The nucleotide sequence at the 3'-end of Neurospora crassa 18S-rRNA and studies on the interaction with 5S-rRNA.

The sequence of more than 100 nucleotides at the 3'-end of Neurospora crassa 18S-rRNA was determined by chemical sequencing techniques. Extensive homologies with 18S-rRNA from other eukaryotes were found. Inspection of the nucleotide sequence at the 3'-end of N. crassa 5S-rRNA revealed the presence of sequences complementary to a region near the 3'-terminus of 18S-rRNA. Under the appropriate conditions a complex was formed between 18S-rRNA and 5S-rRNA (Tm 53 degrees C). Interaction was detected between 5S-rRNA and a specific 3'-terminal fragment from 18S-rRNA and between 18S-rRNA and a specific 3'-terminal fragment from 5S-rRNA. These findings are consistent with the idea that intermolecular base-pairing between nucleotides at the 3'-ends of 18S-rRNA and 5S-rRNA may be functionally important within the ribosome. Further investigation revealed that this intermolecular base-pairing is not essential for ribosome stability.     

Metabolism of 18S-rRNA in rat liver cells in different functional states of the protein-synthesizing apparatus

The ratio of absolute radioactivities of 28S and 18S ribosomal RNA in membrane-bound and free polysomes and in free ribosomes of rat liver were studied under conditions of translation inhibition by cycloheximide, insulin and cAMP. Insulin and cAMP, in contrast with cycloheximide, did not induce selective degradation of 18S-rRNA. The data obtained are discussed in terms of the feasible role of S6 protein phosphorylation in degradation of the 40S ribosomal subunit.     

Characterization of a protein synthesis system from rat liver. Translation of endogenous and exogenous messenger RNA

An in vitro system prepared from rat liver postmitochondrial supernatant exhibits a high rate of protein synthesis for an extended period of time. This system initiates translation of either endogenous or exogenous mRNA, incorporates Met at a rate of 13 pmol/mg of postmitochondrial supernatant protein/min, maintains this rate for at least 90 min, and performs several rounds of translation/mRNA molecule. Up to 50% of the activity is due to reinitiation of protein synthesis using endogenous mRNA. In addition, 60-70% of the protein synthesized was released from ribosomes into the medium. Addition of globin mRNA stimulates protein synthesis and results in the synthesis of a protein that comigrates with authentic rabbit globin. Black beetle virus mRNA 2 also stimulates protein synthesis and results in synthesis of a protein with molecular weight corresponding to that of the mature viral protein. With endogenous rat liver mRNA this system synthesizes a large number of proteins.     

Stability of poliovirus RNA in cell-free translation systems utilizing two initiation sites

The stability of purified poliovirus RNA in cell-free translation systems prepared from HeLa cells or rabbit reticulocytes has been examined. Degradation of the RNA occurs with a t1/2 of approximately 35 min at 30 degrees C under conditions used for in vitro translation. Degradation is due in part to activity in the cell lysate, and in part to contaminants in the commercial preparations of creatine phosphokinase used in the energy-regenerating system. Addition of crude preparations of initiation factors significantly slows degradation, presumably as a result of protein-RNA interactions which confer resistance to nuclease action. Prior treatment of RNA with methylmercury hydroxide has no effect on degradation rates. On the other hand, endogenous mRNA, present as a messenger ribonucleoprotein particle in extracts from poliovirus-infected HeLa cells, remains completely intact during in vitro translation. These infected cell extracts synthesize the normal complement of viral proteins and utilize two different initiation sites for translation. Treatment of the infected cell extract with micrococcal nuclease destroys the endogenous mRNA. Subsequent addition of exogenous RNA to the same extract results in the formation of a protein-associated RNA particle with sedimentation properties slightly different from the endogenous messenger ribonucleoprotein, and the added RNA is unstable. We conclude that two initiation sites can be utilized on intact poliovirus mRNA, and fragmentation of the RNA is not prerequisite for generation of a second site in this RNA.     

Evidence for a dual mechanism of lipolysis activation by epinephrine in rat adipose tissue

Whole homogenates prepared from tissue previously exposed to epinephrine displayed a 3-fold increased rate of lipolysis of endogenous substrate. When the aqueous infranatant phase of such homogenates was collected by centrifugation and assayed against exogenous triolein emulsions, no hormone effect could be demonstrated. Treatment of such infranatants with cAMP-dependent protein kinase prepared from muscle increased their lipase activity against exogenous triolein by 80%. Employing [3H]triolein emulsions as exogenous substrate, rates of lipolysis of both endogenous and exogenous glycerides were measured simultaneously in whole tissue homogenates. Prior treatment of the tissue with epinephrine increased the rate of lipolysis of endogenous glycerides an average of 3-fold but had no effect on the hydrolysis of exogenous triolein. By contrast, treatment of whole homogenates with protein kinase accelerated lipolysis of exogenous triolein without altering the rate of hydrolysis of endogenous glycerides. The data suggest that a second pathway of lipolysis activation occurs in response to epinephrine in addition to that involving a cAMP-mediated increase in the state of phosphorylation of the hormone-sensitive lipase.     

The most important stages of the mechanism of action in vivo of carcinogen diethylnitrosoamine and its effect on the synthesis of RNA,proteins, DNA,and deoxyribonucleotides

The mechanisms of nitric oxide (NO) generation from exogenous and endogenous sources, induced by the addition of the carcinogen diethylnitrosoamine (DENA) to rat organism have been studied. Within 15 h after the addition of DENA, the carcinogen itself acts as an exogenous NO donor. The products of protein degradation (the process induced by DENA) act as endogenous donors of NO. It was shown that the generation of NO from DENA leads to deep hemic and tissue hypoxia and induces the inactivation of oxygen-dependent enzymes, including ribonucleotide reductase, and the inhibition of ATP synthesis. Under these conditions, the protein synthesis and as a consequence the synthesis of deoxyribonucleotides and DNA are strongly suppressed; i.e., DENA produces the effect similar to the action of the antibiotic cycloheximide, an inhibitor of translation. The administration of cycloheximide to the animal organism also led to the appearance of a considerable amount of NO in the blood. It is assumed that NO initiates (on the administration of the carcinogen) or at least enhances (on the administration of cycloheximide) the blockage of the synthesis of the protein, deoxyribonucleotides, and DNA. In response to the disturbance of protein synthesis, the complex of enzymes is activated that accomplish the utilization of the degradation products of proteins, including the inducible form of NO synthase.     

Effects of ribosomal wash factors and spermidine on endogenous and exogenous mRNA stimulated protein synthesis in the wheat germ cell-free system.

Differential effects of Mg2+, spermidine, and reticulocyte ribosomal wash factors on the translation of endogenous, myeloma, and globin mRNA's have been observed in studies with the wheat germ cell-free protein synthesizing system. Spermidine stimulated globin mRNA translation but not the translation of endogenous wheat germ messages, and the polyamine actually inhibited the translation of myeloma mRNA. Ribosomal wash factors, on the other hand, stimulated endogenous and myeloma mRNA dependent protein synthesis in an Mg2+-dependent fashion but inhibited globin mRNA translation. The combination of ribosomal wash factors and spermidine was either stimulatory or inhibitory depending on the Mg2+ concentration and the message. It was further observed that translation of exogenous myeloma mRNA proceeded for only 60 min at 25 degrees C under all conditions tested in this study, while translation of endogenous wheat germ messages continued for longer periods of time. No differential effects of spermidine on the synthesis of high molecular weight myeloma proteins were observed.     

Initiation of endogenous messenger RNA translation on hen oviduct polysomes.

The eIF-2A fraction of reticulocyte ribosomal salt wash is capable of maximally stimulating the translation of endogenous messenger RNA by hen oviduct polysomes. The factor increases the initiation of protein synthesis 2--3-fold when measured by the factor-dependent synthesis of NH2-terminal peptides. The addition to these polysomes of elongation factor, EF-1, also increases protein synthesis but at a distinctly different rate and Mg2+ concentration optimum than the eIF-2A fraction. Moreover, there is no stimulation of NH2-terminal peptide synthesis with EF-1 alone. In contrast, all the known initiation factors are required for the translation of exogenous globulin mRNA on oviduct polysomes. Reticulocyte polysomes isolated by an identical procedure to that used for oviduct polysomes or by standard methods also require all the initiation factors for the translation of either endogenous mRNA or exogenous ovalbumin mRNA. Addition of 7-methylguanosine 5'-monophosphate does not inhibit the factor-dependent stimulation of oviduct polysomes except at high concentrations (1.0 mM) indicating that the sites with which 7-methylguanosine 5'-monophosphate normally competes are already occupied. These findings suggest that the messenger RNA remains bound to the oviduct polysomes or initiation factors. Hence the addition of exogenous factors which are involved with mRNA recognition and binding to the ribosome are not required. It has been previously shown that eIF-2A is capable of binding in vitro the initiatior tRNA to an existing Ado-Urd-Gua-40 S complex and initiating protein synthesis when such a complex is present. These present studies indicate that such an initiation complex may exist within the oviduct cell on membrane-associated polysomes. Under these circumstances eIF-2A mediates binding of the initiator tRNA and initiates protein synthesis.     

Detection of acceptor sites for antisense oligonucleotides on native folded RNA by fluorescence spectroscopy

Antisense strategy has high potential for curing diseases and studying gene functions by suppressing the translation step. For the strategy, it is essential to detect acceptor sites of antisense molecules on mRNA under physiological conditions. We propose a new analytical method for the detection of acceptor sites of antisense molecules with high sensitivity. 2'-O-Methyloligoribonucleotide containing 2'-O-(1-pyrenylmethyl)uridine (OMUpy) was chosen as the fluorescence probe. The fluorescence intensity due to the pyrene in single-stranded OMUpy was scarcely observed. When OMUpy was hybridized with the complementary oligoRNA, the fluorescence intensity at 375 nm was remarkably increased. It was found that the increase was derived from the localization of the pyrene by the measurements of time-resolved fluorescence spectroscopy, CD and UV absorption spectra. These results suggest that the change of the fluorescence intensity of OMUpy can be a useful index to monitor hybridization. In this study, we chose Escherichia coli. 16S-rRNA as the model RNA and chose seven regions for probing by OMUpy based on the reported secondary structure of 16S-rRNA. The fluorescence intensity of an equimolar mixture of OMUpy with 16S-rRNA varied depending on the sequence. In particular, the increment in the system of OMUpy-8, which can hybridize with region 887-896 nt of 16S-rRNA, was most significant among the systems. These results indicated that the site targeted by OMUpy-8 was exposed to regulatory molecules, and suggest that the method presented here is useful to design antisense molecules.     

植物激素对体细胞胚胎发生的诱导与调节

以作者自己的工作为背景,结合国内外近几年的有关报道,综述了几种外源和内源激素对植物体细胞胚胎发生的诱导与调节作用。外源生长素和细胞分裂素是诱导离体培养细胞分化与增殖所必需的,2,4-D是诱导胚性愈伤组织的重要激素。在体细胞胚胎发生中内源激素含量和代谢的平衡起着关键的作用,而且外源和内源激素对诱导体细胞胚胎发生起相互调节作用。ABA在提高体细胞胚胎发生频率和质量上具有重要作用,同时,外源与内源ABA对体细胞胚胎发生起相互促进作用。本文还较为深入地讨论了这些激素诱导体细胞胚胎发生的可能作用机制。 Abstract:The paper summarizes the induced and regulatory effects of a few exogenous and endogenous hormones in plant somatic embryogenesis by our studies and related international reports.The exogenous auxin and cytokinin are necessary to induced differentiation and proliferation of cells of culture in vitro.2,4-D is an important hormone of induced embryogenic calluses.The contents and the metabolic balances of endogenous hormones have key effects for somatic embryogenesis.In addition,the exogenous and endogenous hormones have mutual regulatory effects for somatic embryogenesis.ABA has an important effect to improving the frequency and quality of somatic embryogenesis.Meanwhile,the exogenous and endogenous ABA have mutual promoted effects for somatic embryogenesis.The paper discusses possible mechanism of hormones-induced somatic embryogenesis in a deep-going way.     

Inhibition of protein synthesis by acetyl-coenzyme A in a cell-free system: possible involvement of protein acetylation in the regulation of translation

Acetyl-coenzyme A (CoASAc) inhibits the rate of incorporation of amino acid into protein in a cell-free system of mouse liver. The effect is more pronounced when exogenous mRNA (tobacco mosaic virus or globin mRNA) rather than endogenous messages are used. Micromolar concentrations of the cofactor block initiation, while millimolar concentrations cause a more general inhibition of the translation process, that affects, in addition, the elongation step. Inclusion of [1-14C]acetyl-CoA in a protein synthesis reaction mixture results in a very rapid and selective labelling of a protein of 200 kd of the 'pH 5' fraction. The possible involvement of the acetylating event in the regulation of protein synthesis is discussed.     

Phosphorylation of a pancreatic zymogen granule membrane protein by endogenous calcium/phospholipid-dependent protein kinase

The occurrence of phospholipid-sensitive calcium-dependent protein kinase (referred to as C kinase) and its endogenous substrate proteins was examined in a membrane preparation from rat pancreatic zymogen granules. Using exogenous histone H1 as substrate, C kinase activity was found in the membrane fraction. The kinase was solubilized from membranes using Triton X-100 and partially purified using DEAE-cellulose chromatography. An endogenous membrane protein (Mr approximately equal to 18 000) was found to be specifically phosphorylated in the combined presence of Ca2+ and phosphatidylserine. Added diacylglycerol was effective in stimulating phosphorylation of exogenous histone by the partially purified C kinase, but had no effect upon phosphorylation of the endogenous 18 kDa protein by the membrane-associated C kinase. Phosphorylation of the 18 kDa protein was rapid (detectable within 30 s following exposure to Ca2+ and phosphatidylserine), and highly sensitive to Ca2+ (Ka = 4 microM in the presence of phosphatidylserine). These findings suggest a role for this Ca2+-dependent protein phosphorylation system in the regulation of pancreatic exocrine function.     

Correlation Between the Antiviral Effect of Interferon Treatment and the Inhibition of In Vitro mRNA Translation in Noninfected L cells

When noninfected L-cell suspension cultures are treated with interferon (specific activities superior to 10(6) reference units per mg of protein), the cell-free cytoplasmic extracts obtained are inactive for the translation of exogenous natural mRNAs. The dose-response curve shows that comparable amounts of interferon are required to produce a 50% reduction of Mengo virus multiplication in vivo and Mengo RNA translation in vitro. With higher doses of interferon, Mengo RNA translation is completely abolished, while poly U translation and endogenous protein synthesis are only slightly affected. The inactivation of Mengo RNA translation is reversible; after removal of interferon, normal translation activity is regained together with the ability to support Mengo virus multiplication. Fractionation of the cell-free extracts shows that the effect is localized in the fraction which can be washed off the ribosomes by high salt. These results establish that interferon induces a block in genetic translation in noninfected L cells.     

Catalytic utilization of eIF-2 and mRNA binding proteins are limiting in lysates from vesicular stomatitis virus infected L cells

Infection of mouse L cells by vesicular stomatitis virus results in the inhibition of cellular protein synthesis. Lysates prepared from these infected cells are impaired in their ability to translate endogenous or exogenous cellular and viral mRNAs. The ability of initiation factors from rabbit reticulocytes to stimulate protein synthesis in these lysates was examined. Preparations of eukaryotic initiation factor 2 (eIF-2) and the guanine nucleotide exchange factor (GEF) stimulated protein synthesis strongly in L cell lysates from infected cells but only slightly in lysates from mock-infected cells. Maximal stimulation was obtained when a fraction containing eukaryotic initiation factors 4B (eIF-4B) and 4F (eIF-4F) was also present. In lysates from infected cells, these initiation factors increased endogenous cellular mRNA translation on the average 2-fold. In contrast, endogenous viral mRNA translation was increased to a much greater extent: the M protein was stimulated 8-fold, NS 5-fold, N 2.5-fold, and G 12-fold. When fractions containing eIF-4B, eIF-4F, or eIF-4A were added to these lysates in the presence of eIF-2, all three stimulated translation. Fractions containing rabbit reticulocyte initiation factors eIF-3 and eIF-6 had no effect on translation in either lysate. The results suggest that lysates from infected L cells are defective in the catalytic utilization of eIF-2 and deficient in mRNA binding protein activity.     

Influence of exogenous substrates on the endogenous respiration of Pseudomonas aeruginosa

Gronlund, Audrey F. (University of British Columbia, Vancouver, Canada), and J. J. R. Campbell. Influence of exogenous substrates on the endogenous respiration of Pseudomonas aeruginosa. J. Bacteriol. 91:1577-1581. 1966.-The influence of growth conditions, ammonium ions, and glucose concentration on endogenous respiration in Pseudomonas aeruginosa was determined by measuring C(14)O(2) evolution from uniformly labeled cells that had previously been grown on C(14)-glucose. A 93% suppression of endogenous C(14)O(2) evolution was evident under growth conditions, and a 66% suppression was observed in the presence of excess glucose. Increasing exogenous glucose concentrations supported decreasing levels of endogenous C(14)O(2) evolution. Ammonium ions slightly suppressed endogenous activity and enhanced the decrease in C(14)O(2) release observed with exogenous glucose. In addition, the effect of exogenous glucose, alpha-ketoglutarate, 2-ketogluconate, aspartic acid, and adenosine selectively on both endogenous ribonucleic acid (RNA) and protein oxidation was followed by measuring C(14)O(2) evolution from cells grown with C(14)-uracil or C(14)-proline. The five exogenous substrates examined suppressed endogenous RNA oxidation, and the degree of suppression appeared to be correlated with the amount of oxygen consumption and, hence, energy gained during the oxidation of these substrates. Oxidation of endogenous protein was decreased when cells were incubated with glucose, aspartate, and adenosine, but was increased when alpha-ketoglutarate and 2-ketogluconate were the exogenous substrates. The influence of the oxidizable exogenous compounds appeared to be related, in part, to the ammonium ion requirement imposed upon the cells for assimilation of the individual exogenous substrate.     

The poly(A)-binding protein facilitates in vitro translation of poly(A)-rich mRNA

To investigate the role of the 73-kDa poly(A)-binding protein in protein synthesis, the effect of the addition of homo-polyribonucleotides on the translation of polyadenylated and non-adenylated mRNA was studied in the rabbit reticulocyte lysate. Poly(A) was found to be the most effective polynucleotide in inhibiting duck-globin mRNA translation, whereas it had no effect on the translation of polyribosomal duck-globin mRNP, or on the endogenous synthesis of the rabbit reticulocyte lysate. The translation of poly(A)-free mRNA was not affected by the addition of poly(A). Furthermore, we found that the inhibiting effect of poly(A) can be reversed by addition of purified poly(A)-binding protein. It is thus likely that the 73-kDa poly(A)-binding protein is an essential factor necessary for poly(A)-rich mRNA translation.     

Release of the inhibition of messenger RNA translation in extracts of interferon-treated Ehrlich ascites tumor cells by added transfer RNA

In an extract of Ehrlich ascites tumor (EAT) cells which had been “preincubated” for 45 min to lower endogenous protein synthesis (S30_C) the translation of exogenous encephalomyocarditis (EMC) viral mRNA proceeds at a constant rate for over 90 min. In a similarly treated extract of interferon-treated EAT cells (S30_INT) the translation proceeds at a lower rate than in the S30_C for about 30 min and then stops. The impairment of the translation in the S30_INT is mediated by one or more inhibitors. After the cessation of translation the viral mRNA in the S30_INT is in large polysomes. The size of these changes little (if any) during a further 15 min incubation. The addition of mouse tRNA (but not ribosomal RNA or $\text{E. coli}$ tRNA) to the S30_INT after the cessation of viral mRNA translation results in the restart of translation at a rate close to that in the S30_C. This effect of tRNA is diminished by pactamycin, which inhibits peptide chain initiation but not elongation. These results indicate that addition of tRNA allows the elongation of incomplete peptide chains and the initiation of new chains. The need for added tRNA may be due to the fact that in S30_INT the amino acid acceptance of some of the endogenous tRNA species (but not of added tRNAs) is impaired. This impairment is pronounced for leucine and very slight, if any, for five other amino acids tested (i.e. isoleucine, methionine, phenylalanine, threonine, and valine).     

The mechanisms of nitric oxide production from exogenous and endogenous NO-donating compounds in cells of higher animals and the influence of nitric oxide on deoxyribonucleotide and DNA synthesis

The mechanisms of exogenous nitric oxide (NO) production through in vivo biotransformation of nitro-, nitroso-and amino-containing substances were discussed. In addition, the mechanisms of production and cellular sources of endogenous NO, appearing in the blood and tissues after the exposure to various DNA-damaging factors, have been considered. Considerable quantities of endogenous NO were detected in the body in the first hours after translation inhibition by cycloheximide or animal exposure to superlethal radiation doses, i.e., after the exposure to factors inducing destructive processes. The time and dose dependences of exogenous and endogenous NO production have been established. NO produced after a single or repeated administration of NO-donating compounds as well as endogenous NO proved to inhibit deoxyribonucleotide (dNTP) and DNA synthesis in animal tissues. Nonspecific compensatory responses to disturbed protein homeostasis included cyclic production of endogenous NO. The maximum levels of nitrosyl complexes were registered when the rate of protein synthesis decreased. The role of polyamines in the induction of macromolecule biosynthesis is discussed and NO production from these arginine-rich compounds is proposed. NO is released at the stage of polyamine inactivation. The inactivation mechanism includes the hydroxylation of aminogroups by NO synthase, the formation of nitroso intermediates, and their denitrosation with NO release.