Entry
Name
(RefSeq) uncharacterized protein
KO
Organism
tmf Talaromyces marneffei
Pathway
Module
tmf_M00898 Thiamine biosynthesis, pyridoxal-5P => TMP/thiamine/TPP
Brite
KEGG Orthology (KO) [BR:tmf00001 ]
09100 Metabolism
09108 Metabolism of cofactors and vitamins
00730 Thiamine metabolism
EYB26_003522
Enzymes [BR:tmf01000 ]
2. Transferases
2.7 Transferring phosphorus-containing groups
2.7.1 Phosphotransferases with an alcohol group as acceptor
2.7.1.49 hydroxymethylpyrimidine kinase
EYB26_003522
2.7.4 Phosphotransferases with a phosphate group as acceptor
2.7.4.7 phosphooxymethylpyrimidine kinase
EYB26_003522
3. Hydrolases
3.5 Acting on carbon-nitrogen bonds, other than peptide bonds
3.5.99 In other compounds
3.5.99.2 aminopyrimidine aminohydrolase
EYB26_003522
BRITE hierarchy
SSDB
Ortholog Paralog Gene cluster GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
2:complement(join(3223356..3223474,3223555..3223779,3223838..3223946,3224003..3224068,3224135..3224285,3224338..3224903,3224958..3225040,3225100..3225281,3225359..3225408))
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AA seq
516 aa AA seq DB search
MLPRVLVIAGSDSSGGAGLEADQRVLTAHGVYSLTATTGLTAQNTLGVQDIHVVPAGFVR
KQINAALEDVGADVVKLGMLSSAETVDVIAEELKRHTVKTIVLDPVMISTSGSQLLPQDA
IQHVRSNLVPLTTVLTPNIPEAKLLLENAGQSPVSEPQNVNEMIELAKKVQGLGSKAVLL
KGGHLPFTSEGVRANSTEEARIVVDVLYSAAGDGEEEVVMLTETEYLRSKNTHGTGCSLA
SAIAANLAKGNDLQTSVRSAIKYVEAGIKLSVDMGQGSGPINHFHSLYSMPFAPGQFVDY
VLNRPDMKPIWHRFTHHPFVQGLGDGSLPLKNFKDYLVQDYLYLIHFARSNALASYKART
MKSIAASARIVLHINTETALHIDYCASFGLTREEMEATPEKQACVAYSRYILDIGQSEDW
LALQIALAPCLIGYGAIARRLYDDAENTVKGEENNRYWKWIENYVAEDYATAVKSGSALL
EEHMHQVSPSRVEELVGIFKRATELEIGFWDMGLGE
NT seq
1551 nt NT seq +upstream nt +downstream nt
atgcttcctagggttctcgtcatcgcgggatctgatagttcaggtggagccggcctcgaa
gcagatcagagagtcctcacagctcatggcgtctactctttgacagctacaacaggtttg
acagcacagaacacgttgggtgtgcaagatatccatgttgttccggcagggtttgttagg
aaacagatcaatgctgctttggaggatgttggggctgatgttgttaaacttgggatgcta
tcgtccgcagagacggtggatgtcattgcggaggaattgaagagacataccgtcaaaact
attgttctcgaccctgttatgatatcaacatccggctcccaactcctcccccaagacgca
atccaacatgtccgctcaaacctcgtcccactaaccactgtcctaacgcccaatatccct
gaagccaaactgctactcgaaaatgcgggtcaatcaccagtcagcgaaccacagaatgta
aatgaaatgatcgagcttgcaaagaaagtacagggtctcggatcaaaagccgtcttgttg
aaaggaggtcatttaccattcacatctgagggggtacgagcgaactcgactgaagaagcg
aggattgtggttgatgttttgtattctgctgctggggatggcgaggaagaggtagtgatg
ttaaccgagacagagtatctgagatcaaagaatactcacggcacagggtgctctcttgca
tcggctatagcggcaaatcttgcaaaggggaatgatttacagacgtcagttcgttcggcc
atcaaatatgtcgaagctggaatcaaactgagtgttgatatgggtcaagggagcggaccg
atcaatcacttccactcgctatatagtatgccttttgcgcctggtcaattcgtggactac
gttcttaacaggccagatatgaagcctatctggcacagatttacacatcatccgtttgta
cagggattgggagatggcagcctccctctgaagaatttcaaggattatcttgtgcaggat
tatctctacctcatccatttcgcaagaagcaatgccctcgcttcctacaaagctcgcaca
atgaaatccatagccgcctcagcgagaatagtcctacacatcaacacagaaacagccctc
catatcgactactgcgccagctttggcctaacccgcgaagaaatggaagcaacccccgaa
aaacaagcatgtgtcgcttatagccgctacatcctcgacatcggccaatccgaagactgg
ctggccctccaaatagctctggcaccatgtctgatcggttacggtgcaattgcgcgtcgt
ctctacgacgatgccgagaatacggtgaaaggggaagagaataataggtattggaagtgg
attgagaattatgtggcggaggattatgcgactgctgttaagtctggatctgcattgctg
gaagaacatatgcatcaggtttcgcccagtagagtggaagaattggttggcatcttcaag
agagcgacggagttggaaattgggttttgggatatgggattgggagagtga