| Entry |
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| Definition |
hypothetical protein
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| Orthology |
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| Organism |
bfu Botryotinia fuckeliana
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| Pathway |
| Tyrosine metabolism | | Riboflavin metabolism | | Metabolic pathways | | Biosynthesis of secondary metabolites |
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| Class |
Metabolism; Amino acid metabolism; Tyrosine metabolism [PATH: bfu00350]
Metabolism; Metabolism of cofactors and vitamins; Riboflavin metabolism [PATH: bfu00740]
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| SSDB |
   |
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| Motif |
 |
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| Other DBs |
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| AA seq |
686 aa  
MAAIPALNYPITGPPKPSPAPADGKATLLCTVHFAKFSGSVPLRREIRDLQHNFPDQWTL
YILGLQAFQQLDEKSDLSWYGIAGIHGRPYRPWGGVQGDNPAGWQGYCTHSSILFAPWHR
PYLALFEQYLYQIIQKIAATFPTSTKARYQQAALTFRMPYWDWAAAPPAGDKYFPTVVGQ
PLIQIITPTSNNKPVQINNPLYSYKFNPLNPLKGDFPSAPESRWPTTLRYPTSGSATAKS
QEQQVFDAMESQFDSYQSNVYLIMRDPNYKQFDAFSNHQWASNNAPGTYGSIEDVHNSVH
SETGGNGQMGDPDYAAFDPLFWGHHTNVDRQFAIWQALNPNSYAINKPSGDGTFSIQSGS
QETSTTPLTPFNNATGKTYWTSEGVRSTATFNYAYPETQQWKYPTAQQYQTSVLVAVQTL
YGATSNQFMQLMGVQTAAAPEQISTQAENIVAGSSNAAQKPTGNGAASSSDGHNFLSNLL
HSSAKAKPKPGDAIRGGEDFESEIGKPSEAPAAAEPIKYREYICNIRAPKHILHQTYRVR
IFLGDFNSDPATWATEQSTIGTFSSFGKNPETTGCGKCIKDEARSLMISGTVPLTPILLK
LYKNGDLGSLEVENVIPYLRQNLHWRVTLADGTEIDRGDVEGLKISVVSTEVRCAQGGFP
EYSGEYEVHSEVTGGRPAGLGEGDRI |
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| NT seq |
2061 nt  +upstreamnt +downstreamnt
atggctgccatcccggcacttaactaccctatcaccggccctccaaagccttctcctgct
cctgctgacggtaaggctacacttctgtgtactgttcattttgctaaattctcaggatct
gttcccttgaggcgtgagattcgtgatctccaacataactttcctgaccaatggacgctt
tacatactcggtcttcaggcctttcaacaacttgacgagaagtcagatttatcatggtat
ggaatcgcgggtattcatggacgcccctatcgtccctggggtggggtacaaggagataac
ccggctggatggcagggctactgcacccacagctccattctctttgcaccatggcatcgt
ccgtaccttgcattgtttgagcaatacctgtatcaaatcatacaaaagatcgctgctacg
ttccccacttccacaaaggcccgttatcaacaagctgccctgactttccgtatgccatac
tgggactgggctgctgcaccccccgctggtgataagtactttcctactgttgttggacag
ccattgatccaaatcattactccaacctcgaataataagccagttcaaatcaataatcca
ctctactcctacaaattcaacccattgaatcctttaaagggtgatttccctagtgctccg
gaatcacgatggccaaccactcttcggtatccaaccagtggaagtgcaaccgccaaatct
caagagcaacaggtctttgacgctatggaatcacaatttgattcgtaccaaagtaatgtt
tacttgatcatgagagaccccaattataagcagtttgatgcctttagcaatcaccaatgg
gcatcaaacaatgctccgggaacatatggtagtatcgaagatgtgcacaacagtgttcat
agtgaaactggtgggaatggacagatgggcgatcctgattatgcagcatttgatccattg
ttctgggggcatcacaccaatgtcgatcgtcaatttgccatctggcaagcattaaacccc
aacagctatgcaatcaacaagccttccggcgatggaacattttccatccaaagtggtagc
caagaaacaagcactacccccttgacgccattcaacaatgccactgggaaaacctactgg
acttccgaaggtgtgcgtagtacagccacgttcaactacgcctaccccgagactcaacaa
tggaagtatcctactgcccagcaatatcaaacgagtgttctcgtcgcagtgcagacattg
tatggagctactagtaaccaattcatgcaattgatgggcgtacaaactgctgctgcacca
gaacaaatttctacccaggccgaaaatattgttgcaggtagcagtaatgcagctcagaaa
cctaccggtaatggtgctgcatcatcttctgacggacacaactttttgtcaaatcttctt
cacagttccgccaaggccaagccaaagcctggtgacgccattagaggtggagaggacttt
gagtccgagattggaaaaccatctgaagctcctgccgccgcggaaccaatcaaataccgt
gaatacatttgcaatatccgtgctcccaagcatattctccatcaaacctatcgagtccga
atcttccttggagatttcaattccgatcctgcaacttgggcaaccgagcaatccaccatt
ggcaccttctcttcctttggtaaaaatcccgaaaccaccggatgcggaaaatgcatcaaa
gacgaagcacgttccctcatgatctccggcaccgttcctttaacccccatcctcctcaaa
ctgtacaagaatggcgatctcggatctctcgaagtcgagaatgtcattccgtatttgaga
caaaatctccattggagagttacactcgctgatgggactgagattgacaggggagatgtt
gagggacttaagattagtgtggtgagtacagaggtgaggtgtgcgcagggagggttcccg
gagtatagtggggagtatgaggtgcatagtgaggttacaggaggaagaccagccggttta
ggagagggagataggatttag |
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