KEGG   Paenibacillus xylanexedens: BS614_17515
Entry
BS614_17515       CDS       T04676                                 
Name
(GenBank) NADPH--cytochrome reductase
  KO
K14338  cytochrome P450 / NADPH-cytochrome P450 reductase [EC:1.14.14.1 1.6.2.4]
Organism
pxl  Paenibacillus xylanexedens
Pathway
pxl00071  Fatty acid degradation
pxl00380  Tryptophan metabolism
pxl00627  Aminobenzoate degradation
pxl01120  Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:pxl00001]
 09100 Metabolism
  09103 Lipid metabolism
   00071 Fatty acid degradation
    BS614_17515
  09105 Amino acid metabolism
   00380 Tryptophan metabolism
    BS614_17515
  09111 Xenobiotics biodegradation and metabolism
   00627 Aminobenzoate degradation
    BS614_17515
 09180 Brite Hierarchies
  09181 Protein families: metabolism
   00199 Cytochrome P450 [BR:pxl00199]
    BS614_17515
Enzymes [BR:pxl01000]
 1. Oxidoreductases
  1.6  Acting on NADH or NADPH
   1.6.2  With a heme protein as acceptor
    1.6.2.4  NADPH---hemoprotein reductase
     BS614_17515
  1.14  Acting on paired donors, with incorporation or reduction of molecular oxygen
   1.14.14  With reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen into the other donor
    1.14.14.1  unspecific monooxygenase
     BS614_17515
Cytochrome P450 [BR:pxl00199]
 Cytochrome P450, fungi type
  CYP505 family
   BS614_17515
 Cytochrome P450, bacteria type
  CYP102 family
   BS614_17515
SSDB
Motif
Pfam: p450 FAD_binding_1 Flavodoxin_1 NAD_binding_1 FMN_red
Other DBs
NCBI-ProteinID: APO45639
UniProt: A0A1L5LQE7
LinkDB
Position
3932023..3935277
AA seq 1084 aa
MSDATSIPQPKMYGPLGNLPLIDKDKPTLSLGVLAEQHGPIYRLTVPGYSGLIISGPDLV
AELCDVSRFDKFVYNELENVRAFGGDGLFTSRTSEPNWKKAHNILLPTFSKQAMKGYHSM
MIDIADQLINKWARLNSNDTIDVADDMTRLTLDTIGLCGFNYRFNSFYRQDHSPFIESMV
RALNEAMQKSSRLKIQNLLMVKTKRQFHEDIQTMFSLVDQIIEERKASSAPEEVDLLARM
LNGKDPETGEMLDDENIRYQIITFLIAGHETTSGLLSFALYFLLKNPESLQKAYDEVDQI
LVSDSPQYEEILQLSYIRMILSESLRLWPTAPGFDVYAKEDTVIGGKYPLKKGESCSILL
PQLHRDREAWGEDAELFRPERFEDTAKVPHHAYKPFGNGERACIGMQFALYEATLVLGMV
LKHFELIDYSNYELDVKQTLTLKPGDFRIQVKAREVSQKMNKSTVSAKEKPAPVVHKNIA
SESQREEILAVEADGKPSLLVLYGSNLGTAEGIARELVEKGRSYGIPSEAATLNEWVGRI
PRQGVVLIVTASYNGKPPQNATAFVDWLKGTESEEAKDVNYAVLGCGDRSWSGTYQSIPR
WIDERLEELGGKRLLSRGEADAGGDMEKQVEAWQHMLWPQVLSVLGISEEAIKSSKPSAS
RLQMEFVREKTDMPLARTYDASYVTVVVNKELQALGSGRSTRHIEVLLPEGMSYREGDHL
GVLPSNQKQNVDRILSRFGLRGDTPIQLTSDVSHLTHLPLNRPVKIHELLAYCVELQTPV
SRTQLQELANHTVCPPHKRELEGMLDENSYKDDILANRITMLDLLEKYEACELPFERFLE
LLPPLKPRYYSISSSPSLNSEQASITVSVVREPAWSGKGEYLGVASSYLAGCSSGEDILM
FVRTPESEFHLSEEVDVPMIMVGPGTGVAPFRGFLQARAVMKQRGLQLSEAHLFFGCRND
SDFIYRQELEQYEREGIVKLHTAFSRADGKPKTYVQHLMKENSKQLIHMLMSKGKLYVCG
DGSQMAPAVEETLRQAYQEVQGATMQQAKDWLIQLQAGGRYVQDVWAGNKRTGETPKTVH
EEVH
NT seq 3255 nt   +upstreamnt  +downstreamnt
atgagtgatgcaacttccattccacagcccaaaatgtatggaccacttggcaatctgccc
ttaattgataaagataaacccacgttgtcgctaggcgttctagctgaacagcatggaccg
atatatcgacttacggttcccggttattccggtttaatcatatctgggccagatcttgtc
gcggagttatgcgatgtctcccgttttgataagtttgtatataatgaactcgaaaacgta
cgtgcctttggaggcgatggtttatttacaagcagaacatcggagcccaattggaaaaag
gcccataacattctgcttcccaccttcagcaagcaggccatgaaaggttatcattccatg
atgattgatattgccgatcaattgatcaacaagtgggcacgcctcaattccaatgatacg
attgatgttgcggacgatatgacacgccttacgttggataccattggactatgtggattc
aattatcggtttaacagtttttatagacaggaccacagtccttttattgaaagcatggtt
cgggcattaaatgaagcaatgcagaagagttcacgtttgaaaattcagaatctgcttatg
gtgaaaaccaaacgacagttccacgaggatattcagacgatgttctctctggtagatcag
attatagaggaacgtaaagcgagttcagcacccgaagaggttgacttgctcgcacgtatg
ctgaatggcaaagatccggagactggagaaatgctggatgatgagaacatccgttatcag
attattacgtttctcattgccggacatgaaacaacgagtggtttgttatcttttgctctt
tactttctactgaaaaatccggaatcgcttcaaaaggcgtatgacgaggtggatcagata
ttggtcagtgactcaccacagtacgaggaaattcttcagctttcctatattcgcatgatt
ctcagtgaatcactacgtctgtggccaacagccccgggatttgatgtatatgccaaagaa
gacaccgtcataggtggcaaatatcccttgaagaaaggggagagttgcagtattcttttg
ccccagcttcaccgtgacagagaggcatggggagaggatgcggagcttttccgtccggag
cgatttgaagatacggcgaaagtgcctcatcatgcgtataaaccttttggtaatggggag
agagcatgtataggcatgcagtttgctttatatgaagcaacacttgtgcttggcatggtc
ctcaaacattttgagctgatcgattatagcaactatgagttggatgttaaacagacactg
acattgaagccgggagacttccggatccaggtgaaagcgcgcgaagtgtcacaaaagatg
aataagtcgaccgtatctgcgaaagagaaacctgctcctgttgttcataaaaatatagca
agtgaaagccagagggaagaaatcctggccgttgaagcagatggtaagccttcgctcctg
gtgttatatggttccaatctgggaacggcagaaggcattgcccgagagcttgtggaaaaa
gggcgttcgtatggaatcccaagtgaagcagccactctgaatgagtgggttggccgcatt
ccccgccaaggtgtcgttctcatcgtcacagcttcgtataacggtaaacctccgcaaaat
gctacggcatttgtagactggttaaagggaacagagtcagaggaagcaaaggatgtaaac
tatgccgttctgggttgtggagatcggagttggtccgggacgtaccagagcattcctcga
tggatagatgagaggcttgaagaattgggaggtaaaagactgttatcccgcggtgaagcc
gatgccggaggtgatatggagaaacaagtcgaggcgtggcagcatatgttgtggccacag
gtgttgagtgtcttagggattagcgaggaagcaatcaaatcctccaagccaagcgccagc
agacttcaaatggagtttgtccgcgagaagacggatatgccacttgcacgaacttatgat
gccagctatgtcacggttgtagttaataaagagcttcaggcgctgggaagtggaagaagc
acgcgtcacatcgaagtgttactgcctgaaggcatgagttatagagaaggcgaccatctc
ggcgtgttgcctagcaatcagaagcagaatgtagatcggatactcagtcggttcggacta
cgtggggatactccgatccaattaacttcggacgtcagccatcttacacacctaccactg
aacagacccgtcaagattcatgagttgctcgcttattgtgtggaattgcagacaccagtc
tccagaacacagttgcaggagttagctaatcatacggtatgtccacctcataagcgtgaa
ctggaaggcatgttggacgaaaatagctacaaggatgatattcttgccaatcgaatcacc
atgttggacctgctagaaaagtatgaggcgtgtgaactgccattcgaaaggttccttgaa
ctattgcctccactcaagcccagatattattcaatatccagctcgccaagcctgaattcc
gagcaagcaagcataaccgtatcggtagtaagagagcctgcatggagtggtaagggcgaa
tatctgggagttgcttcatcgtacctcgctggttgttcatccggagaagatattctgatg
tttgtacgtacacctgaatccgaatttcatctgtccgaagaggttgatgttccaatgatc
atggtgggaccggggacgggtgttgcaccattcagaggtttcctccaggcgagagcggtc
atgaaacagagaggtttgcaactgagtgaagcgcatttattctttgggtgcaggaatgat
tcagatttcatatatcgtcaggagcttgagcaatacgaaagggaagggatcgttaagcta
cacactgctttttctcgtgcggatggcaagcccaaaacgtatgtacagcatctaatgaaa
gagaattccaaacagttaattcacatgctgatgagcaaaggaaaactctacgtatgcggg
gatggaagccagatggcacctgcggtagaagagactttgcggcaagcatatcaggaggtg
cagggagcaacgatgcagcaagcgaaggactggctcattcagcttcaggccggaggacgc
tacgtgcaagacgtgtgggcaggtaataaacgaacaggtgaaactcctaaaactgtgcat
gaggaggtacattaa

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