| UPA01047 |
D-galacturonate degradation~Degradation of D-galacturonate, a component of pectin. For the microbial catabolism, three different pathways have been described, (i) a reductive pathway, (ii) an isomerase pathway, (iii) an oxidative pathway. |
True - {{t}} |
None - {{∅}} |
Missing |
|
| UPA01049 |
D-galacturonate degradation via prokaryotic isomerase pathway~The prokaryotic degradation of D-galacturonate via the isomerase pathway. |
True - {{∅},{t}} |
None - {{∅}} |
Missing |
|
| UPA01048 |
D-galacturonate degradation via prokaryotic reductive pathway~The prokaryotic degradation of D-galacturonate via the reductive pathway. |
True - {{∅},{t}} |
None - {{∅}} |
Missing |
|
| UPA01051 |
D-galacturonate degradation via eukaryotic pathway~The Degradation of D-galacturonate in eukaryotes. Yeast and mould can grow with d-galacturonic acid as a sole carbon source; however, a pathway different from the prokaryotic pathways is used. |
True - {{∅},{t}} |
None - {{∅}} |
Missing |
|
| UPA01050 |
D-galacturonate degradation via prokaryotic oxidative pathway~The prokaryotic degradation of D-galacturonate via the oxidative pathway. |
True - {{∅},{t}} |
None - {{∅}} |
Missing |
|