ANKFY1 cDNA ORF clone, Merops nubicus(carmine bee-eater)

Gene
Clones
gRNAs

Summary

Gene Symbol	ANKFY1
Entrez Gene ID	103775207
Full Name	ankyrin repeat and FYVE domain containing 1
Gene Type	protein-coding
Organism	Merops nubicus(carmine bee-eater)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008942651.1	XP_008940899.1	ankyrin repeat and FYVE domain-containing protein 1

Pathways from BioSystems
Gene Ontology

The following ANKFY1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ANKFY1 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
OMe74072	XM_008942651.1 Latest version!	Merops nubicus ankyrin repeat and FYVE domain containing 1 (ANKFY1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

Reference Sequences (Refseq)

ANKFY1 ( XM_008942651.1 ) cDNA ORF clone, Merops nubicus(carmine bee-eater) -> XP_008940899.1 Merops nubicus ankyrin repeat and FYVE domain containing 1 (ANKFY1), mRNA.

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CloneID	OMe74072
Clone ID Related Accession (Same CDS sequence)	XM_008942651.1
Accession Version	XM_008942651.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3468bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2014-09-01
Organism	Merops nubicus(carmine bee-eater)
Product	ankyrin repeat and FYVE domain-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008615796.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Merops nubicus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTCCTCC GCCAGGAGTA TGTGAAGCTG CAGAAGAAGC TGGTTGATAC AGAAAGGAGA 
TGCAATCTTC TGGCTGCCAA GGCCAACCAG GACAATGCCA GTGACACCTT CATCAGTAGA 
CTTCTTGCCA TTGTAGCTGA GCTCTATCAG CAGGAGCAGT ACAGTGATCT GAAGATCAAG 
GTTGGGAGCA ATCACATCCG TGCTCACAAG TTTGTCTTGG CAGCACGCAG CGACACGTGG 
AGTCTCGCCA ACCTCGCCTC AACAGAAGAG CTGGATCTGT CAGATGCTGA CCCAGAGGTA 
ACCATGGCAA TGCTGCGCTG GATCTACACA GATGAGCTGG AGCTCAGAGA AGATGATATC 
TTTTTGACAG AGCTTATGAA ACTAGCTAAT AAATTTCAGC TCCAGCTGCT GAGGGAAAGA 
TGTGAAAAAG GAGTTATGTC ACTAGTGAAT GTCAGGAACT GCATCCGTTT CTACCAGACT 
GCTGAGGAGC TGAATGCCAG CACTCTCCTC AACTACTGTG CTGAGATAAT TGCTAGTCAC 
TGGGATGACC TGCGTAAAGA AGACTTCAGC AGCATGAGTG CTCAGTTACT GTATAAAATG 
TTCAAGTCCA AGACAGAATA CCCTTTGCAT AAAGCTATTA AAGTTGAGAG AGAAGATGTA 
GTCTTTTTGT ATCTAATTGA AATGGATTCA CAGCTTCCTG GGAAGCTCAA TGAGTTGGAT 
CACAATGGAG ATCTTGCTCT GGATCTAGCC CTTGCCCAGA GACTGGAGAG CATTGCAAGT 
ACCTTGGTCA ACCACAAGGC TGACGTAGAT CGGGCAGACC AGAGAGGCTG GAGCCTGTTA 
CATAAAGCCA TCCAGAGAGG AGATAAATTT GCTGCCAACT TTCTCATTAA AAACGGTGCC 
CGTGTGAATG CTGCTACATT GGGGGACCAG GAGACTCCTC TGCACCTCGT GGCATCCTAC 
AGCCCCAAGA AGCATTTGCC AGATGTCATG GTGGAGATGG CACAGATAGC AGAGTCCCTC 
CTACAGGCAG GAGCCAACCC AAACATGCAA GACAGCAAAG GAAGGACCCC ATTACATGTA 
TCAGTTGTGG TCAGGAATGA ACCTGTCTTC AGTCAGCTTC TCCAGTGCAA ACAACTAGAC 
TTGGAGCTGA AGGATCATGA AGGCAGCACA GCTCTGTGGC TTGCAGTTCA GTATATCACT 
GTGTCATCTG ATCAGTCTGT AAACCCCTTT GAGGATGCCC CTGTTGTAAA TGGAACCTCA 
TTTGATGAGA ACAGTTTTGC AGCAAGGTTG ATTCAACGAG GCAGCAATAC AGATGCTCCA 
GACACAGTAA CAGGAAACTG CTTACTTCAG AGGGCAGCTG GTGCAGGAAA TGAGGCAGCT 
TCTCTCTTCC TAGCAACTCA TGGAGCAAAA GTCAACCACC AAAACAAATG GGGGGAAACA 
CCACTCCACA CAGCCTGTAG GCACGGCCTA GCAAACCTGA CAGCAGAACT TCTGCAGCAA 
GGAGCCAATC CAAACATCCA GACAGCAGAA GCACTGCTTG GTCAGAAGGA TTCATCTTCT 
CCAGCAGCAG AGAATGTCTA TCTGCAGACT CCCCTTCACA TGGCCATTGC TTACAACCAC 
CCAGATGTGG TGTCAGTCAT CCTGGAACAG AAAGCTAATG CTCTTCATGC CACCAACAAC 
TTGCAAATTA TTCCTGACTT TAGTCTAAAG GACTCAAGAG ACCAGACTGT GCTGGGATTG 
GCTCTCTGGA CAGGCATGCA CACCATAGCA GCTCAGCTGC TTGGCTCTGG GGCCTCCATC 
AACGACACCA TGTCTGATGG GCAGACCCTG CTGCACATGG CCATCCAGAG GCAGGACAGT 
AAGAGTGCAC TCTTCCTGCT GGAGCACCAG GCAGATATAA ACGTCAGCAG AACCCAGGAC 
AGAGAGACTG CCTTACAGCT GGCCATAAAA AACCAGCTCC CTCTTGTGGT CGATGCCATT 
TGTACCAGGG GAGCAGACAT GTCTGTGCCA GATGAGAAAG GGAATCCTCC TCTATGGCTT 
GCCTTAGAAA ACGACCTGGA AGATATTGCA TCGACTCTGG TGAGGCATGG CTGTGATTCA 
ACCTGCTGGG GGCCAGGACC GAGTGGCTGC TTACAAACCC TTCTGCACAG GGCCATTGAT 
GAGAACAGTG AGCAGATAGC CTGCTTCCTC ATCCGCAGTG GCTGTGATGT GAACAGTCCC 
AGAAAGCCAG GCCCCAATGG AGAAGGTGAA GAGGAAGCTC ATGATGGACA GACACCCCTA 
CACTTGGCAG CCTGCTGGGG GCTAGAAGAG GTGATCCAGT GCCTTTTGGA GTTTGGTGCC 
AATGTCAATG CTCAGGATGC AGAAGGAAGA ACTCCAATCC ACGTTGCCAT CAGCAACCAG 
CATAATGTTA TCATTCAGCT GATGATTTCA CATCCAGATA TTAAGCTCAA TGTACGTGAC 
AGGCAAGGAA TGACTCCTTT TGCTTGTGCT ATGACCTACA AAAATAACAA AGCAGCTGAA 
GCAATTTTGA AGAGGGAACC AGGAGCTGCT GAACAGGTTG ATAATAAGGG TCGGAATTTC 
CTCCACGTGG CTGTTCAGAA CTCAGACATT GAGAGTGTGC TGTTCCTCAT CAGTGTGCAG 
GCCAATGTCA ACTCCAGGGT CCAGGATGCC TCCAAACTGA CCCCCCTCCA CCTGGCTGTG 
CAGGCTGGCT CTGAGATCAT CGTCCGTAAC CTGCTGCTTG CAGGTGCCCA GGTGAATGAA 
CTGACTAAGC ATCGTCAGAC TGCTCTTCAC TTAGCAGCCC AGCAAGATCT ACCCACAATT 
TGTTCAGTCC TTCTGGAGAA TGGAGTAGAC TTTGCAGCTG TAGATGAAAA TGGCAATAAT 
GCCCTTCATC TGGCAGTGAT GCATGGCCGC CTGAACAACA TCCGAGTCCT CCTCACAGAG 
TGCAATGTGG ATGCAGAGGC CTTTAATATT AGAGGCCAGT CACCAATGCA TATTTTGGGA 
CAGTATGGGA AAGATAATGC AGCAGCCATC TGTGACCTCT TCTTGGAGTG CATGCCAGAA 
TACCCTCTGG ACAAACCTGA TGCTGAAGGA AACACAGTGC TGCTGCTGGC TTACATGAAG 
GGAAATGCCA ACTTGTGTCG TGCAATAGTG CGGGCGGGGG CTCGCCTCGG CGTCAACAAC 
AACCAGGGAG TCAACATCTT CAACTACCAA GTTGCCACAA AACAGCTTCT CTTCAGACTG 
CTGGACATGC TGACAAAAGA ACCCCCCTGG TGTGATGGCT CCAACTGCTA TGAATGCACT 
GCCAAATTTG GAGTCACGAC AAGAAAGCAT CACTGCCGAC ACTGTGGACG CCTGCTCTGC 
CATAAGTGCT CAACAAAGGA GATTCCCATC ATCAAATTTG ATCTGAACAA GCCAGTTCGA 
GTTTGCAACA TCTGCTTTGA TGTCCTGACT CTGGGAGGAG TCTCCTAG

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

RefSeq	XP_008940899.1
CDS	26..3493
Translation	MLLRQEYVKLQKKLVDTERRCNLLAAKANQDNASDTFISRLLAIVAELYQQEQYSDLKIKVGSNHIRAHKFVLAARSDTWSLANLASTEELDLSDADPEVTMAMLRWIYTDELELREDDIFLTELMKLANKFQLQLLRERCEKGVMSLVNVRNCIRFYQTAEELNASTLLNYCAEIIASHWDDLRKEDFSSMSAQLLYKMFKSKTEYPLHKAIKVEREDVVFLYLIEMDSQLPGKLNELDHNGDLALDLALAQRLESIASTLVNHKADVDRADQRGWSLLHKAIQRGDKFAANFLIKNGARVNAATLGDQETPLHLVASYSPKKHLPDVMVEMAQIAESLLQAGANPNMQDSKGRTPLHVSVVVRNEPVFSQLLQCKQLDLELKDHEGSTALWLAVQYITVSSDQSVNPFEDAPVVNGTSFDENSFAARLIQRGSNTDAPDTVTGNCLLQRAAGAGNEAASLFLATHGAKVNHQNKWGETPLHTACRHGLANLTAELLQQGANPNIQTAEALLGQKDSSSPAAENVYLQTPLHMAIAYNHPDVVSVILEQKANALHATNNLQIIPDFSLKDSRDQTVLGLALWTGMHTIAAQLLGSGASINDTMSDGQTLLHMAIQRQDSKSALFLLEHQADINVSRTQDRETALQLAIKNQLPLVVDAICTRGADMSVPDEKGNPPLWLALENDLEDIASTLVRHGCDSTCWGPGPSGCLQTLLHRAIDENSEQIACFLIRSGCDVNSPRKPGPNGEGEEEAHDGQTPLHLAACWGLEEVIQCLLEFGANVNAQDAEGRTPIHVAISNQHNVIIQLMISHPDIKLNVRDRQGMTPFACAMTYKNNKAAEAILKREPGAAEQVDNKGRNFLHVAVQNSDIESVLFLISVQANVNSRVQDASKLTPLHLAVQAGSEIIVRNLLLAGAQVNELTKHRQTALHLAAQQDLPTICSVLLENGVDFAAVDENGNNALHLAVMHGRLNNIRVLLTECNVDAEAFNIRGQSPMHILGQYGKDNAAAICDLFLECMPEYPLDKPDAEGNTVLLLAYMKGNANLCRAIVRAGARLGVNNNQGVNIFNYQVATKQLLFRLLDMLTKEPPWCDGSNCYECTAKFGVTTRKHHCRHCGRLLCHKCSTKEIPIIKFDLNKPVRVCNICFDVLTLGGVS

Target ORF information:

RefSeq Version	XM_008942651.1
Organism	Merops nubicus(carmine bee-eater)
Definition	Merops nubicus ankyrin repeat and FYVE domain containing 1 (ANKFY1), mRNA.

Target ORF information:

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

XM_008942651.1

ORF Insert Sequence:

ATGCTCCTCC GCCAGGAGTA TGTGAAGCTG CAGAAGAAGC TGGTTGATAC AGAAAGGAGA 
TGCAATCTTC TGGCTGCCAA GGCCAACCAG GACAATGCCA GTGACACCTT CATCAGTAGA 
CTTCTTGCCA TTGTAGCTGA GCTCTATCAG CAGGAGCAGT ACAGTGATCT GAAGATCAAG 
GTTGGGAGCA ATCACATCCG TGCTCACAAG TTTGTCTTGG CAGCACGCAG CGACACGTGG 
AGTCTCGCCA ACCTCGCCTC AACAGAAGAG CTGGATCTGT CAGATGCTGA CCCAGAGGTA 
ACCATGGCAA TGCTGCGCTG GATCTACACA GATGAGCTGG AGCTCAGAGA AGATGATATC 
TTTTTGACAG AGCTTATGAA ACTAGCTAAT AAATTTCAGC TCCAGCTGCT GAGGGAAAGA 
TGTGAAAAAG GAGTTATGTC ACTAGTGAAT GTCAGGAACT GCATCCGTTT CTACCAGACT 
GCTGAGGAGC TGAATGCCAG CACTCTCCTC AACTACTGTG CTGAGATAAT TGCTAGTCAC 
TGGGATGACC TGCGTAAAGA AGACTTCAGC AGCATGAGTG CTCAGTTACT GTATAAAATG 
TTCAAGTCCA AGACAGAATA CCCTTTGCAT AAAGCTATTA AAGTTGAGAG AGAAGATGTA 
GTCTTTTTGT ATCTAATTGA AATGGATTCA CAGCTTCCTG GGAAGCTCAA TGAGTTGGAT 
CACAATGGAG ATCTTGCTCT GGATCTAGCC CTTGCCCAGA GACTGGAGAG CATTGCAAGT 
ACCTTGGTCA ACCACAAGGC TGACGTAGAT CGGGCAGACC AGAGAGGCTG GAGCCTGTTA 
CATAAAGCCA TCCAGAGAGG AGATAAATTT GCTGCCAACT TTCTCATTAA AAACGGTGCC 
CGTGTGAATG CTGCTACATT GGGGGACCAG GAGACTCCTC TGCACCTCGT GGCATCCTAC 
AGCCCCAAGA AGCATTTGCC AGATGTCATG GTGGAGATGG CACAGATAGC AGAGTCCCTC 
CTACAGGCAG GAGCCAACCC AAACATGCAA GACAGCAAAG GAAGGACCCC ATTACATGTA 
TCAGTTGTGG TCAGGAATGA ACCTGTCTTC AGTCAGCTTC TCCAGTGCAA ACAACTAGAC 
TTGGAGCTGA AGGATCATGA AGGCAGCACA GCTCTGTGGC TTGCAGTTCA GTATATCACT 
GTGTCATCTG ATCAGTCTGT AAACCCCTTT GAGGATGCCC CTGTTGTAAA TGGAACCTCA 
TTTGATGAGA ACAGTTTTGC AGCAAGGTTG ATTCAACGAG GCAGCAATAC AGATGCTCCA 
GACACAGTAA CAGGAAACTG CTTACTTCAG AGGGCAGCTG GTGCAGGAAA TGAGGCAGCT 
TCTCTCTTCC TAGCAACTCA TGGAGCAAAA GTCAACCACC AAAACAAATG GGGGGAAACA 
CCACTCCACA CAGCCTGTAG GCACGGCCTA GCAAACCTGA CAGCAGAACT TCTGCAGCAA 
GGAGCCAATC CAAACATCCA GACAGCAGAA GCACTGCTTG GTCAGAAGGA TTCATCTTCT 
CCAGCAGCAG AGAATGTCTA TCTGCAGACT CCCCTTCACA TGGCCATTGC TTACAACCAC 
CCAGATGTGG TGTCAGTCAT CCTGGAACAG AAAGCTAATG CTCTTCATGC CACCAACAAC 
TTGCAAATTA TTCCTGACTT TAGTCTAAAG GACTCAAGAG ACCAGACTGT GCTGGGATTG 
GCTCTCTGGA CAGGCATGCA CACCATAGCA GCTCAGCTGC TTGGCTCTGG GGCCTCCATC 
AACGACACCA TGTCTGATGG GCAGACCCTG CTGCACATGG CCATCCAGAG GCAGGACAGT 
AAGAGTGCAC TCTTCCTGCT GGAGCACCAG GCAGATATAA ACGTCAGCAG AACCCAGGAC 
AGAGAGACTG CCTTACAGCT GGCCATAAAA AACCAGCTCC CTCTTGTGGT CGATGCCATT 
TGTACCAGGG GAGCAGACAT GTCTGTGCCA GATGAGAAAG GGAATCCTCC TCTATGGCTT 
GCCTTAGAAA ACGACCTGGA AGATATTGCA TCGACTCTGG TGAGGCATGG CTGTGATTCA 
ACCTGCTGGG GGCCAGGACC GAGTGGCTGC TTACAAACCC TTCTGCACAG GGCCATTGAT 
GAGAACAGTG AGCAGATAGC CTGCTTCCTC ATCCGCAGTG GCTGTGATGT GAACAGTCCC 
AGAAAGCCAG GCCCCAATGG AGAAGGTGAA GAGGAAGCTC ATGATGGACA GACACCCCTA 
CACTTGGCAG CCTGCTGGGG GCTAGAAGAG GTGATCCAGT GCCTTTTGGA GTTTGGTGCC 
AATGTCAATG CTCAGGATGC AGAAGGAAGA ACTCCAATCC ACGTTGCCAT CAGCAACCAG 
CATAATGTTA TCATTCAGCT GATGATTTCA CATCCAGATA TTAAGCTCAA TGTACGTGAC 
AGGCAAGGAA TGACTCCTTT TGCTTGTGCT ATGACCTACA AAAATAACAA AGCAGCTGAA 
GCAATTTTGA AGAGGGAACC AGGAGCTGCT GAACAGGTTG ATAATAAGGG TCGGAATTTC 
CTCCACGTGG CTGTTCAGAA CTCAGACATT GAGAGTGTGC TGTTCCTCAT CAGTGTGCAG 
GCCAATGTCA ACTCCAGGGT CCAGGATGCC TCCAAACTGA CCCCCCTCCA CCTGGCTGTG 
CAGGCTGGCT CTGAGATCAT CGTCCGTAAC CTGCTGCTTG CAGGTGCCCA GGTGAATGAA 
CTGACTAAGC ATCGTCAGAC TGCTCTTCAC TTAGCAGCCC AGCAAGATCT ACCCACAATT 
TGTTCAGTCC TTCTGGAGAA TGGAGTAGAC TTTGCAGCTG TAGATGAAAA TGGCAATAAT 
GCCCTTCATC TGGCAGTGAT GCATGGCCGC CTGAACAACA TCCGAGTCCT CCTCACAGAG 
TGCAATGTGG ATGCAGAGGC CTTTAATATT AGAGGCCAGT CACCAATGCA TATTTTGGGA 
CAGTATGGGA AAGATAATGC AGCAGCCATC TGTGACCTCT TCTTGGAGTG CATGCCAGAA 
TACCCTCTGG ACAAACCTGA TGCTGAAGGA AACACAGTGC TGCTGCTGGC TTACATGAAG 
GGAAATGCCA ACTTGTGTCG TGCAATAGTG CGGGCGGGGG CTCGCCTCGG CGTCAACAAC 
AACCAGGGAG TCAACATCTT CAACTACCAA GTTGCCACAA AACAGCTTCT CTTCAGACTG 
CTGGACATGC TGACAAAAGA ACCCCCCTGG TGTGATGGCT CCAACTGCTA TGAATGCACT 
GCCAAATTTG GAGTCACGAC AAGAAAGCAT CACTGCCGAC ACTGTGGACG CCTGCTCTGC 
CATAAGTGCT CAACAAAGGA GATTCCCATC ATCAAATTTG ATCTGAACAA GCCAGTTCGA 
GTTTGCAACA TCTGCTTTGA TGTCCTGACT CTGGGAGGAG TCTCCTAG