAG TGGGGCCAAA GACCCCTTGG CTCGAAAGAT GCGGCTACGG 
AGGCGCAAGG ACTCAGCCCA GGATGACCAG GCTAAGCAGG TGCTAAAAGG CATGTCAGAT 
GTGGCCCAGG AGAAGAACAA AAAGCAAGAG GAGAATGCAG ATGCCCGGAC CCCTGGGGGG 
AAGGTACGGC GCTGGGACCA GGGCCTGGAG AAGCCACGCC TTGACTACTC AGAGTTCTTC 
ACAGAGGATG TGGGCCAGCT GCCTGGCTTA ACCATTTGGC AAATTGAGAA CTTTGTGCCC 
GTGTTGGTGG AGGAAGCCTT CCATGGCAAG TTCTATGAGG CTGACTGCTA CATTGTACTC 
AAGACCTTTT TGGATGACAG CGGCTCCCTG AACTGGGAGA TCTACTACTG GATCGGCGGA 
GAGGCCACTC TTGACAAGAA AGCCTGCTCT GCTATCCATG CTGTTAACCT GCGAAACTAC 
CTGGGTGCTG AGTGCCGTAC TGTTCGGGAA GAGATGGGCG ATGAAAGTGA AGAGTTCCTG 
CAGGTTTTTG ACAACGACAT CTCCTACATT GAAGGAGGAA CAGCCAGTGG CTTCTACACT 
GTGGAAGATA CACACTATGT CACCAGGATG TACCGTGTAT ATGGGAAAAA GAACATCAGG 
TTGGAGCCTG TACCCATCAA GGGTGCCTCC CTGGATCCAA GGTTTGTGTT CCTGCTGGAC 
GGAGGGCTGG ACATCTACGT GTGGCGAGGG GCCCAAGCCA CACTGAGCAG CACTACCAAG 
GCCAGGCTTT TTGCAGAGAA AATCAACAAG AATGAGCGTA AAGGGAAAGC AGAAATCACG 
CTCCTGGTGC AAGGCCAAGA GCCCCCCGAG TTCTGGGAGG TGCTGGGTGG GGAGCCATCT 
GAAATCAAGA AACATGTACC TGACAACTTT TGGCCACCCC AGCCCAAGCT GTACAAGGTG 
GGCCTGGGCC TGGGCTACCT GGAACTGCCA CAGATCAACT ACAAGCTCTC AGTGGAACAT 
AAAAAACGGC CCAAGGTGGA ACTGATGCCC GGAATGAGAC TGCTGCAGAG CCTGCTGGAC 
ACACGATGTG TGTACATCCT GGACTGTTGG TCTGATGTGT TCATCTGGCT TGGCCGCAAG 
TCCCCACGCC TGGTGCGTGC TGCAGCACTC AAGCTGGGCC AAGAACTATG TGGGATGCTA 
CACCGACCTC GCCATGCAGT GGTTAGCCGC AGCCTGGAGG GCACTGAGGC TCAGGTGTTT 
AAAGCCAAGT TCAAAAATTG GGACGATGTA TTGACAGTGG ACTACACACG CAACGCAGAG 
GCTGTGTTGC AGGGCCTGGG GCTCTCTGGG AAGGTGAAGC GTGACACTGA GAAAAAAGAC 
CAGATGAAGG CTGACCTCAC TGCACTCTTC CTGCCTCGGC AGCCACCAAT GGCACTGGCT 
GAGGCAGAGC AGCTTATGGA AGAATGGAAC GAGGACCTAG ACGGCATGGA GGGCTTCGTG 
CTAGAGGGCC GGAAGTTCAC ACGGCTACCA GAGGAGGAAT TTGGCCACTT CTACATGCAG 
GACTGCTACG TCTTCCTCTG CAGGTACTGG GTGCCTGTGG AGTATGAGGA GGAAGGGAAA 
AAGGAAGACA AGGAGAAGGC CTCAGCAGAG AGCAAAGAAG GGGAAGAGGC AGCAGCCGAA 
GCAGAAAAGC AACCAGAGGA GGATTTCCAG TGCATCGTTT ACTTCTGGCA GGGTCGGGAA 
GCTTCCAATA TGGGCTGGCT CACCTTCACT TTTAGTCTGC AGAAGAAGTT TGAGAGCCTC 
TTCCCCGGCA AGCTGGAGGT AGTACGCATG ACACAGCAGC AGGAGAACCC CAAGTTTCTG 
ACACATTTTA AGAGAAAATT CATCATCCAC CGAGGCAAAA GAAAGGTGGC CCAGGGTGCC 
CTCCAGCCAA GCCTCTACCA GATCCGCACC AATGGCAGTG CACTCTGTAC CCGGTGCATC 
CAGATCAATA CTGATTCCAG CCTCCTCAAC TCTGAGTTCT GCTTCATCCT CAAGGTCCCC 
TTTGAGAGTG AAGACAATCA AGGCATTGTA TATGCCTGGG TGGGCCGAGC ATCAGACCCT 
GACGAAGCCA AGCTGGCAGA GGACATCCTG AATACTATGT TTGATACCTC CTACAGCAAA 
CAGGTCATCA ACGAAGGCGA GGAGCCCGAG AACTTCTTCT GGGTGGGCAT TGGAGCACAG 
AAGCCCTATG ACGACGATGC CGAGTACATG AAGCACACGA GGCTGTTCAG ATGCTCCAAT 
GAGAAGGGCT ACTTTGCAGT GACTGAAAAG TGCTCTGATT TCTGCCAAGA TGACCTGGCG 
GATGACGATA TCATGTTGCT AGACAATGGC CGAGAGGTCT ACATGTGGGT GGGGACCCAG 
ACAAGCCAAG TAGAGATCAA ACTGAGTCTG AAGGCCTGCC AGGTATACAT CCAGCACACA 
CGCTCCAAAG AAAATGAACG ACCACGTTGT CTGCGCCTGG TCCGCAAAGG CAATGAGCAG 
CGGGCCTTCA CCCGCTGCTT CCATGCCTGG AGCACCTTCC GCCAAGCTCC AGCGTAG

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

Flii ( XM_008821962.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008820184.1 Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X4, mRNA.

Price & Availability↑

CloneID	ONa39176
Clone ID Related Accession (Same CDS sequence)	XM_008821962.1
Accession Version	XM_008821962.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3714bp) 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	protein flightless-1 homolog isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358646.1) 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 :: 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##

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGAA CCAGCTGAGG CTGGCAGGCG CTTCCCCTGC CACAGTGGCT 
GCAGCTGCAG CTGGGAGTGG GGCCAAAGAC CCCTTGGCTC GAAAGATGCG GCTACGGAGG 
CGCAAGGACT CAGCCCAGGA TGACCAGGCT AAGCAGGTGC TAAAAGGCAT GTCAGATGTG 
GCCCAGGAGA AGAACAAAAA GCAAGAGGAG AATGCAGATG CCCGGACCCC TGGGGGGAAG 
GTACGGCGCT GGGACCAGGG CCTGGAGAAG CCACGCCTTG ACTACTCAGA GTTCTTCACA 
GAGGATGTGG GCCAGCTGCC TGGCTTAACC ATTTGGCAAA TTGAGAACTT TGTGCCCGTG 
TTGGTGGAGG AAGCCTTCCA TGGCAAGTTC TATGAGGCTG ACTGCTACAT TGTACTCAAG 
ACCTTTTTGG ATGACAGCGG CTCCCTGAAC TGGGAGATCT ACTACTGGAT CGGCGGAGAG 
GCCACTCTTG ACAAGAAAGC CTGCTCTGCT ATCCATGCTG TTAACCTGCG AAACTACCTG 
GGTGCTGAGT GCCGTACTGT TCGGGAAGAG ATGGGCGATG AAAGTGAAGA GTTCCTGCAG 
GTTTTTGACA ACGACATCTC CTACATTGAA GGAGGAACAG CCAGTGGCTT CTACACTGTG 
GAAGATACAC ACTATGTCAC CAGGATGTAC CGTGTATATG GGAAAAAGAA CATCAGGTTG 
GAGCCTGTAC CCATCAAGGG TGCCTCCCTG GATCCAAGGT TTGTGTTCCT GCTGGACGGA 
GGGCTGGACA TCTACGTGTG GCGAGGGGCC CAAGCCACAC TGAGCAGCAC TACCAAGGCC 
AGGCTTTTTG CAGAGAAAAT CAACAAGAAT GAGCGTAAAG GGAAAGCAGA AATCACGCTC 
CTGGTGCAAG GCCAAGAGCC CCCCGAGTTC TGGGAGGTGC TGGGTGGGGA GCCATCTGAA 
ATCAAGAAAC ATGTACCTGA CAACTTTTGG CCACCCCAGC CCAAGCTGTA CAAGGTGGGC 
CTGGGCCTGG GCTACCTGGA ACTGCCACAG ATCAACTACA AGCTCTCAGT GGAACATAAA 
AAACGGCCCA AGGTGGAACT GATGCCCGGA ATGAGACTGC TGCAGAGCCT GCTGGACACA 
CGATGTGTGT ACATCCTGGA CTGTTGGTCT GATGTGTTCA TCTGGCTTGG CCGCAAGTCC 
CCACGCCTGG TGCGTGCTGC AGCACTCAAG CTGGGCCAAG AACTATGTGG GATGCTACAC 
CGACCTCGCC ATGCAGTGGT TAGCCGCAGC CTGGAGGGCA CTGAGGCTCA GGTGTTTAAA 
GCCAAGTTCA AAAATTGGGA CGATGTATTG ACAGTGGACT ACACACGCAA CGCAGAGGCT 
GTGTTGCAGG GCCTGGGGCT CTCTGGGAAG GTGAAGCGTG ACACTGAGAA AAAAGACCAG 
ATGAAGGCTG ACCTCACTGC ACTCTTCCTG CCTCGGCAGC CACCAATGGC ACTGGCTGAG 
GCAGAGCAGC TTATGGAAGA ATGGAACGAG GACCTAGACG GCATGGAGGG CTTCGTGCTA 
GAGGGCCGGA AGTTCACACG GCTACCAGAG GAGGAATTTG GCCACTTCTA CATGCAGGAC 
TGCTACGTCT TCCTCTGCAG GTACTGGGTG CCTGTGGAGT ATGAGGAGGA AGGGAAAAAG 
GAAGACAAGG AGAAGGCCTC AGCAGAGAGC AAAGAAGGGG AAGAGGCAGC AGCCGAAGCA 
GAAAAGCAAC CAGAGGAGGA TTTCCAGTGC ATCGTTTACT TCTGGCAGGG TCGGGAAGCT 
TCCAATATGG GCTGGCTCAC CTTCACTTTT AGTCTGCAGA AGAAGTTTGA GAGCCTCTTC 
CCCGGCAAGC TGGAGGTAGT ACGCATGACA CAGCAGCAGG AGAACCCCAA GTTTCTGACA 
CATTTTAAGA GAAAATTCAT CATCCACCGA GGCAAAAGAA AGGTGGCCCA GGGTGCCCTC 
CAGCCAAGCC TCTACCAGAT CCGCACCAAT GGCAGTGCAC TCTGTACCCG GTGCATCCAG 
ATCAATACTG ATTCCAGCCT CCTCAACTCT GAGTTCTGCT TCATCCTCAA GGTCCCCTTT 
GAGAGTGAAG ACAATCAAGG CATTGTATAT GCCTGGGTGG GCCGAGCATC AGACCCTGAC 
GAAGCCAAGC TGGCAGAGGA CATCCTGAAT ACTATGTTTG ATACCTCCTA CAGCAAACAG 
GTCATCAACG AAGGCGAGGA GCCCGAGAAC TTCTTCTGGG TGGGCATTGG AGCACAGAAG 
CCCTATGACG ACGATGCCGA GTACATGAAG CACACGAGGC TGTTCAGATG CTCCAATGAG 
AAGGGCTACT TTGCAGTGAC TGAAAAGTGC TCTGATTTCT GCCAAGATGA CCTGGCGGAT 
GACGATATCA TGTTGCTAGA CAATGGCCGA GAGGTCTACA TGTGGGTGGG GACCCAGACA 
AGCCAAGTAG AGATCAAACT GAGTCTGAAG GCCTGCCAGG TATACATCCA GCACACACGC 
TCCAAAGAAA ATGAACGACC ACGTTGTCTG CGCCTGGTCC GCAAAGGCAA TGAGCAGCGG 
GCCTTCACCC GCTGCTTCCA TGCCTGGAGC ACCTTCCGCC AAGCTCCAGC GTAG

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

RefSeq	XP_008820184.1
CDS	62..3775
Translation	MEATGVLPFVRGVDLSGNDFKGGYFPENVKAMTSLRWLKLNRTGLCYLPEELAALQKLEHLSVSHNNLTTLHGELSSLPSLRAIVARANNLKNSGVPDDIFKLDDLSVLDLSHNQLTECPRELENAKNMLVLNLSHNSIDSIPNQLFINLTDLLYLDLSENHLESLPPQMRRLVHLQTLVLNGNPLLHAQLRQLPAMIALQTLHLRNTQRTQSNLPTSLEGLSNLADVDLSCNDLTRVPECLYTLPSLRRLNLSSNQISELSLCVDQWVHMETLNLSRNQLTSLPSAICKLTKLKKLYLNSNKLDFDGLPSGIGKLSSLEEFMAANNNLELIPESLCRCPKLKKLVLNRNRLVTLPEAIHFLTEIENQLRLAGASPATVAAAAAGSGAKDPLARKMRLRRRKDSAQDDQAKQVLKGMSDVAQEKNKKQEENADARTPGGKVRRWDQGLEKPRLDYSEFFTEDVGQLPGLTIWQIENFVPVLVEEAFHGKFYEADCYIVLKTFLDDSGSLNWEIYYWIGGEATLDKKACSAIHAVNLRNYLGAECRTVREEMGDESEEFLQVFDNDISYIEGGTASGFYTVEDTHYVTRMYRVYGKKNIRLEPVPIKGASLDPRFVFLLDGGLDIYVWRGAQATLSSTTKARLFAEKINKNERKGKAEITLLVQGQEPPEFWEVLGGEPSEIKKHVPDNFWPPQPKLYKVGLGLGYLELPQINYKLSVEHKKRPKVELMPGMRLLQSLLDTRCVYILDCWSDVFIWLGRKSPRLVRAAALKLGQELCGMLHRPRHAVVSRSLEGTEAQVFKAKFKNWDDVLTVDYTRNAEAVLQGLGLSGKVKRDTEKKDQMKADLTALFLPRQPPMALAEAEQLMEEWNEDLDGMEGFVLEGRKFTRLPEEEFGHFYMQDCYVFLCRYWVPVEYEEEGKKEDKEKASAESKEGEEAAAEAEKQPEEDFQCIVYFWQGREASNMGWLTFTFSLQKKFESLFPGKLEVVRMTQQQENPKFLTHFKRKFIIHRGKRKVAQGALQPSLYQIRTNGSALCTRCIQINTDSSLLNSEFCFILKVPFESEDNQGIVYAWVGRASDPDEAKLAEDILNTMFDTSYSKQVINEGEEPENFFWVGIGAQKPYDDDAEYMKHTRLFRCSNEKGYFAVTEKCSDFCQDDLADDDIMLLDNGREVYMWVGTQTSQVEIKLSLKACQVYIQHTRSKENERPRCLRLVRKGNEQRAFTRCFHAWSTFRQAPA

Target ORF information:

RefSeq Version	XM_008821962.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili FLII, actin remodeling protein (Flii), transcript variant X4, mRNA.

Target ORF information:

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

XM_008821962.1

ORF Insert Sequence:

ATGGAGGCCA CCGGGGTCCT GCCGTTCGTG CGCGGCGTAG ACCTCAGCGG GAACGACTTC 
AAGGGTGGCT ACTTTCCTGA GAATGTTAAG GCCATGACCA GCCTGCGATG GCTGAAGTTG 
AACCGGACAG GCCTCTGCTA CCTCCCTGAA GAACTAGCTG CCCTACAGAA GCTGGAGCAC 
CTGTCTGTGA GCCACAACAA CCTGACCACA CTACATGGGG AACTGTCCAG CTTACCTTCG 
CTTCGGGCCA TTGTAGCACG AGCCAACAAC CTGAAGAATT CTGGAGTTCC TGATGATATC 
TTCAAGCTGG ATGACCTCTC AGTCCTGGAC TTGAGCCACA ACCAGTTGAC AGAGTGCCCA 
CGGGAGCTGG AGAATGCCAA GAACATGCTG GTGCTCAACC TCAGCCATAA CAGCATTGAC 
TCCATCCCCA ACCAACTATT CATCAACCTT ACGGACCTGC TGTACCTGGA CCTCAGTGAG 
AATCACCTGG AGAGCCTACC GCCTCAGATG CGCCGCCTTG TGCACCTGCA GACACTGGTG 
CTCAACGGGA ACCCACTGCT GCATGCTCAA CTCCGGCAGC TCCCAGCGAT GATAGCCCTA 
CAGACCCTTC ACCTTCGGAA CACACAGCGC ACCCAGAGCA ATCTTCCCAC TAGCCTGGAG 
GGCCTGAGCA ACCTTGCAGA TGTGGACCTG TCATGCAACG ACTTGACACG GGTGCCTGAG 
TGCCTATATA CCCTCCCCAG CCTGCGCCGC CTCAACCTTA GCAGCAACCA GATTTCAGAG 
CTGTCGCTGT GTGTTGACCA GTGGGTGCAC ATGGAGACTT TGAACCTGTC CCGCAACCAG 
CTCACCTCTC TGCCTTCAGC CATTTGCAAG CTGACCAAGC TGAAGAAGCT GTACTTGAAC 
TCCAACAAGC TGGACTTCGA TGGGCTGCCC TCTGGCATTG GCAAGCTCAG CAGCCTGGAG 
GAGTTCATGG CTGCCAACAA CAACCTGGAG CTGATTCCCG AAAGTCTCTG CAGATGCCCA 
AAGCTGAAGA AACTCGTCTT GAACAGGAAT CGCCTGGTGA CCCTCCCAGA GGCCATTCAC 
TTCCTTACAG AGATTGAGAA CCAGCTGAGG CTGGCAGGCG CTTCCCCTGC CACAGTGGCT 
GCAGCTGCAG CTGGGAGTGG GGCCAAAGAC CCCTTGGCTC GAAAGATGCG GCTACGGAGG 
CGCAAGGACT CAGCCCAGGA TGACCAGGCT AAGCAGGTGC TAAAAGGCAT GTCAGATGTG 
GCCCAGGAGA AGAACAAAAA GCAAGAGGAG AATGCAGATG CCCGGACCCC TGGGGGGAAG 
GTACGGCGCT GGGACCAGGG CCTGGAGAAG CCACGCCTTG ACTACTCAGA GTTCTTCACA 
GAGGATGTGG GCCAGCTGCC TGGCTTAACC ATTTGGCAAA TTGAGAACTT TGTGCCCGTG 
TTGGTGGAGG AAGCCTTCCA TGGCAAGTTC TATGAGGCTG ACTGCTACAT TGTACTCAAG 
ACCTTTTTGG ATGACAGCGG CTCCCTGAAC TGGGAGATCT ACTACTGGAT CGGCGGAGAG 
GCCACTCTTG ACAAGAAAGC CTGCTCTGCT ATCCATGCTG TTAACCTGCG AAACTACCTG 
GGTGCTGAGT GCCGTACTGT TCGGGAAGAG ATGGGCGATG AAAGTGAAGA GTTCCTGCAG 
GTTTTTGACA ACGACATCTC CTACATTGAA GGAGGAACAG CCAGTGGCTT CTACACTGTG 
GAAGATACAC ACTATGTCAC CAGGATGTAC CGTGTATATG GGAAAAAGAA CATCAGGTTG 
GAGCCTGTAC CCATCAAGGG TGCCTCCCTG GATCCAAGGT TTGTGTTCCT GCTGGACGGA 
GGGCTGGACA TCTACGTGTG GCGAGGGGCC CAAGCCACAC TGAGCAGCAC TACCAAGGCC 
AGGCTTTTTG CAGAGAAAAT CAACAAGAAT GAGCGTAAAG GGAAAGCAGA AATCACGCTC 
CTGGTGCAAG GCCAAGAGCC CCCCGAGTTC TGGGAGGTGC TGGGTGGGGA GCCATCTGAA 
ATCAAGAAAC ATGTACCTGA CAACTTTTGG CCACCCCAGC CCAAGCTGTA CAAGGTGGGC 
CTGGGCCTGG GCTACCTGGA ACTGCCACAG ATCAACTACA AGCTCTCAGT GGAACATAAA 
AAACGGCCCA AGGTGGAACT GATGCCCGGA ATGAGACTGC TGCAGAGCCT GCTGGACACA 
CGATGTGTGT ACATCCTGGA CTGTTGGTCT GATGTGTTCA TCTGGCTTGG CCGCAAGTCC 
CCACGCCTGG TGCGTGCTGC AGCACTCAAG CTGGGCCAAG AACTATGTGG GATGCTACAC 
CGACCTCGCC ATGCAGTGGT TAGCCGCAGC CTGGAGGGCA CTGAGGCTCA GGTGTTTAAA 
GCCAAGTTCA AAAATTGGGA CGATGTATTG ACAGTGGACT ACACACGCAA CGCAGAGGCT 
GTGTTGCAGG GCCTGGGGCT CTCTGGGAAG GTGAAGCGTG ACACTGAGAA AAAAGACCAG 
ATGAAGGCTG ACCTCACTGC ACTCTTCCTG CCTCGGCAGC CACCAATGGC ACTGGCTGAG 
GCAGAGCAGC TTATGGAAGA ATGGAACGAG GACCTAGACG GCATGGAGGG CTTCGTGCTA 
GAGGGCCGGA AGTTCACACG GCTACCAGAG GAGGAATTTG GCCACTTCTA CATGCAGGAC 
TGCTACGTCT TCCTCTGCAG GTACTGGGTG CCTGTGGAGT ATGAGGAGGA AGGGAAAAAG 
GAAGACAAGG AGAAGGCCTC AGCAGAGAGC AAAGAAGGGG AAGAGGCAGC AGCCGAAGCA 
GAAAAGCAAC CAGAGGAGGA TTTCCAGTGC ATCGTTTACT TCTGGCAGGG TCGGGAAGCT 
TCCAATATGG GCTGGCTCAC CTTCACTTTT AGTCTGCAGA AGAAGTTTGA GAGCCTCTTC 
CCCGGCAAGC TGGAGGTAGT ACGCATGACA CAGCAGCAGG AGAACCCCAA GTTTCTGACA 
CATTTTAAGA GAAAATTCAT CATCCACCGA GGCAAAAGAA AGGTGGCCCA GGGTGCCCTC 
CAGCCAAGCC TCTACCAGAT CCGCACCAAT GGCAGTGCAC TCTGTACCCG GTGCATCCAG 
ATCAATACTG ATTCCAGCCT CCTCAACTCT GAGTTCTGCT TCATCCTCAA GGTCCCCTTT 
GAGAGTGAAG ACAATCAAGG CATTGTATAT GCCTGGGTGG GCCGAGCATC AGACCCTGAC 
GAAGCCAAGC TGGCAGAGGA CATCCTGAAT ACTATGTTTG ATACCTCCTA CAGCAAACAG 
GTCATCAACG AAGGCGAGGA GCCCGAGAAC TTCTTCTGGG TGGGCATTGG AGCACAGAAG 
CCCTATGACG ACGATGCCGA GTACATGAAG CACACGAGGC TGTTCAGATG CTCCAATGAG 
AAGGGCTACT TTGCAGTGAC TGAAAAGTGC TCTGATTTCT GCCAAGATGA CCTGGCGGAT 
GACGATATCA TGTTGCTAGA CAATGGCCGA GAGGTCTACA TGTGGGTGGG GACCCAGACA 
AGCCAAGTAG AGATCAAACT GAGTCTGAAG GCCTGCCAGG TATACATCCA GCACACACGC 
TCCAAAGAAA ATGAACGACC ACGTTGTCTG CGCCTGGTCC GCAAAGGCAA TGAGCAGCGG 
GCCTTCACCC GCTGCTTCCA TGCCTGGAGC ACCTTCCGCC AAGCTCCAGC GTAG

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

PubMed

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

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:

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Most Popular Services

Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム