The identification of polypeptides synthesised during the acquisition of teichoic acid synthetic activity in Bacillus licheniformis

An attempt has been made to identify proteins synthesised during induction of teichoic acid synthesis in Bacillus licheniformis ATCC 9945. The proteins are recognised as those produced on the change from teichuronic acid to teichoic acid synthesis that occurs after the transfer of the bacteria from phosphate-limited to phosphate-rich conditions. B. licheniformis was grown in phosphate-limiting conditions in the presence of threonine to stimulate threonine uptake. The bacteria were then transferred to phosphate-rich conditions and were pulsed-labelled with [¹⁴C]threonine during the change to teichoic acid synthesis. All of the proteins were extracted from the cells with sodium dodecyl sulphate and were examined by sodium dodecyl sulphate-polyacrylamide gel electrophoresis. Radioactive polypeptides were identified by fluorography of the polyacrylamide gels. The radioactive polypeptides that were formed on change from teichuronic acid to teichoic acid synthesis were compared with the polypeptides present in a membrane sub-fraction that had high teichoic acid-synthesising activity. The labelling of nine polypeptides with [¹⁴C]threonine was dependent on new RNA synthesis. Of these nine polypeptides, five were also present in the membrane sub-fraction with the highest teichoic acid-synthesising activity.     

Preparation of template plasmids for cell-free protein synthesis using a regenerated anion-exchange column

In this report, we describe how reactions of cell-free protein synthesis can be successfully conducted using plasmids prepared with regenerated anion-exchange columns. When washed, stripped, and equilibrated with appropriated buffers, regenerated columns were able to be used repeatedly to prepare plasmids with consistent yield and purity. The regenerated columns exhibited comparable performance to a fresh column with respect to the efficiency of protein synthesis using the plasmids prepared from them. Overall, we expect that the presented results will contribute significantly to economizing the technology of cell-free protein synthesis as a practical method for protein production in preparative scales.     

Some characteristics of terpenoid biosynthesis by leucoplasts of Citrofortunella mitis

The capacity of leucoplasts to synthesize monoterpene hydrocarbons has been further investigated by studying the synthesis of higher-terpene homologues. Isolated leucoplasts were unable to esterify chlorophyllides into chlorophylls and to synthesize carotenoids. In addition, the later steps of -tocopherol and phylloquinone synthesis were not performed. In spite of the presence of a prenyltransferase activity leading to the synthesis of alcohol terpenes higher than gerniol (farnesol, geranyl-geraniol), these higher terpenes were not further metabolized in vitro by leucoplasts.Abbreviation IPP isopentenyl pyrophosphate     

Fatty acid synthesis by slices from developing leaves

Fatty acid synthesis was studied in successive leaf sections from the base to the tip of developing barley (Hordeum vulgare L.), maize (Zea mays L.), rye grass (Lolium perenne L.) and wheat (Triticum aestivium L.) leaves. The basal regions of the leaves had the lowest rates of fatty acid synthesis and accumulated small amounts of very long chain fatty acids. Fatty acid synthesis was highest in the middle leaf sections in all four plants. Linolenic acid synthesis from [1-¹⁴C]acetate was highest in the distal leaf sections of rye grass. The labelling of the fatty acids of individual lipids of rye grass was examined and it was found that [¹⁴C]linolenic acid was highest in the galactolipids. Synthesis of this acid in the galactolipids was most active in leaf segment C. Only traces of [¹⁴C]linolenic acid were ever found in phosphatidylcholine and it is concluded that this phospholipid cannot serve as a substrate for linoleic acid desaturation in rye grass. The synthesis of fatty acids was sensitive to arsenite, fluoride and the herbicide EPTC. The latter was only inhibitory towards those leaf segments which made very long chain fatty acids. Formation of fatty acids from [1-¹⁴C]acetate was also studied in chloroplasts prepared from successive leaf sections of rye grass. Chloroplasts isolated from the middle leaf sections had the highest activity. Palmitic and oleic acids were the main fatty acid products in all chloroplast preparations. Linolenic acid synthesis was highest in chlorplasts isolated from the distal leaf sections of rye grass.     

A novel potassium deficiency-induced stimulon in<Emphasis Type="Italic">Anabaena torulosa</Emphasis>

Potassium deficiency enhanced the synthesis of fifteen proteins in the nitrogen-fixing cyanobacteriumAnabaena torulosa and of nine proteins inEscherichia coli. These were termed potassium deficiency-induced proteins or PDPs and constitute hitherto unknown potassium deficiency-induced stimulons. Potassium deficiency also enhanced the synthesis of certain osmotic stress-induced proteins. Addition of K⁺ repressed the synthesis of a majority of the osmotic stress-induced proteins and of PDPs in these bacteria. These proteins contrast with the dinitrogenase reductase ofA. torulosa and the glycine betaine-binding protein ofE. coli, both of which were osmo-induced to a higher level in potassium-supplemented conditions. The data demonstrate the occurrence of novel potassium deficiency-induced stimulons and a wider role of K+ in regulation of gene expression and stress responses in bacteria.     

Characterization of a novel cellulose synthesis inhibitor

The physiological effects of an experimental herbicide and cellulose synthesis inhibitor, N2-(1-ethyl-3-phenylpropyl)-6-(1-fluoro-1-methylethyl)-1,3,5-triazine-2,4-diamine, called AE F150944, are described. In the aminotriazine molecular class, AE F150944 is structurally distinct from other known cellulose synthesis inhibitors. It specifically inhibits crystalline cellulose synthesis in plants without affecting other processes that were tested. The effects of AE F150944 on dicotyledonous plants were tested on cultured mesophyll cells of Zinnia elegans L. cv. Envy, which can be selectively induced to expand via primary wall synthesis or to differentiate into tracheary elements via secondary wall synthesis. The IC₅₀ values during primary and secondary wall synthesis in Z. elegans were 3.91×10^–8 M and 3.67×10^–9 M, respectively. The IC₅₀ in suspension cultures of the monocot Sorghum halapense (L.) Pers., which were dividing and synthesizing primary walls, was 1.67×10^–10 M. At maximally inhibitory concentrations, 18–33% residual crystalline cellulose synthesis activity remained, with the most residual activity observed during primary wall synthesis in Z. elegans. Addition to Z. elegans cells of two other cellulose synthesis inhibitors, 1 M 2,6-dichlorobenzonitrile and isoxaben, along with AE F150944 did not eliminate the residual cellulose synthesis, indicating little synergy between the three inhibitors. In differentiating tracheary elements, AE F150944 inhibited the deposition of detectable cellulose into patterned secondary wall thickenings, which was correlated with delocalization of lignin as described previously for 2, 6-dichlorobenzonitrile. Freeze-fracture electron microscopy showed that the plasma membrane below the patterned thickenings of AE F150944-treated tracheary elements was depleted of cellulose-synthase-containing rosettes, which appeared to be inserted intact into the plasma membrane followed by their rapid disaggregation. AE F150944 also inhibited cellulose-dependent growth in the rosette-containing alga, Spirogyra pratensis, but it did not inhibit cellulose synthesis in Acetobacter xylinum or Dictyostelium discoideum, both of which synthesize cellulose via linear terminal complexes. Therefore, AE F150944 may inhibit crystalline cellulose synthesis by destabilizing plasma membrane rosettes.Abbreviations AE F150944 N2-(1-ethyl-3-phenylpropyl)-6-(1-fluoro-1-methylethyl)-1,3,5-triazine-2,4-diamine - CBI cellulose biosynthesis inhibiting - CGA CGA 325615, 1-cyclohexyl-5-(2,3,4,5,6-pentafluorophenoxy)-14,2,4,6-thiatriazin-3-amine - DCB 2,6-dichlorobenzonitrile - TE tracheary element     

Annual variations of the biochemical composition of Gelidium latifolium (Greville) Thuret et Bornet

Agar, floridean starch, protein, ash and water content in Gelidium latifolium from nature were followed monthly over one year. Comparison of variations in these contents, algal growth and cytological observations enable us to establish a cycle for agar synthesis. In autumn, after reproduction of alga, there is an active algal growth period with agar synthesis and utilization of floridean starch. In winter, synthesis is shifted toward protein accumulation while there is a partial agar hydrolysis. In spring another active growth period of the alga occurs with accumulation of floridean starch and synthesis of agar. In summer and during reproduction, there is a depletion of thalli nitrogen content while the agar synthesis pauses.     

Biosynthesis of ferredoxin in Chlamydomonas reinhardii

The selective action of the antibiotics chloramphenicol and cycloheximide on the synthesis of ferredoxin in liquid cultures of Chlamydomonas reinhardii was studied. Highly specific antibodies raised against Chlamydomonas ferredoxin were used to determine the in vivo synthesis of apoferredoxin and conversion into native protein. The results indicate that 80S ribosomes are involved in the synthesis. Chlamydomonas cells growing in the absence of iron did not synthesize immunologically detectable amounts of ferredoxin. We suggest that this is based upon feed-back inhibition of apoferredoxin synthesis at the translational level.Abbreviations CAP chloramphenicol - CHI cycloheximide - IgG Immunoglobulin G - PBS 140.4 mM NaCl. 9 mM Na₂HPO₄, 1.3 mM NaH₂PO₄ (pH 74) - SDS sodium dodecvl sulphate - Fd Ferredoxin - apoFd Apoferredoxin - CM-Fd Scarboxymethylated Fd - TCA-Fd Fd treated with trichloroacetic acid     

The sensitivity of the pseudomurein-containing genus Methanobacterium to inhibitors of murein synthesis

The sensitivity to inhibitors of various steps of murein synthesis was studied with six strains of methanogenic bacteria. Four of the strains belong to the genus Methanobacterium, which contains pseudomurein in its cell walls. This polymer-as well as murein-is not present in the two control organisms, Methanosarcina barkeri and Methanospirillum hungatii, which were found to be resistant to all inhibitors of murein synthesis. The four strains of Methanobacterium were resistant to the antibiotics fosfomycin, D-cycloserine, vancomycin, penicillin G and cephalosporin C, all of which inhibit the synthesis or function of the peptide subunits of murein. On the other hand, the four strains were susceptible to bacitracin, nisin, gardimycin and enduracidin. It is therefore assumed that the biosynthesis of murein and pseudomurein, respectively, may have some reactions of the so-called lipid cycle and the polymerization of the heteroglycan strands in common.     

Effect of 5-fluorouracil and cycloheximide on the early development of Phycomyces blakesleeanus spores and the activity of N-acetylglucosamine synthesizing enzymes

The development of germinating Phycomyces spores was not inhibited by 5-fluorouracil (1 mM) until the emergence of the germination tube. Fluorouracil was incorporated into RNA as efficiently as uracil; it did not inhibit the synthesis of proteins and the increase in respiratory activity during early develpment. Cycloheximide inhibited development as well as the increase in respiration and protein synthesis. This suggested that protein synthesis or some other cycloheximide dependent process, but no mRNA synthesis, was needed for the first developmental stages. The activity of two enzymes involved in the synthesis of N-acetylglucosamine increased markedly during germination. This increase was inhibited by both 5-fluorouracil and cycloheximide; this suggested that those enzymes were synthesized on mRNA formed during germination.     

A system in which anthocyanin synthesis is induced in regenerated torenia shoots

A system in which anthocyanin synthesis can be induced under defined conditions was established in regenerated torenia shoots. Leaf discs prepared from torenia plantlets grown under sterile conditions were placed on solidified half-strength MS medium containing 3% sucrose and 4.4×10^–6 M benzyladenine (BA) and cultured under 16 h light/8 h dark (standard light) conditions for 10 days, then in the dark for a further 10 days. The discs were transferred to medium containing 7% sucrose without BA and cultured under standard light conditions. Six days after transfer, anthocyanin synthesis started in the regenerated shoots, and thereafter, anthocyanin accumulation increased while chlorophyll content decreased. Experiments in which either the timing of illumination was altered or shoots were retransferred to medium containing 1.5% sucrose or other sugars as well as sucrose indicated that both osmotic stress and light are required to induce anthocyanin synthesis. Once anthocyanin synthesis was induced in the torenia shoots 6 days after transfer, the shoots were fated to the synthesis of anthocyanins and the degradation of chlorophylls, and could not revert to the developmental pathway of shoot regeneration. This system may provide a good model for the investigation of the mechanisms underlying the induction of anthocyanin synthesis.     

The energetic cost of protein synthesis in isolated hepatocytes of rainbow trout (Oncorhynchus mykiss)

Summary To establish the energetic cost of protein synthesis, isolated trout hepatocytes were used to measure protein synthesis and respiration simultaneously at a variety of temperatures. The presence of bovine serum albumin was essential for the viability of isolated hepatocytes during isolation, but, in order to measure protein synthesis rates, oxygen consumption rates and RNA-to-protein ratios, BSA had to be washed from the cells. Isolated hepatocytes were found to be capable of protein synthesis and oxygen consumption at constant rates over a wide range of oxygen tension. Cycloheximide was used to inhibit protein synthesis. Isolated hepatocytes used on average 79.7±9.5% of their total oxygen consumption on cycloheximide-sensitive protein synthesis and 2.8±2.8% on maintaining ouabain-sensitive Na⁺/K⁺-ATPase activity. The energetic cost of protein synthesis in terms of moles of adenosine triphosphate per gram of protein synthesis decreased with increasing rates of protein synthesis at higher temperatures. It is suggested that the energetic cost consists of a fixed (independent of synthesis rate) and a variable component (dependent on synthesis rate).Abbreviations BSA bovine serum albumin - dpm disintegrations per min - k _s fractional rate of protein synthesis - HEPES N-2-hydroxyethylpiperazine-N-2-ethane sulphonic acid - PHE phenylalanine; PO₂ oxygen tension - PCA perchloric acid     

Nitrite-driven anaerobic ATP synthesis in barley and rice root mitochondria

Mitochondria isolated from the roots of barley (Hordeum vulgare L.) and rice (Oryza sativa L.) seedlings were capable of oxidizing external NADH and NADPH anaerobically in the presence of nitrite. The reaction was linked to ATP synthesis and nitric oxide (NO) was a measurable product. The rates of NADH and NADPH oxidation were in the range of 12–16 nmol min⁻¹ mg⁻¹ protein for both species. The anaerobic ATP synthesis rate was 7–9 nmol min⁻¹ mg⁻¹ protein for barley and 15–17 nmol min⁻¹ mg⁻¹ protein for rice. The rates are of the same order of magnitude as glycolytic ATP production during anoxia and about 3–5% of the aerobic mitochondrial ATP synthesis rate. NADH/NADPH oxidation and ATP synthesis were sensitive to the mitochondrial inhibitors myxothiazol, oligomycin, diphenyleneiodonium and insensitive to rotenone and antimycin A. The uncoupler FCCP completely eliminated ATP production. Succinate was also capable of driving ATP synthesis. We conclude that plant mitochondria, under anaerobic conditions, have a capacity to use nitrite as an electron acceptor to oxidize cytosolic NADH/NADPH and generate ATP.     

菌株YN145对稻瘟病菌黑色素合成的影响及全基因组分析

【背景】枯草芽孢杆菌YN145是一株从湖南省桃江县的健康稻株中分离的细菌,前期研究中该菌对稻瘟病菌拮抗效果显著,在生物防治方面有很大的应用潜力。【目的】深入研究该菌株的生防机制并挖掘次级代谢产物基因资源。【方法】在4株稻瘟病菌生防菌中,选择其胞外抗菌物质抑制稻瘟病菌黑色素合成效果最佳的菌株YN145,采用紫外-可见分光光度计在波长400 nm处测定胞外和菌丝体内黑色素液的吸光度值,采用菌丝生长抑制平板法和分生孢子萌发抑制法测定抑菌活性。采用PacBio第三代测序和IlluminaHiSeq第二代测序相结合的技术对菌株YN145进行全基因组测序,并对测序数据进行组装,注释预测基因的功能,分析次级代谢产物合成基因簇。【结果】菌株YN145的胞外抗菌物质能较好地抑制稻瘟病菌黑色素合成、分生孢子萌发和菌丝生长。菌株YN145全基因组大小为4 167 871 bp,GC含量为43.86%,编码序列(coding sequence, CDS)数量为4 294个;共找到85个tRNA、30个rRNA和92个sRNA。同时预测到5个已知的次级代谢产物合成基因簇,分别编码合成bacillaene、bac...     

Impact of the <Emphasis Type="Italic">Botrytis cinerea</Emphasis> strain and metabolism on (−)-geosmin production by <Emphasis Type="Italic">Penicillium expansum</Emphasis> in grape juice

Geosmin, an off-flavour of some rotten grapes, has been implicated in wine defects. Botrytis cinerea and Penicillium expansum were the most common among the numerous microorganisms isolated from rotten grapes. P. expansum produces geosmin on model media but not healthy grape juice. However, geosmin synthesis by P. expansum was demonstrated in grape juice and on crushed grapes that had been pre-cultured with certain B. cinerea strains. 34 out of 156 B. cinerea strains ([bot +] phenotype) isolated from the centre of grape bunches were able to induce high geosmin production, up to 494 ng/l, by P. expansum in grape juice. A study of the impact of grape juice composition on geosmin synthesis by P. expansum revealed the importance of nitrogen composition, particularly amino-acid deficiency. Metabolism of amino acids by B. cinerea was shown to be favourable to geosmin synthesis by P. expansum. However, the amino-acid and ammonium concentrations in grape juices pre-cultured with B. cinerea [bot -] and [bot +] strains were very similar implying that other factors are involved as well. Indeed, an ethanol-precipitable fraction, probably a polysaccharide, synthesized by B. cinerea [bot -], but not [bot +] strains, inhibited geosmin production by P. expansum.     

Protein analysis during the ontogeny of normal and male sterile stamenless-2 mutant stamens of tomato (Lycopersicon esculentum Mill.)

The levels and synthesis of proteins during the ontogeny of normal and male sterile stamenless-2 (sl-2/sl-2) mutant stamens of tomato (Lycopersicon esculentum) were examined. The mutant stamens contained low levels of soluble protein which were related to reduction in protein synthesis. The mutant stamens, however, possessed many polypeptides similar to the normal and synthesized a 53-kd polypeptide at stages when there are abnormalities in tapetum development. The mutant stamens also possessed a 23-kd and some low molecular weight polypeptides that were considered as degradative proteins. Normal stamens exhibited the synthesis of many polypeptides not found in the mutant, from microspore mother cell to the preanthesis stages. In addition, at the time of pollen maturation there was a greater synthesis of several polypeptides, particularly those of 42 and 37 kd. Although the causative mechanisms of male sterility in the sl-2/sl-2 mutant are not known, the synthesis, and the lack, of specific polypeptides reported here appears to be associated with pollen degeneration.This work was supported by an operating grant from the Natural Sciences and Engineering Research Council of Canada to V.K.S.     

Patterns of polypeptide synthesis in various maize organs under anaerobiosis

The pattern of protein synthesis was compared in several organs of maize (Zea mays L.) under aerobic and anaerobic conditions. Protein synthesis was measured by [³⁵S]methionine incorporation and analysis by two-dimensional native-SDS (sodium lauryl sulfate) polyacrylamide gel electrophoresis and fluorography. The aerobic protein-synthesis profiles were very different for root, endosperm, scutellum and anther wall. However, except for some characteristic qualitative and quantitative differences, the patterns of protein synthesis during anaerobiosis were remarkably similar for these diverse organs and also for mesocotyl and coleoptile. The proteins synthesized were the anaerobic polypeptides (ANPs) which have been previously described in anaerobic roots of seedlings. Leaves exhibited no detectable protein synthesis under anaerobic conditions, and died after a short anaerobic treatment. Evidence is presented that the ANPs are not a generalized response to stress. This indicates that the ANPs are synthesized as a specific response to anaerobic conditions such as flooding.Abbreviations ADH alcohol dehydrogenase - ANP anaerobic polypeptide - SDS sodium lauryl sulfate     

Analysis of the mutagenic properties of the UmuDC, MucAB and RumAB proteins, using a site-specific abasic lesion

ThemucAB andrumAB loci have been shown to promote mutagenesis to a greater extent than the structurally and functionally homologousEscherichia coli umuDC operon. We have analyzed the basis of this enhanced mutagenesis by comparing the influence of these operons, relative toumuDC, on the mutagenic properties of each of two abasic sites, specifically located in a single-stranded vector. Experiments with these vectors are useful analytical tools because they provide independent estimates of the efficiency of translesion synthesis and of the relative frequencies of each type of nucleotide insertion or other kind of mutagenic event. TheumuDC, mucAB, andrumAB genes were expressed from their naturalLexA-regulated promoter on low-copy-number plasmids in isogenic strains carrying aumuDC deletion. In addition, plasmids expressing the UmuD'C, MucA'B, or RumA'B proteins were also used. Compared toumuDC, the chief effect ofmucAB was to increase the efficiency of translesion synthesis past the abasic site. The enhanced capacity ofmucAB for translesion synthesis depended about equally on an inherently greater capacity to promote this process and on a greater susceptibility of the MucA protein to proteolytic processing. The RumA protein also appeared to be more susceptible to proteolytic processing, but the inherent capacity of theRum products for translesion synthesis was no greater than that ofUmuDC. dAMP was inserted opposite one of the two abasic sites studied at a somewhat greater frequency in strains expressingrum (82%) compared to those expressingumu (72%), which might result in higher mutation frequencies inrumAB than inumuDC strains.