Differential recognition of chloroplast and cytoplasmic messenger RNA by 70S and 80S ribosomal systems

Gene expression in cytokinin-and light-mediated plastogenesis of Cucurbita cotyledons: ribulose-1,5-bisphosphate carboxylase/oxygenase

The effects of a cytokinin (N(6)-benzyladenine, BA) and light on plastogenesis have been studied in detached Cucurbita cotyledons using the key enzyme of photosynthetic CO2 fixation, ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBPCase), as an example of a coordinated program of plastid and nucleo-cytoplasmic gene expression. Treatment of etiolated cotyledons with either BA in darkness or in light or light alone results in a marked and correlated stimulation of enzyme activity, quantity and biosynthesis (in-vivo [(14)C]leucine incorporation into immunoprecipitated enzyme protein), indicating an increase of de-novo synthesis under the influence of the two effectors. Cell-free translation of non-polyadenylated (poly(A)(-))RNA in an Escherichia coli system and total RNA in a wheat-germ system likewise demonstrate a light and hormone-dependent increase in the amounts of translatable mRNAs for the large (LS) and small subunits (SS) of RuBPCase (among other polypeptides). Hybridisation of poly(A)(-)RNA with a nick-translated LS gene of spinach RuBPCase reveals also two-to three-fold BA-or light-induced enhancement of LS mRNA content. Indications for stimulation of SS mRNA transcription are derived from inhibitor experiments with cordycepin. We conclude that the observed stimulation of de-novo RuBPCase synthesis by cytokinin and by light can be referred to the level of mRNA transcription, but it remains open whether this is a primary action. Furthermore, our results indicate that the coaction of the two exogenous factors is additive at different steps of RuBPCase formation, indicating independent actions in the causal chain between effector-signal transduction and RuBPCase gene expression.

Spinach chloroplast mRNA for a 32 000 dalton polypeptide: size and localization on the physical map of the chloroplast DNA

The RNA from chloroplasts of young spinach plants contains mRNAs which are translated in a cell-free protein synthesizing system from lysed rabbit reticulocytes. Using [35S]methionine to label the products of translation, the main peptides have apparent molecular weights of 55,000, 45,000, 40,000, 32,000, 20,000 and 17,000. The sizes of the mRNAs as estimated by sucrose gradient centrifugation under non-denaturing conditions are between 12 and 23 S. A prominent product synthesized with RNA isolated from young spinach plants has an approximate molecular weight of 32,000. The mRNA for this 32,000 dalton protein sediments at 14 S on sucrose gradient. The position of the DNA sequence coding for this mRNA on the restriction site map of spinach chloroplast DNA was determined by hybridization and hybrid-arrested translation. A preliminary transcription map shows that in RNA from spinach chloroplasts which is larger than 10 S different RNA species are present which hybridize to nearly all fragments of the larger of the two single-copy regions of the chloroplast DNA.

Cell-free synthesis of active ribulose-1,5-bisphosphate carboxylase in the mesophyll chloroplasts of Sorghum vulgare

Chloroplast and whole leaf cell RNA from Vigna sinensis, a C3 plant were used as exogenous templates for translation in a cell-free light-dependent system of isolated chloroplasts from Sorghum vulgare, a C4-type plant. Analysis of immunoprecipitates of the translated products with the total cellular RNA on sodium dodecyl sulfate polyacrylamide gels revealed the synthesis of both the subunits of ribulose-1,5-bisphosphate carboxylase. Similar analysis of the product translated with the RNA from Vigna chloroplasts, indicated the synthesis of only the large subunit of the carboxylase. Apparently the chloroplast protein synthetic machinery is capable of translating the mRNA for the smaller subunit of this protein as well, which is known to be translated in the cytoplasmic ribosomal system. Sufficient quantities of ribulose-1,5-bisphosphate carboxylase were synthesised in vitro in the preincubated chloroplast system with the whole cell RNA from the C3 plant to assay the ribulose 1,5-bisphosphate-dependent carboxylation. The newly synthesised protein in the cell-free system is identical in many ways to the native enzyme including the Mg2+ concentration-dependent shift in pH optima towards neutral side. It is specifically inhibited by anti-native ribulose-1,5-bisphosphate carboxylase and pyridoxal 5'-phosphate.

Isolation and characterisation of 14-S RNA from spinach chloroplasts

14-S RNA was purified from spinach chloroplasts. It has a molecular weight of 0.43 . 10(6) and the following nucleotide composition: 20% CMP, 23.9% AMP, 24.2% GMP and 31.9% UMP. The accumulation of 14-S RNA in chloroplasts of cotyledons of dark-grown plants is stimulated by light. Conditions are described for the isolation of 14-S RNA in the absence of appreciable fragmentation of chloroplast 23-S rRNA and the evidence that it represents a distinct type of chloroplast RNA is discussed. Translation of 14-S RNA in a protein synthesising system from Escherichia coli gives rise to two polypeptides with molecular weights of 13 200 and 12 600 and the possible role of 14-S RNA as a chloroplast messenger is discussed.