AYL99_05586 cDNA ORF clone, Fonsecaea erecta

Gene
Clones
gRNAs

Summary

Gene Symbol	AYL99_05586
Entrez Gene ID	30009754
Full Name	hypothetical protein
Gene Type	protein-coding
Organism	Fonsecaea erecta

mRNA and Protein(s)

mRNA	Protein	Name
XM_018837098.1	XP_018693951.1	hypothetical protein

Pathways from BioSystems
Gene Ontology

The following AYL99_05586 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AYL99_05586 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
OFo17926	XM_018837098.1 Latest version!	Fonsecaea erecta hypothetical protein (AYL99_05586), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

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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)

AYL99_05586 ( XM_018837098.1 ) cDNA ORF clone, Fonsecaea erecta -> XP_018693951.1 Fonsecaea erecta hypothetical protein (AYL99_05586), partial mRNA.

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CloneID	OFo17926
Clone ID Related Accession (Same CDS sequence)	XM_018837098.1
Accession Version	XM_018837098.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2973bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-08-27
Organism	Fonsecaea erecta
Product	hypothetical protein
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_017387247). COMPLETENESS: incomplete on both ends.

ATGTCCACTC GTACCGTCAT CCCCGCTCAC TTGTCGTACT TCGCAATATA CAATCCGTCT 
CTTGGTCCGA CCGATGAGAC CTTACGCGAC CAGATCGTGT TTTACTACTC TCACGATGTC 
GAAGTGGAGC GAGAGCAACA GACGGAAATA AAATCTGCAG CAGATGGAAA TCGCCATGCA 
ACCTCGGAGC AGGACAACCA GCCAAATGGG AACCAGAAGG AAGAAGGGCA AGAAGAGAAT 
ACCAGATTGC GGCAGGTTGG GTTAGCACAA GGTATGGTGA ACTTTGTAAA GAACTTCTCG 
AACGGCATTC CTCTCGAGTC TATGGAAACG GAGAAATCTC GAATTGTCCT AAAAGAAGTC 
GAGCCTCAAT GGTGGATCGT CGCCTCCATT CACCTAACAC AATTGCGTGC TGTATCAGGA 
GCACCCTCGG GAAACAAACA GGCTTCAAAA TCAGGGACCA ATACTGGCTT GGGTGGCATC 
GCGTCCAAGG GAGATGTCGA ATACTCATCG CGAGAAGTTG CTCCGGGACC TCTGCTCCTC 
GCACAGCTCA TACAAGGATA CCGCGGATTC TTGCTCCACC ACGCGCCTTC GTTGTCTGAG 
CTGTGGAAAA AGCATGAGAA CAACCGAGAC CTGTTTTGTA GTCTTTTACA TAAGTACTGG 
ACGCGGTTCA TCTGGCATTG GGATGTCCTC TTGCACGGTC ATCCTGCGAC AGACATATAT 
GACGCTGTCA AACTCGCTGC TGGCGGAGAG CTCGGTGTTG GTGTTGGCGA AGAAGAATGG 
GGAAGTGGTG AGAGAGAAGT GCTGGAGGGA TTCGCCGGCA GGACTGAGGG ACTCGTCGAC 
CTTATTGTCG GGAGATATGG CGATGCACCT CCGAACCGCA TAGACGGGGA GAAACCCAAG 
GACATGACCT CCCAAGATGT GCCGCCTTGG TTGGGTAATG GCGAGGATGC GAGAGCCGAT 
GATGGCGTCA TATTTTCTGG CATCGGTGGC ATCTCAAGGC CCTCCCTGGT CACAGTATCC 
CAGTGGATGG AGTCCATATA CATGCACGGC GATGCAGCTT ACGGGGTGGG TGAGAACCCG 
ACATCTCGAC TAAAACATCG GAGCAAAAGA CGAAAGTTGG ACAAAGGCAG ACTTCATGCG 
CCAGGTCAGG ACCAGACGAA GCGGCAAGCG CAGGCGGTAC ATCCTAGAGT GAGGTCCGCG 
GGAGGCAGAT CACAGGATCT ACGTCGTAGG GCGATGGAGA ACAATACAAC ACCACCAGGC 
ATCCCGCCGC CTCTCGTCAG CGCCGTAGAG CGATCTTTGG ACAATGCACT GGCCAACCTA 
GACGCGAAGT CCCTCAACGC AAACGACGAC CGCAGGAGTG AAGGAGATGC GGAGCCGGGC 
CTTACCGCCA CCGAAGAGGC CTCCATATTC AATACGGAGA AGATGATGAA GTATCTCAGC 
CTTGGCTATG GCACCAGTTG GACGCTGAGT CCCAAGGGTT TCGGCCAAGT CGCGGACGAC 
AAAGCTGCTG GTCAAGCAGA CACATGTCAG AATACAGAAC CTGCGGTTGA ACAATTGCAG 
GAACTTGATC CGACTCCAGA CGTCAGCGAC GAGGAGGAAA CACCATTCGT TCAACGGCTC 
GAGGAGTCCA TTGGTAAATT CCTGATCGGT CTCTCTGGTG ACCTGGAAAA TACAGAATTT 
GAGGATGGAT CCAACGACGA GAGAAGTGAT GATAAACCCA CCAAGGCAAA GCCACCACCG 
CACTCTTCGT CGAGCCGGAT TTTCCTTCGT ACCTTGGTTG TTGGAATGTC GACAGCCAGG 
TTCTCCCGTC TGGATGCAGA AGAACGCCCT TCCTTCCTGT CGCAGGCGAC CTCCAACGAT 
CACGATACAG AGTCAAGAAA TGACAAGACG AGTGCGGCGG CCTCTGTCGA CGGCATTCGT 
CCGATTGTCA CCCATGAAAA GGTTCAAGTC GCGGTCTATG TTCACCAGCC ATTCATCTTC 
GTCTTCTTGT TCCGGTTACA TACGCCCAAT CTGACAATGC CTGGCTTTTA CCGTGCCATA 
CATCACACCC TAGGCCCATT GCAAAAGAGT CTCTTGAGAA GCACGGACCC GGAACGCTGG 
AGGGAACGAA TGAAAGCGTC ATTGGGCCTA GACTCAAGTG GCGTTCTCGA GGATGGGGAT 
AATTCGCGAC CCTCACCTGA CACAAACGAT GTCGGTGAAA TATATGATCT TCTCTACGAT 
CCCCTGAAAT CGACGCTCCG AACCTCAATT CCAAACATAC CACTCCCAGG GAGTCTCGCC 
GCCGAAGGCC TACACCGAAC CCACCAGAAG CCCCGGCCGA TCACAGTTTC CGGCTCGTGG 
TACACGCTTG GGATCCCCAT AGGATCTGCG TCATCAGAAA CCAGCACAGG CGATGCAGGT 
TCGACAAGGA TCATCAAGAG TGACTGGACC CGTATTGAGG CTTTGAATGT TCACACTCAT 
ATGCTCAACA TCTGGGCTTC AACTCGCGAC AAAAACGCGG GTATCACCAA TGCACAGCCA 
AATGGTGAAG AGTTAGAAAG AACAATCAAA ACAGCAAGAG GCTGGTGGGT GGTGTGGATG 
AAGGTCTTGG CTTCAAAGCA ACAGAAAGAT GGCAGCGAGG GCGCTGCAAC ACCTTCGGCA 
AATCAAGACA AAAGTGCAGT CCGTCCCTGG CGGGGTGGAT TGAGAAGAAC CGGGGACTTT 
ACCCATGAGG CTATTCTTGT GAGAAGGTCT TCTCATGAAC GCAATTCGAC AAGCAGAGAC 
ACGTCCCGCT CCAGATCCGA GGGTGTAAGT TCTCACCTTT CTGGGAAATG GCTCCTTCGT 
GATCAACCTC GCAGTCGAGA AGTCAGCGGG GGTGGACGTG CAATGTCTGG CATTATTGGG 
GCGCCTGGAA GCACAACTGC CAAGGGCGTG ACGGAGGGCC TGGGAGTAGA CACTAGAAGG 
TGGGTTGAGG CGTTGATTCG ATTGAGTGTT TGA

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

RefSeq	XP_018693951.1
CDS	1..2973
Translation	MSTRTVIPAHLSYFAIYNPSLGPTDETLRDQIVFYYSHDVEVEREQQTEIKSAADGNRHATSEQDNQPNGNQKEEGQEENTRLRQVGLAQGMVNFVKNFSNGIPLESMETEKSRIVLKEVEPQWWIVASIHLTQLRAVSGAPSGNKQASKSGTNTGLGGIASKGDVEYSSREVAPGPLLLAQLIQGYRGFLLHHAPSLSELWKKHENNRDLFCSLLHKYWTRFIWHWDVLLHGHPATDIYDAVKLAAGGELGVGVGEEEWGSGEREVLEGFAGRTEGLVDLIVGRYGDAPPNRIDGEKPKDMTSQDVPPWLGNGEDARADDGVIFSGIGGISRPSLVTVSQWMESIYMHGDAAYGVGENPTSRLKHRSKRRKLDKGRLHAPGQDQTKRQAQAVHPRVRSAGGRSQDLRRRAMENNTTPPGIPPPLVSAVERSLDNALANLDAKSLNANDDRRSEGDAEPGLTATEEASIFNTEKMMKYLSLGYGTSWTLSPKGFGQVADDKAAGQADTCQNTEPAVEQLQELDPTPDVSDEEETPFVQRLEESIGKFLIGLSGDLENTEFEDGSNDERSDDKPTKAKPPPHSSSSRIFLRTLVVGMSTARFSRLDAEERPSFLSQATSNDHDTESRNDKTSAAASVDGIRPIVTHEKVQVAVYVHQPFIFVFLFRLHTPNLTMPGFYRAIHHTLGPLQKSLLRSTDPERWRERMKASLGLDSSGVLEDGDNSRPSPDTNDVGEIYDLLYDPLKSTLRTSIPNIPLPGSLAAEGLHRTHQKPRPITVSGSWYTLGIPIGSASSETSTGDAGSTRIIKSDWTRIEALNVHTHMLNIWASTRDKNAGITNAQPNGEELERTIKTARGWWVVWMKVLASKQQKDGSEGAATPSANQDKSAVRPWRGGLRRTGDFTHEAILVRRSSHERNSTSRDTSRSRSEGVSSHLSGKWLLRDQPRSREVSGGGRAMSGIIGAPGSTTAKGVTEGLGVDTRRWVEALIRLSV

Target ORF information:

RefSeq Version	XM_018837098.1
Organism	Fonsecaea erecta
Definition	Fonsecaea erecta hypothetical protein (AYL99_05586), partial mRNA.

Target ORF information:

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

XM_018837098.1

ORF Insert Sequence:

ATGTCCACTC GTACCGTCAT CCCCGCTCAC TTGTCGTACT TCGCAATATA CAATCCGTCT 
CTTGGTCCGA CCGATGAGAC CTTACGCGAC CAGATCGTGT TTTACTACTC TCACGATGTC 
GAAGTGGAGC GAGAGCAACA GACGGAAATA AAATCTGCAG CAGATGGAAA TCGCCATGCA 
ACCTCGGAGC AGGACAACCA GCCAAATGGG AACCAGAAGG AAGAAGGGCA AGAAGAGAAT 
ACCAGATTGC GGCAGGTTGG GTTAGCACAA GGTATGGTGA ACTTTGTAAA GAACTTCTCG 
AACGGCATTC CTCTCGAGTC TATGGAAACG GAGAAATCTC GAATTGTCCT AAAAGAAGTC 
GAGCCTCAAT GGTGGATCGT CGCCTCCATT CACCTAACAC AATTGCGTGC TGTATCAGGA 
GCACCCTCGG GAAACAAACA GGCTTCAAAA TCAGGGACCA ATACTGGCTT GGGTGGCATC 
GCGTCCAAGG GAGATGTCGA ATACTCATCG CGAGAAGTTG CTCCGGGACC TCTGCTCCTC 
GCACAGCTCA TACAAGGATA CCGCGGATTC TTGCTCCACC ACGCGCCTTC GTTGTCTGAG 
CTGTGGAAAA AGCATGAGAA CAACCGAGAC CTGTTTTGTA GTCTTTTACA TAAGTACTGG 
ACGCGGTTCA TCTGGCATTG GGATGTCCTC TTGCACGGTC ATCCTGCGAC AGACATATAT 
GACGCTGTCA AACTCGCTGC TGGCGGAGAG CTCGGTGTTG GTGTTGGCGA AGAAGAATGG 
GGAAGTGGTG AGAGAGAAGT GCTGGAGGGA TTCGCCGGCA GGACTGAGGG ACTCGTCGAC 
CTTATTGTCG GGAGATATGG CGATGCACCT CCGAACCGCA TAGACGGGGA GAAACCCAAG 
GACATGACCT CCCAAGATGT GCCGCCTTGG TTGGGTAATG GCGAGGATGC GAGAGCCGAT 
GATGGCGTCA TATTTTCTGG CATCGGTGGC ATCTCAAGGC CCTCCCTGGT CACAGTATCC 
CAGTGGATGG AGTCCATATA CATGCACGGC GATGCAGCTT ACGGGGTGGG TGAGAACCCG 
ACATCTCGAC TAAAACATCG GAGCAAAAGA CGAAAGTTGG ACAAAGGCAG ACTTCATGCG 
CCAGGTCAGG ACCAGACGAA GCGGCAAGCG CAGGCGGTAC ATCCTAGAGT GAGGTCCGCG 
GGAGGCAGAT CACAGGATCT ACGTCGTAGG GCGATGGAGA ACAATACAAC ACCACCAGGC 
ATCCCGCCGC CTCTCGTCAG CGCCGTAGAG CGATCTTTGG ACAATGCACT GGCCAACCTA 
GACGCGAAGT CCCTCAACGC AAACGACGAC CGCAGGAGTG AAGGAGATGC GGAGCCGGGC 
CTTACCGCCA CCGAAGAGGC CTCCATATTC AATACGGAGA AGATGATGAA GTATCTCAGC 
CTTGGCTATG GCACCAGTTG GACGCTGAGT CCCAAGGGTT TCGGCCAAGT CGCGGACGAC 
AAAGCTGCTG GTCAAGCAGA CACATGTCAG AATACAGAAC CTGCGGTTGA ACAATTGCAG 
GAACTTGATC CGACTCCAGA CGTCAGCGAC GAGGAGGAAA CACCATTCGT TCAACGGCTC 
GAGGAGTCCA TTGGTAAATT CCTGATCGGT CTCTCTGGTG ACCTGGAAAA TACAGAATTT 
GAGGATGGAT CCAACGACGA GAGAAGTGAT GATAAACCCA CCAAGGCAAA GCCACCACCG 
CACTCTTCGT CGAGCCGGAT TTTCCTTCGT ACCTTGGTTG TTGGAATGTC GACAGCCAGG 
TTCTCCCGTC TGGATGCAGA AGAACGCCCT TCCTTCCTGT CGCAGGCGAC CTCCAACGAT 
CACGATACAG AGTCAAGAAA TGACAAGACG AGTGCGGCGG CCTCTGTCGA CGGCATTCGT 
CCGATTGTCA CCCATGAAAA GGTTCAAGTC GCGGTCTATG TTCACCAGCC ATTCATCTTC 
GTCTTCTTGT TCCGGTTACA TACGCCCAAT CTGACAATGC CTGGCTTTTA CCGTGCCATA 
CATCACACCC TAGGCCCATT GCAAAAGAGT CTCTTGAGAA GCACGGACCC GGAACGCTGG 
AGGGAACGAA TGAAAGCGTC ATTGGGCCTA GACTCAAGTG GCGTTCTCGA GGATGGGGAT 
AATTCGCGAC CCTCACCTGA CACAAACGAT GTCGGTGAAA TATATGATCT TCTCTACGAT 
CCCCTGAAAT CGACGCTCCG AACCTCAATT CCAAACATAC CACTCCCAGG GAGTCTCGCC 
GCCGAAGGCC TACACCGAAC CCACCAGAAG CCCCGGCCGA TCACAGTTTC CGGCTCGTGG 
TACACGCTTG GGATCCCCAT AGGATCTGCG TCATCAGAAA CCAGCACAGG CGATGCAGGT 
TCGACAAGGA TCATCAAGAG TGACTGGACC CGTATTGAGG CTTTGAATGT TCACACTCAT 
ATGCTCAACA TCTGGGCTTC AACTCGCGAC AAAAACGCGG GTATCACCAA TGCACAGCCA 
AATGGTGAAG AGTTAGAAAG AACAATCAAA ACAGCAAGAG GCTGGTGGGT GGTGTGGATG 
AAGGTCTTGG CTTCAAAGCA ACAGAAAGAT GGCAGCGAGG GCGCTGCAAC ACCTTCGGCA 
AATCAAGACA AAAGTGCAGT CCGTCCCTGG CGGGGTGGAT TGAGAAGAAC CGGGGACTTT 
ACCCATGAGG CTATTCTTGT GAGAAGGTCT TCTCATGAAC GCAATTCGAC AAGCAGAGAC 
ACGTCCCGCT CCAGATCCGA GGGTGTAAGT TCTCACCTTT CTGGGAAATG GCTCCTTCGT 
GATCAACCTC GCAGTCGAGA AGTCAGCGGG GGTGGACGTG CAATGTCTGG CATTATTGGG 
GCGCCTGGAA GCACAACTGC CAAGGGCGTG ACGGAGGGCC TGGGAGTAGA CACTAGAAGG 
TGGGTTGAGG CGTTGATTCG ATTGAGTGTT TGA