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1.
Ribosomes and ribosomal proteins from wild-type and a yellow mutant of Chlamydomonas reinhardii were analyzed and compared by two-dimensional gel electrophoresis. The mixothrophically grown yellow-76 mutant differs from wild-type cells in lowered chlorophyll content and photosynthetic activity per chlorophyll unit. The latter is connected with the decreased activity of the ribulose-I,5-diphosphate-carboxylase enzyme. Analytical ultracentrifugation of cell extracts shows a normal amount of free 70S ribosomes and 50S subunit in the mutant cells. Two-dimensional gel electrophoresis shows considerable alterations in the protein composition of the 70S ribosomes of the mutant. Two proteins are absent from the electrophoretograms of the yellow-76 mutant, and seven proteins are present in reduced amounts. The genetical analysis shows a Mendelian pattern of inheritance, indicating that protein alterations presumably are localized in nuclear DNA.Abbreviation MNNG N-methyl-N-nitro-N-nitrosoguanidine  相似文献   

2.
Pulse-labeling of wild-type and a Photosystem II mutant strain of Chlamydomonas reinhardtii was carried out in the presence or absence of inhibitors of either cytoplasmic or chloroplast ribosomes, and their thylakoid membrane polypeptides were analyzed by polyacrylamide gel electrophoresis. A pulse-chase study was also done on the wild-type strain in the presence of anisomycin, an inhibitor of protein synthesis on cytoplasmic ribosomes. The following results were obtained: the Photosystem II reaction center is mainly composed of integral membrane proteins synthesized within the chloroplast. Several of the proteins of the Photosystem II reaction center are post-translationally modified, after they have been inserted in the thylakoid membrane.  相似文献   

3.
A single base change in 16S rRNA (C-726 to G) was constructed by site-directed mutagenesis and cloned into the multicopy plasmid pKK3535 (generating pKK726G) which contains the complete rrnB operon from Escherichia coli. The mutant 16S rRNA was found predominantly in the 30S subunit fraction but was present in the 70S ribosomes. Protein analyses of the free 30S subunits revealed a decrease in the levels of ribosomal proteins S2 and S21 while the composition of the 70S ribosomes was as the wild-type. Transformants of pKK726G were temperature sensitive for growth, although the mutant ribosomes themselves were translationally active in vivo at 37 and 42 degrees C. Two-dimensional gel electrophoresis of the proteins translated in vivo revealed an altered protein profile which included novel proteins, changes in the levels of normal proteins, and the presence of heat shock proteins (HSPs) at 30 degrees C. Inactivation of the host encoded wild-type ribosomes coincided with a significant decrease in the synthesis of the HSPs. We therefore believe the induction of the HSPs to be a secondary response by the cells to the presence of the abnormal proteins.  相似文献   

4.
Proteomic studies have addressed the composition of plant chloroplast ribosomes and 70S ribosomes from the unicellular organism Chlamydomonas reinhardtii But comprehensive characterization of cytoplasmic 80S ribosomes from higher plants has been lacking. We have used two-dimensional gel electrophoresis (2-DE) and mass spectrometry (MS) to analyse the cytoplasmic 80S ribosomes from the model flowering plant Arabidopsis thaliana. Of the 80 ribosomal protein families predicted to comprise the cytoplasmic 80S ribosome, we have confirmed the presence of 61; specifically, 27 (84%) of the small 40S subunit and 34 (71%) of the large 60S subunit. Nearly half (45%) of the ribosomal proteins identified are represented by two or more distinct spots in the 2-DE gel indicating that these proteins are either post-translationally modified or present as different isoforms. Consistently, MS-based protein identification revealed that at least one-third (34%) of the identified ribosomal protein families showed expression of two or more family members. In addition, we have identified a number of non-ribosomal proteins that co-migrate with the plant 80S ribosomes during gradient centrifugation suggesting their possible association with the 80S ribosomes. Among them, RACK1 has recently been proposed to be a ribosome-associated protein that promotes efficient translation in yeast. The study, thus provides the basis for further investigation into the function of the other identified non-ribosomal proteins as well as the biological meaning of the various ribosomal protein isoforms.Patrick Giavalisco, Daniel Wilson are contributed equally to this work.  相似文献   

5.
Summary A comparison of the protein patterns of the 70S and 80S ribosomes from various plants, E. coli and yeast by disc-gel electrophoresis has shown the following relations: 1. There is a greater similarity between chloroplast ribosomes from various plants than between chloroplast and cytoplasmic ribosomes obtained from the same plant. 2. The protein patterns of the cytoplasmic ribosomes from bean, spinach and tobacco are more similar to each other than when compared to that of wheat germ. 3. At least one band is common to cytoplasmic ribosomes from all plants tested. 4. Only very few bands with identical mobilities are observed between chloroplast and E. coli ribosomes and between cytoplasmic plant and yeast ribosomes.  相似文献   

6.
Characterization of ribosomes from dormant spores and vegetative cells of Bacillus cereus strain T has been carried out. Polyuridylic acid binding activity, ribonuclease activity associated with ribosomes, thermal denaturation profile, and sedimentation coefficients are essentially identical for both ribosomal preparations. However, ribosomal protein content of dormant spore ribosomes is about 70% of that of vegetative ribosomes. Polyacrylamide gel electrophoresis of ribosomal proteins shows that some ribosomal proteins are missing from dormant spore ribosomes. Sucrose density gradient centrifugation of ribosomes shows the existence of defective ribosomal subunits, in addition to 30S and 50S subunits, in dormant spore ribosomes. These results indicate that the ribosomes from dormant spores are distinctively different from those of vegetative cells.  相似文献   

7.
Summary 26 cold-resistant revertants of a cold-sensitiveEscherichia coli mutant with an altered ribosomal protein S8 were analyzed for their ribosomal protein pattern by two-dimensional polyacrylamide gel electrophoresis. It was found that 16 of them had acquired the apparent wild-type form of protein S8, one exhibits a more strongly altered S8 than the original mutant and two revertants regained the wild-type form of S8 and, in addition, possess alterations in protein L30. The ribosomes of the residual revertants showed no detectable difference from those of the parental S8 mutant.The mutation leading to the more strongly altered S8 was genetically not separable from the primary S8 mutation; this indicates that both mutations are very close to each other or at the same site. The structural gene for ribosomal protein L30 was mapped relative to two other ribosomal protein genes (for proteins S5 and S8) by the aid of one of the L30 mutants: The relative order obtained is:aroE....rpmD(L30)....rpsE(S5)....rpsH(S8)....THe L30 mutation impairs growth and ribosomal assembly at 20°C and is therefore the first example of a mutant with a defined 50S alteration that has (partial) cold-sensitive ribosome assembly. A double mutant was constructed which possesses both the S8 and the L30 mutations. It was found that the L30 mutation had a slight antagonistic effect on the growth inhibition caused by the S8 mutation. Thus the L30 mutants might have possibly arisen from the original S8 mutants first as S8/L30 double mutants which was followed by the loss of the original S8 lesion.  相似文献   

8.
We have isolated a nuclear mutant (tsp-1) of Chlamydomonas reinhardtii which is resistant to thiostrepton, an antibiotic that blocks bacterial protein synthesis. The tsp-1 mutant grows slowly in the presence or absence of thiostrepton, and its chloroplast ribosomes, although resistant to the drug, are less active than chloroplast ribosomes from the wild type. Chloroplast ribosomal protein L-23 was not detected on stained gels or immunoblots of total large subunit proteins from tsp-1 probed with antibody to the wild-type L-23 protein from C. reinhardtii. Immunoprecipitation of proteins from pulse-labeled cells showed that tsp-1 synthesizes small amounts of L-23 and that the mutant protein is stable during a 90 min chase. Therefore the tsp-1 phenotype is best explained by assuming that the mutant protein synthesized is unable to assemble into the large subunit of the chloroplast ribosome and hence is degraded over time. L-23 antibodies cross-react with Escherichia coli r-protein L11, which is known to be a component of the GTPase center of the 50S ribosomal subunit. Thiostrepton-resistant mutants of Bacillus megaterium and B. subtilis lack L11, show reduced ribosome activity, and have slow growth rates. Similarities between the thiostreptonresistant mutants of bacteria and C. reinhardtii and the immunological relatedness of Chlamydomonas L-23 to E. coli L11 suggest that L-23 is functionally homologous to the bacterial r-protein L11.  相似文献   

9.
On the origin of plastids   总被引:1,自引:0,他引:1  
The buoyant density in CsCl of ribosomes from chloroplasts of the green algaChlorella pyrenoidosa and two species of higher plants,Pisum sativum andChenopodium album, has been studied. From the relative protein content it was calculated that 70S ribosomes from chloroplasts are much smaller than 80S cytoplasmic ribosomes (3.0–3.1×106 and 4.0×106 daltons) and slightly larger than 70S ribosomes from abcteriaE. coli 2.5×106 daltons). Chloroplast ribosomes from pea seedlings were analyzed by two-dimensional polyacrylamide gel electrophoresis. They appear to contain 71 proteins. This indicates that chloroplast ribosomes contain a larger number of proteins than do the ribosomes fromE. coli and other species of Enterobacteriaceae. Further study will permit a probable evaluation of the validity of Mereschkowsky's hypothesis that the photosynthetic plastids of eukaryotic plant cells are the evolutionary descendants of endosymbiotic blue-green algae.  相似文献   

10.
Summary Previous studies with haploid erythromycin-resistant mutants mapping to the Mendelian locus ery-M1 in Chlamydomonas reinhardi have revealed the presence of an altered chloroplast ribosomal protein (LC6) (Mets and Bogorad, 1971, 1972; Davidson et al., 1974). Vegetative diploids of C. reinhardi heterozygous at the ery-M1 locus have now been constructed. Chloroplast ribosomes from such diploids contain 60–70% wild-type form of protein LC6 and 30–40% altered form of LC6. Growth assays show that these diploids are partially resistant to erythromycin. Whether the diploids are grown in the presence or absence of erythromycin, the same ratio of wild-type: altered form of LC6 in chloroplast ribosomes is observed. Therefore, resistant chloroplast ribosomes must be able to carry out protein synthesis even when many of the sensitive chloroplast ribosomes are blocked by erythromycin.The presence of both the altered and wild-type forms of LC6 in diploids heterozygous at the ery-M1 locus is further evidence that a nuclear gene codes directly for a chloroplast ribosomal protein.An abstract of this work appeared in Genetics 80, S40 (1975)  相似文献   

11.
The protein patterns of chloroplast ribosomes of Acetabularia have been established by means of polyacrylamide gel electrophoresis. The protein patterns of the faster sedimenting 44S ribosomal subunit of A. mediterranea, A. cliftonii, and A. crenulata have been compared and species specific differences are described. The protein patterns of hybrid cells consisting of a host cytoplasm from one species and a nucleus from another species is changed to that of the nucleus donor species after some weeks. The results indicate that at least part of the chloroplast ribosomal proteins are coded by the nuclear genome.  相似文献   

12.
The 70 S ribosomes of Escherichia coli were treated with 2-iminothiolane with the resultant addition of 110 sulfhydryl groups per ribosome. The modified ribosomes were oxidized to promote disulfide bond formation, some of which formed intermolecular crosslinks. About 50% of the crosslinked 70 S ribosomes did not dissociate when exposed to low concentrations of magnesium in the absence of reducting agent. Dissociation took place in the presence of reducing agents, which indicated that the subunits had become covalently linked by disulfide linkages. Proteins extracted from purified crosslinked 70 S ribosomes were first fractionated by polyacrylamide/urea gel electrophoresis. The proteins from sequential slices of these gels were analyzed by two-dimensional polyacrylamide/sodium dodecyl sulfate diagonal gel electrophoresis. Monomeric proteins derived from crosslinked dimers appeared below the diagonal containing non-crosslinked proteins, since the second electrophoresis, but not the first, is run under reducing conditions to cleave the crosslinked species. Final identification of the proteins in each dimer was made by radioiodination of the crosslinked proteins, followed by two-dimensional polyacrylamide/urea gel electrophoresis in the presence of non-radioactive total 70 S proteins as markers. This paper describes the identification of 23 protein dimers that contained one protein from each of the two different ribosomal subunits. The proteins implicated must have some part of their structure in proximity to the other ribosomal subunit and are therefore defined as “interface proteins”. The group of interface proteins thus defined includes 50 S proteins that are part of the 5 S RNA: protein complex and 30 S proteins at the initiation site. Correlations between the crosslinked interface proteins and other functional data are discussed.  相似文献   

13.
Blue-native polyacrylamide gel electrophoresis (BN-PAGE) is a powerful procedure for the separation and characterization of the protein complexes from mitochondria. Membrane proteins are solubilized in the presence of aminocaproic acid and n-dodecylmaltoside and Coomassie-dyes are utilized before electrophoresis to introduce a charge shift on proteins. Here, we report a modification of the procedure for the analysis of chloroplast protein complexes. The two photosystems, the light-harvesting complexes, the ATP synthase, the cytochrome b 6 f complex and the ribulose-bisphosphate carboxylase/oxygenase are well resolved. Analysis of the protein complexes on a second gel dimension under denaturing conditions allows separation of more than 50 different proteins which are part of chloroplast multi-subunit enzymes. The resolution capacity of the blue-native gels is very high if compared to 'native green gel systems' published previously. N-terminal amino acid sequences of single subunits can be directly determined by cyclic Edman degradation as demonstrated for eight proteins. Analysis of chloroplast protein complexes by blue-native gel electrophoresis will allow the generation of 'protein maps' from different species, tissues and developmental stages or from mutant organelles. Further applications of blue-native gel electrophoresis are discussed.  相似文献   

14.
Summary The surface topography of the intact 70S ribosome and free 30S and 50S subunits from Bacillus stearothermophilus strain 2184 was investigated by lactoperoxidase-catalyzed iodination. Two-dimensional polyacrylamide gel electrophoresis was employed to separate ribosomal proteins for analysis of their reactivity. Free 50S subunits incorporated about 18% more 125I than did 50S subunits derived from 70S ribosomes, whereas free 30S subunits and 30S subunits derived from 70S ribosomes incorporated similar amounts of 125I. Iodinated 70S ribosomes and subunits retained 62–78% of the protein synthesis activity of untreated particles and sedimentation profiles showed no gross conformational changes due to iodination. The proteins most reactive to enzymatic iodination were S4, S7, S10 and Sa of the small subunit and L2, L4, L5/9, L6 and L36 of the large subunit. Proteins S2, S3, S7, S13, Sa, L5/9, L10, L11 and L24/25 were labeled substantially more in the free subunits than in the 70S ribosome. Other proteins, including S5, S9, S12, S15/16, S18 and L36 were more extensively iodinated in the 70S ribosome than in the free subunits. The locations of tyrosine residues in some homologus ribosomal proteins from B. stearothermophilus and E. coli are compared.  相似文献   

15.
Summary A double mutant carrying the ramC and neaA mutations has been constructed by Plvir transductions. This mutant, which carries alterations in ribosomal proteins S5 and S17, behaves like to wildtype bacteria in the following respects: it no longer exhibits the restriction of informational suppressors normally associated with the neaA mutation (altered protein S17); ribosomes from the double mutant show increased intrinsic and neamine-induced misreading in vitro in contrast to ribosomes from the neaA strain, although still less than the misreading level of ribosomes from the ramC (altered protein S5) strain.These properties suggest that ribosomal proteins S5 and S17 act cooperatively to balance translational fidelity.  相似文献   

16.
Summary As shown by gel electrophoresis analysis, E. coli mutant 219 is mutated on the gene coding for S4. This mutant and the parental strain have been studied at the permissive (30°) and the non-permissive temperature (42°) for ribosome assembly and r-protein biosynthesis.The extracts of cells grown at the non-permissive temperature were analyzed by sucrose gradients: Particles sedimenting more slowly (28S) than normal 30S accumulate while 50S precursors undergo maturation and attach to the preformed 30S subunits yielding 70S ribosomes. In addition a small but detectable amount of 30S is also synthesized at 42°. The 28S particles contain all 30S r-proteins except S1, S2 and S12; S5, S7 and S21 are present in reduced amount.The relative rate of biosynthesis of individual r-proteins was determined by pulse-labelling the cells with radioactive leucine. Individual r-proteins were purified from cell extract by the three-dimensional gel electrophoresis technique. The relative rate of biosynthesis of 50S proteins is unchanged in mutant cells grown at 42°. Only the rate of synthesis of five 30S proteins is modified by the temperature shift: S10, S13, S20 and S21 have an increased rate, while S18 is synthesized at a reduced rate. Thus in cells deficient in the assembly of 30S subunits, although the biosynthesis of a few 30S r-proteins is specifically altered, the synthesis of most r-proteins appears to be controlled in the same way as are total cell proteins.  相似文献   

17.
Summary Ribosomal proteins from chloroplasts of Nicotiana tabacum L. (cv. Petit Havana) and of SRl, a mutant derived from it, with uniparentally inherited streptomycin resistance, were characterised by two-dimensional gel electrophoresis. From the 67 proteins identified, one has an altered electrophoretic mobility when isolated from the mutant. Streptomycin resistance of the SRl mutant therefore seems to be the consequence of a mutation in the chloroplast DNA coding for a chloroplast ribosomal protein.  相似文献   

18.
The chloroplasts of wheat have chanced greatly at high temperature condition(34℃). When wheat grown at 34℃ for 10 days, its chlorophyll content was 6 times less than that under the normal condition(22℃). The ribosomes were isolated from the leaves by sucrose density gradient centrifugation. It is found that only 80 S ribosomes existed in wheat leaves grown at the high temperature and the formation of 70 S ribosomes is specifically prevented. Since the absence of 70 S ribosomes in chloroplast, proteins synthesis can no longer proceed. Analysis of SDS-polyacrylamide gel electrophoresis indicates that the bands of chloroplast proteins from the leaves of wheat at the high temperature are less than those under normal condition. One of the poly- peptides the large subunit(MW=57000 daltons) of ribulose bisphosphate carboxylase, which is coded for by chloroplast genome and synthesized on 70 S ribosome in chloroplast, was lost. The photosynthetic intensity is decreased due to the blocking synthesis in chloroplast of some polypeptides which play the important role in photosynthesis.  相似文献   

19.
Summary In vitro protein synthesis was used to characterize the antibiotic sensitivity of cytoplasmic ribosomes from wild-type and antibiotic-resistant strains of Chlamydomonas reinhardtii. Cytoplasmic ribosomes from two cycloheximide-resistant mutants, act-1 and act-2, were resistant to the antibiotic in vitro. The alteration effected by the act-1 mutation, which was dominant in diploids, was localized to the large subunit of the cytoplasmic ribosomes, but no ribosomal protein alterations were detected using two-dimensional gel electrophoresis. The act-2 mutation, which was semidominant in diploids, was frequently associated with a charge alteration in the large subunit ribosomal protein (r-protein) cyL38 that segregated independently from the antibiotic-resistant phenotype in crosses.  相似文献   

20.
Ribosomal particles were isolated from chloroplasts and cytoplasm of eukaryotes, Euglena gracilis and Spinacia oleracea, and from prokaryotes, E. coli and Anacystis nidulans. The ribosomes were analyzed by polyacrylamide gel electrophoresis and by negative staining in the electron microscope. The prokaryote ribosomes show a slight difference in their electrophoretic mobilities between the two species: E. coli ribosomes migrate ahead of the Anacystis ribosomes. In comparison to eukaryote cytoplasmic ribosomes, chloroplast ribosomes of both species demonstrate a higher electrophoretic mobility and significantly smaller dimensions (about 230 × 187 Å compared to about 197 × 162 Å). Some differences in form were noted for Euglena cytoplasmic ribosomes which may contribute to their high S value. In comparison to prokaryote ribosomes, the mobility of chloroplast ribosomes is similar to the mobility of the prokaryote group of ribosomes, and it specifically coincides with the migrating band of ribosomes from the blue-green alga, Anacystis. Subunits of chloroplast and prokaryote ribosomes have similar mobilities and cannot be distinguished in gels. The similarities in size and in electrophoretic mobilities of chloroplast and blue-green algal ribosomes support the hypothesis of a common phylogenetic origin for the two.  相似文献   

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