gamma-Carboxyglutamic acid in eukaryotic and prokaryotic ribosomes.

γ-carboxyglutamic acid (GLA) has been assayed in ribosomes of wheat germ and E. coli, and in E. coli ribosomal sub-units, by amino acid analysis of total protein. Results, as nMoles GLA/mg protein, were 18.1 (wheat germ), 58.4 (E. coli), 39.6 and 81.5 (E. coli 30S and 50S sub-units, respectively.) Results for wheat germ and previously reported mammalian ribosomes were highly similar. Hence the level of GLA in eukaryotic ribosomes appears to be approximately constant, but low compared to bacterial (E. coli) ribosomes.     

RIBOSOMAL SUBUNITS FROM NEONATAL MOUSE BRAIN HIGHLY ACTIVE IN POLYPHENYLALANINE SYNTHESIS

Abstract— A highly active subcellular protein synthesising system is described, in which uncomplexed ribosomes isolated from 5 to 7 day old mouse brain can be reprogrammed with polyuridylic acid. Either purified free polyribosomes or microsomes were used as the starting material for the preparation of uncomplexed ribosomes by treatment with 0.5 m -KCl and puromycin. After reduction of the salt concentration 80S ribosomes were isolated by washing through sucrose. When, subsequently, zonal centrifugation in equivolumetric sucrose gradients containing 0.5 m -KCI was performed, purified ribosomal subunits were obtained. Cross-contamination of subunits was less than 5%. Re-associated ribosomes and recombined isolated ribosomal subunits both showed high activities in vitro. Incorporation levels of 50–60 phenylalanine residues per ribosome could be reached, at a rate of 0.5–2.0 residues/min/ribosome, depending on the activity of the high speed supernatant enzymes added. It was shown by paper chromatography of the cell-free product that only oligophenylalanine formation takes place. It was estimated that 6&70% of the ribosomes present in vitro were actively participating in the protein synthesis process.     

培养条件对钝顶螺旋藻(Sp)NS-90020脂肪酸组成和含量的影响

研究了不同培养条件对钝顶螺旋藻（Sp）NS－90020脂肪酸合成的影响。随着温度升高,其不饱和脂肪酸,γ一亚麻酸（GLA）相对含量降低,总脂肪酸含量升高,当温度为40℃时总脂肪酸和γ-亚麻酸绝对含量都达到最大值,分别为73．4mg／g干重和11．9mg／g干重;当培养基中NaCl浓度高于0．017mol／L时,其GLA相对含量降低,但低于0．0017mol／L时,对其脂肪酸组成无显著影响;氨水使其脂肪酸和GLA绝对含量升高,并在50mgN（NH3·H2O）时达到最大值,分别为67．96mg／g干重和13．63mg／g千重;暗处理92h使其总脂肪酸和GLA绝对含量升高;缺乏Fe2 或Mg2 或Mo2 时,其总脂肪酸和GLA绝对含量降低,而缺乏PO43-时,其总脂肪酸和GLA绝对含量略有升高。     

Pokeweed antiviral protein region Gly209-Lys225 is critical for RNA N-glycosidase activity of the prokaryotic ribosome

Pokeweed antiviral protein (PAP) isolated from Phytolacca americana is a ribosome-inactivating protein (RIP) that has RNA N-glycosidase (RNG) activity towards both eukaryotic and prokaryotic ribosomes. In contrast, karasurin-A (KRN), a RIP from Trichosanthes kirilowii var. japonica, is active only on eukaryotic ribosomes. Stepwise selection of chimera proteins between PAP and KRN indicated that the C-terminal region of PAP (residues 209–225) was critical for RNG activity toward prokaryotic ribosomes. When the region of PAP (residues 209–225) was replaced with the corresponding region of KRN the PAP chimera protein, like KRN, was active only on eukaryotic ribosomes. Furthermore, insertion of the region of PAP (residues 209–225) into the KRN chimera protein resulted not only in the detectable RNG activity toward prokaryotic ribosome, but also activity toward the eukaryotic ribosomes as well that was seven-fold higher than for the original KRN. In this study, the possibility of genetic manipulation of the activity and substrate specificity of RIPs is demonstrated.     

Ribosome reactivation by replacement of damaged proteins

Ribosomal functions are vital for all organisms. Bacterial ribosomes are stable 2.4 MDa particles composed of three RNAs and over 50 different proteins. Accumulating damage to ribosomal RNA or proteins can disturb ribosome functioning. Organisms could benefit from degrading or possibly repairing inactive or partially active ribosomes. Reactivation of chemically damaged ribosomes by a process of protein replacement was studied in vitro. Ribosomes were inactivated by chemical modification of Cys residues. Incubation of modified ribosomes with total ribosomal proteins led to reactivation of translational activity. Intriguingly, ribosomal proteins extracted by LiCl are equally active in the restoration of ribosome function. Incubation of 70S ribosomes with isotopically labelled r‐proteins followed by separation of ribosomes was used to identify exchangeable proteins. A similar set of proteins was found to be exchanged in vivo under stress conditions in the stationary phase. We propose that repair of damaged ribosomes might be an important mechanism for maintaining protein synthesis activity following chemical damage.     

Effect of various methods of preparation on the apparent protein composition of eukaryotic ribosomes. An essential preliminary to stoicheiometric measurements.

1. We investigated whether there is any change in the relative amounts of ribosomal proteins during the isolation or extraction of the ribosomes by different methods, or during electrophoresis of the proteins. 2. To see whether proteins are lost (or gained) during the preparation of the ribosome we compared the two-dimensional protein pattern of three preparations: (a) ribosomes conventionally prepared by ultracentrifugation; (b) crude ribosomes obtained by pH5 precipitation; (c) crude ribosomes prepared by gel filtration. 3. To see whether proteins were lost during protein extraction we compared the two-dimensional pattern of ribosomes by using three different extraction methods (LiCl/urea, acetic acid and guanidine hydrochloride). 4. In all experiments listed above the relative amounts of the great majority of the proteins remained unchanged. We interpret this as showing that the relative amounts of ribosomal proteins (as we observed them on a two-dimensional gel) correspond to the proportions existing in the particle in vivo.     

Effects of a unique conjugate of alpha-lipoic acid and gamma-linolenic acid on insulin action in obese Zucker rats

The purpose of this study was to assess the individual and interactive effects of the antioxidant alpha-lipoic acid (LPA) and the n-6 essential fatty acid gamma-linolenic acid (GLA) on insulin action in insulin-resistant obese Zucker rats. LPA, GLA, and a unique conjugate consisting of equimolar parts of LPA and GLA (LPA-GLA) were administered for 14 days at 10, 30, or 50 mg. kg body wt(-1). day(-1). Whereas LPA was without effect at 10 mg/kg, at 30 and 50 mg/kg it elicited 23% reductions (P < 0.05) in the glucose-insulin index (the product of glucose and insulin areas under the curve during an oral glucose tolerance test and an index of peripheral insulin action) that were associated with significant increases in insulin-mediated (2 mU/ml) glucose transport activity in isolated epitrochlearis (63-65%) and soleus (33-41%) muscles. GLA at 10 and 30 mg/kg caused 21-25% reductions in the glucose-insulin index and 23-35% improvements in insulin-mediated glucose transport in epitrochlearis muscle. The beneficial effects of GLA disappeared at 50 mg/kg. At 10 and 30 mg/kg, the LPA-GLA conjugate elicited 29 and 38% reductions in the glucose-insulin index. These LPA-GLA-induced improvements in whole body insulin action were accompanied by 28-63 and 38-57% increases in insulin-mediated glucose transport in epitrochlearis and soleus muscles and resulted from the additive effects of LPA and GLA. At 50 mg/kg, the metabolic improvements due to LPA-GLA were substantially reduced. In summary, these results indicate that the conjugate of the antioxidant LPA and the n-6 essential fatty acid GLA elicits significant dose-dependent improvements in whole body and skeletal muscle insulin action on glucose disposal in insulin-resistant obese Zucker rats. Moreover, these actions of LPA-GLA are due to the additive effects of its individual components.     

Phosphorylation of ribosomal proteins influences subunit association and translation of poly (U) in Streptomyces coelicolor

The occurrence of phosphorylated proteins in ribosomes of Streptomyces coelicolor was investigated. Little is known about which biological functions these posttranslational modifications might fulfil. A protein kinase associated with ribosomes phosphorylated six ribosomal proteins of the small subunit (S3, S4, S12, S13, S14 and S18) and seven ribosomal proteins of the large subunit (L2, L3, L7/L12, L16, L17, L23 and L27). The ribosomal proteins were phosphorylated mainly on the Ser/Thr residues. Phosphorylation of the ribosomal proteins influences ribosomal subunits association. Ribosomes with phosphorylated proteins were used to examine poly (U) translation activity. Phosphorylation induced about 50% decrease in polyphenylalanine synthesis. After preincubation of ribosomes with alkaline phosphatase the activity of ribosomes was greatly restored. Small differences were observed between phosphorylated and unphosphorylated ribosomes in the kinetic parameters of the binding of Phe-tRNA to the A-site of poly (U) programmed ribosomes, suggesting that the initial binding of Phe-tRNA is not significantly affected by phosphorylation. On contrary, the rate of peptidyl transferase was about two-fold lower than that in unphosphorylated ribosomes. The data presented demonstrate that phosphorylation of ribosomal proteins affects critical steps of protein synthesis.     

Adenosine 3′,5′-monophosphate dependent phosphorylation of ribosomes and ribosomal subunits from bovine corpus luteum

In a previous publication the purification and properties of two protein kinases (KI and KII) from a soluble fraction of bovine corpus luteum and the stimulation of the latter fraction by cyclic AMP and luteinizing hormone was reported (Menon, K.M.J. (1973) J. Biol. Chem. 248, 494–501). We have now studied the effects of cyclic AMP and luteinizing hormone on ribosomal protein phosphorylation of corpus luteum by protein kinase II. Protein kinase II catalyzed the phosphorylation of ribosomes by transfer of terminal phosphate of ATP to ribosomal proteins. Extraction with hot trichloroacetic acid and non-aqueous solvent revealed that about 80% of total radioactivity incorporated remain associated with the protein residue. Radioactivity was identified in the phosphoserine and phosphothreonine residues of polypeptides by high voltage paper electrophoresis. The extent of phosphorylation was stimulated by cyclic AMP but not by luteinizing hormone. At least 9 proteins of 80-S ribosomes and 12 proteins of the 60-S ribosomal subunit were phosphorylated in the presence of cyclic AMP as resolved by urea polyacrylamide gel electrophoresis. However, only one major and four minor bands were phosphorylated in the case of 40-S ribosomal subunit under the influence of cyclic AMP. The ribosomal protein phosphorylation catalyzed by protein kinase II is regulated by cyclic AMP whereas luteinizing hormone has no effect on ribosome phosphorylation.     

Simian Virus 40 Gene A Regulates the Association Between a Highly Phosphorylated Protein and Chromatin and Ribosomes in Simian Virus 40-Transformed Cells

The species of proteins associated with chromatin and ribosomes of simian virus 40 (SV40)-transformed and untransformed monkey, mouse, and rat cells have been compared by sodium dodecyl sulfate-polyacrylamide gel electrophoresis after phosphorylation of these proteins either in vivo or in vitro. In vitro phosphorylation was carried out by protein kinase associated with these organelles and [gamma-(32) P]ATP as the phosphoryl donor. The reaction products contained both phosphoserine and phosphothreonine in approximately equal amounts. The electrophoretic analysis of the phosphorylated proteins revealed that the highly phosphorylated protein with a molecular weight of approximately 90,000 (90K protein) was associated with chromatin and ribosomes from transformed cells but not from untransformed cells. The 90K protein could be extracted from chromatin and ribosomes with 0.5 to 1.0 M NaCl or KCl. The 90K protein was still associated with the runoff ribosomes prepared by the puromycin reaction of the post-mitochondrial supernatant in the protein-synthesizing system. In vitro phosphorylation of chromatin and ribosomes from SV40 tsA-transformed mouse and rat cells indicated that the amounts of 90K protein associated with these organelles decreased greatly when the cells were cultivated at the restrictive temperature. A similar temperature-dependent decrease in the amount of (32)P-labeled 90K protein was observed in nonhistone chromosomal and ribosome-associated protein fractions prepared from SV40 tsA-transformed cells labeled with [(3)H]leucine and [(32)P]orthophosphate in vivo. In vitro phosphorylated 90K protein in nonhistone chromosomal and ribosome-associated proteins extracted with high salt was not immunoprecipitated with anti-SV40 T sera.     

Plasma protein carbonyl concentration is not enhanced by chronic intake of high-protein diets in adult rats

We tested the hypothesis of whether high dietary protein intake is linked to oxidative stress as measured by the concentration of reactive carbonyl residues in plasma proteins. Three groups of male Wistar rats ( approximately 230 g, n = 10) were fed either 15% (15C), 30% (30C), or 60% (60C) casein diets over a period of 18 weeks. For comparison, a vitamin E deficient diet (60C-E) based on diet 60C was given to an additional group to provoke oxidative stress. Concentrations of alpha-tocopherol in plasma and of reactive carbonyl residues in total plasma proteins were measured by high performance liquid chromatography using fluorescence and by diode array detection after 2,4-dinitrophenylhydrazine reaction, respectively. After 1 week the concentration of reactive carbonyl residues in plasma proteins was found to be significantly (P < 0.05) higher in the 60C and 60C-E groups ( approximately 2.7 nmol/mg protein) compared with the 15C and 30C groups ( approximately 1.7 nmol/mg protein). After 14 weeks the 15C (3.4 +/- 1.2 nmol/mg protein) and 60C-E groups (3.9 +/- 1.7 nmol/mg protein) showed a significantly increased concentration of reactive carbonyl residues in plasma protein compared with the 30C and 60C groups (2.5 +/- 1.0 nmol/mg protein; 2.6 +/- 0.8 nmol/mg protein). As expected, chronic vitamin E deficiency (60C-E) resulted in significantly decreased alpha-tocopherol concentrations (3.91 +/- 2.42 micromol/mL vs. 31.3 +/- 4.8 micromol/mL) and a higher concentration of reactive carbonyl residues in plasma proteins. These results do not support the hypothesis that a chronic intake of high-protein diets leads to oxidative stress in adult rats. However, in the non-adapted state (1 week) a high protein intake contributes to oxidative modifications of protein-bound amino acid residues.     

Fatty acid production characteristics of fungi with particular emphasis on gamma linolenic acid production

The fatty acid production characteristics of fungi are described. These characteristics are the relationship between the oil content of the cell and the fatty acid content of the oil. For example, for polyunsaturated fatty acid (PUFA) production by Mucor hiemalis IPD 51, the oil content of the cell and the GLA content of the oil are coupled. For fungal production of some PUFA, synthesized after the rate-limiting step in the fatty acid anabolic chain, a maximum fatty acid production model was developed to link the fatty acid content of the oil and the oil content of the cell. Maximum volumetric productivity of gamma linolenic acid (GLA) by molds was found to occur at a specific GLA content of the oil. For example, for M. hiemalis IPD 51, a maximum volumetric of 4.7 mg GLA/L . h was produced at a GLA content of the oil of 8% to 10%. Similarly for Mucor circinelloides v. Tieghem IPD 155 a maximum volumetric productivity of 4.8 mg GLA/L . h was produced at a GLA content of the oil of 14% to 16%. These results imply that, when screening microorganisms for GLA or other fatty acid production, a number of medium compositions need to be evaluated to determine the tradeoff between oil content of the cell and fatty acid content of the oil. (c) 1993 John Wiley & Sons, Inc.     

Analysis of Escherichia coli ribosomal proteins by an improved two dimensional gel electrophoresis. II. Characterization of four new proteins

Four new proteins, A, B, C, and D, found in Escherichia coli ribosomes by an improved two dimensional gel electrophoresis were characterized by oxidation, reduction, and carboxymethylation of cysteine residues, and CsCl fractionation. The cysteine contents of proteins A, B, C, and D were determined to be 1 +/- 0, 3 +/- 1, 5 +/- 1, and 0 +/- 0 by carboxymethylation with iodoacetic acid. The components of protein complexes, which formed numerously under non-reducing conditions, were analyzed. Including protein A, B, and C, every ribosomal protein (r-protein) having cysteine residue(s) except unconfirmed S1 was proved to form such complexes with various combinations. The cysteine residue in protein A, in particular, was highly reactive to make intermolecular S-S bridges so that spot A almost disappeared on the second dimension gel under the non-reducing conditions. Proteins B and C shifted their spots by reduction towards upper left side as do all known r-proteins having plural cysteine residues except S1. This suggests that proteins B and C change their conformation by intramolecular S-S bridges. The CsCl density gradient centrifugation of high salt washed 70S ribosomes showed that protein A belonged to the insoluble split proteins, proteins B and C to the core particles, and protein D and a small population of B to the soluble split proteins. The electrophoretic behaviors, CsCl fractionation and stoichiometry of the four new proteins suggested strongly that they were intrinsic ribosomal constituents different from known ribosomal proteins or factors.     

The effect of acetic acid concentration on the growth and production of gamma-linolenic acid byMucor circinelloides CBS 203.28 in fed-batch culture

The effect of different initial acetic acid concentrations on the growth of and lipid and gamma-linolenic acid (GLA) production byMucor circinelloides CBS 203.28 was determined in a 14 litre stirred tank reactor operated in a fedbatch, pH-stat mode with acetic acid as carbon source and pH titrant. Increased acetic acid concentrations in the culture resulted in a significant increase in the crude oil content of the biomass. By contrast, all the other parameters such as the biomass concentration, GLA and oil yield on acetic acid, the GLA content of the biomass and oil, the growth rate and volumetric rate of GLA production decreased with an increase in acetic acid concentration. The best results were obtained with acetic acid at 2 g/1, which gave 39.8 mg GLA/g biomass and 15.6% GLA in the neutral lipid fraction, amounting to 340 mg GLA/1 culture. A decrease in the glyco- and phospho-lipid fractions during the cultivation coincided with an increase in the neutral lipid fraction. The GLA content of the biomass remained within rather narrow limits of 3.5% to 4% of the biomass, irrespective of the oil content of the biomass. The fatty acid profile was not greatly affected by the acetic acid concentration. The hyphae of the fungus were characterized by the accumulation of large intracellular oil droplets and some septa delimited the hyphae.     

Active center cleft residues of pokeweed antiviral protein mediate its high-affinity binding to the ribosomal protein L3

Pokeweed antiviral protein (PAP) is a ribosome-inactivating protein (RIP) which catalytically cleaves a specific adenine base from the highly conserved alpha-sarcin/ricin loop (SRL) of the large ribosomal RNA and thereby inhibits the protein synthesis. The ribosomal protein L3, a highly conserved protein located at the peptidyltransferase center of the ribosomes, is involved in binding of PAP to ribosomes and subsequent depurination of the SRL. We have recently discovered that recombinant PAP mutants with alanine substitution of the active center cleft residues (69)NN(70) (FLP-4) and (90)FND(92) (FLP-7) that are not directly involved in the catalytic depurination at the active site exhibit >150-fold reduced ribosome inhibitory activity [(2000) J. Biol. Chem. 275, 3382--3390]. We hypothesized that the partially exposed half of the active site cleft could be the potential docking site for the L3 molecule. Our modeling studies presented herein indicated that PAP residues 90--96, 69--70, and 118--120 potentially interact with L3. Therefore, mutations of these residues were predicted to result in destabilization of interactions with rRNA and lead to a lower binding affinity with L3. In the present structure-function relationship study, coimmunoprecipitation assays with an in vitro synthesized yeast ribosomal protein L3 suggested that these mutant PAP proteins poorly interact with L3. The binding affinities of the mutant PAP proteins for ribosomes and recombinant L3 protein were calculated from rate constants and analysis of binding using surface plasmon resonance biosensor technology. Here, we show that, compared to wild-type PAP, FLP-4/(69)AA(70) and FLP-7/(90)AAA(92) exhibit significantly impaired affinity for ribosomes and L3 protein, which may account for their inability to efficiently inactivate ribosomes. By comparison, recombinant PAP mutants with alanine substitutions of residues (28)KD(29) and (111)SR(112) that are distant from the active center cleft showed normal binding affinity to ribosomes and L3 protein. The single amino acid mutants of PAP with alanine substitution of the active center cleft residues N69 (FLP-20), F90 (FLP-21), N91 (FLP-22), or D92 (FLP-23) also showed reduced ribosome binding as well as reduced L3 binding, further confirming the importance of the active center cleft for the PAP--ribosome and PAP--L3 interactions. The experimental findings presented in this report provide unprecedented evidence that the active center cleft of PAP is important for its in vitro binding to ribosomes via the L3 protein.     

Effects of aminoethylation of cysteine residues on the structural and functional activities of the Escherichia coli 30 S ribosomal proteins

The purified 30 S ribosomal proteins from Escherichia coli strain Q13 were chemically modified by reaction with ethyleneimine, specifically converting cysteine residues to S-2-aminoethylcysteine residues. Proteins S1, S2, S4, S8, S11, S12, S13, S14, S17, S18 and S21 were found to contain aminoethylcysteine residues after modification, whereas proteins S3, S5, S6, S7, S9, S10, S15, S16, S19 and S20 did not. Aminoethylated proteins S4, S13, S17 and S18 were active in the reconstitution of 30 S ribosomes and did not have altered functional activities in poly(U)-dependent polyphenylalanine synthesis, R17-dependent protein synthesis, fMet-tRNA binding and Phe-tRNA binding. Aminoethylated proteins S2, S11, S12, S14 and S21 were not active in the reconstitution of complete 30 S ribosomes, either because the aminoethylated protein did not bind stably to the ribosome (S2, S11, S12 and S21) or because the aminoethylated protein did not stabilize the binding of other ribosomal proteins (S14). The functional activities of 30 S ribosomes reconstituted from a mixture of proteins containing one sensitive aminoethylated protein (S2, S11, S12, S14 or S21) were similar to ribosomes reconstituted from mixtures lacking that protein. These results imply that the sulfhydryl groups of the proteins S4, S13, S17 and S18 are not necessary for the structural or functional activities of these proteins, and that aminoethylation of the sulfhydryl groups of S2, S11, S12, S14 and S21 forms either a kinetic or thermodynamic barrier to the assembly of active 30 S ribosomes in vitro.     

Hepatitis C virus NS5B RNA replicase specifically binds ribosomes

Hepatitis C virus (HCV) non-structural protein 5B (NS5B) is an RNA replicase. We expressed full-length NS5B (591 amino acid residues) in Escherichia coli as a fusion protein with maltose binding protein (MBP-NS5B). MBP-NS5B was recovered in the soluble fraction after centrifugation at 40,000 x g and affinity-purified with amylose resin. The purified MBP-NS5B had a high-level of poly (A), oligo (U)-dependent UMP incorporation with a Km of 2 microM for UTP. Surprisingly, the enzymatically active MBP-NS5B was sedimented by ultracentrifugation at 160,000 x g. The pellet contained 16S and 23S ribosomal RNAs, suggesting that ribosomes were associated with MBP-NS5B. Ribosomes and MBP-NS5B were subsequently co-purified on amylose resin. Deletion study revealed that either the N-terminal (amino acid residues 1-107) or the C-terminal (amino acid residues 498-591) region of NS5B were sufficient for this association with ribosomes. We further found that NS5B also bound with human ribosomes. Our results implicate a novel mechanism of coupling between replication and translation of the viral genome in the life cycle of HCV.     

Protein kinase associated with ribosomes of streptomycetes

Protein kinases can be classified into two main superfamilies on the basis of their sequence similarity and substrate specificity. The protein His kinase superfamily which autophosphorylate a His residue, and superfamily Ser/Thr and Tyr protein kinases, which phosphorylate Ser, Thr or Tyr residues. During the last years genes encoding Ser/Thr protein kinases have been identified in several microorganisms. Phosphorylation of proteins on Ser/Thr residues can be involved in many functions of prokaryotic cells including cell differentiation, signal transduction and protein biosynthesis. Phosphorylation of prokaryotic protein-synthesizing systems showed that the phosphorylation of initiation and elongation factors is subject to alteration during cell differentiation or bacteriophage infection. Protein kinase associated with ribosomes of streptomycetes phosphorylate the elongation factor Tu and 11 ribosomal proteins even in bacteriophage-uninfected cells. After phosphorylation of ribosomal proteins, ribosomes lose about 30% of their activity at the translation of poly(U). Presented at theSymposium on Regulation of Translation of Genetic Information by Protein Phosphorylation, 21st Congress of the Czechoslovak Society for Microbiology, Hradec Králové (Czech Republic), September 6–10, 1998.     

Stage-specific synthesis of proteins complexed to ribonucleoprotein particles and ribosomes in zoospores of Blastocladiella emersonii.

In Blastocladiella emersonii zoospores, a set of proteins was found associated with the ribosomes and free ribonucleoprotein particles distinct from the ribosomes and polyribosomes. These proteins were designated P120, P105, P64, P56, and P42 based on their molecular weights determined by gel electrophoresis. Synthesis of these proteins was detected only during late sporulation just before the time polyadenylated ribonucleic acid accumulates in the sporangia. These proteins banded in isopycnic metrizamide gradients at densities of 1.31 and 1.27 g/cm3, which corresponded to the densities of the ribosomes and free ribonucleoprotein particles, respectively. Comparison of the distribution of the proteins in sucrose versus metrizamide gradients suggested that P105 was removed from the free ribonucleoprotein particles before complexing with the ribosomes. During germination, these proteins disappeared from the ribosomal fractions, with kinetics corresponding to the resumption of protein synthesis. Another protein (P178) was observed to bind to the ribosomes before the onset of protein synthesis during germination. Cycloheximide did not block the addition of this protein to the monoribosomes.     

Analysis by two-dimensional polyacrylamide gel electrophoresis of the in vivo phosphorylation of ribosomal proteins derived from free and membrane-bound polysomes

Analysis of in vivo phosphorylation of mouse liver ribosomal proteins was performed by two-dimensional polyacrylamide gel electrophoresis following 32P-injection. Our method is special and differs from other eukaryotic systems reported in that all proteins separated on the first dimension gel are completely solubilized, moving quantitatively to the second dimension gel. Only ribosomes from polysomes were used, ensuring analysis of ribosomes actively engaged in protein synthesis. We resolved sixty-five distinct proteins from ribosomes from membrane bound or free polysomes. In both cases radioautography revealed similar labeled patterns with one highly phosphorylated ribosomal protein and five marginally labeled spots.