Analysis of the expression of some stress induced genes in several commercial wine yeast strains at the beginning of vinification

AIMS: During fermentation yeast cells should cope with stress conditions. We pursue a better understanding of the stress response in wine yeasts at the beginning of vinification. METHODS AND RESULTS: We analyse by means of quantitative PCR the expression of several stress induced genes in 24 efficient commercial wine yeast strains at the beginning of vinifications performed under standard conditions or with small variations in pH and temperature. In all cases, high levels (with differences among strains) of GPD1 mRNA but quite low expression of other stress genes (TRX2, HSP104 and SSA3) were found. For all these genes, mRNA levels increase as temperature decreases or pH increases. CONCLUSIONS: Important levels of expression of GPD1 (but not of other stress genes) are required during the first hours of vinification, because of the need for glycerol production to counteract the hyperosmotic stress at this point. The differences among strains suggest that certain level of expression is enough to ensure the continuity of the process. Variations in the pH and temperature of the vinification can affect gene expression. SIGNIFICANCE AND IMPACT OF THE STUDY: A common pattern of stress response between efficient wine strains exists, which could be used as a criterion for selection. Studies of this kind can allow the establishment of connections between gene expression and physiological traits.     

Isolation and Characterization of the algD gene of Pseudomonas syringae pv. phaseolicola and its distribution among other Pseudomonads and related Organisms

The gene coding for GDP-mannose dehydrogenase ( algD ) was isolated from a Pseudomonas syringae pv. phaseolicola genomic library using a polymerase chain reaction-generated heterologous DNA-probe from Pseudomonas aeruginosa . A total of 2123 base pairs were sequenced (accession number AF001555) and analysed for homologies to the alginate gene cluster of P. aeruginosa . Downstream from algD an alg8 homologue was found suggesting a similar arrangement of the alginate gene cluster in P. syringae pv. phaseolicola to that in P. aeruginosa . Also, the deduced amino acid sequence of algD shows high similarity to that of P. aeruginosa (0.9) and Azotobacter vinelandii (0.88). Southern hybridization experiments revealed that algD is widely distributed among members of the Pseudomonas rRNA homology group I. Among others, sequences homologous to algD were detected in the P. syringae pathovars lachrymans , mori , morsprunorum, pisi , savastanoi, tabaci and tomato as well as in Pseudomonas amygdali . For most of the algD positive organisms synthesis of alginate has been reported by other studies. However, algD homologues were also detected for the species Pseudomonas corrugata , Pseudomonas marginalis and Pseudomonas avenae ( Acidovorax avenae ), for which alginate biosynthesis has not yet been reported.     

Alginate biosynthesis in mucoid recombinants of Pseudomonas aeruginosa overproducing GDP-mannose dehydrogenase.

The Pseudomonas aeruginosa algD gene, encoding GDP-mannose dehydrogenase (GMD) and cloned at Chakrabarty's Laboratory in the expression vector pMMB24 (plasmid pVD211), was mobilized into P.aeruginosa strains 8821 and 8821M. Strain 8821M was a high-alginate-producing variant, spontaneously obtained from mucoid strain 8821, with derepressed levels of GMD, a key enzyme in the regulation of alginate biosynthesis, leading to the irreversible oxidation of GDP-mannose to GDP-mannuronic acid. A slight increase in the level of GMD, in both strains harboring the plasmid pVD211 and batch-grown at 37 degrees C without IPTG induction, led to the increase of production rate and the final concentration of alginate produced by control strains harboring the cloning vector. However, the viscosity of the aqueous solutions prepared with the alginate (3 g l-1) produced by mucoid strains harboring pVD211 was lower than those with the alginate produced by the controls (shear rates in the range 0.6-12 s-1). The specific activity of GMD assayed in crude extracts from cells harboring pVD211 and subjected to IPTG induction (0.5 and 3 mM) presented the highest values. However, either the rate of biosynthesis and final concentration of alginate or the viscosity of solutions prepared with the alginate produced by recombinants grown with IPTG were lower than that possible without overproduction. Therefore, the stimulation of the alginate pathway only by manipulating the rate of the step catalysed by GMD, although possible within certain levels, was at the expense of the final exopolysaccharide quality.     

Heat-stress-dependency and developmental modulation of gene expression: the potential of house-keeping genes as internal standards in mRNA expression profiling using real-time RT-PCR

The potential of different house-keeping genes for their use as internal standards of gene expression under changing environmental conditions and in different organs of plants was assessed. Using real-time PCR mRNA levels were precisely quantified for preselected actin and ribosomal protein genes in Arabidopsis thaliana (L.) Heinh. and Nicotiana tabacum L. grown at normal temperature and following heat stress. In tobacco leaves the mRNA levels of the constitutively expressed ribosomal protein gene Nt-L25 and the actin genes Nt-ACT9 and At-ACT66 were strongly reduced (to approximately 10%) during heat stress. Heat stress applied at the temperature optimum (37 degrees C) for elicitation of a heat stress response to Arabidopsis leaves resulted in a strong induction (several thousand-fold) of the mRNA heat shock protein genes, At-HSP17.6 and At-HSP18.2. Concomitantly, the mRNA levels of constitutively expressed actin 2 (At-ACT2) and ribosomal protein L23 (At-L23a) genes were reduced to approximately 50% of the levels in leaves incubated at room temperature. Conversely, under severe heat stress conditions (44 degrees C), the induction of At-HSP17.6 and At-HSP18.2 mRNAs was insignificant, the mRNA levels of At-ACT2 remained at approximately the same levels as in leaves incubated at room temperature, whereas the mRNA level of At-L23 declined. The mRNA levels of At-ACT2 and At-L23a examined in stem, flower and siliques of Arabidopsis plants grown under non-stress condition showed differential alterations; the mRNA level of ribosomal protein L23 correlates with the metabolic activity of tissues. The potential use of house-keeping gene expression as standards in expression profiling and the mechanisms modulating the mRNA levels are discussed.     

Incidence of alginate-coding gene in carbapenem-resistant Pseudomonas aeruginosa strains

Pseudomonas aeruginosa rods are one of the most common isolated opportunistic nosocomial pathogens. Strains usually are capable to secret a capsule-like polysaccharide called alginate important for evasion of host defenses, especially during chronic pulmonary disease of patients with cystic fibrosis. Most genes for alginate biosynthesis and lysis are encoded by the operon. The aim of our study was to evaluate the incidence of algD sequence, generally use for alginate-coding gene detection, in 120 P. aeruginosa strains resistant to carbapenems. All isolates were obtained in the Department of Clinical Microbiology University Hospital no. 1 of dr A. Jurasz Collegium Medicum of L. Rydygier in Bydgoszcz Nicolaus Copernicus University in Toruń. Examined strains demonstrated resistance to carbenicillin (90,0%), ticarcillin (89,2%) and ticarcillin clavulanate (86,7%). All strains were susceptible to colistin. The majority of examined strains was susceptible to ceftazidime and cefepime (40,8% each) and norfloxacin (37,5%). Presence of algD gene - noted in 112 (93,3%) strains proves that not every strain is capable to produce alginate. It was also found out that differences in algD genes incidence in case of different clinical material that strains were isolated from were not statistically important.