AYL99_07146 cDNA ORF clone, Fonsecaea erecta

Gene
Clones
gRNAs

Summary

Gene Symbol	AYL99_07146
Entrez Gene ID	30011314
Full Name	hypothetical protein
Gene Type	protein-coding
Organism	Fonsecaea erecta

mRNA and Protein(s)

mRNA	Protein	Name
XM_018838655.1	XP_018691423.1	hypothetical protein

Pathways from BioSystems
Gene Ontology

The following AYL99_07146 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AYL99_07146 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
OFo19483	XM_018838655.1 Latest version!	Fonsecaea erecta hypothetical protein (AYL99_07146), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

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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_07146 ( XM_018838655.1 ) cDNA ORF clone, Fonsecaea erecta -> XP_018691423.1 Fonsecaea erecta hypothetical protein (AYL99_07146), partial mRNA.

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CloneID	OFo19483
Clone ID Related Accession (Same CDS sequence)	XM_018838655.1
Accession Version	XM_018838655.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2853bp) 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_017387249). COMPLETENESS: incomplete on both ends.

ATGGACGACA CGCTCACCAT CAGACTTTCA CCTTCAACAT CACCGGCACT CCCAACCCAG 
GAGTCGACTT CCACCTTGAC CACCACCAGA CTTTGTGCTC CTGCTCACCA CCATCATCAT 
TCTCTGCCGT ACTATACACT AGATGCACGC GGGACACGTC ATGATCTTGA TGTCTGCACA 
ACAGCCGATT TCCCACCGCG TCCTCCCTAT CCGCATTTCT ATCCGGCCCG CATTGCAGAT 
GTCAACCATG ACTTGACGTT GTTTCGGCCT CCGCTGCGCA AGAAACCCAA ACTGTCCTCC 
AATGCACCAG ATCCCGACTC ATCGTCCGTG TCACTGCCAT CCCCTGGAAT GCGCAAGCCA 
GTAGGAATCT CAAAGACCCT GAGTGTTCCC TCCTTCAACA TCTCCCTCGA CCACGACCCG 
AACGATAATC GTCCCTCTTC GTCTTCCGGG ATCAGCCAGC CTTCCACCCC CTTGCGTCGA 
ACAAACTCTA ACACGCTCCA GCGATCTCCT TCTCAAAAGA GACCTCCTGC CTCACACAGC 
AGCTACGGCG TCGAGACAAT CTGTGGGCCA CCTCCGTCCT ACAGCACTCA ACGAACCCTC 
TCGCAGGACC GCATCCGACT GGATCGTAAT CCGTCCACGA GATCTACAAA CGATACCACG 
CGTGATCCAA CCCCTTCCAA GGCCAATGAA CCCACCCCAA CCACCGAACC TGCTTCAGCG 
CGACTGTCGC CCGTGAAACC AGACCAGTCC CCATCCCCGA CCAACTCTTC GGCTGACGAG 
GCTACCACGC TGGAAGTATC CAGTCCGGAG ACCGCAGACA CACAGAGTGT GCTGACCCCC 
CACTCGACCA TGAGCAAGGA ACAGGGCCCA GCTGTGCTTC AGACCAATCT GCAAGAAAAG 
GAAAACTCAG AACTGCAGTT ACTGAAACCC ATCCCTTCGG AAGAGGACAG CAAAGCTTCC 
AGTAGCGATG AGAAAAAGAG CGAGGATTTG TTCTTGAATA TTGCAAGGAC CGACGCGTCG 
CGTGGCAGTC AGGTTCAATC GAAACTCGAC AAGAGACGGT CGAGAGTTTC ACTTCCTTTT 
TTTTCGAGTA CACGACCCTC CACCGGCTAC AAATCTTCTC CCATACAGGA GCGATTCGAC 
ACTTCTAGTG TTGCTGGTCG ATCAGAGGCA CTGAATTACT ACAGCAAGCG GTCTTCTCTG 
GGGCAGCATG TGCCGGGCGC GCTTTCGCGA ACGTATACCC AAGAAGTCTC AATTCGAGAC 
GGGACTCTCG ACACACAGAG TACTCATCCC GCGGACTTAC CCCAAAGAGC CCTGTCAAGA 
CGATATTCCA CGACCAATTC AAACAGCAAC ACCAATACAG AACCTGTGCG TACGTTTTCA 
CGACCAAGTA CAGCTCGAAA CAGCCGCTTG GTTTCCGATT CTGCATTTCT TGATCGGCCC 
CGCGTCCCCG ATCACAATGC CACAGAGTCA ACCATCTCTA CGACCGCTCC TTCGACGGTT 
TGGGACGAGC TGGATGATCT GAAATCCAGA ATCAGAAAGC TCGAACTTAC TGGGAAGCTC 
CCACCATCTT CCGCTGCAGC AATGACCACT TCAGAGAGGC CGAAGACGGC AACGACGGCG 
GCAACTACAA TGTCGTCCTC ACCAAAACAC AAACCAGCCG TGACGCAATT GCAATCCGCC 
ATCGAAGGAA TTCCGTCCAA CGTCCACCCG AACCTCCACG AGGCACTTGG TAATGCCAAA 
GCCGTCCTCA GCAATGACGT TTATCAGAAG CTTCAAGCGA CAGCCCAAGA CGCCTTGCAG 
TTGTCCATGA TGATGAATCC AGAGGGGCGT AGCGGCGCTG CCAGCACCCT CGGTATCTCA 
TCTGTCTCGG AACGTCAGAT CCGTCGACGC ACGGAAAGCA TGTGCAGGAC CTTGACGGAA 
TTGGCCATTG CAATCCTGGC AGACCACAAA CAGTTTCCTC AGCCTGTGAC GAGACCCGGT 
AGTCGCGATG CATTTCCGCC GACTTCTACA GGTCTGCGGA GCCGAAGGTA CAGCAATGAG 
CCCAATGACC GACCTCCAGT CGCGTCTCGT GTCCAGTCTC GCCTAGAGAC TCGACGAACC 
AGCGCACCAC TCGGGGCCAC GTTGAACGCG CAGACAACGT CCCCTGAGAA CACGTTTCAA 
ACACCACCTA CAGCCTTGCC CCAGATATCT AGCTCCTCAT CGTCCCGCCT CGGGCGGACT 
TCGACCTTGG TACGTAGCAG GAGAACTCCC GGGTACAACA TGGATGGCGC CACAGACGAC 
GAAGAAAGTA GCCCTTCGGT CAGGCCGGTG AGCCGGGCCA TGACGGAAGT GAGCACGTAT 
CGCCAAATGG CAAGAGATCG AGCGGCGTAC TCGAGAGAAT ATACTGCCCA ACACCCCATG 
CCTCAACATC CCGTCCCCGC AGCACTTGAA GCGACCAATG TGACCAGAAG TCCGCTCCCT 
GCTCACATCA GTACGCATCT GGTCCCGAGA CGCAAGTACG CCGCCCCGTC GTCGACCGCA 
AGCAATGTGG GTACCCAAGA GCATACTCCT GTGACACCCA AGGAGCCTTG GGGTCGAATA 
ACGATCGTGC CCGCCGCTGC GTCTAGTCCG ATCGAGGCCA CACCAGAGAG CCAGGTATCC 
ATTCGGCCTT CAGGAACACG AAGGAGTCTT GGATTTACGA GTAGGATCAG CAGTGTGAGC 
AGTCGACTTC GAGCCGCCAA AGCAGAGCGG AATGCAACGG TGAGAGATGC CACAGAAGCA 
CGAGGAACGA AAGATATTGC ACCATTGAGG CAAGAATTGG ATAATCCGAT GCCGTTGGAA 
AGACAAGGTT CTGGACAGAG CATTGAACCC TGA

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

RefSeq	XP_018691423.1
CDS	1..2853
Translation	MDDTLTIRLSPSTSPALPTQESTSTLTTTRLCAPAHHHHHSLPYYTLDARGTRHDLDVCTTADFPPRPPYPHFYPARIADVNHDLTLFRPPLRKKPKLSSNAPDPDSSSVSLPSPGMRKPVGISKTLSVPSFNISLDHDPNDNRPSSSSGISQPSTPLRRTNSNTLQRSPSQKRPPASHSSYGVETICGPPPSYSTQRTLSQDRIRLDRNPSTRSTNDTTRDPTPSKANEPTPTTEPASARLSPVKPDQSPSPTNSSADEATTLEVSSPETADTQSVLTPHSTMSKEQGPAVLQTNLQEKENSELQLLKPIPSEEDSKASSSDEKKSEDLFLNIARTDASRGSQVQSKLDKRRSRVSLPFFSSTRPSTGYKSSPIQERFDTSSVAGRSEALNYYSKRSSLGQHVPGALSRTYTQEVSIRDGTLDTQSTHPADLPQRALSRRYSTTNSNSNTNTEPVRTFSRPSTARNSRLVSDSAFLDRPRVPDHNATESTISTTAPSTVWDELDDLKSRIRKLELTGKLPPSSAAAMTTSERPKTATTAATTMSSSPKHKPAVTQLQSAIEGIPSNVHPNLHEALGNAKAVLSNDVYQKLQATAQDALQLSMMMNPEGRSGAASTLGISSVSERQIRRRTESMCRTLTELAIAILADHKQFPQPVTRPGSRDAFPPTSTGLRSRRYSNEPNDRPPVASRVQSRLETRRTSAPLGATLNAQTTSPENTFQTPPTALPQISSSSSSRLGRTSTLVRSRRTPGYNMDGATDDEESSPSVRPVSRAMTEVSTYRQMARDRAAYSREYTAQHPMPQHPVPAALEATNVTRSPLPAHISTHLVPRRKYAAPSSTASNVGTQEHTPVTPKEPWGRITIVPAAASSPIEATPESQVSIRPSGTRRSLGFTSRISSVSSRLRAAKAERNATVRDATEARGTKDIAPLRQELDNPMPLERQGSGQSIEP

Target ORF information:

RefSeq Version	XM_018838655.1
Organism	Fonsecaea erecta
Definition	Fonsecaea erecta hypothetical protein (AYL99_07146), partial mRNA.

Target ORF information:

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

XM_018838655.1

ORF Insert Sequence:

ATGGACGACA CGCTCACCAT CAGACTTTCA CCTTCAACAT CACCGGCACT CCCAACCCAG 
GAGTCGACTT CCACCTTGAC CACCACCAGA CTTTGTGCTC CTGCTCACCA CCATCATCAT 
TCTCTGCCGT ACTATACACT AGATGCACGC GGGACACGTC ATGATCTTGA TGTCTGCACA 
ACAGCCGATT TCCCACCGCG TCCTCCCTAT CCGCATTTCT ATCCGGCCCG CATTGCAGAT 
GTCAACCATG ACTTGACGTT GTTTCGGCCT CCGCTGCGCA AGAAACCCAA ACTGTCCTCC 
AATGCACCAG ATCCCGACTC ATCGTCCGTG TCACTGCCAT CCCCTGGAAT GCGCAAGCCA 
GTAGGAATCT CAAAGACCCT GAGTGTTCCC TCCTTCAACA TCTCCCTCGA CCACGACCCG 
AACGATAATC GTCCCTCTTC GTCTTCCGGG ATCAGCCAGC CTTCCACCCC CTTGCGTCGA 
ACAAACTCTA ACACGCTCCA GCGATCTCCT TCTCAAAAGA GACCTCCTGC CTCACACAGC 
AGCTACGGCG TCGAGACAAT CTGTGGGCCA CCTCCGTCCT ACAGCACTCA ACGAACCCTC 
TCGCAGGACC GCATCCGACT GGATCGTAAT CCGTCCACGA GATCTACAAA CGATACCACG 
CGTGATCCAA CCCCTTCCAA GGCCAATGAA CCCACCCCAA CCACCGAACC TGCTTCAGCG 
CGACTGTCGC CCGTGAAACC AGACCAGTCC CCATCCCCGA CCAACTCTTC GGCTGACGAG 
GCTACCACGC TGGAAGTATC CAGTCCGGAG ACCGCAGACA CACAGAGTGT GCTGACCCCC 
CACTCGACCA TGAGCAAGGA ACAGGGCCCA GCTGTGCTTC AGACCAATCT GCAAGAAAAG 
GAAAACTCAG AACTGCAGTT ACTGAAACCC ATCCCTTCGG AAGAGGACAG CAAAGCTTCC 
AGTAGCGATG AGAAAAAGAG CGAGGATTTG TTCTTGAATA TTGCAAGGAC CGACGCGTCG 
CGTGGCAGTC AGGTTCAATC GAAACTCGAC AAGAGACGGT CGAGAGTTTC ACTTCCTTTT 
TTTTCGAGTA CACGACCCTC CACCGGCTAC AAATCTTCTC CCATACAGGA GCGATTCGAC 
ACTTCTAGTG TTGCTGGTCG ATCAGAGGCA CTGAATTACT ACAGCAAGCG GTCTTCTCTG 
GGGCAGCATG TGCCGGGCGC GCTTTCGCGA ACGTATACCC AAGAAGTCTC AATTCGAGAC 
GGGACTCTCG ACACACAGAG TACTCATCCC GCGGACTTAC CCCAAAGAGC CCTGTCAAGA 
CGATATTCCA CGACCAATTC AAACAGCAAC ACCAATACAG AACCTGTGCG TACGTTTTCA 
CGACCAAGTA CAGCTCGAAA CAGCCGCTTG GTTTCCGATT CTGCATTTCT TGATCGGCCC 
CGCGTCCCCG ATCACAATGC CACAGAGTCA ACCATCTCTA CGACCGCTCC TTCGACGGTT 
TGGGACGAGC TGGATGATCT GAAATCCAGA ATCAGAAAGC TCGAACTTAC TGGGAAGCTC 
CCACCATCTT CCGCTGCAGC AATGACCACT TCAGAGAGGC CGAAGACGGC AACGACGGCG 
GCAACTACAA TGTCGTCCTC ACCAAAACAC AAACCAGCCG TGACGCAATT GCAATCCGCC 
ATCGAAGGAA TTCCGTCCAA CGTCCACCCG AACCTCCACG AGGCACTTGG TAATGCCAAA 
GCCGTCCTCA GCAATGACGT TTATCAGAAG CTTCAAGCGA CAGCCCAAGA CGCCTTGCAG 
TTGTCCATGA TGATGAATCC AGAGGGGCGT AGCGGCGCTG CCAGCACCCT CGGTATCTCA 
TCTGTCTCGG AACGTCAGAT CCGTCGACGC ACGGAAAGCA TGTGCAGGAC CTTGACGGAA 
TTGGCCATTG CAATCCTGGC AGACCACAAA CAGTTTCCTC AGCCTGTGAC GAGACCCGGT 
AGTCGCGATG CATTTCCGCC GACTTCTACA GGTCTGCGGA GCCGAAGGTA CAGCAATGAG 
CCCAATGACC GACCTCCAGT CGCGTCTCGT GTCCAGTCTC GCCTAGAGAC TCGACGAACC 
AGCGCACCAC TCGGGGCCAC GTTGAACGCG CAGACAACGT CCCCTGAGAA CACGTTTCAA 
ACACCACCTA CAGCCTTGCC CCAGATATCT AGCTCCTCAT CGTCCCGCCT CGGGCGGACT 
TCGACCTTGG TACGTAGCAG GAGAACTCCC GGGTACAACA TGGATGGCGC CACAGACGAC 
GAAGAAAGTA GCCCTTCGGT CAGGCCGGTG AGCCGGGCCA TGACGGAAGT GAGCACGTAT 
CGCCAAATGG CAAGAGATCG AGCGGCGTAC TCGAGAGAAT ATACTGCCCA ACACCCCATG 
CCTCAACATC CCGTCCCCGC AGCACTTGAA GCGACCAATG TGACCAGAAG TCCGCTCCCT 
GCTCACATCA GTACGCATCT GGTCCCGAGA CGCAAGTACG CCGCCCCGTC GTCGACCGCA 
AGCAATGTGG GTACCCAAGA GCATACTCCT GTGACACCCA AGGAGCCTTG GGGTCGAATA 
ACGATCGTGC CCGCCGCTGC GTCTAGTCCG ATCGAGGCCA CACCAGAGAG CCAGGTATCC 
ATTCGGCCTT CAGGAACACG AAGGAGTCTT GGATTTACGA GTAGGATCAG CAGTGTGAGC 
AGTCGACTTC GAGCCGCCAA AGCAGAGCGG AATGCAACGG TGAGAGATGC CACAGAAGCA 
CGAGGAACGA AAGATATTGC ACCATTGAGG CAAGAATTGG ATAATCCGAT GCCGTTGGAA 
AGACAAGGTT CTGGACAGAG CATTGAACCC TGA