Bradyrhizobium icense: LMTR13_20380
Help
Entry
LMTR13_20380 CDS
T04485
Name
(GenBank) nitrile hydratase subunit beta
KO
K20807
nitrile hydratase subunit beta [EC:
4.2.1.84
]
Organism
bic
Bradyrhizobium icense
Pathway
bic00364
Fluorobenzoate degradation
bic00380
Tryptophan metabolism
bic00627
Aminobenzoate degradation
bic00643
Styrene degradation
bic01100
Metabolic pathways
bic01120
Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:
bic00001
]
09100 Metabolism
09105 Amino acid metabolism
00380 Tryptophan metabolism
LMTR13_20380
09111 Xenobiotics biodegradation and metabolism
00627 Aminobenzoate degradation
LMTR13_20380
00364 Fluorobenzoate degradation
LMTR13_20380
00643 Styrene degradation
LMTR13_20380
Enzymes [BR:
bic01000
]
4. Lyases
4.2 Carbon-oxygen lyases
4.2.1 Hydro-lyases
4.2.1.84 nitrile hydratase
LMTR13_20380
SSDB
Ortholog
Paralog
GFIT
Motif
Pfam:
NHase_beta_N
NHase_beta_C
Motif
Other DBs
NCBI-ProteinID:
ANW02176
UniProt:
A0A1B1UHD7
LinkDB
All DBs
Position
4320544..4321203
Genome browser
AA seq
219 aa
AA seq
DB search
MDGAHDMGGAKGFGPVVPEPNEPVFHGDWERRAFALTVAMARPGGWNIDMSRFARENRPP
EDYLSKSYFEIWLAGLETLMIERGLVTREEIEAGKVLSPPKPGVKPIAPNEVTPAIRRGG
PTEREAKAPAMFAIGDIVRMKDIHPVTHTRLPQYVRGRLGTIELNHGCHVFPDTNSLGQG
EDPQWLYTVRFDGPELWGKDGDPTLRVSVDAWESYLERV
NT seq
660 nt
NT seq
+upstream
nt +downstream
nt
atggacggcgcgcatgacatgggcggtgccaagggctttgggccggtcgtacccgagccg
aacgagccggtctttcacggcgactgggagcgccgcgcctttgccctgacggtcgccatg
gcgcgtccgggcggttggaacatcgatatgtcgcggtttgcgcgcgagaaccgtccgccc
gaggattacctcagcaagagctatttcgagatctggctggccgggctggaaacgctgatg
atcgagcgcgggctggtgacgcgcgaggaaatcgaggccggcaaggtgttgtcgccgccc
aagcctggcgtcaagccgatcgctccaaatgaagtcacgccggcaatccgccgcggcggc
ccaaccgaacgcgaggcgaaagcacccgcgatgtttgcaatcggcgacattgtgcggatg
aaagacatccatccggtgacgcatacgcggctgccgcaatatgtccgtggccgtctcggc
accatcgagctcaatcacggctgccacgtcttccccgacaccaactcgctcggccagggc
gaagacccgcaatggctctacaccgtgcggttcgacggaccggaactgtggggcaaggac
ggcgacccgacgctcagagtctccgtcgacgcctgggaatcctatctggagcgcgtgtga
DBGET
integrated database retrieval system