EC Number | Cloned (Comment) | Organism |
---|---|---|
2.7.7.27 | DNA and amino acid sequence determination and analysis, phylogenetic analysis, and determination and analysis of rates of evolution, the number of duplications in both large and small subunit genes and document changes in the patterns of AGPase evolution over time. The AGPase large subunit family occurs early in the history of land plants, while the earliest small subunit duplication occurs after the divergence of monocots and eudicots. The large subunit also has a larger number of gene duplications than does the small subunit, overview | Chlamydomonas reinhardtii |
2.7.7.27 | DNA and amino acid sequence determination and analysis, phylogenetic analysis, and determination and analysis of rates of evolution, the number of duplications in both large and small subunit genes and document changes in the patterns of AGPase evolution over time. The AGPase large subunit family occurs early in the history of land plants, while the earliest small subunit duplication occurs after the divergence of monocots and eudicots. The large subunit also has a larger number of gene duplications than does the small subunit, overview | Hordeum vulgare |
2.7.7.27 | DNA and amino acid sequence determination and analysis, phylogenetic analysis, and determination and analysis of rates of evolution, the number of duplications in both large and small subunit genes and document changes in the patterns of AGPase evolution over time. The AGPase large subunit family occurs early in the history of land plants, while the earliest small subunit duplication occurs after the divergence of monocots and eudicots. The large subunit also has a larger number of gene duplications than does the small subunit, overview | Solanum tuberosum |
2.7.7.27 | DNA and amino acid sequence determination and analysis, phylogenetic analysis, and determination and analysis of rates of evolution, the number of duplications in both large and small subunit genes and document changes in the patterns of AGPase evolution over time. The AGPase large subunit family occurs early in the history of land plants, while the earliest small subunit duplication occurs after the divergence of monocots and eudicots. The large subunit also has a larger number of gene duplications than does the small subunit, overview | Arabidopsis thaliana |
2.7.7.27 | DNA and amino acid sequence determination and analysis, phylogenetic analysis, and determination and analysis of rates of evolution, the number of duplications in both large and small subunit genes and document changes in the patterns of AGPase evolution over time. The AGPase large subunit family occurs early in the history of land plants, while the earliest small subunit duplication occurs after the divergence of monocots and eudicots. The large subunit also has a larger number of gene duplications than does the small subunit, overview | Solanum lycopersicum |
2.7.7.27 | DNA and amino acid sequence determination and analysis, phylogenetic analysis, and determination and analysis of rates of evolution, the number of duplications in both large and small subunit genes and document changes in the patterns of AGPase evolution over time. The AGPase large subunit family occurs early in the history of land plants, while the earliest small subunit duplication occurs after the divergence of monocots and eudicots. The large subunit also has a larger number of gene duplications than does the small subunit, overview | Oryza sativa |
2.7.7.27 | DNA and amino acid sequence determination and analysis, phylogenetic analysis, and determination and analysis of rates of evolution, the number of duplications in both large and small subunit genes and document changes in the patterns of AGPase evolution over time. The AGPase large subunit family occurs early in the history of land plants, while the earliest small subunit duplication occurs after the divergence of monocots and eudicots. The large subunit also has a larger number of gene duplications than does the small subunit, overview | Physcomitrium patens |
EC Number | Natural Substrates | Organism | Comment (Nat. Sub.) | Natural Products | Comment (Nat. Pro.) | Rev. | Reac. |
---|---|---|---|---|---|---|---|
2.7.7.27 | additional information | Chlamydomonas reinhardtii | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | ? | - |
? | |
2.7.7.27 | additional information | Hordeum vulgare | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | ? | - |
? | |
2.7.7.27 | additional information | Solanum tuberosum | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | ? | - |
? | |
2.7.7.27 | additional information | Arabidopsis thaliana | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | ? | - |
? | |
2.7.7.27 | additional information | Solanum lycopersicum | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | ? | - |
? | |
2.7.7.27 | additional information | Oryza sativa | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | ? | - |
? | |
2.7.7.27 | additional information | Physcomitrium patens | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | ? | - |
? |
EC Number | Organism | UniProt | Comment | Textmining |
---|---|---|---|---|
2.7.7.27 | Arabidopsis thaliana | - |
- |
- |
2.7.7.27 | Chlamydomonas reinhardtii | - |
- |
- |
2.7.7.27 | Hordeum vulgare | - |
- |
- |
2.7.7.27 | Oryza sativa | - |
- |
- |
2.7.7.27 | Physcomitrium patens | - |
- |
- |
2.7.7.27 | Solanum lycopersicum | - |
- |
- |
2.7.7.27 | Solanum tuberosum | - |
- |
- |
EC Number | Substrates | Comment Substrates | Organism | Products | Comment (Products) | Rev. | Reac. |
---|---|---|---|---|---|---|---|
2.7.7.27 | additional information | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | Chlamydomonas reinhardtii | ? | - |
? | |
2.7.7.27 | additional information | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | Hordeum vulgare | ? | - |
? | |
2.7.7.27 | additional information | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | Solanum tuberosum | ? | - |
? | |
2.7.7.27 | additional information | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | Arabidopsis thaliana | ? | - |
? | |
2.7.7.27 | additional information | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | Solanum lycopersicum | ? | - |
? | |
2.7.7.27 | additional information | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | Oryza sativa | ? | - |
? | |
2.7.7.27 | additional information | ADP-glucose pyrophosphorylase catalyzes a rate-limiting step in starch synthesis | Physcomitrium patens | ? | - |
? |
EC Number | Subunits | Comment | Organism |
---|---|---|---|
2.7.7.27 | tetramer | AGPase is a heterotetramer comprised of two identical large and two identical small subunits in plants | Chlamydomonas reinhardtii |
2.7.7.27 | tetramer | AGPase is a heterotetramer comprised of two identical large and two identical small subunits in plants | Hordeum vulgare |
2.7.7.27 | tetramer | AGPase is a heterotetramer comprised of two identical large and two identical small subunits in plants | Solanum tuberosum |
2.7.7.27 | tetramer | AGPase is a heterotetramer comprised of two identical large and two identical small subunits in plants | Arabidopsis thaliana |
2.7.7.27 | tetramer | AGPase is a heterotetramer comprised of two identical large and two identical small subunits in plants | Solanum lycopersicum |
2.7.7.27 | tetramer | AGPase is a heterotetramer comprised of two identical large and two identical small subunits in plants | Oryza sativa |
2.7.7.27 | tetramer | AGPase is a heterotetramer comprised of two identical large and two identical small subunits in plants | Physcomitrium patens |
EC Number | Synonyms | Comment | Organism |
---|---|---|---|
2.7.7.27 | ADP-glucose pyrophosphorylase | - |
Chlamydomonas reinhardtii |
2.7.7.27 | ADP-glucose pyrophosphorylase | - |
Hordeum vulgare |
2.7.7.27 | ADP-glucose pyrophosphorylase | - |
Solanum tuberosum |
2.7.7.27 | ADP-glucose pyrophosphorylase | - |
Arabidopsis thaliana |
2.7.7.27 | ADP-glucose pyrophosphorylase | - |
Solanum lycopersicum |
2.7.7.27 | ADP-glucose pyrophosphorylase | - |
Oryza sativa |
2.7.7.27 | ADP-glucose pyrophosphorylase | - |
Physcomitrium patens |
2.7.7.27 | AGPase | - |
Chlamydomonas reinhardtii |
2.7.7.27 | AGPase | - |
Hordeum vulgare |
2.7.7.27 | AGPase | - |
Solanum tuberosum |
2.7.7.27 | AGPase | - |
Arabidopsis thaliana |
2.7.7.27 | AGPase | - |
Solanum lycopersicum |
2.7.7.27 | AGPase | - |
Oryza sativa |
2.7.7.27 | AGPase | - |
Physcomitrium patens |