| UER00283 |
L-glutamate and succinate from L-arginine: step 5/5~1 H(2)O + 1 N(2)-succinyl-L-glutamic acid => 1 L-glutamate + 1 succinate. |
False - {{f}} |
None - {{∅}} |
Absent |
|
| UPA00073 |
L-arginine degradation~Degradation of L-arginine, an energy-rich amino-acid that can supply nitrogen, carbon and energy to various bacteria in a variety of environment. L-arginine can be catabolized by a large number of routes including the arginase pathway, the arginine deiminase (ADI) pathway, the arginine succinyl transferase (AST) pathway, the arginine decarboxylase (ADC), transaminase, oxidase and oxygenase pathways. These pathways often have distinctive functions. |
False - {{f}} |
True - {{t}} |
Unexpected presence |
|
| UER00281 |
L-glutamate and succinate from L-arginine: step 3/5~1 2-oxoglutarate + 1 N(2)-succinyl-L-ornithine => 1 L-glutamate + 1 N-succinyl-L-glutamate 5-semialdehyde. |
False - {{f}} |
None - {{∅}} |
Absent |
|
| ULS00109 |
L-glutamate and succinate from L-arginine |
False - {{f}} |
None - {{∅}} |
Absent |
|
| UPA00186 |
agmatine biosynthesis~The decarboxylation of L-arginine by arginine decarboxylase produces agmatine. Agmatine is a metabolic intermediate in the biosynthesis of putrescine and higher polyamines (spermidine and spermine). Recent studies indicate that agmatine can have several important biochemical effects in humans, ranging from effects on the central nervous system to cell proliferation in cancer and viral replication. |
False - {{f}} |
None - {{∅}} |
Absent |
|
| UER00279 |
L-glutamate and succinate from L-arginine: step 1/5~1 L-arginine + 1 succinyl-CoA => 1 CoA + 1 N(2)-succinyl-L-arginine. |
False - {{f}} |
None - {{∅}} |
Absent |
|
| UER00280 |
L-glutamate and succinate from L-arginine: step 2/5~2 H(2)O + 1 N(2)-succinyl-L-arginine => 1 CO(2) + 1 N(2)-succinyl-L-ornithine + 2 NH(3). |
False - {{f}} |
None - {{∅}} |
Absent |
|
| UPA00254 |
L-arginine degradation via ADI pathway~Degradation of L-arginine via ADI (arginine deiminase) pathway. In this pathway, L-arginine is converted into ornithine and carbamoyl-phosphate. Carbamoyl-phosphate is further converted into ammonia and CO2 with the concomitant production of ATP. This last part is described as an independant pathway. |
False - {{f}} |
True - {{t}} |
Unexpected presence |
|
| ULS00110 |
agmatine from L-arginine |
False - {{f}} |
None - {{∅}} |
Absent |
|
| UER00284 |
agmatine from L-arginine: step 1/1~1 L-arginine => 1 CO(2) + 1 agmatine. |
False - {{f}} |
None - {{∅}} |
Absent |
|
| ULS00164 |
carbamoyl phosphate from L-arginine |
False - {{f}} |
True - {{t}} |
Unexpected presence |
|
| UPA00185 |
L-arginine degradation via AST pathway~Degradation of L-arginine via arginine succinyl transferase pathway. One function of this pathway is to provide nitrogen during nitrogen restriction. The ammonia produced is assimilated into glutamate and glutamine, which in turn provides nitrogen for the synthesis of virtually all nitrogen-containing compounds. |
False - {{f}} |
None - {{∅}} |
Absent |
|
| UER00365 |
carbamoyl phosphate from L-arginine: step 2/2~1 L-citrulline + 1 phosphate => 1 L-ornithine + 1 carbamoyl phosphate. |
False - {{f}} |
True - {{t}} |
Unexpected presence |
|
| UER00282 |
L-glutamate and succinate from L-arginine: step 4/5~1 H(2)O + 1 N-succinyl-L-glutamate 5-semialdehyde + 1 NAD(+) => 1 H(+) + 1 N(2)-succinyl-L-glutamic acid + 1 NADH. |
False - {{f}} |
None - {{∅}} |
Absent |
|
| UER00364 |
carbamoyl phosphate from L-arginine: step 1/2~1 H(2)O + 1 L-arginine => 1 L-citrulline + 1 NH(3). |
False - {{f}} |
True - {{t}} |
Unexpected presence |
|