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1.
The biosynthesis of mammalian mitochondrial cytochromes was explored in primary hepatocyte cultures. When these were pulsed with [35S]methionine in the presence of cycloheximide, eight discrete mitochondrial polypeptides were detected by fluorography after their resolution under denaturing conditions by polyacrylamide gel electrophoresis. Since the pulse labeling of the polypeptides was sensitive to chloramphenicol, an inhibitor of mitochondrial translation, they must be translated on mitochondrial ribosomes. Three were identified as the largest subunits of cytochrome oxidase by their immunoprecipitation with antibody directed against purified rat liver cytochrome oxidase. Another (Mr = 28,000) was identified as one of eight subunits of purified rat liver cytochrome b-c1 complex by its immunoprecipitation with antibody directed against bovine heart b-c1 complex. Since cytochrome b apoprotein is the only product of the mitochondrial genome in the yeast cytochrome b-c1 complex (Krieke, J., Bechmann, H., van Hemert, F. J., Schweyan, R. J., Boer, P. H., Kaudewitz, F., and Groot, G. S. P. (1979) Eur. J. Bio-chem. 101, 607-617), the results strongly suggest that the Mr = 28,000 subunit of liver b-c1 complex is cytochrome b apoprotein. Thus the contribution of the mitochondrial translation system to the cytochrome complexes in liver is identical to that of yeast and Neurospora, and there appears to be no deletion or transfer to the nuclear genome of structural genes for mitochondrially synthesized cytochromes during eukaryotic evolution.  相似文献   

2.
In the preceding paper (Ross, E., and Schatz, G. (1976) J. Biol. Chem. 251, 1991-1996) yeast cytochrome c1 was characterized as a 31,000 dalton polypeptide with a covalently bound heme group. In order to determine the site of translation of this heme-carrying polypeptide, yeast cells were labeled with [H]leu(be under the following conditions: (a) in the absence of inhibitors, (b) in the presence of acriflavin (an inhibitor of mitochondrial translation), or (c) in the presence of cycloheximide (an inhibitor of cytoplasmic translation). The incorporation of radioactivity into the hemeprotein was measured by immunoprecipitating it from mitochondrial extracts and analyzing it by dodecyl sulfate-polyacrylamide gel electrophoresis. Label was incorporated into the cytochrome c1 apoprotein only in the presence of acriflavin or in the absence of inhibitor, but not in the presence of cycloheximide. Cytochrome c1 is thus a cytoplasmic translation product. This conclusion was further supported by the demonstration that a cytolasmic petite mutant lacking mitochondrial protein synthesis still contained holocytochrome c1 that was indistinguishable from cytochrome c1 of wild type yeast with respect to molecular weight, absorption spectru, the presence of a covalently bound heme group, and antigenic properties. Cytochrome c1 in the mitochondria of the cytoplasmic petite mutant is firmly bound to the membrane, and its concentration approaches that typical of wild type mitochondria. However, its lability to proteolysis appeared to be increased. A mitochondrial translation product may thus be necessary for the correct conformation or orientation of cytochrome c1 in the mitochondrial inner membrane. Accumulation of cytochrome c1 protein in mitochondria is dependent on the abailability of heme. This was shown with a delta-aminolevulinic acid synthetase-deficient yeast mutant which lacks heme and any light-absorbing peaks attributable to cytochromes. Mitochondria from mutant cells grown without added delta-aminolevulinic acid contained at least 20 times less protein immunoprecipitable by cytochrome c1-antisera than mitochondria from cells grown in the presence of the heme precursor. Similarly, the respiration-deficient promitochondria of anaerobically grown wild type cells are almost completely devoid of material cross-reacting with cytochrome c1-antisera. A 105,000 X g supernatant of aerobically grown wild type cells contains a 29,000 dalton polypeptide that is precipitated by cytochrome c1-antiserum but not by nonimmune serum. This polypeptide is also present in high speed supernatants from the heme-deficient mutant or from anaerobically gorwn wild type cells. The possible identity of this polypeptide with soluble apocytochrome c1 is being investigated.  相似文献   

3.
Mitochondrial protein synthesis was analyzed in the yeast mit? mutants of Saccharomycescerevisiae which specifically lack cytochrome c oxidase. [3H]leucine labeled polypeptides synthesized in yeast OXI 3 mutant were analyzed by means of immunoprecipitation and SDS-polyacrylamide gel electrophoresis (SDS-PAGE). When compared to control, subunit I was not detectable. This result was substantiated by growing OXI 3 mutant in the presence of cycloheximide, an inhibitor of cytoplasmic protein synthesis. Under such conditions SDS-PAGE analysis of [3H]leucine labeled immunoprecipitate shows the absence of subunit I. These data show that the OXI 3 locus contains the structural gene for cytochrome c oxidase subunit I.  相似文献   

4.
Cytochrome c synthetase in yeast mitochondria catalyzes the formation of a yeast cytochrome c-like species from the apoprotein and hemin (Basile, G., DiBello, C., and Taniuchi, H. (1980) J. Biol. Chem. 255, 7181-7191). To test the specificity of this enzyme, 125I-labeled horse apocytochrome c was incubated with the yeast mitochondrial fraction in the presence of hemin, NADPH, and an ethanol extract of the postmitochondrial fraction. A radioactive 125I-labeled cytochrome c-like species was formed in yields of up to 26%. This 125I-labeled species is indistinguishable from horse cytochrome c by ion exchange chromatography (under the conditions which allow separation of horse and yeast cytochrome c), resistance in its reduced form to digestion by trypsin, resistance against autoxidation, reduction by cytochrome b2, and generation of the apoprotein after treatment with silver sulfate and dithiothreitol. With unlabeled horse apoprotein and [59Fe]hemin, the yield of a [59Fe-labeled horse cytochrome c-like species was up to 7% with respect to the apoprotein incubated. The yield of the 59Fe-labeled species was not altered by the addition of unlabeled FeCl3. Conversely, synthesis of the 59Fe-labeled species was not detectable after incubation of yeast mitochondria with unlabeled horse apoprotein, unlabeled hemin, and 59FeCl3. The formation of both 125I- and 59Fe-labeled cytochrome c-like species was sensitive to heat. Thus, we conclude that cytochrome c synthetase catalyzes direct bonding of heme (or hemin) to the apoprotein. Since the amino acid sequences of horse and yeast cytochromes c differ considerably, cytochrome c synthetase may recognize only a limited region(s) of the apoprotein.  相似文献   

5.
Intact chloroplasts, purified from spinach leaves by sedimentation in density gradients of colloidal silica, incorporate labeled amino acids into at least 16 different polypeptides of the thylakoid membranes, using light as the only source of energy. The thylakoid products of chloroplast translation were visualized by subjecting membranes purified from chloroplasts labeled with [35S]methionine to electrophoresis in high-resolution, SDS-containing acrylamide gradient slab gels and autoradiography. The apparent mol wt of the labeled products ranged from less than 10,000 to greater than 70,000. One of the labeled products is the apoprotein of the P700-chlorophyll a- protein (CPI). The CPI apoprotein is assembled into a pigment-protein complex which is electrophoretically indistinguishable from the native CPI complex. Isolated spinach chloroplasts also incorporate [3H]leucine and [35S]methionine into cytochrome b559. The radioactive label remains with the cytochrome through all stages of purification: extraction of the thylakoid membranes with Triton X-100 and urea, adsorption of impurities on DEAE cellulose, two cycles of electrophoresis in Triton- containing polyacrylamide gels and electrophoresis in SDS-containing gradient gels. Cytochrome b559 becomes labeled with both [3H]leucine and [35S]methionine and accounts for somewhat less than 1% of the total isotopic incorporation into thylakoid protein. The lipoprotein appears to be fully assembled during the time-course of our labeling experiments.  相似文献   

6.
The temperature-sensitive Chinese hamster ovary cell mutant tsH1, has been shown previously to contain a temperature-sensitive leucyl-tRNA synthetase. At the non-permissive temperature of 40 degrees C cytosolic protein synthesis is rapidly inhibited. The protein synthesis which continues at 40 degrees C appears to be mitochondrial, since: (a) whole-cell protein synthesis at the permissive temperature of 34 degrees C is not inhibied by tevenel, the sulfamoyl analogue of chloramphenicol and a specific inhibitor of mitochondrial protein synthesis; however, whole-cell protein synthesis at 40 degrees C is inhibited by tevenel, (b) Protein synthesis by isolated mitochondria from tsH1 cells is not significantly inhibited at 40 degrees C. (c) At 40 degrees C [14C]leucine is incorporated predominantly into the mitochondrial fraction of tsH1 cells. (d) The incorporation of [14C]leucine at 40 degrees C into mitochondrial proteins of tsH1 cells is inh-bited by tevenel but not by cycloheximide. These results suggest that the mitochondria of tsH1 cells contain a leucyl-tRNA synthetase which is different from the cytosolic enzyme. The inhibition of cytosolic, but not of mitochondrial protein synthesis in tsH1 cells at 40 degrees C allows the selective labelling of mitochondrial translation products in the absence of inhibitors. The mitochondrial translation products labelled in tsH1 cells at 40 degrees C and at 34 degrees C in the presence of cycloheximide have been compared by sodium dodecylsulphate-polyacrylamide gel electrophoresis. Both conditions of labelling give similar profiles. The mitochondrial translation products are resolved into two components, one with an apparent molecular weight range from 40,000 to 20,000 and a second with an apparent molecular weight range from 20,000 to 10,000.  相似文献   

7.
The size distribution of the proteins synthesized by isolated HeLa cell mitochondria has been analyzed by polyacrylamide gel electrophoresis and compared to that of the in vivo products of mitochondrial protein synthesis.The electrophoretic pattern of the mitochondrial proteins labeled in vitro with [3H]leucine has a group of partially resolved components migrating in the region corresponding to 12,000 to 25,000 molecular weight, and another group, more abundant, in the range from 40,000 to 55,000 molecular weight. This pattern is very similar, after a two-hour incubation of mitochondria, to that of the proteins labeled in vivo in a 30-minute [3H]leucine pulse.  相似文献   

8.
A spectrally pure cytochrome b complex has been isolated from yeast mitochondria and shown to contain seven nonidentical subunits with the following molecular weights: I, 42,000; II, 33,000; III, 27,500; IV, 23,000; V, 15,500; VI, 13,000; and VII, 10,500. In order to determine the intracellular sites of translation of these polypeptides, yeast cells were labeled with [3H]leucine in the presence of specific inhibitors of mitochondrial or cytoplasmic translation. The labeling of subunits I and III was found to be insensitive to cycloheximide but was inhibited by chloramphenicol. Alternatively, subunits IV–VII were labeled in the presence of chloramphenicol but not in the presence of cycloheximide. Since subunit II was not significantly labeled in the presence of either inhibitor, the technique of labeling in vivo with [3H]formate was used to establish its site of biogenesis. Formate is incorporated by mitochondrial, but not cytoplasmic, ribosomes as N-formylmethionine at initiation and is therefore a marker for the products of mitochondrial translation. Subunits I–III were labeled under these conditions whereas the four smallest subunits were not. Taken together, the findings clearly establish that the three largest subunits of the cytochrome b complex are translated on mitochondrial ribosomes and that the four smallest are formed in the cytoplasm. The results also underscore the advantages of using [3H]formate to identify the products of mitochondrial translation.  相似文献   

9.
A method is described for the isolation of mitochondrial malate dehydrogenase from either the whole tissue homogenate or from the microsomal fraction of rat liver. The procedure involves the treatment of the tissue extract with detergent followed by gel filtration and chromatography on Amberlite CG-50 and DEAE-cellulose. The resulting enzyme was homogeneous by the criterion of gel electrophoresis. Incubation of the microsomal fraction from rat liver under the usual conditions for protein synthesis in the presence of [(3)H]leucine resulted in the incorporation of (3)H into the mitochondrial malate dehydrogenase when purified as described. The results are taken to indicate that the mitochondrial enzyme is synthesized by the cytoplasmic ribosomes. Possible ways in which the cytoplasmic and mitochondrial forms of malate dehydrogenase reach their final locations in the cell are discussed.  相似文献   

10.
The incorporation of [3H]leucine in vivo into very low density lipoproteins (VLDL) from the rat hepatic Golgi apparatus and serum was studied. A Golgi-rich fraction isolated on a discontinuous sucrose gradient between 0.5 and 1.1 M was found to contain VLDL having common antigenic determinants with serum VLDL. The incorporation of the [3H]leucine into the Golgi VLDL and serum VLDL suggested a precursor-product relationship. Analysis of the apoproteins of the Golgi VLDL by polacrylamide gel electrophoresis revealed protein bands with similar mobility to those of serum VLDL, except that the former contained virtually no rapidly migrating peptides with the mobility of serum apo-C-II and apo-C-III. The pattern of incorporation of the [3H]leucine into the apoproteins was similar in VLDL from Golgi apparatus and serum, except for the absence of radioactivity in the area of the gel of Golgi apo-VLDL corresponding to apo-C-II and apo-C-III. The radioactive amino acid was incorporated predominantly into the Golgi apo-VLDL bands with similar mobility to apo-B and an apoprotein or group of apoproteins containing the arginine-rich peptide of serum VLDL. In vitro incubation of the Golgi VLDL with [3H]leucine-labeled HDL resulted in the acquisition of a number of proteins, including the rapidly migrating proteins. Administration of colchicine prior to the injection of [3H]leucine resulted in the appearance of gel bands and radioactivity in the apo-C-II and apo-C-III areas of Golgi apo-VLDL, suggesting that these can be acquired if secretion of VLDL is slowed or inhibited. The hepatic Golgi apparatus was then divided into fractions of predominantly forming face (GF3) or secretory granules (GF1). After polyacrylamide gel electrophoresis of the apo-VLDL from GF, no visible bands or incorporation of [3H]leucine was found in the region of apo-C-II or apo-C-III. However VLDL from GF1, showed visible and radioactive bands in the apo-C-II and apo-C-III area although they represented a much smaller proportion of the total apoprotein than was found in the corresponding serum apo-VLDL. In the isolated perfused liver the percentage incorporation of [3H]leucine into the rapidly migrating apoproteins of Golgi VLDL was considerably less than that found in the corresponding apoproteins of perfusate VLDL, where circulating C lipoproteins are virtually absent. The data indicate that nascent VLDL begins to acquire the C-II and C-III apoproteins during its passage through the Golgi apparatus but that the main acquisition occurs during or after secretion into the space of Disse.  相似文献   

11.
A simple method for the isolation of rat liver cells is described. The cells are shown, by an isotope dilution method, to maintain a constant rate of protein synthesis for 8 h of incubation. Antibodies to purified rat liver cytochrome oxidase were raised in rabbits and used to investigate the labeling of cytochrome oxidase in isolated rat liver cells and in vivo. The data demonstrate the occurrence of a precursor of the subunits of cytochrome oxidase that are synthesized in the cytoplasm. 1. Dodecylsulfate gel electrophoresis of the immunoprecipitates from isolated rat liver cells that had been labeled with [35S]methionine for 1 h showed a single radioactive peak with a molecular weight of 50000. 2. Judged by the effects of cycloheximide and chloramphenicol the labeled protein is synthesized on cytoplasmic ribosomes. 3. After labeling for 1 h in vivo with [3H]leucine the labeled protein appears to be exclusively associated with the hepatic microsomal fraction. 4. Ouchterlony double-diffusion analysis demonstrated immunological relationship between the precipitates from microsomes and cytochrome oxidase. In addition to the precipitates derived from mitochondria and microsomes immunoprecipitates were also obtained from the cytosol in comparable amounts; these again were immunologically related. The occurrence of large amounts of precursor(s) (or degradation products) of cytochrome oxidase in rat liver fractions is interpreted in terms of a regulatory pool for amino acid homeostasis in the organism.  相似文献   

12.
Chloramphenicol sensitive [3H]leucine incorporation into protein (due to mitochondrial protein synthesis) in synchronized HeLa cells has been found to continue throughout interphase, its rate per cell approximately doubling from the G1 to the G2 phase. This increase in the rate of [3H]leucine incorporation during the cycle does not seem to parallel closely the increase in cell mass. In fact, the observations made on cultures incubated at 34.5 °C, where the G1 and S phases are better resolved than at 37 °C, indicate that the rate remains constant during the G1 phase, and starts to accelerate with the onset of nuclear DNA synthesis. Correspondingly, on a per unit mass basis, there appears to be a slight decline in the rate of [3H]leucine incorporation into protein during the G1 phase, which is compensated by an increase in the early S phase. No significant variations were observed in the mitochondrial leucine pool labeling during the cell cycle; therefore, the observed pattern of [3H]leucine incorporation into protein should reflect fairly accurately the behavior of mitochondrial protein synthesis. Evidence has been obtained indicating a depression in the rate of incorporation of [3H]leucine into protein in mitochondria of mitotic cells. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of the products of mitochondrial protein synthesis has not revealed any differences in the size distribution of the proteins synthesized in the various portions of the cell cycle.  相似文献   

13.
Rat liver mitochondria were incubated in vitro with radioactive leucine, and submitochondrial particles prepared by several methods. Analysis of the labeled mitochondrial membrane fractions by sodium dodecylsulfate gel electrophoresis revealed three labeled bands of molecular weights corresponding to 40,000; 27,000; and 20,000 daltons. Electrophoresis for longer times at higher concentrations of acrylamide revealed eight labeled bands, ranging in molecular weights from 48,000 to 12,000.Mitochondria were incubated for 5 min with [3H]leucine followed by a chase of unlabeled leucine. Gel electrophoresis of the membranes obtained after labeling for 5 min indicated significant synthesis of polypeptides in the 40,000 Mr, range and very little labeling of low molecular-weight polypeptides. After addition of the chase, increased synthesis of the high molecular-weight polypeptides was observed; however, no significant increase or decrease of radioactivity in the bands of low molecular-weight was observed, suggesting that rat liver mitochondria have the ability to synthesize complete proteins in the Mr 27,000–40,000 range.Approximately 16% of the total leucine incorporated into protein by isolated rat liver mitochondria in vitro could be extracted by chloroform: methanol. Gel electrophoresis of the chloroform: methanol extract revealed several bands containing radioactivity with the majority of counts in a band of 40,000 molecular weight. Gel electrophoresis of the chloroform: methanol extract of lyophilized submitochondrial particles indicated label in two broad bands in the low molecular-weight region of 14,000-10,000 with insignificant counts in the higher molecular-weight regions of the gel.Yeast cells were pulse labeled in vivo with [3H]leucine in the presence of cycloheximide and the submitochondrial particles extracted with chloroform:methanol. The extract separated after gel electrophoresis into four labeled bands ranging in molecular weight from 52,000 to 10,000. Preincubation of the yeast cells with chloramphenicol prior to the pulse labeling caused a 6-fold stimulation of labeling into the band of lowest molecular weight of the chloroform: methanol extract. These results suggest that the accumulation of mitochondrial proteins synthesized in the cytoplasm, when chloramphenicol is present in the medium, may stimulate the synthesis of certain specific mitochondrial proteins which are soluble in chloroform: methanol.  相似文献   

14.
Three proteins of the inner mitochondrial membrane of Neurospora crassa were found to be covalently modified with a derivative of pantothenic acid. One of these proteins is a subunit of cytochrome c oxidase and two are subunits of the ATPase-ATP synthase. Cells of a pantothenate auxotroph of N. crassa were labeled with [14C]pantothenic acid, and mitochondrial proteins containing radiolabeled pantothenate were detected by electrophoresis of detergent-solubilized mitochondria. Mitochondria from cells that were colabeled with [14C]pantothenate and [3H]leucine were reacted with specific antisera against the cytochrome c oxidase and F1-ATPase enzyme complexes. Electrophoresis of the labeled subunits of these isolated complexes showed that the [14C]pantothenate-associated peptides corresponded to [3H]leucine-labeled subunit 6 of cytochrome c oxidase and two [3H]leucine-labeled subunits (tentatively identified as subunits 8 and 11) of the ATPase-ATP synthase. Pantothenate modification of these enzyme subunits, which are synthesized on extramitochondrial ribosomes, may contribute to their transport and assembly into mitochondria, or it may participate in the catalytic activity of the assembled enzymes.  相似文献   

15.
Effect of chronic ethanol ingestion on pancreatic protein synthesis   总被引:1,自引:0,他引:1  
The effect of chronic ethanol feeding on pancreatic protein synthesis was assessed by studying the rate of incorporation of [3H]leucine into proteins in isolated rat pancreatic acini in vitro. Chronic ethanol feeding increased the rate of protein synthesis (2-3-fold) compared to controls fed an isocaloric diet. The onset of the increase in protein synthesis was detectable 2 days after the beginning of ethanol feeding, reached a maximum after 7 days and remained constant for up to 4 months. The increased incorporation of [3H]leucine was not due to an increased turnover of proteins as measured in pulse-chase experiments. After separation of individual digestive enzymes by SDS-polyacrylamide gel electrophoresis and determination of the distribution of radioactivity in different proteins, a general increase in the rate of incorporation of the label into all of the proteins was observed. In contrast to the observations made with isolated acini, there was no significant difference between the control and ethanol-fed groups when the rate of pancreatic protein synthesis was measured in vivo. However, overnight withdrawal of ethanol led to an increase of approx. 70% in protein synthesis in the ethanol-fed group. These results suggest that chronic ethanol ingestion modifies the control of pancreatic protein synthesis; the enhanced protein synthesis is expressed in isolated acini, i.e., in the absence of physiological factors present during chronic ethanol ingestion and in vivo after ethanol withdrawal.  相似文献   

16.
Three previously isolated mutants of Neurospora crassa, temperature-sensitive for the production of cytochrome aa3, have been further analyzed. These mutants have a slightly reduced capacity for mitochondrial protein synthesis when grown at 41 degrees C, although this relative deficiency appeared to be no greater than the deficiency in other cytochrome-aa3-deficient mutants. Thermolability studies revealed that the cytochrome c oxidase purified from each of the mutants grown at 23 degrees C is no more sensitive to heat inactivation than the enzyme isolated from wild-type cells. Sodium dodecylsulfate gel electrophoresis of immunoprecipitates obtained from the mitochondria of each of the mutants grown at 23 degrees C, using antiserum directed against holocytochrome c oxidase, indicated that all the subunits of cytochrome c oxidase were present in relative amounts similar to those found in mitochondria from wild-type cultures. However, when the mitochondria from mutant cultures grown at 41 degrees C were examined in the above fashion, only subunits 5 and 6 of the oxidase were detected. Nonetheless, the mitochondrially synthesized subunit 1, 2 and 3 polypeptides could be immunoprecipitated from mitochondria isolated from mutant cells grown at 41 degrees C and labelled with [3H]leucine in medium containing cycloheximide. Although subunits 4 and 7 could not be detected, because a suitable antibody was not available, the fact that five of the seven subunits were present, but not associated with each other, suggested that the genetic defects in these mutants may affect the process of cytochrome c oxidase assembly.  相似文献   

17.
The effects of oleic acid on the biosynthesis and secretion of VLDL (very-low-density-lipoprotein) apoproteins and lipids were investigated in isolated perfused rat liver. Protein synthesis was measured by the incorporation of L-[4,5-3H]leucine into the VLDL apoproteins (d less than 1.006) and into apolipoproteins of the whole perfusate (d less than 1.21). Oleate did not affect incorporation of [3H]leucine into total-perfusate or hepatic protein. The infusion of oleate, however, increased the mass and radioactivity of the VLDL apoprotein in proportion to the concentration of oleate infused. Uptake of oleate was similar with livers from fed or fasted animals. Fasting itself (24 h) decreased the net secretion and incorporation of [3H]leucine into total VLDL apoprotein and decreased the output of VLDL protein by the liver. A linear relationship existed between the output of VLDL triacylglycerol (mumol/h per g of liver) and secretion and/or synthesis of VLDL protein. Net output of VLDL cholesterol and phospholipid also increased linearly with VLDL-triacylglycerol output. Oleate stimulated incorporation of [3H]leucine into VLDL apo (apolipoprotein) E and apo C by livers from fed animals, and into VLDL apo Bh, B1, E and C by livers from fasted rats. The incorporation of [3H]leucine into individual apolipoproteins of the total perfusate lipoprotein (d less than 1.210 ultracentrifugal fraction) was not changed significantly by oleate during perfusion of livers from fed rats, suggesting that the synthesis de novo of each apolipoprotein was not stimulated by oleate. This is in contrast with that observed with livers from fasted rats, in which the synthesis of the total-perfusate lipoprotein (d less than 1.210 fraction) apo B, E and C was apparently stimulated by oleate. The observations with livers from fed rats suggest redistribution of radioactive apolipoproteins to the VLDL during or after the process of secretion, rather than an increase of apoprotein synthesis de novo. It appears, however, that the biosynthesis of apo B1, Bh, E and C was stimulated by oleic acid in livers from fasted rats. Since the incorporations of [3H]leucine into the VLDL and total-perfusate apolipoproteins were increased in fasted-rat liver when the fatty acid was infused, part of the apparent stimulated synthesis of the VLDL apoprotein may be in response to the increased formation and secretion of VLDL lipid.  相似文献   

18.
Summary Inhibitors of, and radioactive substrates for, protein synthesis were introduced into germinating pea (Pisum sativum L.) seeds, and protein synthesis was allowed to proceed in vivo. Subsequent analyses of subcellular fractions showed the following: Cycloheximide strongly inhibited the incorporation of [14C]leucine into both mitochondrial and cytoplasmic proteins. d-Threo-chloramphenicol and erythromycin did not affect cytoplasmic protein synthesis, but partially inhibited mitochondrial protein synthesis. These results suggest that most of the new mitochondrial proteins were originally synthesized in the cytoplasm. Actinomycin D did not appreciably affect the initial incorporation of [14C]leucine into either mitochondrial or cytoplasmic proteins, suggesting that information (mRNA) concerning the initially synthesized proteins may be present in the quiescent seeds. The lack of appreciable incorporation of [3H]thymidine into mitochondrial DNA supported our previons report that mitochondria may not be synthesized de novo in pea cotyledons.  相似文献   

19.
Inhibitors of protein synthesis capable of differential effects on nascent peptide synthesis on membrane-bound and free polyribosomes were employed to investigate the structure and function of cellular membranes of liver. The formation of membranous whorls in the cytoplasm and distension of nuclear membranes were induced by inhibitors of protein synthesis (i.e., cycloheximide and emetine) which predominantly interfere with nascent peptide synthesis on membrane-bound polyribosomes in situ. Other inhibitors of protein synthesis such as puromycin and fusidic acid, which inhibit nascent peptide synthesis on both free and membrane-bound polyribosomes, and chloramphenicol, which inhibits mitochondrial protein synthesis, did not induce these alterations. Cycloheximide, puromycin, and chloramphenicol produce some common cellular lesions as reflected by similar alterations in morphology, such as swelling of mitochondria, degranulation of rough endoplasmic reticulum, and aggregation of free ribosomes. The process of whorl formation in the cytoplasm, the incorporation of [3H]leucine and of [3H]choline into endoplasmic reticulum and the total NADPH-cytochrome c reductase activity of the endoplasmic reticulum were determined. During maximum formation of membranous whorls, [3H]leucine incorporation into cytoplasmic membranes was inhibited, while [3H]choline incorporation into these structures was increased; maximum inhibition of protein synthesis and stimulation of choline incorporation into endoplasmic reticulum, however, preceded whorl formation. Cycloheximide decreased the activity of NADPH-cytochrome c reductase of rough endoplasmic reticulum, but increased NADPH-cytochrome c reductase activity of smooth endoplasmic reticulum. In addition, cycloheximide decreased the content of hemoprotein in both the microsomal and mitochondrial fractions of rat liver, and the activities of mixed function oxidase and of oxidative phosphorylation were impaired to different degrees. Succinate-stimulated microsomal oxidation was also inhibited. The possible mechanisms involved in the formation of membranous whorls, as well as their functions, are discussed.  相似文献   

20.
Complex III immunoprecipitated from yeast cells labeled in vivo with [35S]sulfate or [3H]leucine contained seven subunits with molecular weights ranging from 15,000 to 47,000 when analyzed by electrophoresis on polyacrylamide gels. The subunit composition of the immunoprecipitates was identical with that of the purified complex III isolated from bakers' yeast suggesting that the antiserum recognizes the holoenzyme assembled properly in the membrane (Sidhu, A., and Beattie, D.S. (1982) J. Biol. Chem. 257, 7879-7886). Kinetic studies using double-labeled yeast cells followed by immunoprecipitation of complex III indicated that the subunits of the complex are assembled into the holoenzyme at very different rates. Cytochromes b and c1 and the 15,000-dalton subunit were the first polypeptides to be assembled into the complex with a half-time of labeling of 2.0-2.4 min. Core protein I and the iron-sulfur protein were inserted more slowly into the complex with a half-time of labeling of 4.6 and 5.3 min, respectively. Calculations of precursor pool sizes of the subunits indicated that for both core protein I and the iron-sulfur protein, there are large pools of precursors. The iron-sulfur protein was synthesized in vivo as a larger precursor polypeptide of molecular mass 28,000 Da. The precursor was subsequently cleaved, in a process requiring an energized mitochondrial inner membrane, into an intermediate form 1,500 Da larger than the mature subunit. The conversion of the intermediate to the mature form occurred in the inner mitochondrial membrane.  相似文献   

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