Shewanella sp. JNE2: MZ182_10670
Help
Entry
MZ182_10670 CDS
T08546
Name
(GenBank) rhodanese-related sulfurtransferase
KO
K07146
UPF0176 protein
Organism
shej
Shewanella sp. JNE2
Brite
KEGG Orthology (KO) [BR:
shej00001
]
09190 Not Included in Pathway or Brite
09194 Poorly characterized
99996 General function prediction only
MZ182_10670
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
UPF0176_N
Rhodanese
Rhodanese_C
Motif
Other DBs
NCBI-ProteinID:
UPO29521
UniProt:
A0A9Q8S1Q1
LinkDB
All DBs
Position
complement(2380575..2381579)
Genome browser
AA seq
334 aa
AA seq
DB search
MTKVVVCALYKFVSLPHFESIRAPLLAMMEQAEIKGTLLLASEGINGTVAGNQEAIEALL
AWLNNQNGLDNIVYKLSFDDEMPFYRTKVKLKNEIVTMGVEGIDPLKVVGTYVKPKDWNA
LISDPDVILVDTRNDYEVQIGTFKNAINPVTETFREFPEYVKQNLDPVKHKKVAMFCTGG
IRCEKSTAYLKEQGFEEVYHLEGGILKYLEEVKQEESLWEGECFVFDNRVAVNHELKKGQ
YDQCNACRMPITEAEKRSPAYVQGVSCPHCIDKISDEQRKRFVERERQVNLAKARNEAHI
GSDVNQVIEARREKKEALRKLAAQKNKLKQTGTV
NT seq
1005 nt
NT seq
+upstream
nt +downstream
nt
atgactaaagttgttgtgtgtgcgttatataagtttgtgtcgttgccgcattttgaatct
atccgagcacctttgctcgccatgatggaacaggctgagatcaaaggtacgctgctactc
gcaagtgaagggatcaatggcacggttgctggcaaccaagaggctatcgaagccttatta
gcgtggctcaataatcaaaatggtctagacaatattgtttacaagttatcattcgacgat
gaaatgccgttttaccgcactaaagttaaactgaaaaacgaaattgtgactatgggtgtg
gaagggattgatccactaaaagtggttggcacttacgttaaacctaaggattggaatgcg
ctgatttctgatcctgatgtgattttagtcgatactcgtaatgattatgaggtacagatc
ggaaccttcaaaaatgccattaaccctgtcactgaaacctttagagaattcccagaatac
gtaaagcagaaccttgatcctgtcaaacataaaaaggtggcgatgttttgtacaggtggc
attcgttgcgaaaagtcaacggcctatttgaaggagcaaggttttgaggaggtgtatcat
cttgaaggcggtattcttaaatacttggaggaagtcaaacaagaagaaagcctatgggaa
ggcgagtgctttgtgtttgataatcgtgttgccgttaaccatgagttgaagaaaggccag
tacgatcaatgcaatgcttgccgtatgccgatcactgaagccgaaaaacgcagtcctgcc
tatgtgcagggtgtcagttgtcctcattgtatcgataaaatttctgatgagcagcgcaag
cgttttgtcgagcgcgaacgtcaagttaatctcgccaaggcaagaaacgaagcgcatatc
ggtagcgacgtaaatcaagtgattgaagcgcgtcgagagaagaaagaagcgctacgtaaa
ctcgccgcacaaaaaaataaactaaagcaaactggcacagtttaa
DBGET
integrated database retrieval system