Entry |
|
Name |
(RefSeq) hypothetical protein
|
KO |
|
Organism |
spaa Spathaspora passalidarum
|
Pathway |
spaa00260 | Glycine, serine and threonine metabolism |
spaa01110 | Biosynthesis of secondary metabolites |
|
Brite |
KEGG Orthology (KO) [BR:spaa00001]
09100 Metabolism
09105 Amino acid metabolism
00260 Glycine, serine and threonine metabolism
SPAPADRAFT_55057
00350 Tyrosine metabolism
SPAPADRAFT_55057
00360 Phenylalanine metabolism
SPAPADRAFT_55057
09106 Metabolism of other amino acids
00410 beta-Alanine metabolism
SPAPADRAFT_55057
Enzymes [BR:spaa01000]
1. Oxidoreductases
1.4 Acting on the CH-NH2 group of donors
1.4.3 With oxygen as acceptor
1.4.3.21 primary-amine oxidase
SPAPADRAFT_55057
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
Unknown
|
AA seq |
664 aa
MSPRLHPFEPVKDYEIRLASKLVKDAYPAAANVHFVQIDRLDPPKKDMKKYIQAERDGSP
LPNIPRILYCYYYTNTLDFNKALVNVSIGHIITKVQLPKGVVGPLLPDDMMEWEEHCNNH
PKIQEEIAKLKLPPGYTVRNDPWIYATDDANETRPLCQFFMYVLAGNGHTESNHYSLPLK
FSPVFECFTKKFIRMDYLPGGFDATTVPTQPWIPVPAVEYHPDLNGETTMRDVKPLLISQ
PEGPSFQVTDGNKVTWQGWEFRVSPTSREGFAVYDVWFKGRQVFYRISLSEMTVPYGDPR
APYHRKQAFDLGDCGFGTNGNHLALGCDCLGVIKYMDGMGIHATGEPFIIPNTVCMHEQD
DGLLYKHVNYRTNNAVVARKRIFVVQTIATVANYEYIINLKFVTDGSIDIETRATGILST
MPIDPDVKVPWGTVVGPNVMAAYHQHILSFRIDPAIDGHKNTVVYDDAVKLPRDDFNPFG
IGFVTDRKYVEKAGHIEQSPFTNRTYKIINENKINPISGSPVGYKVNMPARQMLLADKDS
FNSKRAKFATEQIWVTKYRDHELFAAGEFTNQSHSDTGLGEWANGVDDVRNDDIVVWATV
GFTHIPRVEDFPVMPVDIHNIQLAPFNFFDKNPALDLPQSNNAFNKSILVGDEKTEKACC
KTKI |
NT seq |
1995 nt +upstreamnt +downstreamnt
atgtctccaagacttcacccatttgaacctgttaaggattatgaaatcagattagcatct
aagttagtcaaggatgcatatccagctgctgccaatgtccattttgttcaaattgacaga
ttagaccctccaaagaaggatatgaagaaatatatccaagctgaaagagatggttctcca
ttaccaaacatcccaagaatcttatactgttactactataccaacactttagactttaac
aaggctttggttaatgttagtattggtcacatcatcaccaaggtccaattaccaaagggt
gttgttggtccattattacctgatgacatgatggaatgggaagaacactgtaacaaccat
ccaaagattcaagaagaaattgccaagttgaaattaccacctggttacactgtcagaaac
gatccatggatttatgctactgatgatgccaatgaaactagacctttgtgtcaattcttc
atgtatgttcttgctggtaatggacatactgaatctaaccattattcccttccattgaag
ttctcccctgtttttgaatgtttcaccaagaaattcatcagaatggattacttaccaggt
ggtttcgatgccaccactgtcccaacccaaccttggattccagttccagctgttgaatac
cacccagacttgaatggcgaaaccaccatgagagatgttaagccattattgatttctcaa
ccagaaggtccttcattccaagttactgatggtaacaaggttacttggcaaggatgggaa
ttcagagtttccccaacttctagagaaggttttgctgtttacgacgtttggttcaaggga
agacaagttttctaccgtatttctctctctgaaatgactgttccatacggtgatcctcgt
gctccatatcacagaaagcaagctttcgatttaggtgattgtggtttcggtaccaacggt
aaccatttagctcttggttgtgactgtttgggtgttatcaagtacatggatggtatgggt
atccacgccactggtgaaccattcatcattccaaacaccgtttgtatgcatgaacaagat
gatggtttgttatataagcatgtcaactaccgtaccaacaatgctgttgttgccagaaag
agaatctttgttgttcaaacaattgctactgttgccaactacgaatatatcatcaacttg
aaattcgtcactgatggttctattgatattgaaaccagagctactggtattctttccacc
atgccaattgatccagatgtcaaggttccatggggtactgttgtcggtccaaacgtcatg
gctgcttaccatcaacatattctttccttcagaatcgatccagccattgatggtcacaag
aataccgttgtttacgatgatgccgtcaagttgccacgtgatgacttcaacccattcggt
attggtttcgttactgacagaaagtatgttgaaaaagctggtcacattgaacaatctcca
ttcaccaacagaacctacaagatcatcaacgaaaacaagatcaacccaatttctggttcc
cctgttggttacaaggttaacatgccagccagacaaatgttacttgctgacaaggactct
ttcaactccaagagagccaagtttgccactgaacaaatctgggtcaccaagtaccgtgat
cacgaacttttcgctgctggtgaattcactaaccaatctcacagcgatactggtttaggt
gaatgggctaatggtgttgacgatgtcagaaatgacgatattgtcgtttgggccactgtt
ggtttcacccatattccaagagttgaagatttcccagtcatgcctgtagatatccacaac
atccaattggctccattcaatttctttgacaagaacccagctttagacttgcctcaatct
aacaatgctttcaacaagtccattttggttggtgatgaaaagaccgaaaaggcttgttgc
aagactaagatctag |