Evidence of gene flow between sympatric populations of the Middle East‐Asia Minor 1 and Mediterranean putative species of Bemisia tabaci

Bemisia tabaci is a complex of putative species that exhibit a strong geographical pattern. Crossing experiments have revealed various degrees of reproductive isolation between these nascent species, ranging between fertile first‐generation hybrids (F1) and no F1 at all. However, the relevance of these results under natural conditions is generally not known. The worldwide invasion of the putative species Middle East‐Asia Minor 1 (MEAM1) has caused secondary contacts between allopatric species, which in turn provide an opportunity to detect potential hybrids in nature. A total of 346 female B. tabaci were collected in 2003 and 2005 in the North East of Morocco and assigned to MEAM1 (119), Mediterranean (Med) (225) and a new putative species (2) using mitochondrial cytochrome oxidase (mtCOI) gene sequences. MEAM1 and Med individuals were characterized at seven microsatellite loci. MEAM1 and Med were found to be sympatric in 11 of 12 samples (6 fields/year). As previously reported from Spain, MEAM1 frequency decreased over time. The genetic data are consistent with a recent introduction of MEAM1. A Bayesian clustering analysis (Structure ) distinguished two groups, which were 100% consistent with the mtCOI groups. From several lines of evidence, two individuals were identified as hybrids. Assignment profiles using NewHybrids and allele composition indicated that they were not F1 hybrids. The results are discussed in relation to the secondary endosymbiont infection status determined on a sample of individuals, and the contrasting outcomes of the reported crossing experiments between MEAM1 and Med.     

Specificity and genetic polymorphism in the Vfm quorum sensing system of plant pathogenic bacteria of the genus Dickeya

The Vfm quorum sensing (QS) system is preponderant for the virulence of different species of the bacterial genus Dickeya. The vfm gene cluster encodes 26 genes involved in the production, sensing or transduction of the QS signal. To date, the Vfm QS signal has escaped detection by analytical chemistry methods. However, we report here a strain-specific polymorphism in the biosynthesis genes vfmO and vfmP, which is predicted to be related to the production of different analogues of the QS signal. Consequently, the Vfm communication could be impossible between strains possessing different variants of the genes vfmO/P. We constructed three Vfm QS biosensor strains possessing different vfmO/P variants and compared these biosensors for their responses to samples prepared from 34 Dickeya strains possessing different vfmO/P variants. A pattern of specificity was demonstrated, providing evidence that the polymorphism in the genes vfmO/P determines the biosynthesis of different analogues of the QS signal. Unexpectedly, this vfmO/P-dependent pattern of specificity is linked to a polymorphism in the ABC transporter gene vfmG, suggesting an adaptation of the putative permease VfmG to specifically bind different analogues of the QS signal. Accordingly, we discuss the possible involvement of VfmG as co-sensor of the Vfm two-component regulatory system.     

Purification and Characterization of Anti-Listeria Compounds Produced by Geotrichum candidum

Geotrichum candidum can produce and excrete compounds that inhibit Listeria monocytogenes. These were purified by ultrafiltration, centrifugal partition chromatography, thin-layer chromatography, gel filtration, and high-pressure liquid chromatography, and analyzed by liquid chromatography-mass spectrometry, infrared spectrometry, nuclear magnetic resonance spectrometry, and optical rotation. Two inhibitors were identified: d-3-phenyllactic acid and d-3-indollactic acid.

Contamination by Listeria has become a problem over the past 20 years in many parts of the world. The ubiquitous nature of Listeria monocytogenes, its capacity to multiply at refrigeration temperatures, its thermal tolerance (11), and its resistance to relatively low pH (it can multiply at pH 5.3 and 4°C and at pH 4.39 and 30°C) (5), together with its tolerance of high salt concentrations (4, 18), make controlling this potentially pathogenic microorganism in food products difficult. This bacterium has been incriminated in several cases of food poisoning (2, 10, 19). At risk are the immunodepressed, the old, pregnant women, fetuses, and newborn babies. Several groups have worked on biological control. As a result, many bacteriocins, which inhibit the growth of L. monocytogenes, have been isolated, purified, and characterized (12, 13, 16, 18). We have worked with Geotrichum candidum, a yeast-like member of the natural milk flora that is used as a maturing agent for soft and hard cheeses. In an extensive study carried out in 1984 (7), the interactions between G. candidum and the microflora in cheeses were examined. G. candidum inhibited the growth of gram-negative bacteria, gram-positive bacteria, and fungi (6). We recently showed (3) that G. candidum inhibits the growth of L. monocytogenes on both solid and liquid media (a bacteriostatic effect). The inhibitors are stable over a wide pH range and can be heated to 120°C for 20 min. The present report describes the purification and characterization of compounds responsible for this antibacterial action.Microorganisms, culture conditions, and detection of inhibitory activity.The strain of G. candidum used came from the collection of the Caen University Food Microbiology Laboratory, Caen, France (UCMA G91) and was initially isolated from a cheese, Pont l’Evêque. One percent of a preculture (optical density at 620 nm [Milton Roy Spectronic 301; Bioblock Scientific, Illkirch, France] of 0.7 [10⁷ arthrospores or hyphae/ml]) of G. candidum was grown in a fermentor (20 liters; Biolafitte type PI) in 15 liters of Trypticase soy broth (30 g/liter; Biomerieux, Marcy l’Etoile, France) with yeast extract (6 g/liter; AES, Combourg, France) (TSBYE) buffered to pH 6.3 with 0.1 M citrate-0.2 M phosphate. The culture was stirred at 300 rpm for 64 h at 25°C under a pressure of 0.2 bar and was then filtered through a 1,000-Da cut-off membrane by tangential ultrafiltration (Sartorius, Palaiseau, France) under a pressure of 2 bars. The resulting ultrafiltrate was sterilized by passage through a capsule (Sartorius) containing 0.45-μm- and 0.2-μm-pore-size membranes.The inhibition of L. monocytogenes was checked at each purification step by the agar diffusion well assay (3). Antimicrobial activity was estimated by measuring the diameter of the inhibitory halo on two right-angle axes (average of two plates). The strain of L. monocytogenes (UCMA L205) (serovar 1/2a; Centre National de Référence des Listeria, Nantes, France) and lysovar 1652 (Institut Pasteur, Paris, France) came from the laboratory collection and was isolated from milk. The initial lyophilized ultrafiltrate (900 mg/ml) gave a halo diameter of 36 ± 0.7 mm in the inhibition assay.Purification.Samples of ultrafiltrate (20 μl) were spotted on thin-layer chromatography (TLC) plates (silica gel, 10 by 5 cm, 0.25 mm thick, 60 F₂₅₄; Merck, Darmstadt, Germany), with 20 μl of TSBYE for controls, and eluted by vertical chromatography with a butanol-acetic acid-water (40:10:20 [vol/vol/vol]) solvent system. The bands were examined under UV light (254 nm) or after treatment with Ehrlich’s reagent. Four well-separated bands were found (R_fs, 0.11 ± 0.04; 0.41 ± 0.04; 0.7 ± 0.03; and 0.86 ± 0.03), but only the band with an R_f of 0.7 ± 0.03 differed from that of control preparations (TSBYE not containing G. candidum). The microbiological bioautography test (1) confirmed the presence of the inhibitor in the band with an R_f of 0.7. Lyophilized ultrafiltrate was subjected to centrifugal partition chromatography (Sanki 1000 Engineering Ltd.; EverSeiko, Tokyo, Japan) in butanol-acetic acid-water (40:10:50 [vol/vol/vol]). Partitioning was carried out under the following conditions: ascending mode, 1,200 rpm; flow rate, 3 ml/min; pressure, 40 bars. An aliquot of material (3 g) previously equilibrated with the solvent system was injected into the separatus via a 12-ml injection loop. Fractions (10 ml each) were collected and evaporated to dryness in a SpeedVac (Jouan RC 1022, Saint Herblain, France). The dried extracts of certain fractions were taken up in 800 μl of water and brought to pH 5.6 with 0.2 M NaOH. A total of 10 mg of pooled fractions with an R_f close to 0.7 and showing L. monocytogenes inhibitory activity (36 ± 0.7 mm for a solution of 38 mg/ml) was taken up in 250 μl of methanol-water (50:50 [vol/vol]) and automatically deposited (Camag Linomat) on a 10- by 20-cm TLC plate (silica gel, 0.25 mm thick, 60 F₂₅₄; Merck). The plate was developed with butanol-acetic acid-water (40:10:20 [vol/vol/vol]) and examined under UV light. Bands with an R_f of 0.7 were scraped off and placed in methanol. The silica was washed several times and removed by centrifugation and filtration through a 0.2-μm-pore-size filter. An aliquot (20 μl) was spotted on a small silica TLC plate to confirm elution of the solute by the methanol solvent. The purity of the band with an R_f of 0.7 was confirmed by high-pressure liquid chromatography (HPLC) coupled with a photodiode array detector at 206 and 222 nm (solvent A: 0.1% formic acid in water; solvent B: CH₃CN-H₂O [95:5] plus 0.1% formic acid) on a C₁₈ Grom-Sil ODS2 column (4.6 by 30 mm; particle size, 1.5 μm; Grom Analytic, Herrenberg, Germany) at the flow rate of 1 ml/min. Inhibitory activity was assessed as above. Preparative TLC indicated that the band with an R_f of 0.7 contained two components, one eluting at 4.5 min on HPLC (peak 1) and the other at 5.5 min (peak 2). The latter fraction gave an inhibitory halo of 36 ± 0.7 mm at a concentration of 20 mg/ml (a 45-fold purification over the ultrafiltrate). The material from preparative TLC (40 mg in 200 μl of methanol-water) was placed on a column of Sephadex LH20 (1 m by 1 cm; Pharmacia), and the column was eluted with methanol-water at 12 ml h⁻¹. Fractions (1 ml each) were collected and examined by HPLC to determine the material in each fraction. This final purification on Sephadex LH20 gave two peaks, with two-thirds of the eluate at peak 1 and one-third at peak 2 (Fig. ​(Fig.1).1). As the concentration for peak 2 was very low, only the inhibitory activity for peak 1 was assayed. A concentration of 20 mg/ml gave a halo diameter of 26 ± 0.7 mm. Open in a separate windowFIG. 1Reverse-phase liquid chromatography (HPLC) of inhibitory compounds of G. candidum after purification by centrifugal partition chromatography, preparative TLC, and Sephadex LH20 gel filtration. Column, C₁₈ Grom-Sil ODS2 column (4.6 by 30 mm; particle size, 1.5 μm; Grom Analytic). Eluent: solvent A (0.1% formic acid in water), solvent B (CH₃CN-H₂O [95:5] plus 0.1% formic acid). Flow rate, 1 ml/min. (a) Product 1 (detection at 206 nm); (b) product 2 (detection at 222 nm).

Characterization.

The pooled fractions were run on HPLC with a Grom-Sil ODS2 column coupled to a mass detector (Sciex Api III, triple quadrupole; Thornhill, Canada). Product 1, analyzed by desorption and chemical ionization, gave a signal at an m/z of 184 for (M⁺ NH₄)⁺ on desorption and chemical ionization and thus had a mass of 166. Product 2 was analyzed by ion spray and gave a signal at an m/z of 297 (M + 4 Na)⁺ for a mass of 205. Spectra were determined in a Nicolet model 60 SXR FT-IR. Samples were dissolved in dimethyl sulfoxide, and the ¹H and ¹³C resonances were measured in a Brucker spectrometer at 200 and 400 Hz, respectively. The purified material was taken up in methanol, and the isomeric form of the substance(s) inhibiting L. monocytogenes was determined in a Perkin-Elmer model 341 polarimeter. Two inhibitors were identified (Fig. ​(Fig.2);2); product 1 was 2-hydroxy-3-phenylpropanoic acid (phenyllactic acid, mass 166), and product 2 was 2-hydroxy-3-indolpropanoic acid (indollactic acid, mass 205). The rotation of polarized light showed that the phenyllactic acid produced by G. candidum was the d form. The spectrum properties of the isolated compounds are identical to those of authentic commercial compounds (Sigma Chemical Co., St. Louis, Mo.). d-Phenyllactic acid can be purchased from Aldrich (product no. 37 690-6), and dl-indollactic acid is available from Sigma (catalog no. I2875). Inhibitory activity with commercial compounds showed that dl-phenyllactic acid (Sigma catalog no. P7251) was a stronger inhibitor of Listeria than dl-indollactic acid (34 and 26 ± 0.7 mm for 187 mM, respectively) and that the d form of phenyllactic acid was more active (38 mm for 120 mM) than the l form (Aldrich 11, 306-9, 30 mm for 120 mM). The samples were taken up in methanol-water (50:50 [vol/vol]) and brought to pH 5.6 (Table ​(Table1).1). Open in a separate windowFIG. 2Structure of two inhibitory compounds of G. candidum characterized by LC-mass spectrometry, infrared spectrometry, nuclear magnetic resonance spectrometry, and optical rotation.TABLE 1Anti-Listeria activity of phenyllactic acid and indollactic acid^a

Wheat prolamine crosslinking through dityrosine formation catalyzed by peroxidases: improvement in the modification of a poorly accessible substrate by "indirect" catalysis

"Enzyme-assisted" oxidative polymerization of wheat gliadins was performed in an attempt to obtain new protein-based networks. Two plant peroxidases (soybean and horseradish) were used to induce the dimerization of tyrosine residues. The results show that tyrosines are poorly modified by these enzymes in an aqueous medium (dityrosine corresponded to 2% of the total amount of tyrosine). Two approaches were tested to overcome problems relating to accessibility to the target tyrosines: First, the efficiency of protein crosslinking via tyrosine-tyrosine aromatic ring condensation was enhanced in water when the proteins were oxidized by a fungus peroxidase (manganese-dependent peroxidase from Phanerochaete chrysosporium), which acts according to an indirect catalysis mechanism (up to 12% of the total amount of tyrosine is recovered under a dimeric form). Second, when the gliadins were dispersed in a water/dioxane (3/1) mixed solvent system, the tyrosines were more accessible on the protein surface, and similar yields were obtained with both types of peroxidase. The two types of catalysis (contact and indirect) are considered from the standpoint of the accessibility of the target residues. Enzymatic oxidations were also performed on synthetic peptides mimicking the repeatitive domains of gliadins. The results show that exposure of tyrosine to the solvent may not be sufficient to induce dityrosine formation. The mechanical properties of some films obtained from peroxidase-treated gliadins were investigated to correlate protein crosslinking with a potential application. One effect of the enzymatic treatment was to increase the tensile strength of the films. Copyright 1999 John Wiley & Sons, Inc.     

Chemical cleavage of bovine beta-lactoglobulin by BNPS-skatole for preparative purposes: comparative study of hydrolytic procedures and peptide characterization

A comparative study of various procedures for tryptophanyl peptide bond cleavage by BNPS-skatole [2-(2-nitrophenyl)-3-methyl-3-bromoindolenine] was carried out on native and on reduced and alkylated bovine -lactoglobulin (BLG). The reaction yield and the composition of the derived products were studied in acetic acid, trifluoroacetic acid (TFA), and ethanol/TFA. For BNPS-skatole removal, extraction by water or ethyl ether was compared with dialysis and gel filtration. The three expected peptides (1–19, 20–61, 62–162) and incomplete cleaved fragments (1–61, 20–162) were separated and characterized by electrophoresis, reverse-phase high-performance liquid chromatography, and mass spectrometry. The highest hydrolysis yield (67.4%) occurred with native BLG cleaved in 88% acetic acid at 47°C for 60 min. Subsequent water extraction and gel filtration led to total recovery of the material, but reagent elimination was only quantitative after gel filtration. Cleavage specificity was ensured by mass spectrometry and the amino acid composition of peptides 1–19 and 62–162. The chemical side reactions identified are discussed.     

Proteomics application exercise of the Swiss Proteomics Society: report of the SPS'02 session

After the success of the mass spectrometry (MS) round table that was held at the first Swiss Proteomics Society congress (SPS'01) in Geneva, the SPS has organized a proteomics application exercise and allocated a full session at the SPS'02 congress. The main objective was to encourage the exchange of expertise in protein identification, with a focus on the use of mass spectrometry, and to create a bridge between the users' questions and the instrument providers' solutions. Two samples were sent to fifteen interested labs, including academic groups and MS hardware providers. Participants were asked to identify and partially characterize the samples. They consisted of a complex mixture of peptide/proteins (sample A) and an almost pure recombinant peptide carrying post-translational modifications (sample B). Sample A was an extract of snake venom from the species Bothrops jararaca. Sample B was a recombinant and modified peptide derived from the shrimp Penaeus vannamei penaeidin 3a. The eight labs that returned results reported the use of a wide range of MS instrumentation and techniques. They mentioned a variety of time and manpower allocations. The origin of sample A was generally identified together with a number of database protein entries. The difficulty of the sample identification lay in the incomplete knowledge of the Bothrops species genome sequence and is discussed. Sample B was generally and correctly identified as penaeidin. However, only one group reported the full primary structure. Interestingly, the approaches were again varied and are discussed in the text.     

Correlation between polymerase chain reaction analysis of the histidine biosynthesis operon, randomly amplified polymorphic DNA analysis and phenotypic characterization of dairy Lactococcus isolates

A collection of 32 lactococcal strains isolated from raw milk in the Camembert RDO (registered designation of origin) area were phenotypically and genotypically characterized. As expected for environmental isolates, all strains had a Lactococcus lactis subsp. lactis phenotype. The strains were then genotypically identified by the randomly amplified polymorphic DNA (RAPD) technique, using reference strains of lactococci. Two major clusters were identified containing the two subspecies lactis and cremoris. The subspecies lactis cluster could be divided into five subgroups whereas there was a high coefficient of similarity between all strains in the subspecies cremoris cluster. This RAPD classification was then compared with that of a traditional PCR assay using L.lactis species-specific primers corresponding to part of the histidine biosynthesis operon. The two subspecies were differentiated by the size of the fragment amplified (about 200 bp longer for subspecies cremoris). Unlike preliminary phenotypic assignments, the results of PCR experiments corroborated the genotypic identification of the lactococcal strains by RAPD allowing the technique to be reconsidered on the basis of its taxonomic efficiency. Received: 14 May 1998 / Accepted: 3 September 1998     

Metabolically induced heteroplasmy shifting and l-arginine treatment reduce the energetic defect in a neuronal-like model of MELAS

The m.3243A>G variant in the mitochondrial tRNA(Leu(UUR)) gene is a common mitochondrial DNA (mtDNA) mutation. Phenotypic manifestations depend mainly on the heteroplasmy, i.e. the ratio of mutant to normal mtDNA copies. A high percentage of mutant mtDNA is associated with a severe, life-threatening neurological syndrome known as MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes). MELAS is described as a neurovascular disorder primarily affecting the brain and blood vessels, but the pathophysiology of the disease is poorly understood. We developed a series of cybrid cell lines at two different mutant loads: 70% and 100% in the nuclear background of a neuroblastoma cell line (SH-SY5Y). We investigated the impact of the mutation on the metabolism and mitochondrial respiratory chain activity of the cybrids. The m.3243A>G mitochondrial mutation induced a metabolic switch towards glycolysis in the neuronal cells and produced severe defects in respiratory chain assembly and activity. We used two strategies to compensate for the biochemical defects in the mutant cells: one consisted of lowering the glucose content in the culture medium, and the other involved the addition of l-arginine. The reduction of glucose significantly shifted the 100% mutant cells towards the wild-type, reaching a 90% mutant level and restoring respiratory chain complex assembly. The addition of l-arginine, a nitric oxide (NO) donor, improved complex I activity in the mutant cells in which the defective NO metabolism had led to a relative shortage of NO. Thus, metabolically induced heteroplasmy shifting and l-arginine therapy may constitute promising therapeutic strategies against MELAS.     

Control of skeletal muscle mitochondria respiration by adenine nucleotides: differential effect of ADP and ATP according to muscle contractile type in pigs

Skeletal muscle exhibits considerable variation in mitochondrial content among fiber types, but it is less clear whether mitochondria from different fiber types also present specific functional and regulatory properties. The present experiment was undertaken on ten 170-day-old pigs to compare functional properties and control of respiration by adenine nucleotides in mitochondria isolated from predominantly slow-twitch (Rhomboideus (RM)) and fast-twitch (Longissimus (LM)) muscles. Mitochondrial ATP synthesis, respiratory control ratio (RCR) and ADP-stimulated respiration with either complex I or II substrates were significantly higher (25-30%, P<0.05) in RM than in LM mitochondria, whereas no difference was observed for basal respiration. Based on mitochondrial enzyme activities (cytochrome c oxidase [COX], F0F1-ATPase, mitochondrial creatine kinase [mi-CK]), the higher ADP-stimulated respiration rate of RM mitochondria appeared mainly related to a higher maximal oxidative capacity, without any difference in the maximal phosphorylation potential. Mitochondrial K(m) for ADP was similar in RM (4.4+/-0.9 microM) and LM (5.9+/-1.2 microM) muscles (P>0.05) but the inhibitory effect of ATP was more marked in LM (P<0.01). These findings demonstrate that the regulation of mitochondrial respiration by ATP differs according to muscle contractile type and that absolute muscle oxidative capacity not only relies on mitochondrial density but also on mitochondrial functioning per se.     

An Ecological Study of Lactococci Isolated from Raw Milk in the Camembert Cheese Registered Designation of Origin Area

The genetic diversity of lactococci isolated from raw milk in the Camembert cheese Registered Designation of Origin area was studied. Two seasonal samples (winter and summer) of raw milk were obtained from six farms in two areas (Bessin and Bocage Falaisien) of Normandy. All of the strains analyzed had a Lactococcus lactis subsp. lactis phenotype, whereas the randomly amplified polymorphic DNA (RAPD) technique genotypically identified the strains as members of L. lactis subsp. lactis or L. lactis subsp. cremoris. The genotypes were confirmed by performing standard PCR with primers corresponding to a region of the histidine biosynthesis operon. The geographic distribution of each subspecies of L. lactis was determined; 80% of the Bocage Falaisien strains were members of L. lactis subsp. lactis, and 30.5% of the Bessin strains were members of L. lactis subsp. lactis. A dendrogram was produced from a computer analysis of the RAPD profiles in order to evaluate the diversity of the lactococci below the subspecies level. The coefficient of similarity for 117 of the 139 strains identified as members of L. lactis subsp. cremoris was as high as 66%. The L. lactis subsp. lactis strains were more heterogeneous and formed 10 separate clusters (the level of similarity among the clusters was 18%). Reference strains of L. lactis subsp. lactis fell into 2 of these 10 clusters, demonstrating that lactococcal isolates are clearly different. As determined by the RAPD profiles, some L. lactis subsp. lactis strains were specific to the farms from which they originated and were recovered throughout the year (in both summer and winter). Therefore, the typicality of L. lactis subsp. lactis strains was linked to the farm of origin rather than the area. These findings emphasize the significance of designation of origin and the specificity of “Camembert de Normandie” cheese.