EC Number   |
General Information |
Reference |
|---|
    4.1.1.39 | malfunction |
the cbbL1 mutant induces more nodules which are heterogenic in phenotype |
-, 716713 |
| 4.1.1.39 | malfunction |
the form II RubisCO disruption strain is able to grow using 5-methylthioadenosine as the sole sulfur source |
-, 715360 |
| 4.1.1.39 | metabolism |
analysis of temperature responses of Rubisco carboxylation and oxygenation kinetics, phosphoenolpyruvate carboxylase carboxylation kinetics, and the activity and first-order rate constant for the carbonic anhydrase hydration reaction from 10°C to 40°C using crude leaf extracts. The C4 Rubisco of Setaria viridis has a temperature response similar to measured C3 Rubisco, the Km HCO3- of phosphoenolpyruvate carboxylase increases with temperature, and large changes in cabonic anhydrase activity have minimal effect on net CO2 assimilation |
748975 |
| 4.1.1.39 | metabolism |
comparison of Rubisco kinetics for 20 crop species at three different temperatures. Rubisco kinetics and their temperature dependency are species specific and largely affect the assimilation potential of Rubisco from the different crops |
748980 |
| 4.1.1.39 | metabolism |
photoheterotrophic growth on benzoate in the presence of low levels of bicarbonate obligately require synthesis of form I RubisCO and that the transcriptional regulator protein CbbR plays an essential role |
704297 |
| 4.1.1.39 | metabolism |
Rubisco catalytic properties measured at three temperatures for 75 plants species representing both crops and undomesticated plants from diverse climates. The temperature response of the various catalytic parameters is largely consistent across the diverse range of species |
748985 |
| 4.1.1.39 | metabolism |
RubisCO is the key enzyme of the Calvin-Benson-Bassham reductive pentose phosphate pathway |
-, 715360 |
| 4.1.1.39 | metabolism |
temperature dependence of the maximum carboxylation capacity of Rubisco during thermal acclimation of photosynthesis. The mean activation energy approximately doubles between the lowest and highest growth temperatures, both when calculations are based on substomatal CO2 and CO2 at Rubisco |
748861 |
| 4.1.1.39 | metabolism |
the enzyme is involved in the Calvin-Benson-Bassham cycle, the main pathway to fix atmospheric CO2 and store energy in carbon bonds, forming the precursors of most primary and secondary metabolites necessary for life |
748559 |
| 4.1.1.39 | metabolism |
the small subunit may function as a reservoir for CO2 storage |
727698 |
