KEGG   Thalassotalea fonticola: RI844_07275
Entry
RI844_07275       CDS       T10167                                 
Symbol
cysC
Name
(GenBank) adenylyl-sulfate kinase
  KO
K00860  adenylylsulfate kinase [EC:2.7.1.25]
Organism
tft  Thalassotalea fonticola
Pathway
tft00230  Purine metabolism
tft00920  Sulfur metabolism
tft01100  Metabolic pathways
tft01120  Microbial metabolism in diverse environments
tft01320  Sulfur cycle
Module
tft_M00176  Assimilatory sulfate reduction, sulfate => H2S
Brite
KEGG Orthology (KO) [BR:tft00001]
 09100 Metabolism
  09102 Energy metabolism
   00920 Sulfur metabolism
    RI844_07275 (cysC)
  09104 Nucleotide metabolism
   00230 Purine metabolism
    RI844_07275 (cysC)
Enzymes [BR:tft01000]
 2. Transferases
  2.7  Transferring phosphorus-containing groups
   2.7.1  Phosphotransferases with an alcohol group as acceptor
    2.7.1.25  adenylyl-sulfate kinase
     RI844_07275 (cysC)
SSDB
Motif
Pfam: APS_kinase AAA_33 NPHP3_N AAA_29 Zeta_toxin AAA_27 KTI12 AAA_18 P-loop_TraG PRK ATP_bind_1
Other DBs
NCBI-ProteinID: WOH39015
UniProt: A0ABZ0GT78
LinkDB
Position
complement(1798915..1799520)
AA seq 201 aa
MTQKTENTVWHAHLVTKNERAQLKNQQPCLLWYTGLSGSGKSTVANAVDDILFQRKAHTY
LLDGDNVRHGLNGDLGFSDEDRIENIRRISQVGKLFVDSGLICSTAFISPFQSDRDMARD
MLEPGEFIEVFIDTPIEICEQRDPKGLYKMARAGEIKDFTGIDSTYDVPASPEIHVKTAN
QSIEQCALQIVSYLEKNGYIN
NT seq 606 nt   +upstreamnt  +downstreamnt
atgactcaaaaaaccgagaacaccgtttggcatgctcaccttgtaactaagaacgagcga
gcgcaattaaaaaatcaacagccttgtttactttggtataccggtttaagtggctcaggt
aaatctaccgtggcaaatgcggtggacgatattttgtttcaacgcaaagctcacacttat
ttactcgatggtgataatgtgcgccatggcttaaatggcgacttaggcttttctgacgaa
gaccgcatcgaaaacatcagacgtatcagccaagtaggtaaattatttgtcgattcaggc
cttatttgcagcactgcgtttatctcgccatttcaatctgaccgagacatggcgcgagac
atgttagagccgggcgaatttattgaagtgtttatcgatacaccaatagaaatttgtgaa
caacgcgatccaaaaggcttatacaaaatggcccgtgctggtgaaatcaaagactttacc
ggtatcgactctacttacgatgttcctgcatcccctgaaattcacgtaaaaactgcaaac
caaagcattgaacaatgcgcgctgcaaatagtgagttacttagagaaaaacggctacatc
aactaa

DBGET integrated database retrieval system