Flt3 cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Flt3
Entrez Gene ID	103727235
Full Name	fms related tyrosine kinase 3
Gene Type	protein-coding
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008825063.1	XP_008823285.1	receptor-type tyrosine-protein kinase FLT3 isoform X1
XM_008825064.2	XP_008823286.2	receptor-type tyrosine-protein kinase FLT3 isoform X2

Pathways from BioSystems
Gene Ontology

The following Flt3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Flt3 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
ONa41888	XM_008825063.1 Latest version!	Nannospalax galili fms related tyrosine kinase 3 (Flt3), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
ONa41889	XM_008825064.2 Latest version!	Nannospalax galili fms related tyrosine kinase 3 (Flt3), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

Flt3 ( XM_008825063.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008823285.1 Nannospalax galili fms related tyrosine kinase 3 (Flt3), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ONa41888
Clone ID Related Accession (Same CDS sequence)	XM_008825063.1
Accession Version	XM_008825063.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2943bp) 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	receptor-type tyrosine-protein kinase FLT3 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008360317.1) 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##

ATGATATTTG AGACTTTTAC AAATCAAGAT CCGCCTGTGA TCAAGTGTGT TTTAATCAGT 
CATAAGAGCA ATGGTTCATC AGCGGGAGAG TCATCATCGT ATCTCACGGT GCCAGAGTCT 
CCAGAAGACC TTGGGTGTAC CCTGAGACCT GAGAGTGCAG GGATGGTGTA TGAAGCTGCC 
ACTGTGGAAG TAGATGAGTC TGAGTCCATC ACACTGCAAG TGCTGGTTAC CACCCCAGGG 
AACATTTCCT GCTTCTGGGT TTTTAACCAC AGCTCCCTGG ACTGCCAGCC ACACTTCGAT 
TTACAAAACA GAGGAGTCAT TTCCACGGTC ATTTTGAAAA TGACAGAGAC CCAAGCTGGA 
GAATACTTAC TTCTTATTCA GAGTGAAGCT GCCAATTACA CAATATTGTT TACAGTGAGT 
ATACGAAATC CCCAGCTATA CACACTGAGG AGACCTTACT TCAGGAAAAT GGAGAACCAG 
GATGCACTAG TCTGCATATC TGAAAGTGTT CCGGAGCCCG TTGTGGAGTG GGTGCTCTGC 
AGTTCACATG GGGAAAGTTG TAAAGAAGAA AGTCCAGCTG TTGTTAAAAA GGAGGAAAAG 
GTACTTCATG AGTTATTTGG AACAGACATC AGGTGCTGTG CAAGAAATGA GCTGGGCAGA 
GAATGTACCA AGCTGTTCAC AATAGATCTA AATCAGACTC CTCAGACCAC ACTACCTCAA 
TTATTCCTGA AAGTGGGGGA ACCTCTGTGG ATAAGATGCA AAGCTGTTCA TGTGAACCAT 
AGATTTGGGC TCACCTGGGA ATTAGAAAAC AAAGCCCTGG AGAAGGGCAG CTACTTTGAG 
ATGAGCACCT ATTCAACAAA CAGATCTATG ATACGGATTC TGCTGGCTTT TGTGTCGTCA 
GTGGGAAGAA ACAACACTGG CTATTATACT TGTTCCTCTT CAAAGCATCC CAGCCAGTCA 
GCTTTGGTTA CCATCCTAGA AAAGGGATTT ATAAATGCTA CCAGTACACG GGAAGAGTAT 
GAAATTGACC AGTATGAAAA GTTCTGCTTT TCTGTCAGGT TTAAAGCATA CCCACAAATC 
CGATGCAGAT GGACTTTCTC TCGGAAATCA TTTCCCTGTG AGCAAAGTGG TCTTGAAGAT 
GGATACAGCA TATCTAAGTT TTGCCATCAT CAGCACCAAC CAGGAGAATA TATATTCCAT 
GCTGAAAATG ATGATGCTCA GTTCACCAAA ATGTTCACAC TGAATATCAG AAGGAAACCT 
CAAGTGCAAG CTGAGACCTC AGCCAGCCAG GCGTCCTGTT CCTCTGATGG ATATCCGTTA 
CCCTCTTGGA CCTGGAAGAA GTGTTCAGAC AAGTCTCCCA ACTGCACTGA AGAAATCACA 
GAAGGAGTTT GGAATAAAAA GACTAATAAT AACAGAGAAG TGTTTGGACA GTGGGTGTCC 
AGCAGTACTC TAAACATGAG TGAGGCTATG AAAGGGTTTC TGGTCAAATG CTGTGCGTAC 
AATTCCCTGG GCACGTCTTG TAAAACCATC CTGTTAAACT CACCAGGCCC CTTCCCTTTC 
ATCCAAGACA ACATCTCCTT CTATGCAACC ATTGGGCTTT GTCTTCCTTT CATTGTGGTC 
CTAACCATGC TGATCTGTCA CAAGTACAAG AAGCAATTTA GGTATGAGAG CCAGCTGCAG 
ATGGTTCAGG TAACAGGCTC GCTGGATAAT GAGTACTTCT ACGTAGACTT CAGGGAATAT 
GAATACGATC TCAAGTGGGA GTTTCCACGA GAAAACTTAG AGTTTGGGAA GGTCCTAGGA 
TCAGGAGCTT TTGGAAAAGT GATGAATGCG ACAGCGTATG GAATTAGTAA CACAGGCGTG 
TCAATCCAGG TGGCGGTAAA AATGTTGAAA GAAAAAGCTG ACAGTTCTGA AAGAGAGGCA 
CTCATGTCAG AGCTCAAAAT GATGACTCAC CTGGGGCACC ACGAGAACAT TGTGAACCTG 
CTGGGAGCGT GCACACTGTC AGGACCGGTT TACTTGATTT TTGAGTACTG TTGCTATGGT 
GACCTTCTCA ATTACCTAAG AAGTAAAAGA GAAAAATTTC ACAGGACGTG GACAGAGATT 
TTCAAGGAGC ATAATTTCAG CTTTTATCCC ACTTTCCAAT CACATCCAAA TCCCAGTATG 
CCTGGTTCAA GAGAAGCTCA AATACACCAG GACTTGGATC AGATCTCAAG GTTCAATGGG 
AACTCAATTC ATTCTGAAGA TGAGATTGAG TATGAAAACC AAAAAAGGTT AGAAGAAGAA 
GAAGATTTGA ATGTGCTTAC ATTTGAAGAT CTTCTTTGCT TTGCGTATCA AGTTGCCAAA 
GGAATGGAAT TTCTGGAATT TAAGTCGTGT GTTCACAGAG ACCTGGCAGC CAGGAATGTG 
CTGGTCACCC ATGGGAAGGT GGTGAAGATC TGTGACTTTG GACTAGCCCG AGATATCCTG 
AGTGACTCCA GCTACGTTGT CAGAGGCAAT GCGCGGCTGC CTGTGAAATG GATGGCGCCG 
GAGAGCTTGT TTGAGGGGAT CTACACAATT AAGAGTGATG TCTGGTCGTA TGGAGTACTG 
CTCTGGGAGA TATTCTCACT TGGTGTGAAT CCTTACCCTG GCATTCCTGT CGATGCGAAC 
TTCTACAAAC TGATTCAGAG CGGCTTTAAA ATGGATCAGC CCTTCTATGC TACAGAAGAA 
ATATACTTTA TAATGCAATC CTGCTGGGCT TTTGACTCAA GGAAGCGGCC ATCCTTCCCT 
AACCTGACTT CATTTTTAGG ATGTCAGCTG GAAGATGCAG AAGAAGCGAT GTATCAGAAC 
ATGAGTGGCC ACATTTCAGA GCGTCCTTCT ATCTACCAAA ACAGGCGACC TGTCAGCCGA 
GAGGCGGGTT CAGATCCATC TTCACCACAG GCCCAGGTGA AGATTCATAG AGAAATGAGT 
TAG

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

RefSeq	XP_008823285.1
CDS	9..2951
Translation	MIFETFTNQDPPVIKCVLISHKSNGSSAGESSSYLTVPESPEDLGCTLRPESAGMVYEAATVEVDESESITLQVLVTTPGNISCFWVFNHSSLDCQPHFDLQNRGVISTVILKMTETQAGEYLLLIQSEAANYTILFTVSIRNPQLYTLRRPYFRKMENQDALVCISESVPEPVVEWVLCSSHGESCKEESPAVVKKEEKVLHELFGTDIRCCARNELGRECTKLFTIDLNQTPQTTLPQLFLKVGEPLWIRCKAVHVNHRFGLTWELENKALEKGSYFEMSTYSTNRSMIRILLAFVSSVGRNNTGYYTCSSSKHPSQSALVTILEKGFINATSTREEYEIDQYEKFCFSVRFKAYPQIRCRWTFSRKSFPCEQSGLEDGYSISKFCHHQHQPGEYIFHAENDDAQFTKMFTLNIRRKPQVQAETSASQASCSSDGYPLPSWTWKKCSDKSPNCTEEITEGVWNKKTNNNREVFGQWVSSSTLNMSEAMKGFLVKCCAYNSLGTSCKTILLNSPGPFPFIQDNISFYATIGLCLPFIVVLTMLICHKYKKQFRYESQLQMVQVTGSLDNEYFYVDFREYEYDLKWEFPRENLEFGKVLGSGAFGKVMNATAYGISNTGVSIQVAVKMLKEKADSSEREALMSELKMMTHLGHHENIVNLLGACTLSGPVYLIFEYCCYGDLLNYLRSKREKFHRTWTEIFKEHNFSFYPTFQSHPNPSMPGSREAQIHQDLDQISRFNGNSIHSEDEIEYENQKRLEEEEDLNVLTFEDLLCFAYQVAKGMEFLEFKSCVHRDLAARNVLVTHGKVVKICDFGLARDILSDSSYVVRGNARLPVKWMAPESLFEGIYTIKSDVWSYGVLLWEIFSLGVNPYPGIPVDANFYKLIQSGFKMDQPFYATEEIYFIMQSCWAFDSRKRPSFPNLTSFLGCQLEDAEEAMYQNMSGHISERPSIYQNRRPVSREAGSDPSSPQAQVKIHREMS

Target ORF information:

RefSeq Version	XM_008825063.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili fms related tyrosine kinase 3 (Flt3), transcript variant X1, mRNA.

Target ORF information:

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

XM_008825063.1

ORF Insert Sequence:

ATGATATTTG AGACTTTTAC AAATCAAGAT CCGCCTGTGA TCAAGTGTGT TTTAATCAGT 
CATAAGAGCA ATGGTTCATC AGCGGGAGAG TCATCATCGT ATCTCACGGT GCCAGAGTCT 
CCAGAAGACC TTGGGTGTAC CCTGAGACCT GAGAGTGCAG GGATGGTGTA TGAAGCTGCC 
ACTGTGGAAG TAGATGAGTC TGAGTCCATC ACACTGCAAG TGCTGGTTAC CACCCCAGGG 
AACATTTCCT GCTTCTGGGT TTTTAACCAC AGCTCCCTGG ACTGCCAGCC ACACTTCGAT 
TTACAAAACA GAGGAGTCAT TTCCACGGTC ATTTTGAAAA TGACAGAGAC CCAAGCTGGA 
GAATACTTAC TTCTTATTCA GAGTGAAGCT GCCAATTACA CAATATTGTT TACAGTGAGT 
ATACGAAATC CCCAGCTATA CACACTGAGG AGACCTTACT TCAGGAAAAT GGAGAACCAG 
GATGCACTAG TCTGCATATC TGAAAGTGTT CCGGAGCCCG TTGTGGAGTG GGTGCTCTGC 
AGTTCACATG GGGAAAGTTG TAAAGAAGAA AGTCCAGCTG TTGTTAAAAA GGAGGAAAAG 
GTACTTCATG AGTTATTTGG AACAGACATC AGGTGCTGTG CAAGAAATGA GCTGGGCAGA 
GAATGTACCA AGCTGTTCAC AATAGATCTA AATCAGACTC CTCAGACCAC ACTACCTCAA 
TTATTCCTGA AAGTGGGGGA ACCTCTGTGG ATAAGATGCA AAGCTGTTCA TGTGAACCAT 
AGATTTGGGC TCACCTGGGA ATTAGAAAAC AAAGCCCTGG AGAAGGGCAG CTACTTTGAG 
ATGAGCACCT ATTCAACAAA CAGATCTATG ATACGGATTC TGCTGGCTTT TGTGTCGTCA 
GTGGGAAGAA ACAACACTGG CTATTATACT TGTTCCTCTT CAAAGCATCC CAGCCAGTCA 
GCTTTGGTTA CCATCCTAGA AAAGGGATTT ATAAATGCTA CCAGTACACG GGAAGAGTAT 
GAAATTGACC AGTATGAAAA GTTCTGCTTT TCTGTCAGGT TTAAAGCATA CCCACAAATC 
CGATGCAGAT GGACTTTCTC TCGGAAATCA TTTCCCTGTG AGCAAAGTGG TCTTGAAGAT 
GGATACAGCA TATCTAAGTT TTGCCATCAT CAGCACCAAC CAGGAGAATA TATATTCCAT 
GCTGAAAATG ATGATGCTCA GTTCACCAAA ATGTTCACAC TGAATATCAG AAGGAAACCT 
CAAGTGCAAG CTGAGACCTC AGCCAGCCAG GCGTCCTGTT CCTCTGATGG ATATCCGTTA 
CCCTCTTGGA CCTGGAAGAA GTGTTCAGAC AAGTCTCCCA ACTGCACTGA AGAAATCACA 
GAAGGAGTTT GGAATAAAAA GACTAATAAT AACAGAGAAG TGTTTGGACA GTGGGTGTCC 
AGCAGTACTC TAAACATGAG TGAGGCTATG AAAGGGTTTC TGGTCAAATG CTGTGCGTAC 
AATTCCCTGG GCACGTCTTG TAAAACCATC CTGTTAAACT CACCAGGCCC CTTCCCTTTC 
ATCCAAGACA ACATCTCCTT CTATGCAACC ATTGGGCTTT GTCTTCCTTT CATTGTGGTC 
CTAACCATGC TGATCTGTCA CAAGTACAAG AAGCAATTTA GGTATGAGAG CCAGCTGCAG 
ATGGTTCAGG TAACAGGCTC GCTGGATAAT GAGTACTTCT ACGTAGACTT CAGGGAATAT 
GAATACGATC TCAAGTGGGA GTTTCCACGA GAAAACTTAG AGTTTGGGAA GGTCCTAGGA 
TCAGGAGCTT TTGGAAAAGT GATGAATGCG ACAGCGTATG GAATTAGTAA CACAGGCGTG 
TCAATCCAGG TGGCGGTAAA AATGTTGAAA GAAAAAGCTG ACAGTTCTGA AAGAGAGGCA 
CTCATGTCAG AGCTCAAAAT GATGACTCAC CTGGGGCACC ACGAGAACAT TGTGAACCTG 
CTGGGAGCGT GCACACTGTC AGGACCGGTT TACTTGATTT TTGAGTACTG TTGCTATGGT 
GACCTTCTCA ATTACCTAAG AAGTAAAAGA GAAAAATTTC ACAGGACGTG GACAGAGATT 
TTCAAGGAGC ATAATTTCAG CTTTTATCCC ACTTTCCAAT CACATCCAAA TCCCAGTATG 
CCTGGTTCAA GAGAAGCTCA AATACACCAG GACTTGGATC AGATCTCAAG GTTCAATGGG 
AACTCAATTC ATTCTGAAGA TGAGATTGAG TATGAAAACC AAAAAAGGTT AGAAGAAGAA 
GAAGATTTGA ATGTGCTTAC ATTTGAAGAT CTTCTTTGCT TTGCGTATCA AGTTGCCAAA 
GGAATGGAAT TTCTGGAATT TAAGTCGTGT GTTCACAGAG ACCTGGCAGC CAGGAATGTG 
CTGGTCACCC ATGGGAAGGT GGTGAAGATC TGTGACTTTG GACTAGCCCG AGATATCCTG 
AGTGACTCCA GCTACGTTGT CAGAGGCAAT GCGCGGCTGC CTGTGAAATG GATGGCGCCG 
GAGAGCTTGT TTGAGGGGAT CTACACAATT AAGAGTGATG TCTGGTCGTA TGGAGTACTG 
CTCTGGGAGA TATTCTCACT TGGTGTGAAT CCTTACCCTG GCATTCCTGT CGATGCGAAC 
TTCTACAAAC TGATTCAGAG CGGCTTTAAA ATGGATCAGC CCTTCTATGC TACAGAAGAA 
ATATACTTTA TAATGCAATC CTGCTGGGCT TTTGACTCAA GGAAGCGGCC ATCCTTCCCT 
AACCTGACTT CATTTTTAGG ATGTCAGCTG GAAGATGCAG AAGAAGCGAT GTATCAGAAC 
ATGAGTGGCC ACATTTCAGA GCGTCCTTCT ATCTACCAAA ACAGGCGACC TGTCAGCCGA 
GAGGCGGGTT CAGATCCATC TTCACCACAG GCCCAGGTGA AGATTCATAG AGAAATGAGT 
TAG

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

Flt3 ( XM_008825064.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008823286.2 Nannospalax galili fms related tyrosine kinase 3 (Flt3), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ONa41889
Clone ID Related Accession (Same CDS sequence)	XM_008825064.2
Accession Version	XM_008825064.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2784bp) 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	receptor-type tyrosine-protein kinase FLT3 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008360317.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008825064.1. ##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##

ATGGTGTATG AAGCTGCCAC TGTGGAAGTA GATGAGTCTG AGTCCATCAC ACTGCAAGTG 
CTGGTTACCA CCCCAGGGAA CATTTCCTGC TTCTGGGTTT TTAACCACAG CTCCCTGGAC 
TGCCAGCCAC ACTTCGATTT ACAAAACAGA GGAGTCATTT CCACGGTCAT TTTGAAAATG 
ACAGAGACCC AAGCTGGAGA ATACTTACTT CTTATTCAGA GTGAAGCTGC CAATTACACA 
ATATTGTTTA CAGTGAGTAT ACGAAATCCC CAGCTATACA CACTGAGGAG ACCTTACTTC 
AGGAAAATGG AGAACCAGGA TGCACTAGTC TGCATATCTG AAAGTGTTCC GGAGCCCGTT 
GTGGAGTGGG TGCTCTGCAG TTCACATGGG GAAAGTTGTA AAGAAGAAAG TCCAGCTGTT 
GTTAAAAAGG AGGAAAAGGT ACTTCATGAG TTATTTGGAA CAGACATCAG GTGCTGTGCA 
AGAAATGAGC TGGGCAGAGA ATGTACCAAG CTGTTCACAA TAGATCTAAA TCAGACTCCT 
CAGACCACAC TACCTCAATT ATTCCTGAAA GTGGGGGAAC CTCTGTGGAT AAGATGCAAA 
GCTGTTCATG TGAACCATAG ATTTGGGCTC ACCTGGGAAT TAGAAAACAA AGCCCTGGAG 
AAGGGCAGCT ACTTTGAGAT GAGCACCTAT TCAACAAACA GATCTATGAT ACGGATTCTG 
CTGGCTTTTG TGTCGTCAGT GGGAAGAAAC AACACTGGCT ATTATACTTG TTCCTCTTCA 
AAGCATCCCA GCCAGTCAGC TTTGGTTACC ATCCTAGAAA AGGGATTTAT AAATGCTACC 
AGTACACGGG AAGAGTATGA AATTGACCAG TATGAAAAGT TCTGCTTTTC TGTCAGGTTT 
AAAGCATACC CACAAATCCG ATGCAGATGG ACTTTCTCTC GGAAATCATT TCCCTGTGAG 
CAAAGTGGTC TTGAAGATGG ATACAGCAGC ATATCTAAGT TTTGCCATCA TCAGCACCAA 
CCAGGAGAAT ATATATTCCA TGCTGAAAAT GATGATGCTC AGTTCACCAA AATGTTCACA 
CTGAATATCA GAAGGAAACC TCAAGTGCAA GCTGAGACCT CAGCCAGCCA GGCGTCCTGT 
TCCTCTGATG GATATCCGTT ACCCTCTTGG ACCTGGAAGA AGTGTTCAGA CAAGTCTCCC 
AACTGCACTG AAGAAATCAC AGAAGGAGTT TGGAATAAAA AGACTAATAA TAACAGAGAA 
GTGTTTGGAC AGTGGGTGTC CAGCAGTACT CTAAACATGA GTGAGGCTAT GAAAGGGTTT 
CTGGTCAAAT GCTGTGCGTA CAATTCCCTG GGCACGTCTT GTAAAACCAT CCTGTTAAAC 
TCACCAGGCC CCTTCCCTTT CATCCAAGAC AACATCTCCT TCTATGCAAC CATTGGGCTT 
TGTCTTCCTT TCATTGTGGT CCTAACCATG CTGATCTGTC ACAAGTACAA GAAGCAATTT 
AGGTATGAGA GCCAGCTGCA GATGGTTCAG GTAACAGGCT CGCTGGATAA TGAGTACTTC 
TACGTAGACT TCAGGGAATA TGAATACGAT CTCAAGTGGG AGTTTCCACG AGAAAACTTA 
GAGTTTGGGA AGGTCCTAGG ATCAGGAGCT TTTGGAAAAG TGATGAATGC GACAGCGTAT 
GGAATTAGTA ACACAGGCGT GTCAATCCAG GTGGCGGTAA AAATGTTGAA AGAAAAAGCT 
GACAGTTCTG AAAGAGAGGC ACTCATGTCA GAGCTCAAAA TGATGACTCA CCTGGGGCAC 
CACGAGAACA TTGTGAACCT GCTGGGAGCG TGCACACTGT CAGGACCGGT TTACTTGATT 
TTTGAGTACT GTTGCTATGG TGACCTTCTC AATTACCTAA GAAGTAAAAG AGAAAAATTT 
CACAGGACGT GGACAGAGAT TTTCAAGGAG CATAATTTCA GCTTTTATCC CACTTTCCAA 
TCACATCCAA ATCCCAGTAT GCCTGGTTCA AGAGAAGCTC AAATACACCA GGACTTGGAT 
CAGATCTCAA GGTTCAATGG GAACTCAATT CATTCTGAAG ATGAGATTGA GTATGAAAAC 
CAAAAAAGGT TAGAAGAAGA AGAAGATTTG AATGTGCTTA CATTTGAAGA TCTTCTTTGC 
TTTGCGTATC AAGTTGCCAA AGGAATGGAA TTTCTGGAAT TTAAGTCGTG TGTTCACAGA 
GACCTGGCAG CCAGGAATGT GCTGGTCACC CATGGGAAGG TGGTGAAGAT CTGTGACTTT 
GGACTAGCCC GAGATATCCT GAGTGACTCC AGCTACGTTG TCAGAGGCAA TGCGCGGCTG 
CCTGTGAAAT GGATGGCGCC GGAGAGCTTG TTTGAGGGGA TCTACACAAT TAAGAGTGAT 
GTCTGGTCGT ATGGAGTACT GCTCTGGGAG ATATTCTCAC TTGGTGTGAA TCCTTACCCT 
GGCATTCCTG TCGATGCGAA CTTCTACAAA CTGATTCAGA GCGGCTTTAA AATGGATCAG 
CCCTTCTATG CTACAGAAGA AATATACTTT ATAATGCAAT CCTGCTGGGC TTTTGACTCA 
AGGAAGCGGC CATCCTTCCC TAACCTGACT TCATTTTTAG GATGTCAGCT GGAAGATGCA 
GAAGAAGCGA TGTATCAGAA CATGAGTGGC CACATTTCAG AGCGTCCTTC TATCTACCAA 
AACAGGCGAC CTGTCAGCCG AGAGGCGGGT TCAGATCCAT CTTCACCACA GGCCCAGGTG 
AAGATTCATA GAGAAATGAG TTAG

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

RefSeq	XP_008823286.2
CDS	118..2901
Translation	MVYEAATVEVDESESITLQVLVTTPGNISCFWVFNHSSLDCQPHFDLQNRGVISTVILKMTETQAGEYLLLIQSEAANYTILFTVSIRNPQLYTLRRPYFRKMENQDALVCISESVPEPVVEWVLCSSHGESCKEESPAVVKKEEKVLHELFGTDIRCCARNELGRECTKLFTIDLNQTPQTTLPQLFLKVGEPLWIRCKAVHVNHRFGLTWELENKALEKGSYFEMSTYSTNRSMIRILLAFVSSVGRNNTGYYTCSSSKHPSQSALVTILEKGFINATSTREEYEIDQYEKFCFSVRFKAYPQIRCRWTFSRKSFPCEQSGLEDGYSSISKFCHHQHQPGEYIFHAENDDAQFTKMFTLNIRRKPQVQAETSASQASCSSDGYPLPSWTWKKCSDKSPNCTEEITEGVWNKKTNNNREVFGQWVSSSTLNMSEAMKGFLVKCCAYNSLGTSCKTILLNSPGPFPFIQDNISFYATIGLCLPFIVVLTMLICHKYKKQFRYESQLQMVQVTGSLDNEYFYVDFREYEYDLKWEFPRENLEFGKVLGSGAFGKVMNATAYGISNTGVSIQVAVKMLKEKADSSEREALMSELKMMTHLGHHENIVNLLGACTLSGPVYLIFEYCCYGDLLNYLRSKREKFHRTWTEIFKEHNFSFYPTFQSHPNPSMPGSREAQIHQDLDQISRFNGNSIHSEDEIEYENQKRLEEEEDLNVLTFEDLLCFAYQVAKGMEFLEFKSCVHRDLAARNVLVTHGKVVKICDFGLARDILSDSSYVVRGNARLPVKWMAPESLFEGIYTIKSDVWSYGVLLWEIFSLGVNPYPGIPVDANFYKLIQSGFKMDQPFYATEEIYFIMQSCWAFDSRKRPSFPNLTSFLGCQLEDAEEAMYQNMSGHISERPSIYQNRRPVSREAGSDPSSPQAQVKIHREMS

Target ORF information:

RefSeq Version	XM_008825064.2
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili fms related tyrosine kinase 3 (Flt3), transcript variant X2, mRNA.

Target ORF information:

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

XM_008825064.2

ORF Insert Sequence:

ATGGTGTATG AAGCTGCCAC TGTGGAAGTA GATGAGTCTG AGTCCATCAC ACTGCAAGTG 
CTGGTTACCA CCCCAGGGAA CATTTCCTGC TTCTGGGTTT TTAACCACAG CTCCCTGGAC 
TGCCAGCCAC ACTTCGATTT ACAAAACAGA GGAGTCATTT CCACGGTCAT TTTGAAAATG 
ACAGAGACCC AAGCTGGAGA ATACTTACTT CTTATTCAGA GTGAAGCTGC CAATTACACA 
ATATTGTTTA CAGTGAGTAT ACGAAATCCC CAGCTATACA CACTGAGGAG ACCTTACTTC 
AGGAAAATGG AGAACCAGGA TGCACTAGTC TGCATATCTG AAAGTGTTCC GGAGCCCGTT 
GTGGAGTGGG TGCTCTGCAG TTCACATGGG GAAAGTTGTA AAGAAGAAAG TCCAGCTGTT 
GTTAAAAAGG AGGAAAAGGT ACTTCATGAG TTATTTGGAA CAGACATCAG GTGCTGTGCA 
AGAAATGAGC TGGGCAGAGA ATGTACCAAG CTGTTCACAA TAGATCTAAA TCAGACTCCT 
CAGACCACAC TACCTCAATT ATTCCTGAAA GTGGGGGAAC CTCTGTGGAT AAGATGCAAA 
GCTGTTCATG TGAACCATAG ATTTGGGCTC ACCTGGGAAT TAGAAAACAA AGCCCTGGAG 
AAGGGCAGCT ACTTTGAGAT GAGCACCTAT TCAACAAACA GATCTATGAT ACGGATTCTG 
CTGGCTTTTG TGTCGTCAGT GGGAAGAAAC AACACTGGCT ATTATACTTG TTCCTCTTCA 
AAGCATCCCA GCCAGTCAGC TTTGGTTACC ATCCTAGAAA AGGGATTTAT AAATGCTACC 
AGTACACGGG AAGAGTATGA AATTGACCAG TATGAAAAGT TCTGCTTTTC TGTCAGGTTT 
AAAGCATACC CACAAATCCG ATGCAGATGG ACTTTCTCTC GGAAATCATT TCCCTGTGAG 
CAAAGTGGTC TTGAAGATGG ATACAGCAGC ATATCTAAGT TTTGCCATCA TCAGCACCAA 
CCAGGAGAAT ATATATTCCA TGCTGAAAAT GATGATGCTC AGTTCACCAA AATGTTCACA 
CTGAATATCA GAAGGAAACC TCAAGTGCAA GCTGAGACCT CAGCCAGCCA GGCGTCCTGT 
TCCTCTGATG GATATCCGTT ACCCTCTTGG ACCTGGAAGA AGTGTTCAGA CAAGTCTCCC 
AACTGCACTG AAGAAATCAC AGAAGGAGTT TGGAATAAAA AGACTAATAA TAACAGAGAA 
GTGTTTGGAC AGTGGGTGTC CAGCAGTACT CTAAACATGA GTGAGGCTAT GAAAGGGTTT 
CTGGTCAAAT GCTGTGCGTA CAATTCCCTG GGCACGTCTT GTAAAACCAT CCTGTTAAAC 
TCACCAGGCC CCTTCCCTTT CATCCAAGAC AACATCTCCT TCTATGCAAC CATTGGGCTT 
TGTCTTCCTT TCATTGTGGT CCTAACCATG CTGATCTGTC ACAAGTACAA GAAGCAATTT 
AGGTATGAGA GCCAGCTGCA GATGGTTCAG GTAACAGGCT CGCTGGATAA TGAGTACTTC 
TACGTAGACT TCAGGGAATA TGAATACGAT CTCAAGTGGG AGTTTCCACG AGAAAACTTA 
GAGTTTGGGA AGGTCCTAGG ATCAGGAGCT TTTGGAAAAG TGATGAATGC GACAGCGTAT 
GGAATTAGTA ACACAGGCGT GTCAATCCAG GTGGCGGTAA AAATGTTGAA AGAAAAAGCT 
GACAGTTCTG AAAGAGAGGC ACTCATGTCA GAGCTCAAAA TGATGACTCA CCTGGGGCAC 
CACGAGAACA TTGTGAACCT GCTGGGAGCG TGCACACTGT CAGGACCGGT TTACTTGATT 
TTTGAGTACT GTTGCTATGG TGACCTTCTC AATTACCTAA GAAGTAAAAG AGAAAAATTT 
CACAGGACGT GGACAGAGAT TTTCAAGGAG CATAATTTCA GCTTTTATCC CACTTTCCAA 
TCACATCCAA ATCCCAGTAT GCCTGGTTCA AGAGAAGCTC AAATACACCA GGACTTGGAT 
CAGATCTCAA GGTTCAATGG GAACTCAATT CATTCTGAAG ATGAGATTGA GTATGAAAAC 
CAAAAAAGGT TAGAAGAAGA AGAAGATTTG AATGTGCTTA CATTTGAAGA TCTTCTTTGC 
TTTGCGTATC AAGTTGCCAA AGGAATGGAA TTTCTGGAAT TTAAGTCGTG TGTTCACAGA 
GACCTGGCAG CCAGGAATGT GCTGGTCACC CATGGGAAGG TGGTGAAGAT CTGTGACTTT 
GGACTAGCCC GAGATATCCT GAGTGACTCC AGCTACGTTG TCAGAGGCAA TGCGCGGCTG 
CCTGTGAAAT GGATGGCGCC GGAGAGCTTG TTTGAGGGGA TCTACACAAT TAAGAGTGAT 
GTCTGGTCGT ATGGAGTACT GCTCTGGGAG ATATTCTCAC TTGGTGTGAA TCCTTACCCT 
GGCATTCCTG TCGATGCGAA CTTCTACAAA CTGATTCAGA GCGGCTTTAA AATGGATCAG 
CCCTTCTATG CTACAGAAGA AATATACTTT ATAATGCAAT CCTGCTGGGC TTTTGACTCA 
AGGAAGCGGC CATCCTTCCC TAACCTGACT TCATTTTTAG GATGTCAGCT GGAAGATGCA 
GAAGAAGCGA TGTATCAGAA CATGAGTGGC CACATTTCAG AGCGTCCTTC TATCTACCAA 
AACAGGCGAC CTGTCAGCCG AGAGGCGGGT TCAGATCCAT CTTCACCACA GGCCCAGGTG 
AAGATTCATA GAGAAATGAG TTAG