A Chlamydomonas reinhardii mutant with catalytically and structurally altered ribulose-5-phosphate kinase

The biochemical lesion in a light-sensitive, acetate-requiring Chlamydomonas mutant was identified. This strain, designated rpk, exhibited photosynthetic rates less than 3% of the wild-type. Analysis of photosynthetic products by high-performance liquid chromatography demonstrated an accumulation of ¹⁴C label in pentose and hexose monophosphates. After 1 min of photosynthesis in ¹⁴CO₂ these intermediates comprised 27.5% of the label in the mutant compared with 8% in the wild-type. The mutant pheno-type was caused by a 20-fold reduction in ribulose-5-phosphate (Ru5P)-kinase (EC 2.7.1.19) activity. The mutant exhibited wild-type levels of ribulose-1,5-bisphosphate carboxylase (EC 4.1.1.39), fructose-1,6-bisphosphate aldolase (EC 4.1.2.13) and transketolase (EC 2.2.1.1) indicating that the mutation specifically affected Ru5P kinase. In a cross of the mutant with the wild-type, tetrad progeny segregated in a Mendelian fashion (1:1) and light-sensitivity cosegregated with reduced Ru5P-kinase activity and an acetate requirement for growth. Almost normal levels of Ru5P-kinase protein were detected in the mutant by probing nitrocellulose replicas of sodium dodecylsulfate-polyacrylamide gels with anti-Ru5P-kinase antibody. The subunit size of the mutant enzyme, 42 kDa, was identical to that of the wild-type. Isoelectric focusing of the native protein determined that the mutant protein was altered, exhibiting a more acidic isoelectric point than the wild-type protein. Thus, the molecular basis for the lesion affecting Ru5P-kinase activity in mutant rpk is a charge alteration which results in a partially impaired enzyme.Abbreviations Chl chlorophyll - Da dalton - FCCP carbonylcyanide-p-trifluorophenylhydrazone - RuBP ribulose-1,5-bisphosphate - Ru5P ribulose-5-phosphate     

Heat stress effects on ribulose-1,5-bisphosphate carboxylase/oxygenase,Rubisco binding protein and Rubisco activase in wheat leaves

Changes in chlorophyll content, ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) binding protein (RBP), Rubisco activase (RA), Rubisco large (LS) and small (SS) subunits, and electrolyte leakage were investigated in wheat leaf segments during heat stress (HS) for 1 h and for 24 h at 40 °C in darkness or in light, as well as after recovery from heat stress (HSR) for 24 h at 25 °C in light. The 24-h HS treatment in darkness decreased irreversibly photosynthetic pigments, soluble proteins, RBP, RA, Rubisco LS and SS. An increase in RA and RBP protein contents was observed under 24-h HS and HSR in light. This increase was in accordance with their role as chaperones and the function of RBP as a heat shock protein.This work was partially supported by Swiss National Science Foundation (Project 31-55289.98).     

Siderophore production of a periplasmic transport binding protein kinase gene defective mutant of Magnetospirillum magneticum AMB-1

A non-magnetic mutant, NMA61, of the magnetic bacterium Magnetospirillum magneticum AMB-1 was generated by transposon mutagenesis to identify genes involved in magnetosome synthesis. The genomic region of NMA61 interrupted by a Mini-Tn5 transposon was analyzed. The transposon was inserted in an open reading frame (ORF) coding for a periplasmic transport binding protein kinase gene homologue. Three adjacent ORFs and a promoter were identified upstream, indicating that the sequences comprised an operon. Phenotype characterizations showed that the growth inhibition imposed by the exogenous non-assimilable iron chelator nitrilotriacetate was relieved in wild type but not in NMA61, by the addition of the isolated wild type siderophore. Higher concentration of siderophores accumulated in the culture medium of NMA61 than in wild type. These data suggest that the interrupted periplasmic transport binding protein kinase gene homologue is required for siderophore transport into M. magneticum AMB-1.     

Differential gene expression of chloroplast and cytosolic phosphoglycerate kinase in tobacco

Northern blot analysis of RNA extracted from leaves of increasing age and different organs, indicates that genes encoding both isoenzymes of tobacco phosphoglycerate kinase (PGK, EC 2.7.2.3) are differentially expressed in a developmental and tissue-specific manner. The genes for both chloroplast PGK (chl-PGK) and cytosolic PGK (cyt-PGK) also show light-modulated gene expression in vivo. In dark-grown developing cotyledonary leaves of tobacco both PGK mRNAs are present, but only the concentration of the chl-PGK mRNA increased on illumination. In contrast, on transfer to darkness, the concentration of both mRNAs decreased in light-grown seedlings and then increased again on resumption of illumination.     

The drelationship between CO2-assimilation rate,Rubisco carbamylation and Rubisco activase content in activase-deficient transgenic tobacco suggests a simple model of activase action

Transgenic tobacco (Nicotiana tabacum L. cv. W38) plants with an antisense gene directed against the mRNA of ribulose-1,5-bisphosphate carboxylase/ oxygenase (Rubisco) activase were used to examine the relationship between CO₂-assimilation rate, Rubisco carbamylation and activase content. Plants used were those members of the r₁ progeny of a primary transformant with two independent T-DNA inserts that could be grown without CO₂ supplementation. These plants had from < 1% to 20% of the activase content of control plants. Severe suppression of activase to amounts below 5% of those present in the controls was required before reductions in CO₂-assimilation rate and Rubisco carbamylation were observed, indicating that one activase tetramer is able to service as many as 200 Rubisco hexadecamers and maintain wild-type carbamylation levels in vivo. The reduction in CO₂-assimilation rate was correlated with the reduction in Rubisco carbamylation. The anti-activase plants had similar ribulose-1,5-bisphosphate pool sizes but reduced 3-phosphoglycerate pool sizes compared to those of control plants. Stomatal conductance was not affected by reduced activase content or CO₂-assimilation rate. A mathematical model of activase action is used to explain the observed hyperbolic dependence of Rubisco carbamylation on activase content.Abbreviations CA1P 2-carboxyarabinitol-1-phosphate - P_ip_a intercellular, ambient partial pressure of CO₂ - PGA 3-phospho-glycerate - Rubisco ribulose-1,5-bisphosphate carboxylase/oxygenase - RuBP ribulose-1,5-bisphosphate - SSU small subunit of Rubisco     

Circadian and senescence-enhanced expression of a tobacco cysteine protease gene

A cDNA clone encoding a cysteine protease was isolated from a tobacco cDNA library, utilizing as a probe a PCR fragment obtained from degenerated primers based on the conserved sequences of plant cysteine protease genes. A putative protein encoded by the clone NTCP-23 had an amino acid sequence with significant similarities to those of plant senescence-associated cysteine proteases and mammalian cathepsin H. Northern blot analysis showed that NTCP-23 mRNA is expressed in all organs and the mRNA and protein expression is enhanced during natural senescence. We propose that NTCP-23 is responsible for amino acid remobilization especially in senescencing leaves. Furthermore, it was found that the mRNA expression follows a circadian rhythm and is reduced by continuous darkness, wounding and hypersensitive reaction (HR). NTCP-23 is the first cysteine protease whose mRNA expression has been shown to be temporarily reduced by wounding.     

Pollination-enhanced expression of a receptor-like protein kinase related gene in tobacco styles

We have isolated a putative serine/threonine receptor kinase gene with an expression pattern indicating that it may play a role in the stylar response to pollination. Differential display PCR was used to select tobacco mRNAs with increased accumulation following pollination. NTS16, a cDNA identified by this method, is homologous to a ca. 2.4 kb mRNA primarily expressed in pistil tissues. Levels of this mRNA increase during floral development and are further increased by pollination reaching maximal accumulation 12–18 hours after pollination and then declining. mRNA levels can also be increased by the application of ethylene to unpollinated flowers. A polypeptide encoded by the NTS16 open reading frame has sequence similarity to the catalytic domain of several receptor protein kinases from plants including the S-receptor kinases implicated in the rejection of self-pollen in Brassica species and the Pto gene product of tomato which confers resistance to a bacterial pathogen.     

Cysteine proteinases regulate chloroplast protein content and composition in tobacco leaves: a model for dynamic interactions with ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) vesicular bodies

The roles of cysteine proteinases (CP) in leaf protein accumulation and composition were investigated in transgenic tobacco (Nicotiana tabacum L.) plants expressing the rice cystatin, OC-1. The OC-1 protein was present in the cytosol, chloroplasts, and vacuole of the leaves of OC-1 expressing (OCE) plants. Changes in leaf protein composition and turnover caused by OC-1-dependent inhibition of CP activity were assessed in 8-week-old plants using proteomic analysis. Seven hundred and sixty-five soluble proteins were detected in the controls compared to 860 proteins in the OCE leaves. A cyclophilin, a histone, a peptidyl-prolyl cis-trans isomerase, and two ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) activase isoforms were markedly altered in abundance in the OCE leaves. The senescence-related decline in photosynthesis and Rubisco activity was delayed in the OCE leaves. Similarly, OCE leaves maintained higher leaf Rubisco activities and protein than controls following dark chilling. Immunogold labelling studies with specific antibodies showed that Rubisco was present in Rubisco vesicular bodies (RVB) as well as in the chloroplasts of leaves from 8-week-old control and OCE plants. Western blot analysis of plants at 14 weeks after both genotypes had flowered revealed large increases in the amount of Rubisco protein in the OCE leaves compared to controls. These results demonstrate that CPs are involved in Rubisco turnover in leaves under optimal and stress conditions and that extra-plastidic RVB bodies are present even in young source leaves. Furthermore, these data form the basis for a new model of Rubisco protein turnover involving CPs and RVBs.     

Acetylcholine synthesis and accumulation in the CNS of Drosophila larvae: analysis of shibirets, a mutant with a temperature-sensitive block in synaptic transmission

A radiochemical method is applied to the study of neurotransmitter metabolism in Drosophila. The larval CNS is a favorable system for analyzing acetylcholine (ACh) metabolism, since the pool of [3H]ACh rapidly reaches a steady state with a high ratio of intracellular [3H]ACh to [3H]choline. A temperature-sensitive paralytic mutant, shibirets, shows reduced [3H]ACh accumulation at the restrictive temperature. This reduction is not the result of decreased synthesis of [3H]ACh, but rather an abnormally rapid rate of release, which is not prevented by blocking tetrodotoxin-sensitive nerve activity.     

Structure,expression and localization of a germin-like protein in barley (Hordeum vulgare L.) that is insolubilized in stressed leaves

The primary leaves of young barley seedlings contain two major, extracellular, acid-soluble proteins of ca. 22 and 23 kDa apparent molecular mass. These proteins disappeared from the intercellular washing fluid upon stress treatments that enhanced H₂O₂ levels and that induced resistance to subsequent challenge by the powdery mildew fungus Erysiphe graminis f. sp. hordei. A partial peptide sequence of the 22 kDa protein was determined, and a cDNA clone was isolated. The 22 kDa protein belongs the the group of germin-like proteins (GLPs) and was designated HvGLP1. Despite its similarity to germin, i.e. oxalate oxidase, no oxalate oxidase activity of HvGLP1 could be detected. The RNA and soluble protein of HvGLP1 was highly abundant in young leaves, less abundant in older leaves and absent in roots. HvGLP1 RNA oscillated with a circadian rhythm, the minimum and maximum of RNA abundance being at the end of the dark and light periods, respectively. Heat and H₂O₂ treatment as well as pathogen infection caused disappearance of HvGLP1 protein from the fraction of soluble proteins of the intercellular space. HvGLP1 protein could be re-solubilized from cell walls of heat- or H₂O₂-treated leaves by boiling in SDS suggesting non-covalent cross linking. Although a physiological role of HvGLP1 insolubilization is still open, the protein may serve as marker for oxidative stress in cereals.     

A cell cycle ts mutant, tsJT16, is defective in p70 synthesis through protein kinase C-dependent and -independent pathways.

tsJT16 is a G0/G1 ts mutant from the Fischer rat fibroblast line. It has a ts defect in a function operating early after growth stimulation with fetal bovine serum (FBS). A primarily induced gene product, p70, was not synthesized at 40 degrees C after stimulation with serum, while c-fos and c-myc mRNAs accumulated under the same condition. This paper reports that p70 was synthesized following stimulation of G0-arrested cells with platelet-derived growth factor, epidermal growth factor (EGF), and 12-0-tetradecanoylphorbol-13-acetate (TPA) at 34 degrees C, but not at 40 degrees C. However, it was synthesized at both temperatures after addition of A23187. In protein kinase C-deprived cells, peptide growth factors and A23187 induced p70 at 34 degrees C, whereas TPA did not. Fibroblast growth factor and insulin did not induce p70. Induction of c-fos and c-myc occurred at both temperatures after the stimulation with FBS, TPA or A23187. These results indicated that the defect in tsJT16 to induce p70 is likely to be located at the common downstream of protein kinase C-dependent and -independent pathways, but is independent from the pathway of calcium mobilization.     

Combining a host gene and a tobacco vein mottling virus coat protein gene for broad and effective resistance to potyviruses in tobacco (Nicotiana tabacum L.)

Over 100 transgenic tobacco lines in five genetic backgrounds were transformed with the tobacco vein mottling virus (TVMV) coat protein (CP) gene. Transgenic lines were initially tested for their reaction to inoculation with a TVMV systemic strain (TVMV-S) and a potato virus Y common strain (PVY-O). Of the 104 TVMV CP lines 60% were classified as resistant to PVY-O, whereas only 30% of these same lines were resistant to TVMV-S. A subset of six PVY-O-resistant transgenic lines and four control lines were tested for their reaction to a local isolate of TVMV, tobacco etch virus (TEV) and five isolates of PVY. The same ten lines were also tested for responses to a serial dilution of inoculum for two PVY isolates, PVY-KY1 and PVY-NN. Transgenic lines carrying an endogenous resistance gene known as Virgin A mutant (VAM) had greater resistance and a broader spectrum of resistance than did transgenic lines without the VAM gene. This additive effect of the endogenous resistance gene and coat protein-mediated resistance (CPMR) was not overcome by the highest inoculum concentration. The results indicate that the additive effect of the VAM gene and CPMR could extend the effectiveness of CPMR in controlling potiviruses. These findings could have important implications for plant improvement programs using CPMR against potyvirus diseases.     

Regulation of gene expression at the translational level. The rescue factor reverses thermosensitive protein synthesis in N4316, a conditionally-lethal mutant of Escherichia coli defective in translation

Extracts of the conditionally-lethal mutant Escherichia coli N4316 are defective in a newly described translation factor, the rescue protein. We have analyzed the in vitro translation products of this mutant by gel electrophoresis during normal and arrested synthesis at the permissive and non-permissive temperatures. Translation programmed with MS2 bacteriophage RNA at the non-permissive temperature results in highly reduced synthesis of the coat protein with no detectable levels of the maturation and replicase products. Thus the relative number of copies of proteins synthesized by the ribosomes is altered in this mutant. In addition, there is mistranslation of the coat gene which results in the overproduction of the phage encoded no. 7 protein. Aberrant synthesis is also reflected in the increased read-through of termination codons during synthesis directed by phage RNAs harbouring amber mutations in the coat cistron. The rescue protein, purified from the parental strain, is able to complement the thermosensitive defect and restore proper synthesis. Biochemical characterization of the defect in the absence of rescue shows no detectable deficiency in the extent of initiation complex formation in reactions inhibited with sparsomycin. Peptidyltransferase is fully active as judged by the kinetics of formylmethionine-puromycin formation. However, rescue does exert an effect at the level of termination. In addition, the thermolability of the mutant can be reversed by dissociating 70S ribosomes into 30S and 50S subunits. Based on these and other observations, we propose tht rescue mediates a novel function in the association/dissociation of ribosomal subunits which is essential to the accuracy and efficiency of translation.