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Prior-Knowledge Description Expectation Prediction Conclusion Leaf Statistics
UER00204 sulfite from sulfate: step 1/3~1 ATP + 1 sulfate => 1 5'-adenylyl sulfate + 1 diphosphate. None - {{∅}} True - {{t}} Unconfirmed presence
UCR02021 3'-phospho-5'-adenylyl sulfate + thioredoxin = adenosine 3',5'-bisphosphate + sulfite + thioredoxin disulfide None - {{∅}} True - {{t}} Unconfirmed presence
UCR00509 5'-adenylyl sulfate + ATP = 3'-phospho-5'-adenylyl sulfate + ADP None - {{∅}} True - {{t}} Unconfirmed presence
UER00206 sulfite from sulfate: step 3/3~1 3'-phospho-5'-adenylyl sulfate + 1 thioredoxin => 1 adenosine 3',5'-bisphosphate + 1 sulfite + 1 thioredoxin disulfide. None - {{∅}} True - {{t}} Unconfirmed presence
VariantPath-2-UPA00140 None - {{∅}} True - {{t}} Unconfirmed presence
UER00208 hydrogen sulfide from sulfite (ferredoxin route): step 1/1~6 H(+) + 6 reduced ferredoxin + 1 sulfite => 3 H(2)O + 1 hydrogen sulfide + 6 oxidized ferredoxin. None - {{∅}} True - {{t}} Unconfirmed presence
VariantPath-1-UPA00140 None - {{∅}} True - {{t}} Unconfirmed presence
UER00207 hydrogen sulfide from sulfite (NADPH route): step 1/1~3 H(+) + 3 NADPH + 1 sulfite => 3 H(2)O + 3 NADP(+) + 1 hydrogen sulfide. None - {{∅}} True - {{t}} Unconfirmed presence
UCR00859 3 H(2)O + hydrogen sulfide + 6 oxidized ferredoxin = 6 H(+) + 6 reduced ferredoxin + sulfite None - {{∅}} True - {{t}} Unconfirmed presence
UER00205 sulfite from sulfate: step 2/3~1 5'-adenylyl sulfate + 1 ATP => 1 3'-phospho-5'-adenylyl sulfate + 1 ADP. None - {{∅}} True - {{t}} Unconfirmed presence
UCR00858 3 H(2)O + 3 NADP(+) + hydrogen sulfide = 3 H(+) + 3 NADPH + sulfite None - {{∅}} True - {{t}} Unconfirmed presence
ULS00087 hydrogen sulfide from sulfite (NADPH route) None - {{∅}} True - {{t}} Unconfirmed presence
ULS00088 hydrogen sulfide from sulfite (ferredoxin route) None - {{∅}} True - {{t}} Unconfirmed presence
UPA00140 hydrogen sulfide biosynthesis~Conversion of sulfate to hydrogen sulfide, in preparation for incorporation into cysteine and methionine. Sulfate can provide sulfur for biosynthesis. The sulfur atom in sulfate is more oxidized than it is in cysteine and other organic molecules; thus sulfate must be reduced before it can be assimilated. This process is known as assimilatory sulfate reduction to distinguish it from the dissimilatory sulfate reduction that takes place when sulfate acts as an electron acceptor during anaerobic respiration. None - {{∅}} True - {{t}} Unconfirmed presence
UCR00529 ATP + sulfate = 5'-adenylyl sulfate + diphosphate None - {{∅}} True - {{t}} Unconfirmed presence
ULS00086 sulfite from sulfate None - {{∅}} True - {{t}} Unconfirmed presence