Characterization of glutathione transferase from Gammarus italicus.

1. By using affinity chromatography and chromatofocusing analysis at least two major glutathione transferases, named GST II and GST III can be isolated from Gammarus italicus. 2. GST II has an isoelectric point at pH 5.0 and is composed of two subunits with an apparent molecular mass of 28 KDa. 3. GST III which has an isoelectric point at pH 4.6 was found to be an heterodimer of 27 KDa and 28 KDa. 4. The 28 KDa subunit cross-reacted in immunoblotting analysis with antisera raised against pi class GST, whereas none of the antisera raised against alpha, mu and pi class GSTs cross-reacted with the 27 KDa subunit.     

Genomic comparative analysis of the environmental Enterococcus mundtii against enterococcal representative species

Background

Enterococcus mundtii is a yellow-pigmented microorganism rarely found in human infections. The draft genome sequence of E. mundtii was recently announced. Its genome encodes at least 2,589 genes and 57 RNAs, and 4 putative genomic islands have been detected. The objective of this study was to compare the genetic content of E. mundtii with respect to other enterococcal species and, more specifically, to identify genes coding for putative virulence traits present in enterococcal opportunistic pathogens.

Results

An in-depth mining of the annotated genome was performed in order to uncover the unique properties of this microorganism, which allowed us to detect a gene encoding the antimicrobial peptide mundticin among other relevant features. Moreover, in this study a comparative genomic analysis against commensal and pathogenic enterococcal species, for which genomic sequences have been released, was conducted for the first time. Furthermore, our study reveals significant similarities in gene content between this environmental isolate and the selected enterococci strains (sharing an “enterococcal gene core” of 805 CDS), which contributes to understand the persistence of this genus in different niches and also improves our knowledge about the genetics of this diverse group of microorganisms that includes environmental, commensal and opportunistic pathogens.

Conclusion

Although E. mundtii CRL1656 is phylogenetically closer to E. faecium, frequently responsible of nosocomial infections, this strain does not encode the most relevant relevant virulence factors found in the enterococcal clinical isolates and bioinformatic predictions indicate that it possesses the lowest number of putative pathogenic genes among the most representative enterococcal species. Accordingly, infection assays using the Galleria mellonella model confirmed its low virulence.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-489) contains supplementary material, which is available to authorized users.     

Genomic splice-site analysis reveals frequent alternative splicing close to the dominant splice site

Alternative pre-mRNA splicing may be the most efficient and widespread mechanism to generate multiple protein isoforms from single genes. Here, we describe the genomic analysis of one of the most frequent types of alternative pre-mRNA splicing, alternative 5'- and 3'-splice-site selection. Using an EST-based alternative splicing database recording >47,000 alternative splicing events, we determined the frequency and location of alternative 5'- and 3'-splice sites within the human genome. The most common alternative splice sites used in the human genome are located within 6 nucleotides (nt) of the dominant splice site. We show that the EST database overrepresents alternative splicing events that maintain the reading frame, thus supporting the concept that RNA quality-control steps ensure that mRNAs that encode for potentially harmful protein products are destroyed and do not serve as templates for translation. The most frequent location for alternative 5'-splice sites is 4 nt upstream or downstream from the dominant splice site. Sequence analysis suggests that this preference is a consequence of the U1 snRNP binding sequence at the 5'-splice site, which frequently contains a GU dinucleotide 4 nt downstream from the dominant splice site. Surprisingly, approximately 50% of duplicated 3'-YAG splice junctions are subject to alternative splicing. This high probability of alternative 3'-splice-site activation in close proximity of the dominant 3'-splice site suggests that the second step of the splicing may be prone to violate splicing fidelity.     

Effect of physiological factors on the flight ability of Calliptamus italicus L

Calliptamus italicus L. is a major migratory pest that often causes serious agricultural losses in the desert/semi‐desert steppe of Central Asia. The present study aims to understand the physiological factors that affect migration of C. italicus by examining the relationships between flight capacity, energy accumulation, ovarian development and Juvenile hormone (JH) titre. The results show that flight capacity decreases with age, being greatest among 2‐day‐old males and lowest among 13‐day‐old locusts. There is no significant correlation between energy accumulation and flight capacity, although JH titre is negatively correlated with flight capacity. Energy accumulation and flight capacity first increases then decreases in 1–13‐day‐old females. Glycogen accumulation is significantly correlated with flight speed, and triglyceride accumulation is significantly correlated with flight distance, duration and speed. Changes in JH titre in 1–13‐day‐old females show double titre peaks, which are negatively correlated with flight capacity. Seven‐day‐old C. italicus have the highest glycogen and triglyceride accumulation, greatest flight capacity, grade II ovarian development and lowest JH titre. By contrast, 13‐day‐old C. italicus have the lowest triglyceride accumulation, lowest flight capacity, grade IV ovarian development and lowest JH titre. Taken together, these findings demonstrate that there is a trade‐off between ovarian development and flight capacity of C. italicus.     

Rapid identification of Enterococcus italicus by PCR with primers targeted to 16S rRNA gene

AIMS: To develop a species-specific PCR assay with primers targeted to 16S rRNA gene for the identification of Enterococcus italicus, a new species of Enterococcus, involved in the production of Italian cheeses. METHODS AND RESULTS: The type strain of E. italicus (DSM 15952(T) - 16S rRNA gene accession no. AJ582753) and other strains of the species were subjected to a rapid identification by PCR using primer pairs located within the 16S rRNA gene. A species-specific PCR product of approximately 323 bp was obtained after amplification of all E. italicus strains tested. The specificity of the primers was validated with representatives of the most closely related genera and species and a number of other bacterial species. In addition, the technique enabled the recognition of E. italicus from cheeses. CONCLUSIONS: The protocol was highly efficient and sensitive, enabling the identification of E. italicus from cheeses. SIGNIFICANCE AND IMPACT OF THE STUDY: The species-specific PCR offers a reliable and rapid alternative to conventional phenotypic methods for the identification of E. italicus within the heterogeneous genus Enterococcus.     

意大利蝗Calliptamus italicus(L.)飞行能力的研究

【目的】明确意大利蝗Calliptamus italicus(L.)飞行能力,丰富意大利蝗迁飞生物学,提高预测预报水平。【方法】2014年6—9月间利用昆虫飞行磨测定意大利蝗的飞行能力,研究其不同日龄、卵巢发育等级的飞行能力。【结果】白日(8:00—20:00),意大利蝗雌成虫自2日龄开始飞行,至6日龄(飞行时间18.22 min,飞行距离231.01 m,飞行速度12.59 m·min-1,飞行百分比76.00%)飞行能力达显著最高(P<0.05),6~10日龄飞行能力逐渐降低;雄成虫2日龄的飞行能力显著最高(P<0.05),其飞行时间、飞行距离、飞行速度和飞行百分比分别为0.64 min、13.34 m、15.70 m·min-1、14.29%,2~10日龄的飞行能力逐渐降低。不同等级卵巢与不同日龄的飞行能力的变化规律一致,其中Ⅱ级卵巢(6日龄)的飞行能力显著最高(P<0.05)。【结论】意大利蝗乌鲁木齐地理种成虫具有一定的飞行能力。     

Quantification of Enterococcus italicus in traditional Italian cheeses by fluorescence whole-cell hybridization

The objective of this work was to investigate the spread of Enterococcus italicus in cheese. For this purpose, a fluorescence whole-cell hybridization protocol (FWCH) with a 16S rRNA probe was optimized to evaluate the presence and abundance of this organism in artisanal Italian cheeses. The FWCH method avoided the quantification problems using classical plate count techniques related to the well-known difficulties to cultivate E. italicus in selective enterococci media. After probe and FWCH optimization, 10 commercially available Italian semi-hard cheeses made with raw ewe or cow milk without starter addition were analyzed. All of them were subjected to FWCH experiments and six of them gave positive results with the probe, i.e. the E. italicus content was >4 log cells/g according to the detection limit of FWCH. Counts showed that E. italicus was present at levels ranging from 5.91+/-0.17 to 7.34+/-0.14 log cells/g; such levels were similar to, or even higher than, the total enterococci counted from the corresponding cheeses using kanamycin aesculin azide agar. The overall reliability of the FWCH method was tested by species-specific PCR. The positive amplification of the expected 323 bp fragment from both a cheese matrix and cell bulks of cheese samples containing high loads of this organism (as determined by FWCH counts) and the successful isolation of E. italicus strains from the above cheeses provided definitive proof of both probe specificity and the presence of this organism in cheeses. Although there is very little available quantitative data on the incidence of E. italicus in cheese, or its role in product quality, this study showed a wide diffusion of this organism in artisanal cheeses, where secondary non-starter lactic acid bacterial microflora, which enterococci belong to, may become dominant during ripening.     

Genomic analysis reveals that Pseudomonas aeruginosa virulence is combinatorial

Background

Pseudomonas aeruginosa is a ubiquitous environmental bacterium and an important opportunistic human pathogen. Generally, the acquisition of genes in the form of pathogenicity islands distinguishes pathogenic isolates from nonpathogens. We therefore sequenced a highly virulent strain of P. aeruginosa, PA14, and compared it with a previously sequenced (and less pathogenic) strain, PAO1, to identify novel virulence genes.

Results

The PA14 and PAO1 genomes are remarkably similar, although PA14 has a slightly larger genome (6.5 megabses [Mb]) than does PAO1 (6.3 Mb). We identified 58 PA14 gene clusters that are absent in PAO1 to determine which of these genes, if any, contribute to its enhanced virulence in a Caenorhabditis elegans pathogenicity model. First, we tested 18 additional diverse strains in the C. elegans model and observed a wide range of pathogenic potential; however, genotyping these strains using a custom microarray showed that the presence of PA14 genes that are absent in PAO1 did not correlate with the virulence of these strains. Second, we utilized a full-genome nonredundant mutant library of PA14 to identify five genes (absent in PAO1) required for C. elegans killing. Surprisingly, although these five genes are present in many other P. aeruginosa strains, they do not correlate with virulence in C. elegans.

Conclusion

Genes required for pathogenicity in one strain of P. aeruginosa are neither required for nor predictive of virulence in other strains. We therefore propose that virulence in this organism is both multifactorial and combinatorial, the result of a pool of pathogenicity-related genes that interact in various combinations in different genetic backgrounds.     

Incidence of antibiotic resistance and virulence determinants among Enterococcus italicus isolates from dairy products

The main objective of this work was to investigate the biosafety of Enterococcus italicus, a recently described enterococcal species widely diffused in dairy products. For this purpose, the antibiotic susceptibility and the incidence of virulence factors among 30 E. italicus isolates originating mainly from different Italian cheeses were tested. Although not all 30 isolates showed unique genotypes, PCR fingerprinting evidenced a notable genotypic diversity among the E. italicus collection under study. All isolates were susceptible to vancomycin, gentamicin, erythromycin, ampicillin, chloramphenicol and bacitracin. Five isolates corresponding to three unique genotypes exhibited phenotypic resistance to tetracycline with MICs ranging from 64-256mug/ml. By PCR-based detection, the genetic basis of the Tet(R) phenotype in these strains was linked to the tet(S) gene whereas detection of tet(L) and tet(M) genes and the integrase element int of the Tn916/Tn1545 family of transposons were negative. Likewise, none of the strains appeared to contain any of the tested virulence genes gelE, asaI, cpd, agg, cylA, cylB, cylM, ace and hyl(Efm). The results of this study warrant further research into the environmental dissemination of Tet(R)E. italicus and into the potential transferability of its tet(S) genes.     

Genomic analysis reveals the major driving forces of bacterial life in the rhizosphere

Background  

Mutualistic interactions less well known than those between rhizobia and legumes are commonly found between plants and bacteria, frequently pseudomonads, which colonize roots and adjacent soil areas (the rhizosphere).     

Yarrowia lipolytica as a biotechnological chassis to produce usual and unusual fatty acids

One of the most promising alternatives to petroleum for the production of fuels and chemicals is bio-oil based chemistry. Microbial oils are gaining importance because they can be engineered to accumulate lipids enriched in desired fatty acids. These specific lipids are closer to the commercialized product, therefore reducing pollutants and costly chemical steps. Yarrowia lipolytica is the most widely studied and engineered oleaginous yeast. Different molecular and bioinformatics tools permit systems metabolic engineering strategies in this yeast, which can produce usual and unusual fatty acids. Usual fatty acids, those usually found in triacylglycerol, accumulate through the action of several pathways, such as fatty acid/triacylglycerol synthesis, transport and degradation. Unusual fatty acids are enzymatic modifications of usual fatty acids to produce compounds that are not naturally synthetized in the host. Recently, the metabolic engineering of microorganisms has produced different unusual fatty acids, such as building block ricinoleic acid and nutraceuticals such as conjugated linoleic acid or polyunsaturated fatty acids. Additionally, microbial sources are preferred hosts for the production of fatty acid-derived compounds such as γ-decalactone, hexanal and dicarboxylic acids. The variety of lipids produced by oleaginous microorganisms is expected to rise in the coming years to cope with the increasing demand.     

Antimicrobial resistance of Enterococcus species isolated from produce

The purpose of this study was to characterize the antibiotic resistance profiles of Enterococcus species isolated from fresh produce harvested in the southwestern United States. Among the 185 Enterococcus isolates obtained, 97 (52%) were Enterococcus faecium, 38 (21%) were Enterococcus faecalis, and 50 (27%) were other Enterococcus species. Of human clinical importance, E. faecium strains had a much higher prevalence of resistance to ciprofloxacin, tetracycline, and nitrofurantoin than E. faecalis. E. faecalis strains had a low prevalence of resistance to antibiotics used to treat E. faecalis infections of both clinical and of agricultural relevance, excluding its intrinsic resistance patterns. Thirty-four percent of the isolates had multiple-drug-resistance patterns, excluding intrinsic resistance. Data on the prevalence and types of antibiotic resistance in Enterococcus species isolated from fresh produce may be used to describe baseline antibiotic susceptibility profiles associated with Enterococcus spp. isolated from the environment. The data collected may also help elucidate the role of foods in the transmission of antibiotic-resistant strains to human populations.     

Genomic analysis of SARS-CoV-2 reveals local viral evolution in Ghana

The confirmed case fatality rate for the coronavirus disease 2019 (COVID-19) in Ghana has dropped from a peak of 2% in March to be consistently below 1% since May 2020. Globally, case fatality rates have been linked to the strains/clades of circulating severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) within a specific country. Here we present 46 whole genomes of SARS-CoV-2 circulating in Ghana, from two separate sequencing batches: 15 isolates from the early epidemic (March 12–April 1 2020) and 31 from later time-points ( 25–27 May 2020). Sequencing was carried out on an Illumina MiSeq system following an amplicon-based enrichment for SARS-CoV-2 cDNA. After genome assembly and quality control processes, phylogenetic analysis showed that the first batch of 15 genomes clustered into five clades: 19A, 19B, 20A, 20B, and 20C, whereas the second batch of 31 genomes clustered to only three clades 19B, 20A, and 20B. The imported cases (6/46) mapped to circulating viruses in their countries of origin, namely, India, Hungary, Norway, the United Kingdom, and the United States of America. All genomes mapped to the original Wuhan strain with high similarity (99.5–99.8%). All imported strains mapped to the European superclade A, whereas 5/9 locally infected individuals harbored the B4 clade, from the East Asian superclade B. Ghana appears to have 19B and 20B as the two largest circulating clades based on our sequence analyses. In line with global reports, the D614G linked viruses seem to be predominating. Comparison of Ghanaian SARS-CoV-2 genomes with global genomes indicates that Ghanaian strains have not diverged significantly from circulating strains commonly imported into Africa. The low level of diversity in our genomes may indicate lower levels of transmission, even for D614G viruses, which is consistent with the relatively low levels of infection reported in Ghana.     

Metabolomic analysis of spontaneous neutrophil apoptosis reveals the potential involvement of glutathione depletion

Spontaneous apoptosis of neutrophils plays a key role in maintaining immune homeostasis and resolving inflammation. However, the mechanism triggering this apoptosis remains obscure. In the present study, we performed a global metabolomics analysis of neutrophils undergoing spontaneous apoptosis by using hydrophilic interaction chromatography ultra-high-performance liquid chromatography-tandem quadrupole/time-of-flight mass spectrometry and found 23 metabolites and 42 related pathways that were altered in these cells. Among them, glutathione, which is known to be involved in apoptosis, was particularly interesting. We found that L-pyroglutamic acid, glutamate, and their glutathione-mediated embolic pathways were all changed. Our findings confirmed the glutathione levels decreased in apoptotic neutrophils. Exogenous glutathione and LPS treatment delayed neutrophil apoptosis and decreased the levels of pro-apoptotic protein caspase-3. γ-glutamylcyclotransferase, 5-oxoprolinase, and ChaC1, which participated in glutathione degradation, were all activated. At the same time, the down-regulation of ATP production suggested the activity of glutathione biosynthesis may be attenuated even if glutamate-cysteine ligase and glutathione synthase, which are two ATP-dependent enzymes participating in glutathione biosynthesis, were enhanced. To our knowledge, this is the first report highlighting a global metabolomics analysis using hydrophilic interaction chromatography ultra-high-performance liquid chromatography-tandem quadrupole/time-of-flight mass spectrometry and the potential involvement of glutathione depletion in spontaneous apoptosis of neutrophils demonstrating that LPS could delay this process.     

Novel biotechnological approaches to produce biological compounds: challenges and opportunities for science communication

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