EC Number   |
Protein Variants |
Reference  |
|---|
   3.4.21.92 | more |
isoform ClpP1 inactivation mutant, little or no net degradation of chlorophyll under conditions that drive chlorophyll degradation in wild-type. Isoform ClpP2 inactivation mutant, chlorophyll degradation is similar to wild-type |
667341 |
| 3.4.21.92 | more |
enzyme deletion mutant, markedly diminished global protein degradation, bulk protein is rendered prone to aggregation |
669088 |
| 3.4.21.92 | A153P |
crystallization data, disruption of handle region resulting in an altered ring-ring dimerization interface |
669324 |
| 3.4.21.92 | more |
enzyme complex ClpPRS consists of five ClpP protease molecules, four nonproteolytic ClpR molecules, and two associated ClpS molecules. Introduction of ClpR2 insertion mutant results in reduced accumulation of complex, leading to pale-green phenotype with delayed shoot development, smaller chloroplasts, decreased thylakoid accumulation, and increased plastoglobule accumulation |
670535 |
| 3.4.21.92 | more |
antisense clpR4 repression lines with up to 90% loss of wild-type enzyme level, phenotype results in slow growth and leaf variegation. Chlorosis is most severe in younger leaves, exhibiting impaired chloroplast development and mesophyll cell differentiation |
670633 |
| 3.4.21.92 | more |
mutant overexpressing chlorophyllide a oxygenase are mutagenized by incubation in ethylmethane sulfonate. One mutant has a defect in the ClpC1 subunit of the Clp protease |
676527 |
| 3.4.21.92 | H230A |
RKH mutant to investigate the role of the RKH sequence loops |
683865 |
| 3.4.21.92 | K229A |
RAH mutant to investigate the role of the RKH sequence loops |
683865 |
| 3.4.21.92 | more |
RKH loops are important for in substrate recognition |
683865 |
| 3.4.21.92 | R228A |
AKH mutant to investigate the role of the RKH sequence loops |
683865 |
