KEGG   Nitrincola iocasae: F5I99_10600
Entry
F5I99_10600       CDS       T06212                                 
Name
(GenBank) phosphoadenylyl-sulfate reductase
  KO
K00390  phosphoadenosine phosphosulfate reductase [EC:1.8.4.8 1.8.4.10]
Organism
nik  Nitrincola iocasae
Pathway
nik00920  Sulfur metabolism
nik01100  Metabolic pathways
nik01120  Microbial metabolism in diverse environments
nik01320  Sulfur cycle
Brite
KEGG Orthology (KO) [BR:nik00001]
 09100 Metabolism
  09102 Energy metabolism
   00920 Sulfur metabolism
    F5I99_10600
Enzymes [BR:nik01000]
 1. Oxidoreductases
  1.8  Acting on a sulfur group of donors
   1.8.4  With a disulfide as acceptor
    1.8.4.8  phosphoadenylyl-sulfate reductase (thioredoxin)
     F5I99_10600
    1.8.4.10  adenylyl-sulfate reductase (thioredoxin)
     F5I99_10600
SSDB
Motif
Pfam: PAPS_reduct PhiKZ_gp86
Other DBs
NCBI-ProteinID: QEW06920
UniProt: A0A5J6LEA0
LinkDB
Position
complement(2294315..2295049)
AA seq 244 aa
MSDVLTPQLEEKIAQAVSLLQQAESQYQGNLVLANSLGAEDMVLADLLAQHLPGIGQFVL
DTGRLPEETLTLLAKFSERYPQLKVDVYYPDATAVEGFVRDHGINAFYESQALRKACCGV
RKLEPLKRALAGRAAWITGLRREQSVTRDAVELSEWDAANGLQKLNPLADWTLAEIWAYI
KHFDVPYNALHDQHYPSIGCAPCTRSITVGEDVRAGRWWWENPENRECGLHAAASSSIPL
RTSR
NT seq 735 nt   +upstreamnt  +downstreamnt
atgtcagatgtattaacaccccagctagaagagaaaattgcccaggcggtgagcctgttg
cagcaagccgaaagccaatatcagggcaatctggtgctggcgaacagcctgggtgctgaa
gatatggtgctggctgacctgctggcacagcacctgccgggtatcggccaatttgtgctg
gataccggacgcctgccggaagaaactctgacgctattggcaaaattctctgagcgttat
ccgcaactgaaagtggatgtctattacccggatgctaccgctgtagaaggttttgtgcgt
gatcatgggattaatgccttttatgaatcccaggcgttacgcaaagcctgttgtggcgta
cgtaagctggaaccactcaagcgcgctttggctgggcgtgcggcctggattaccgggttg
cgccgggagcagtcagtcacacgtgatgccgtcgaactctccgagtgggatgccgctaac
ggtttgcagaagcttaatccgctggctgactggactctggccgagatctgggcctatatc
aagcactttgatgtgccctataatgccctgcatgatcagcactaccccagcataggctgt
gcaccctgtacacgctccattacggtgggtgaagatgtgcgcgctggacgctggtggtgg
gagaatcctgaaaaccgtgaatgtggactgcatgcggccgccagctccagtattccttta
cgcacttcgagataa

DBGET integrated database retrieval system