Kynureninase CELE_C15H9.7
protein found in Caenorhabditis elegans
Press Enter · cited answer in seconds
0 sources
Kynureninase CELE_C15H9.7
Summary
Kynureninase CELE_C15H9.7 is a protein[1].
Key Facts
- Kynureninase CELE_C15H9.7's instance of is recorded as protein[2].
- Kynureninase CELE_C15H9.7's UniProt protein ID is recorded as Top Springs[3].
- Kynureninase CELE_C15H9.7's part of is recorded as Kynureninase[4].
- Kynureninase CELE_C15H9.7's part of is recorded as Pyridoxal phosphate-dependent transferase, major domain[5].
- Kynureninase CELE_C15H9.7's part of is recorded as Pyridoxal phosphate-dependent transferase[6].
- Kynureninase CELE_C15H9.7's part of is recorded as Pyridoxal phosphate-dependent transferase domain 1[7].
- Kynureninase CELE_C15H9.7's part of is recorded as Aminotransferase class V domain, protein family[8].
- Kynureninase CELE_C15H9.7's has part is recorded as Aminotransferase class V domain[9].
- Kynureninase CELE_C15H9.7's RefSeq protein ID is recorded as NP_509023[10].
- Kynureninase CELE_C15H9.7's molecular function is recorded as catalytic activity[11].
- Kynureninase CELE_C15H9.7's molecular function is recorded as hydrolase activity[12].
- Kynureninase CELE_C15H9.7's molecular function is recorded as pyridoxal phosphate binding[13].
- Kynureninase CELE_C15H9.7's molecular function is recorded as kynureninase activity[14].
- Kynureninase CELE_C15H9.7's cell component is recorded as cytoplasm[15].
- Kynureninase CELE_C15H9.7's cell component is recorded as cytoplasm[16].
- Kynureninase CELE_C15H9.7's biological process is recorded as tryptophan catabolic process[17].
- Kynureninase CELE_C15H9.7's biological process is recorded as NAD biosynthetic process[18].
- Kynureninase CELE_C15H9.7's biological process is recorded as pyridine nucleotide biosynthetic process[19].
- Kynureninase CELE_C15H9.7's biological process is recorded as tryptophan catabolic process to kynurenine[20].
- Kynureninase CELE_C15H9.7's biological process is recorded as anthranilate metabolic process[21].
- Kynureninase CELE_C15H9.7's biological process is recorded as L-kynurenine catabolic process[22].
- Kynureninase CELE_C15H9.7's biological process is recorded as quinolinate biosynthetic process[23].
- Kynureninase CELE_C15H9.7's biological process is recorded as 'de novo' NAD biosynthetic process from tryptophan[24].
- Kynureninase CELE_C15H9.7's biological process is recorded as anthranilate metabolic process[25].
- Kynureninase CELE_C15H9.7's encoded by is recorded as kynu-1[26].