Neurosecretory protein synthesis in relation to starvation and feeding in adult male Locusta migratoria

An immunological approach has been used to assess the effects of starvation and subsequent feeding upon the synthesis of neurosecretory protein in adult male Locusta migratoria. Starvation (for 5 days) did not reduce the incorporation of radioactive cystine into neurosecretory protein. However, the rate of neurosecretory transport in starved insects was approximately half that in normal fed insects.Within 1 hr after the start of feeding the rate of neurosecretory protein synthesis more than doubled and the rate at which newly synthesized protein was transported to the CC increased approximately three-fold. The incorporation of cystine into specific (i.e. neurosecretory) protein was always higher, even in starved insects, than into the non-specific proteins (i.e. proteins other than those from the A-cells) of the brain. This difference was maximal at 4 hr after feeding when the incorporation into specific protein was more than 5 times that into non-specific protein.     

Comparison of the turnover patterns of total and individual muscle proteins in normal mice and those with hereditary muscular dystrophy

1. The incorporation of amino acids into hindleg muscle proteins of normal and dystrophic mice was measured (1/2)h to 16 days after administration of the radioactive pulse. 2. Dystrophic animals showed a faster initial rate of incorporation into total and soluble proteins in the first few hours after injection, but the extent of incorporation relative to the size of the amino acid pool was similar in both. There was little difference between the overall degradation rates although this started later in the dystrophic proteins. An initial fast phase of degradation reached a plateau after 3 days whereupon the residual label in the protein remained constant up to 16 days after injection. 3. Analyses of individual radioactive proteins fractionated by polyacrylamide-gel electrophoresis showed that the distribution of label was similar in all the soluble proteins from normal and dystrophic muscle. Time-course experiments revealed that in dystrophic mice the two major soluble proteins of the muscle, creatine kinase and adenylate kinase, initially incorporated 2-3 times more label relative to the initial size of the precursor pool. This label was then lost equally rapidly and the final plateau value was much less than that in normal mice. This initial peak of activity was not observed in normal mice. 4. A group of dehydrogenases showed similar initial turnover patterns in both dystrophic and normal mice but the final plateau value was much higher in the former. 5. The results provide support for the hypothesis that there is no obvious defect in the protein synthetic machinery of dystrophic muscle. However, certain proteins do show anomalous turnover patterns relative to those in normal animals. A single structural gene mutation giving rise to one particularly unstable and readily degradable muscle protein is excluded as the cause of the dystrophy.     

THE SECRETORY PATHWAYS OF RAT SERUM GLYCOPROTEINS AND ALBUMIN : Localization of Newly Formed Proteins within the Endoplasmic Reticulum

These studies compare the secretory pathways of newly formed rat serum glycoproteins and albumin by studying their submicrosomal localization at early times after the beginning of their synthesis and also by determining the submicrosomal site of incorporation of N-acetylglucosamine, mannose, galactose, and leucine into protein. N-acetylglucosamine, mannose, and galactose were only incorporated in vitro into proteins from membrane-attached polysomes and not into proteins from free polysomes. Mannose incorporation occurred in the rough endoplasmic reticulum, was stimulated by puromycin but not by cycloheximide, and 90% of the mannose-labeled protein was bound to the membranes. Galactose incorporation, by contrast, occurred in the smooth microsome fraction and 89% of the radioactive protein was in the cisternae. Albumin was mostly recovered (98%) in the cisternae, with negligible amounts in the membranes. To determine whether the radio-active sugars were being incorporated into serum proteins or into membrane protein, the solubilized in vivo-labeled proteins were treated with specific antisera to rat serum proteins or to albumin. Immunoelectrophoresis of the ¹⁴C-labeled leucine membrane and cisternal proteins showed that the membranes contained radioactive serum glycoprotein but no albumin, while the cisternal fraction contained all of the radioactive albumin and some glycoproteins. The results indicate that newly formed serum glycoproteins remain attached to the membranes of the rough endoplasmic reticulum after they are released from the membrane-attached polysomes, while albumin passes directly into the cisternae.     

Characterization and hormonal regulation of protein synthesis by the murine epididymis

Protein synthesis and secretion were examined in vitro by incubating minced tissue with [35S]methionine. The incorporation of label into tissue plus medium was linear for the 5 h of incubation. The percentage of available label incorporated into protein increased with the weight of tissue used. Approximately 13% of the label incorporated appeared in the medium after 5 h of incubation. Release of radioactive protein into the medium was characterized by an initial slow release (1-2 h) followed by a more rapid linear release between 3 and 5 h. Polyacrylamide gel electrophoresis revealed that the pattern of radioactive proteins present in the medium was different from and less complex than the tissue proteins. Substantial differences in protein patterns from different epididymal regions could be detected. The caput epididymidis was particularly active in secreting proteins characteristic of this region, whereas the corpus and cauda synthesized and secreted similar proteins. At least one of these proteins characteristic of the caput is stabilized by disulphide bonds. Short-term (9 day) castration resulted in reduced synthesis and secretion of several of these epididymal proteins. Testosterone administered after 9 days of castration reinitiated synthesis of some but not all of these epididymal proteins.     

Studies on the assembly and secretion of a multicomponent protein. The biosynthesis of vitellogenin, an oestrogen-induced glycolipophosphoprotein

1. Incorporation of [(32)P]P(i) and [(3)H]leucine into vitellogenin secreted in vitro by liver slices from oestrogen-treated Xenopus laevis is accompanied by a 2h lag; no lag is apparent for the incorporation into total tissue protein. 2. The addition of cycloheximide was found immediately to inhibit further incorporation of radioactive leucine into total tissue protein. The incorporation into secreted vitellogenin, however, continued for 2h after the addition of cycloheximide. 3. Pulse-labelling of liver slices with [(3)H]leucine for 30min, followed by a chase with a large excess of unlabelled leucine, resulted in the appearance of radioactivity in secreted vitellogenin from 90min after the end of the pulse period. 4. Evidence is presented which suggests that of the radioactivity from [(3)H]leucine incorporated into proteins by the liver of oestrogen-treated Xenopus some 70% is present in the single protein vitellogenin. 5. The incorporation of [(32)P]P(i) into vitellogenin followed a pattern identical with that found for [(3)H]leucine in the pulse-labelling experiments and this indicates that synthesis of the polypeptide chain and incorporation of P(i) are closely linked processes. 6. The cumulative evidence suggests that the 2h lag phase represents the time required for the assembly and secretion of this multicomponent protein.     

In vivo protein synthesis from 14C-substrates in porcine tissues during the transition to postnatal development

[2-14C] leucine, [1-14C] alanine, [1-14C] glucose, [1-14C] lactate and [1-14C] pyruvate utilization in the protein synthesis has been studied in vivo at early stages of postnatal development of piglets. It has been established, that during the first 24 hours after birth the protein synthesis intensity, judging by [2-14C] leucine incorporation, in liver, skeletal muscle, duodenal wall and subcutaneous tissue of piglets increases 5, 7, 6.5 and 2.1 times respectively. At the age of 1-2 h the radioactive carbon incorporation from [1-14C] glucose into the brain proteins is more pronounced than into the proteins of liver and skeletal muscle. During the first days of life the intensity of the label incorporation from [1-14C] glucose into liver and skeletal muscle proteins of piglets is enhanced, whereas in brain it remains at the same level. The degree of 14C carbon incorporation from [1-14C]-alanine, [1-14C] pyruvate and [1-14C] lactate into the liver and skeletal muscle proteins of 5-days-old piglets is approximately the same, 14C substrates of protein synthesis in brain and subcutaneous adipose tissue having some peculiarities.     

Synthesis of angiotensinogen by isolated rat liver cells and its regulation in comparison to serum albumin

Angiotensinogen (renin substrate) and albumin are synthesized by isolated hepatocytes almost linearly for 5 hr. The incorporation of radioactive leucine into total protein proceeded linearly for 3 hr. Without addition of amino acids to the incubation medium the synthesis of both proteins was still linear but fell off to 40% compared to the synthesis rate obtained by incubation with amino acids in serum concentrations. Higher amino acid concentrations could not further stimulate the synthesis. Addition or withdrawal of tryptophan had no effect on the synthesis rate of both proteins. After 5 hr incubation hydrocortisone had stimulated the incorporation of radioactive leucine into total protein by 13%, the albumin synthesis by 43%, and the angiotensinogen synthesis by 142%.     

Molecular specificity of 2-aminopurine in Saccharomyces cerevisiae

The rates of DNA, RNA and protein synthesis were investigated by incorporation of radioactive precursors into the excised root tips of V. faba. 2-h exposure to 0.1% caffeine resulted in inhibition of protein synthesis to about 60% of the control rate. RNA synthesis was reduced in the range of 20–30%. The same concentration of caffeine did not affect the rate of DNA synthesis even during 12-h incubation, but concentrations higher than 1% caused a significant decrease in [³H]thymidine incorporation.     

Comparative studies on phosphorylation of synthetic peptide analogue of ribosomal protein S6 and 40-S ribosomal subunits between Ca2+/phospholipid-dependent protein kinase and its protease-activated form

Ca2+/phospholipid-dependent protein kinase (protein kinase C) and trypsin-activated protein kinase C (protein kinase M) phosphorylated the synthetic peptide R1-A13 (Arg-Arg-Leu-Ser-Ser-Leu-Arg-Ala-Ser-Thr-Ser-Lys-Ala) which contains both cAMP- and insulin-regulated phosphorylation sites in rat liver ribosomal protein S6 [Wettenhall, R. E. H. & Morgan, F. J. (1984) J. Biol. Chem. 259, 2084-2091]. Both enzymes showed essentially the same kinetic properties; V and apparent Km were determined to be 0.16 mumol min-1 mg-1 and 30 microM, respectively. At first, tryptic phosphopeptides were prepared at the early stage of phosphorylation and purified by high-performance liquid chromatography (HPLC). Through these analyses, four radioactive peptides were isolated. When protein kinase C was employed, phosphorylation was observed on all four peptides in a Ca2+/phospholipid-dependent manner. Irrespective of the protein kinase employed, phosphate incorporation into these peptides increased linearly with time; the peptide concentration did not affect the ratio of phosphate distribution into these four peptides. Analysis of amino acid composition and phosphoamino acid of radioactive peptides obtained after extensive phosphorylation showed that phosphates were incorporated into Ser-4, Ser-5, Ser-9 and Ser-11. The latter three serine residues were major phosphorylated sites. When rat liver 40-S ribosomal subunits were employed as substrate for protein kinases C and M, a radioactive protein with Mr,app = 31,000, which corresponded to S6 protein, was detected on an autoradiogram of a sodium dodecyl sulfate/polyacrylamide slab gel. The rate of phosphorylation with protein kinase M was twice as fast as that with protein kinase C. The elution profile of radioactive tryptic peptides in HPLC suggest that phosphorylation occurred on the sites in S6 protein corresponding to Ser-5, Ser-9 and Ser-11 as major sites and Ser-4 as the minor one. These results indicate that protein kinase C has an ability to recognize at least four sites derived from hormone-dependent phosphorylation sites in ribosomal protein S6 irrespective of the mode of activation of this enzyme.     

Studies on the flavins in rat liver mitochondrial outer membranes

The incorporation of radioactivity derived from [2-¹⁴C] riboflavin into the flavins of rat liver mitochondrial outer membranes was studied. These membranes were found to contain about 0.6 nmol of non-covalently bound flavins per mg protein; the majority is in the form of FAD (73%) and FMN (24%). The membranes also contain about 1.5 nmol per mg of covalently bound flavins.After labeling, radioactive flavins appeared in the non-covalently bound flavins for about 4 h. Most of this radioactivity was in FAD (77%). Neither the rate nor extent of this labelling was affected by cycloheximide (1 mg/kg) administered 30 min prior to the radioactive riboflavin. With the covalently bound flavins, radioactivity was incorporated into the coenzymes for at least 18 h, but the rate of incorporation was much slower. After cycloheximide, radioactive flavins continued to appear in covalently bound flavins for about 2 h, but then stopped. Labeling of both types of flavins after [¹⁴C] riboflavin was considerably slower than the incorporation of [³H] leucine into outer membrane proteins. These results suggest that with flavoproteins from the mitochondrial outer membranes, the incorporation of flavins occurs after synthesis of the various apoenyzmes is complete.     

On the size and the role of a free cytosolic pool of acidic ribosomal proteins in yeast Saccharomyces cerevisiae

A small but distinct amount of yeast acidic ribosomal proteins A1/A2 was detected in cytosol by immunoblotting on a two-dimensional gel electrophoretogram, while 38 kDa acidic protein A0 was not detected. The free forms of A1/A2 in the cytosol were eluted in gel filtration at the molecular mass of about 30 kDa under non-denaturation conditions, suggesting that they exist as a dimer or timer without association with A0. The amount of free A1/A2 was determined by immunoblotting to be 0.3% of the ribosome-bound A1/A2 in yeast. The time course of incorporation of radioactive amino acid showed that the cytosolic free A1/A2 are labeled more rapidly with high specific radioactivity than the ribosome-bound A1/A2. This result suggested that some of the cytosolic A1/A2, if not all, are newly-synthesized proteins which are ready for incorporation into cytoplasmic ribosomes.     

Nuclear protein synthesis at permissive and non-permissive temperatures in a Chinese hamster ovary cell line with a temperature-sensitive defect in cytoplasmic non-mitochondrial protein synthesis.

A Chinese hamster ovary cell line with a temperature-sensitive defect in cytoplasmic non-mitochondrial protein synthesis was used to examine protein synthesis thought to be intrinsic to nuclei. Nuclear fractions did not contain whole cells, endoplasmic reticulum or mitochondria, as judged by light and electron microscopy and contaminating microorganisms and PPLO were absent. When cytoplasmic protein synthesis was almost totally suppressed at 40 °C, in some experiments in the presence of cycloheximide, nuclear and mitochondrial proteins continued to be labelled with radioactive leucine for 15–30 min. Nuclear incorporation at 40 °C was suppressed by puromycin and partially inhibited by 225 μg of chloramphenicol per ml. Most of the nuclear proteins labelled at 40 °C, which included a majority of recovered radioactive proteins, were soluble in 1 N NaOH, and can be classified as acidic nuclear proteins. The majority of radioactive leucine was incorporated internally into nuclear proteins, as judged by lack of reactivity with 2,4-dinitrofluorobenzene. Preliminary studies with SDS polyacrylamide gel electrophoresis suggest that some of the radioactive proteins present in the nuclear extract differed from those of the cytosol and mitochondrial fractions. Provided whole cells, mitochondria and endoplasmic reticulum neither contaminated the nuclear pellet nor transferred proteins to that site before or during nuclear isolation, that microorganisms, including PPLO and possibly even viruses capable of causing artefactual incorporation are absent, and that nuclei contain a leucyl tRNA synthetase able to function at 40 °C, the tsHl CHO cell line should provide a valuable experimental system with which to examine the properties of protein synthesis intrinsic to cell nuclei and to elucidate its functions.     

Regulation of protein synthesis and degradation in L8 myotubes. Effects of serum, insulin and insulin-like growth factors.

We have examined the regulation of protein turnover in rat skeletal myotubes from the L8 cell line. We measured protein synthesis by the rates of incorporation of radiolabelled tyrosine into protein in the presence of a flooding dose of non-radioactive tyrosine. We monitored degradation of proteins labelled with radioactive tyrosine by the release of acid-soluble radioactivity into medium containing excess nonradioactive tyrosine. Extracellular tyrosine pools and intracellular tyrosyl-tRNA equilibrate rapidly during measurements of protein synthesis, and very little reutilization of the radiolabelled tyrosine occurs during degradation measurements. Measured rates of protein synthesis and degradation are constant for several hours, and changes in myotube protein content can be accurately predicted by the measured rates of protein synthesis and degradation. Most of the myotube proteins labelled with radioactive tyrosine for 2 days are degraded, with half-lives (t1/2) of approx. 50 h. A small proportion (less than 2.5%) of the radiolabelled proteins are degraded more rapidly (t1/2 less than 10 h), and, at most, a small proportion (less than 15%) are degraded more slowly (t1/2 greater than 50 h). A variety of agents commonly added to primary muscle cell cultures or to myoblast cell lines (18% Medium 199, 1% chick-embryo extract, antibiotics and antifungal agents) had no effect on rates of protein synthesis or degradation. Horse serum, fetal bovine serum and insulin stimulate protein synthesis and inhibit the degradation of long-lived proteins without affecting the degradation of short-lived proteins. Insulin-like growth factors (IGF)-1 and -2 also stimulate protein synthesis and inhibit protein degradation. The stimulation of protein synthesis and the inhibition of protein degradation are of similar magnitude (a maximum of approx. 2-fold) and display similar sensitivities to a particular anabolic agent. Insulin stimulates protein synthesis and inhibits protein degradation only at supraphysiological doses, whereas IGF-1 and -2 are effective at physiological concentrations. These and other findings suggest that IGFs may be important regulators of skeletal muscle growth during the fetal and early neonatal periods.     

CYTOPLASMIC SYNTHESIS OF NUCLEAR PROTEINS : Kinetics of Accumulation of Radioactive Proteins in Various Cell Fractions after Brief Pulses

The synthesis of cytoplasmic and nuclear proteins has been studied in HeLa cells by examining the amount of radioactive protein appearing in the various subcellular fractions after labeling for brief periods. Due to the rapid equilibration of the amino acid pool, the total radioactivity in cytoplasmic protein increases linearly. The radioactivity observed in the cytoplasm is the sum of two components, the nascent proteins on the ribosomes and the completed proteins. At very short labeling times the specific activity of newly formed proteins found in the soluble supernatant fraction (completed protein) increases as the square of time, whereas the specific activity of the ribosomal fraction (nascent protein) reaches a plateau after 100 sec. The kinetics of accumulation of radioactive protein in the nucleus and the nucleolus is very similar to that of completed cytoplasmic protein, which suggests that the proteins are of similar origin. The rate of release and migration of proteins from the ribosomes into the nucleus requires less time than the synthesis of a polypeptide, which is about 80 sec. The uptake of label into nucleolar proteins is as rapid as the uptake of label into proteins of the soluble fraction of the cytoplasm, while nuclear proteins, including histones, tend to be labeled more slowly. The same results are obtained if protein synthesis is slowed with low concentrations of cycloheximide. The kinetics of incorporation of amino acids into various fractions of the cell indicates that the nucleus and the nucleolus contain few if any growing polypeptide chains, and thus do not synthesize their own proteins.     

Phosphorylation of Superior Cervical Ganglion Proteins During Regeneration

The incorporation of radioactive phosphate into proteins of both normal and regenerating ganglia of the sympathetic nervous system of the rat is reported. The incorporation reactions were carried out in vitro by incubating homogenates of excised ganglia with [gamma-32P]ATP under various conditions. It was found that incorporation of phosphate into proteins of regenerating ganglia in the molecular mass range 10,000-100,000 daltons increased up to 40% over incorporation into proteins from control ganglia during the first 3 days following injury and returned to control levels after 14 days. Analysis of the proteins by two-dimensional electrophoresis revealed that only few, i.e., less than 20, became radioactively labelled in homogenates of superior cervical ganglia in the presence of Ca2+, and even fewer in the presence of cyclic AMP. Furthermore, all these proteins fell within a narrow pI range of 4-6. The growth-associated protein, variously designated GAP-43, B-50, F-1, and pp46, has an enhanced level of expression and phosphorylation in regenerating ganglia compared with controls at day 3. Injury also caused consistently higher levels of incorporation into two other proteins with molecular masses at positions 55,000 and 85,000 and pI values of 5.1 and 4.5, respectively; the former protein most probably is beta-tubulin. The fact that both proteins are found in the 15,000 g pellet after the tissue has been solubilized in 0.5% nonionic detergent indicates that they may indeed by components of filament assemblies. Thus, the results suggest that protein phosphorylation is a mechanism involved in cytoskeletal function in regenerating nerve.     

Biochemical and immunological characterization and the synthesis of rat intestinal glycoproteins following the induction of rapid synchronous vitamin A deficiency

Glycoproteins and proteins were extracted from segments or scrapings of the intestine in tube-fed, vitamin-A-deficient and control rats on the eight day after withdrawal of retinoic acid from the diet by using either 1% sodium dodecyl sulfate (SDS) or aqueous 5 mM EDTA (pH 7.4). They were then fractionated on columns of Sepharose 4B. Water-soluble peak I material contained large (M_r > 10⁶; S₂₀ = 11.7) glycoprotein aggregates which were rich in hexose, fucose and sialic acid. These aggregates dissociated into several non-identical glycoprotein and protein subunits upon treatment with dithiothreitol. The protein matrix was rich in threonine, valine, proline, serine, glutamate and aspartate. Peak II consisted of smaller proteins and glycoproteins, the latter with much lower carbohydrate content. Some peak II glycoproteins also dissociated into subunits in the presence of dithiothreitol. Peak III consisted mainly of a heterogenous assortment of proteins, including some glycoproteins of low carbohydrate content. Antibodies either to peak II or to peak III reacted both with peaks II and III but not with peak I.The total weight, carbohydrate composition of glycoproteins and the ratio of carbohydrate to protein in the total extract or in each of the three fractions were not significantly affected in vitamin A deficiency despite decreased incorporation of all labeled precursors. Rather, the relatively lower incorporation (approx. 0.8) of radioactive sulfate, D-glucosamine and L-fucose into total SDS-soluble duodenal glycoproteins of vitamin-A-deficient rats could be explained on the basis of a reduced prevalence of goblet cells alone. In contrast, the relative incorporation rate of L-fucose into peak I, but not into peaks II and III, ranged from 0.25 to 0.45, less than expected on the basis of fewer goblet cells alone. The incorporation of radioactive threonine into all protein fractions was reduced to 60% of normal in vitamin A deficiency. Thus, the well established observation that intestinal tissue of vitamin-A-deficient rats synthesizes high molecular weight glycoproteins poorly might be due to several interacting factors: (1) a reduced prevalence of goblet cells, (2) a lower rate of protein synthesis, (3) a lack of retinyl phosphate for the formation of mannosyl or other carbohydrate derivatives, and (4) secondary, and as yet undefined, cellular changes which preferentially reduce the rate of synthesis of high molecular weight fucose- and sialic-acid-enriched glycoproteins.     

Peptidoglycan biosynthesis in stationary-phase cells of Escherichia coli.

The ability of stationary-phase cells of Escherichia coli W7 to incorporate radioactive precursors into macromolecular murein has been studied. During the initial 6 h of the stationary phase, resting cells incorporated meso-[3H]diaminopimelic acid at a rate corresponding to the insertion of 1.3 X 10(4) disaccharide units min-1 cell-1. Afterwards, the rate of incorporation dropped drastically (90%) to a low but still detectable level. Incorporation during stationary phase did not result in an increased amount of total murein in the culture, suggesting that it was related to a turnover process. Analysis of the effects of a number of beta-lactam antibiotics indicated that incorporation of murein precursors in stationary-phase cells was mediated by penicillin-binding proteins, suggesting that the activity of penicillin-binding protein 2 was particularly relevant to this process.     

Biosynthesis of the carbohydrate portion of immunoglobins. Kinetics of synthesis and secretion of [3H]leucine-, [3H]galactose- and [3H]mannose-labelled myeloma protein by two plasma-cell tumours

The kinetics of incorporation of leucine, galactose and mannose into intracellular and secreted myeloma protein, MOPC 21 IgG(1) and MOPC 46 kappa-type light chain, by cell suspensions of two myeloma plasma-cell tumours, MOPC 21 and MOPC 46, were similar. Radioactive galactose was incorporated to over 90% into galactose residues of intracellular and secreted protein, mannose to over 90% into glucosamine and mannose residues of intracellular protein and to over 90% into glucosamine, mannose and fucose residues of secreted protein, but not into galactose residues. The results show that specific residues in the carbohydrate portion of myeloma proteins can be labelled by specific radioactive monosaccharides, and suggest that fucose residues are added, while myeloma protein is in its final stage of secretion from the plasma cell. The kinetics of incorporation indicate at least three sequential precursor-product relationships between different intracellular forms and the secreted form of myeloma protein.     

PROTEOLIPID PROTEIN: SYNTHESIS AND ASSEMBLY INTO QUAKING MOUSE MYELIN

The incorporation of radioactive glycine into the major myelin proteolipid protein isolated from whole brain and from purified myelin of Quaking mice and normal littermates was compared. In a typical experiment, four Quaking mice and four littermate controls were injected intracranially with 250 μCi [2-³H]glycine and 25 μCi [U-¹⁴C]glycine respectively. Three hours later, the eight mice were killed and their brains combined. Equivalent portions were taken for (1) chloroform-methanol (2:1) extraction followed by ether precipitation of proteolipid from the brain and (2) myelin preparation. The ^3H/¹⁴C ratios for the microsomes:, the major myelin proteolipid as well as the other non-myelin proteolipids extracted from whole brain was approx 3.0. while the ³H/¹⁴C ratio for proteolipid protein in myelin was near 0.4. These findings were consistent for ages studied between 18 and 90 days. The results indicate that the synthesis of the major myelin proteolipid protein in the whole brain of Quaking mouse, as seen previously in our studies on basic protein, proceeds at a normal rate relative to microsomes but its incorporation into myelin is depressed. A working hypothesis of myelin membrane assembly is presented to account for the defect in the incorporation of these proteins into Quaking myelin.     

Protein composition and synthesis in the adult mouse spinal cord

Propepties of spinal cord proteins were studied in adult mice subjected to unilateral crush or electrical stimulation of sciatic nerve. The protein composition of spinal tissue was determined using SDS-polyacrylamide gel electrophoresis coupled with subcellular fractionation. Comparisons of mouse spinal cord and brain revealed similarities in the types but differences in the concentrations of myelin associated proteins, nuclear histones and other proteins. Comparisons with sciatic nerve proteins demonstrated differences in types of proteins but similarities in the concentration of myelin proteins and nuclear histones. The short term (<2 hrs.) incorporation of radioactive amino acids into spinal cord proteins revealed heterogeneous rates of incorporation. Neither nerve crush six days prior to testing nor sciatic nerve stimulation had a significant effect on the protein composition or amino acid incorporation rates of spinal cord tissue. These observations suggest that known differences in spinal cord function following alterations in nerve input may be dependent upon different mechanisms than have been found in the brain.