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We have studied the biogenesis of the envelope of E. coli B/r by measuring the synthesis of protein in separated inner and outer membranes during the cell cycle. While total protein and bulk inner membrane protein were synthesized continuously and at an exponentially increasing rate throughout the cycle, bulk outer membrane protein was synthesized at a constant rate throughout the cycle with an abrupt doubling in rate occurring 10–15 min before division. A similar pattern was observed when the rate of synthesis of an individual protein, the 36.5K outer membrane protein, was measured directly in total cell lysates. Neither thymine starvation nor changes in gene dosage of exponential cultures affected the synthesis of outer membrane protein, indicating that the doubling in rate is not controlled by a gene duplication mechanism. Other findings, however, further indicate that outer membrane protein synthesis is regulated in some way. Thus the concentration of 36.5K porin per unit surface area remained constant as the surface area/volume ratio varied widely with growth rate. We also obtained direct evidence for an overall limitation on the rate of synthesis of bulk outer membrane proteins; when a new class of outer membrane proteins was induced, the rate of synthesis of other surface proteins was correspondingly reduced. On the basis of these results, we discuss a model in which the linear growth of outer membrane protein results from a limitation of outer membrane polypeptide synthesis at the translational level, reflecting the linear expansion of the underlying peptidoglycan layer in the envelope. 相似文献
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Leland H. Hartwell H. Terry Hutchison Trudy M. Holland Calvin S. McLaughlin 《Molecular & general genetics : MGG》1970,106(4):347-361
Summary The effect of cycloheximide upon protein synthesis, RNA metabolism, and polyribosome stability was investigated in the parent and in two temperature-sensitive mutant yeast strains defective respectively in the initiation of polypeptide chains and in messenger RNA synthesis. Cycloheximide at high concentrations (100 g/ml) severely inhibits but does not completely stop protein synthesis (Fig. 1); the incorporation of 14C-amino acids into polyribosome-associated nascent polypeptide chains continues at a slow but measurable rate (Figs. 2 and 3). Polyribosome structures are stable in the parent strain at 36° whether or not cycloheximide is present (Fig. 5). However, in Mutant ts- 136, a mutant defective in messenger as well as in stable RNA production, polyribosomes decay at the restrictive temperature (36° C) at the same rate whether or not cycloheximide is present (Fig. 5). Thus the maintenance of polyribosome structures is dependent upon the continued synthesis of messenger RNA even under conditions of extremely slow polypeptide chain elongation. In mutant ts- 187, a mutant defective in the initiation of polypeptide chains, all of the polyribosomes decay to monoribosomes within 2 minutes after a shift to the restrictive temperature; cycloheximide completely prevents this decay demonstrating that this mutant is capable of continued messenger RNA synthesis at 36° C. Consistent with these observations is the fact that a newly synthesized heterogeneously sedimenting RNA fraction continues to enter polyribosomes in the presence of cycloheximide whereas the entrance of newly synthesized ribosomal RNA is severely inhibited (Figs. 7, 8, 9). The decay or lack of decay of polyribosomes at the restrictive temperature is, therefore, a rapid and discriminating test for the analysis of mutants defective in macromolecule synthesis. Mutants which exhibit a decay of polyribosomes in the presence of cycloheximide are likely to be defective directly or indirectly in the synthesis of messenger RNA whereas mutants in which decay is prevented or slowed by cycloheximide are likely to be defective in some factor required for the association of ribosomes and messenger RNA. 相似文献
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Rømer Thomsen K Lou HC Joensson M Hyam JA Holland P Parsons CE Young KS Møller A Stein A Green AL Kringelbach ML Aziz TZ 《PloS one》2011,6(4):e18686
Emotion and reward have been proposed to be closely linked to conscious experience, but empirical data are lacking. The anterior cingulate cortex (ACC) plays a central role in the hedonic dimension of conscious experience; thus potentially a key region in interactions between emotion and consciousness. Here we tested the impact of emotion on conscious experience, and directly investigated the role of the ACC. We used a masked paradigm that measures conscious reportability in terms of subjective confidence and objective accuracy in identifying the briefly presented stimulus in a forced-choice test. By manipulating the emotional valence (positive, neutral, negative) and the presentation time (16 ms, 32 ms, 80 ms) we measured the impact of these variables on conscious and subliminal (i.e. below threshold) processing. First, we tested normal participants using face and word stimuli. Results showed that participants were more confident and accurate when consciously seeing happy versus sad/neutral faces and words. When stimuli were presented subliminally, we found no effect of emotion. To investigate the neural basis of this impact of emotion, we recorded local field potentials (LFPs) directly in the ACC in a chronic pain patient. Behavioural findings were replicated: the patient was more confident and accurate when (consciously) seeing happy versus sad faces, while no effect was seen in subliminal trials. Mirroring behavioural findings, we found significant differences in the LFPs after around 500 ms (lasting 30 ms) in conscious trials between happy and sad faces, while no effect was found in subliminal trials. We thus demonstrate a striking impact of emotion on conscious experience, with positive emotional stimuli enhancing conscious reportability. In line with previous studies, the data indicate a key role of the ACC, but goes beyond earlier work by providing the first direct evidence of interaction between emotion and conscious experience in the human ACC. 相似文献
115.
Brendon Conlan Rosemary Birch Celine Kelso Sophie Holland Amanda P. De Souza Stephen P. Long Jennifer L. Beck Spencer M. Whitney 《Plant, cell & environment》2019,42(4):1287-1301
The folding and assembly of Rubisco large and small subunits into L8S8 holoenzyme in chloroplasts involves many auxiliary factors, including the chaperone BSD2. Here we identify apparent intermediary Rubisco‐BSD2 assembly complexes in the model C3 plant tobacco. We show BSD2 and Rubisco content decrease in tandem with leaf age with approximately half of the BSD2 in young leaves (~70 nmol BSD2 protomer.m2) stably integrated in putative intermediary Rubisco complexes that account for <0.2% of the L8S8 pool. RNAi‐silencing BSD2 production in transplastomic tobacco producing bacterial L2 Rubisco had no effect on leaf photosynthesis, cell ultrastructure, or plant growth. Genetic crossing the same RNAi‐bsd2 alleles into wild‐type tobacco however impaired L8S8 Rubisco production and plant growth, indicating the only critical function of BSD2 is in Rubisco biogenesis. Agrobacterium mediated transient expression of tobacco, Arabidopsis, or maize BSD2 reinstated Rubisco biogenesis in BSD2‐silenced tobacco. Overexpressing BSD2 in tobacco chloroplasts however did not alter Rubisco content, activation status, leaf photosynthesis rate, or plant growth in the field or in the glasshouse at 20°C or 35°C. Our findings indicate BSD2 functions exclusively in Rubisco biogenesis, can efficiently facilitate heterologous plant Rubisco assembly, and is produced in amounts nonlimiting to tobacco growth. 相似文献
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