Pragia fontium: QQ39_06295
Help
Entry
QQ39_06295 CDS
T03952
Name
(GenBank) hypothetical protein
KO
K05838
putative thioredoxin
Organism
pfq
Pragia fontium
Brite
KEGG Orthology (KO) [BR:
pfq00001
]
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03110 Chaperones and folding catalysts [BR:
pfq03110
]
QQ39_06295
Chaperones and folding catalysts [BR:
pfq03110
]
Protein folding catalysts
Protein disulfide isomerase
QQ39_06295
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
TPR_20
Thioredoxin
TPR_19
Thioredoxin_2
TraF
Thioredoxin_8
OST3_OST6
ANAPC3
HyaE
TPR_5
SPO22
Tic22
Thioredoxin_6
BTAD
Motif
Other DBs
NCBI-ProteinID:
AKJ41740
UniProt:
A0A0G3CM16
LinkDB
All DBs
Position
complement(1466468..1467322)
Genome browser
AA seq
284 aa
AA seq
DB search
MNANFIVDVTESNFQQVLEQSSQAPVLFYFWSARSQHCQELDPLLAKLVAEYNGKFVLAK
IDCDEQQMVASQFGIRAIPTVYLFKDGQPADGFQGPQPEEAIRELLNRFLPKEEELKAAQ
AEELMREGKYIDALPLLKEAWQISNQRSDIGLLLAETQITLTRSEDAEAVLATIPLQDRD
TRYQSLVAQIELLKQAADTPEIQQLQQQVDAEPDNAELAVQLALQLHTVGRNEEALTLLM
THLKRSLDAADGNAKKTLLDILAALGTGDALAAKFRRQLYSMLY
NT seq
855 nt
NT seq
+upstream
nt +downstream
nt
atgaacgctaattttattgttgatgtgaccgaatccaactttcaacaggtactggaacag
tcgtcccaggctccggttctattctacttttggtctgcccgcagtcaacactgccaggaa
ctggatccgctgttagctaaactggtcgcggaatataacggaaaatttgtcttagctaaa
atcgactgtgacgagcagcaaatggtcgcctctcagtttggtatccgcgctattcctacc
gtttacctgtttaaagacggccaaccggctgatggttttcaaggcccccagccggaagaa
gctatccgcgaactattaaaccgcttcctgcctaaggaagaggaattgaaagcggctcag
gccgaagagttaatgcgtgaaggcaaatatattgatgccttgcctctgctgaaagaagcc
tggcagataagcaatcagcgcagtgatattggtttattactggccgaaacccaaattacc
ctgactcgtagcgaagacgctgaagctgttctggcaacaatcccgctacaggatcgcgat
actcgctatcaaagtttggtggcgcagattgaactattaaaacaggcggctgatacccca
gagattcaacagctacagcagcaggttgacgctgaaccagacaatgccgaattagccgtc
caactagcgctacaactacataccgtaggacgcaatgaagaagcattaacgctgctgatg
acacatctgaaacgcagccttgatgccgcagacggtaacgcgaagaaaaccctgttggat
attcttgccgctctgggaaccggtgatgcattagcggcgaagttcagacgccagctatat
tcaatgctgtattaa
DBGET
integrated database retrieval system