Expression of <Emphasis Type="Italic">Tlr2</Emphasis>, <Emphasis Type="Italic">Defa</Emphasis>, and <Emphasis Type="Italic">Muc2</Emphasis> genes in rat duodenum epithelial cells during prolonged stomach hypoacidity and after hypoacidity correction by multiprobiotics

Expression of Tlr2, Defa, and Muc2 genes in epithelial cells of rat duodenum during prolonged stomach hypoacidity (hypochlorhydria) and after hypoacidity correction by multiprobiotics has been investigated. Elevation of Tlr2, Muc2, and Defa gene expression levels upon the intensification of lipid peroxidation processes in the epithelial cells of the villi and crypts of the rat duodenum under hypoacidic conditions has been demonstrated. Administration of a multiprobiotic under the same conditions downregulated the expression of the aforementioned genes in epithelial cells of the villi and crypts, bringing it to a nearly normal level, and exerted a similar effect on the levels of lipid peroxidation products. The data obtained may be indicative of the involvement of Tlr2, Muc2, and Defa genes in the development of duodenal inflammation induced by dysbiotic changes occurring in prolonged hypochlorhydria.     

Design of a CRISPR-Cas system to increase resistance of <Emphasis Type="Italic">Bacillus subtilis</Emphasis> to bacteriophage SPP1

Clustered regularly interspaced short palindromic repeats (CRISPR) together with CRISPR-associated (cas) genes form an adaptive prokaryotic immune system which provides acquired resistance against viruses and plasmids. Bacillus subtilis presently is the best-characterized laboratory model for Gram-positive bacteria and also widely used for industrial production of enzymes, vitamins and antibiotics. In this study, we show that type II-A CRISPR-Cas system from Streptococcus thermophilus can be transferred into B. subtilis and provides heterologous protection against phage infection. We engineered a heterologous host by cloning S. thermophilus Cas9 and a spacer targeting bacteriophage SPP1 into the chromosome of B. subtilis, which does not harbor its own CRISPR-Cas systems. We found that the heterologous CRISPR-Cas system is functionally active in B. subtilis and provides resistance against bacteriophage SPP1 infection. The high efficiency of the acquired immunity against phage could be useful in generation of biotechnologically important B. subtilis strains with engineered chromosomes.     

Role of <Emphasis Type="Italic">sie</Emphasis> Gene in Transient Depression of Macromolecular Synthesis in Phage P22-infected <Emphasis Type="Italic">Salmonella typhimurium</Emphasis>

WE have shown that induction of the enzyme L-arabinose isomerase in Salmonella typhimurium ceases following infection with the bacteriophage P22 leading to lysis, whereas with infection leading to lysogeny there is a temporary inhibition of induction after which the synthesis of the enzyme begins again¹. After infection, there is a transient depression of the overall rate of RNA and protein synthesis¹. This phenomenon is similar to that observed in T-even phage and λ-infected E. coli^2–5. Arguments for and against the involvement of phage genes^2–12 in such phenomena have been put forward. We now present evidence to suggest that the sie gene of phage P22 is involved in the inhibition of host macromolecular synthesis.     

Characterization of bacteriophages specificity for antibiotic-resistant <Emphasis Type="Italic">Salmonella typhimurium</Emphasis>

This study aimed to propose a new approach to understand the binding interaction between bacteriophages and antibiotic-resistant Salmonella typhimurium. The antibiotic susceptibilities of S. typhimurium strains were determined using a broth dilution method. The phage adsorption rates were determined to evaluate the lytic ability of bacteriophages against S. typhimurium strains. Bacterial outer membrane proteins and lipopolysaccharide (LPS) were analyzed to evaluate the antibiotic-induced alteration in bacterial cell surface receptors. The relative expression levels of outer membrane-, flagella-, porin-, and O-antigen-related genes were estimated using a qPCR assay. Compared to ST^WT, the ST^CIP exhibited a reduced susceptibility to cefotaxime (32-fold), ciprofloxacin (32-fold), meropenem (16-fold), and norfloxacin (64-fold). PBST35 produced adsorption rates of 82–95% at ST^WT, ST^CIP, and ST^CCARM within the first 10 min of infection. Compared to ST^WT, ST^CIP exhibited less protein bands between 24 and 36 kDa, corresponding to the low adsorption rates of P22 and PBST10. The relative expression levels of outer membrane-related genes (btuB, ompC, and tolC), flagellar-related genes (fliC, fljB, and fliK), porin-related gene (fhuA), and O-antigen-related genes (rfaL) were decreased in ST^CIP. The alteration in bacteriophage-binding receptors resulted in the low adsorption rate. Our findings provide new insights for effective treatment against antibiotic-resistant bacteria. The results would help to develop new therapeutic strategy as a prospective alternative control of antibiotic-resistant bacteria.     

An efficient <Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis>-mediated transformation protocol of <Emphasis Type="Italic">Withania somnifera</Emphasis>

This is the first report on Agrobacterium rhizogenes-mediated transformation of Withania somnifera for expression of a foreign gene in hairy roots. We transformed leaf and shoot tip explants using binary vector having gusA as a reporter gene and nptII as a selectable marker gene. To improve the transformation efficiency, acetosyringone (AS) was added in three stages, Agrobacterium liquid culture, Agrobacterium infection and co-culture of explants with Agrobacterium. The addition of 75 μM AS to Agrobacterium liquid culture was found to be optimum for induction of vir genes. Moreover, the gusA gene expression in hairy roots was found to be best when the leaves and shoot tips were sonicated for 10 and 20s, respectively. Based on transformation efficiency, the Agrobacterium infection for 60 and 120 min was found to be suitable for leaves and shoot tips, respectively. Amongst the various culture media tested, MS basal medium was found to be best in hairy roots. The transformation efficiency of the improved protocol was recorded 66.5 and 59.5?% in the case of leaf and shoot tip explants, respectively. When compared with other protocols the transformation efficiency of this improved protocol was found to be 2.5 fold higher for leaves and 3.7 fold more for shoot tips. Southern blot analyses confirmed 1–2 copies of the gusA transgene in the lines W1-W4, while 1–4 transgene copies were detected in the line W5 generated by the improved protocol. Thus, we have established a robust and efficient A. rhizogenes mediated expression of transgene (s) in hairy roots of W. somnifera.     

Genomewide analysis of <Emphasis Type="Italic">ABCB</Emphasis>s with a focus on <Emphasis Type="Italic">ABCB1</Emphasis> and <Emphasis Type="Italic">ABCB19</Emphasis> in <Emphasis Type="Italic">Malus domestica</Emphasis>

The B subfamily of ATP-binding cassette (ABC) proteins (ABCB) plays a vital role in auxin efflux. However, no systematic study has been done in apple. In this study, we performed genomewide identification and expression analyses of the ABCB family in Malus domestica for the first time. We identified a total of 25 apple ABCBs that were divided into three clusters based on the phylogenetic analysis. Most ABCBs within the same cluster demonstrated a similar exon–intron organization. Additionally, the digital expression profiles of ABCB genes shed light on their functional divergence. ABCB1 and ABCB19 are two well-studied auxin efflux carrier genes, and we found that their expression levels are higher in young shoots of M106 than in young shoots of M9. Since young shoots are the main source of auxin synthesis and auxin efflux involves in tree height control. This suggests that ABCB1 and ABCB19 may also take a part in the auxin efflux and tree height control in apple.     

<Emphasis Type="Italic">Candida krusei</Emphasis> and <Emphasis Type="Italic">Candida glabrata</Emphasis> reduce the filamentation of <Emphasis Type="Italic">Candida albicans</Emphasis> by downregulating expression of <Emphasis Type="Italic">HWP1</Emphasis> gene

Pathogenicity of Candida albicans is associated with its capacity switch from yeast-like to hyphal growth. The hyphal form is capable to penetrate the epithelial surfaces and to damage the host tissues. Therefore, many investigations have focused on mechanisms that control the morphological transitions of C. albicans. Recently, certain studies have showed that non-albicans Candida species can reduce the capacity of C. albicans to form biofilms and to develop candidiasis in animal models. Then, the objective of this study was to evaluate the effects of Candida krusei and Candida glabrata on the morphogenesis of C. albicans. Firstly, the capacity of reference and clinical strains of C. albicans in forming hyphae was tested in vitro. After that, the expression of HWP1 (hyphal wall protein 1) gene was determined by quantitative real-time PCR (polymerase chain reaction) assay. For both reference and clinical strains, a significant inhibition of the hyphae formation was observed when C. albicans was incubated in the presence of C. krusei or C. glabrata compared to the control group composed only by C. albicans. In addition, the culture mixed of C. albicans-C. krusei or C. albicans-C. glabrata reduced significantly the expression of HWP1 gene of C. albicans in relation to single cultures of this specie. In both filamentation and gene expression assays, C. krusei showed the higher inhibitory activity on the morphogenesis of C. albicans compared to C. glabrata. C. krusei and C. glabrata are capable to reduce the filamentation of C. albicans and consequently decrease the expression of the HWP1 gene.     

Serological diagnosis of <Emphasis Type="Italic">Mycoplasma pneumoniae</Emphasis> infection by using the mimic epitopes

Nowadays, there is lack of effective serological detection method for Mycoplasma pneumoniae (M. pneumoniae) infection in clinic. In this study, the mimic epitopes of M. pneumoniae were screened to evaluate the role in the serodiagnosis of M. pneumoniae infection. The M. pneumoniae-positive serum was used as the target for biopanning to phage display random 7-peptide library. The positive phage clones were selected and the DNA were sequenced and analyzed by BLAST. The representative phages were identified using dot immunoblotting and ELISA. The exogenous heptapeptides were synthesized and their reactions with M. pneumonia-positive serum were tested by indirect ELISA. Two heptapeptides, namely heptapeptide 1: TVNFKLY and heptapeptide 2: LPQRLRT, were screened out from the randomly selected 40 phages after the four bio-panning rounds. They had high homologies to some M. pneumoniae antigens. Besides, the representative bacteriophage containing heptapeptide 1 or 2 could react with the M. pneumonia- positive serum. The sensitivities of heptapeptide 1 and heptapeptide 2 for the diagnosis of M. pneumoniae infection were 90.1 and 80.0%, respectively, and the specificities were 94.3 and 97.1%, respectively. Therefore the two heptapeptides were the mimic epitopes of M. pneumoniae and might have potential serological diagnosis value for M. pneumoniae infection.     

Genome-wide characterization and stress-responsive expression profiling of <Emphasis Type="Italic">MCM</Emphasis> genes in <Emphasis Type="Italic">Brassica oleracea</Emphasis> and <Emphasis Type="Italic">Brassica rapa</Emphasis>

The Minichromosome maintenance protein [MCM (2-7)] complex is associated with helicase activity for replication fork formation during DNA replication. We identified and characterized each 12 putative MCM genes from Brassica oleracea and Brassica rapa. MCM genes were classified into nine groups according to their evolutionary relationships. A high number of syntenic regions were present on chromosomes C03 and A03 in B. oleracea and B. rapa, respectively, compared to the other chromosomes. Expression analysis showed that most of the MCM(2-7) helicase-subunit genes and their coregulating MCM genes were upregulated during hydroxyurea (HU) induced stress in B. oleracea. In B. rapa, MCM(2-7) helicase genes BrMCM2_2, BrMCM7_1, BrMCM7_2 and their co-regulating genes were upregulated during replication stress. During cold stress, BoMCM6 in B. oleracea and BrMCM5 in B. rapa were remarkably upregulated. During salt stress, BoMCM6_2, BoMCM7_1, BoMCM8, BoMCM9, and BoMCM10 were markedly upregulated in B. oleracea. Hence, our study identified the candidate MCM family genes those possess abiotic stress-responsive behavior and DNA replication stress tolerance. As the first genome-wide analysis of MCM genes in B. oleracea and B. rapa, this work provides a foundation to develop stress responsive plants. Further functional and molecular studies on MCM genes will be helpful to enhance stress tolerance in plants.     

Characterization of a <Emphasis Type="Italic">Salmonella</Emphasis> Enteritidis bacteriophage showing broad lytic activity against Gram-negative enteric bacteria

In this study, we sought to isolate Salmonella Enteritidis-specific lytic bacteriophages (phages), and we found a lytic phage that could lyse not only S. Enteritidis but also other Gramnegative foodborne pathogens. This lytic phage, SS3e, could lyse almost all tested Salmonella enterica serovars as well as other enteric pathogenic bacteria including Escherichia coli, Shigella sonnei, Enterobacter cloacae, and Serratia marcescens. This SS3e phage has an icosahedral head and a long tail, indicating belong to the Siphoviridae. The genome was 40,793 base pairs, containing 58 theoretically determined open reading frames (ORFs). Among the 58 ORFs, ORF49, and ORF25 showed high sequence similarity with tail spike protein and lysozyme-like protein of Salmonella phage SE2, respectively, which are critical proteins recognizing and lysing host bacteria. Unlike SE2 phage whose host restricted to Salmonella enterica serovars Enteritidis and Gallinarum, SS3e showed broader host specificity against Gram-negative enteric bacteria; thus, it could be a promising candidate for the phage utilization against various Gram-negative bacterial infection including foodborne pathogens.     

<Emphasis Type="Italic">LMI1</Emphasis>-like genes involved in leaf margin development of <Emphasis Type="Italic">Brassica napus</Emphasis>

In rapeseed (Brassica napus L.), leaf margins are variable and can be entire, serrate, or lobed. In our previous study, the lobed-leaf gene (LOBED-LEAF 1, BnLL1) was mapped to a 32.1 kb section of B. napus A10. Two LMI1-like genes, BnaA10g26320D and BnaA10g26330D, were considered the potential genes that controlled the lobed-leaf trait in rapeseed. In the present study, these two genes and another homologous gene (BnaC04g00850D) were transformed into Arabidopsis thaliana (L.) Heynh. plants to identify their functions. All three LMI1-like genes of B. napus produced serrate leaf margins. The expression analysis indicated that the expression level of BnaA10g26320D determined the difference between lobed- and entire-leaved lines in rapeseed. Therefore, it is likely that BnaA10g26320D corresponds to BnLL1.     

qPCR estimates of <Emphasis Type="Italic">Babesia bovis</Emphasis> and <Emphasis Type="Italic">Babesia bigemina</Emphasis> infection levels in beef cattle and <Emphasis Type="Italic">Rhipicephalus microplus</Emphasis> larvae

Babesia spp. are tick-transmitted intraerythrocytic apicomplexan parasites that infect wild and domestic animals. Babesia bovis and B. bigemina are endemic and responsible for enormous economic losses to the livestock industry in most of the Brazilian territory, wherein the tick Rhipicephalus microplus is the unique vector. Better understanding of epidemiology and parasite–host interactions may improve the tools for disease control and genetic management for selection of resistant animals. This study aimed to detect, quantify and measure the correlation between B. bigemina and B. bovis infection levels in bovine blood and into tick, by absolute quantification of hemoparasite DNA using qPCR. Blood bovine samples and larvae pools from 10 engorged R. microplus females were collected from each Canchim heifers (5/8 Charolais?+?3/8 zebu, n?=?36). All evaluated samples were positive for both Babesia species tested. Correlations of B. bovis and B. bigemina levels between cattle and tick host were 0.58 and 0.66, respectively. These high positive correlation coefficients indicate that parasitemia load in the bovine may be dependent on or may determine the parasitemia load in the ticks.     

Effects of bacteriophages on biofilm formation by strains of <Emphasis Type="Italic">Pseudomonas aeruginosa</Emphasis>

The effects of two Pseudomonas aeruginosa bacteriophages, vB-Pa 4 and vB-Pa 5, on the formation and development of biofilms of six polyresistant hospital strains of P. aeruginosa have been investigated. Pretreatment of bacteriophages prevented the formation or almost completely prevented the growth of adequate biofilms. The biofilms that had already formed were partially or completely destroyed after phage treatment. The results demonstrate the prospects of using isolated bacteriophages of P. aeruginosa to destroy biofilms and prevent their formation.     

Molecular characterization and expression analysis of <Emphasis Type="Italic">Hsp90</Emphasis> in <Emphasis Type="Italic">Schizothorax prenanti</Emphasis>

Aquatic animals suffer from various environmental stresses because the aquatic environment is a very complex system. To monitor the health status of fish, Hsp90 a potential early warning marker was determined in Schizothorax prenanti after infection with a bacterium. In this study, we cloned Hsp90 from S. prenanti for the first time. The full-length cDNA sequence of SpHsp90 was 2663 bp, contains an open reading frame of 2181 bp, and has a gene encoding 726 amino acids, an estimated molecular mass of 83.38 kDa, and a theoretical isoelectric point of 4.91. The SpHsp90 amino acid sequence has five conserved HSP90 family signatures and shares 87.0–95.5 % identity with other vertebrates. Phylogenetic analysis and structure comparison indicated that SpHsp90 should be a β isoform of the HSP90 family. SpHsp90 was ubiquitously expressed in all examined tissues, and the highest level of expression was in the kidney. After Streptococcus agalactiae infection, the level of SpHsp90 expression had significant changes (P < 0.05) in the hepatopancreas, spleen, kidney, and blood. The expression increased to the highest level at 6 h in the blood and at 24 h in the hepatopancreas, spleen, and kidney. The results suggested that the SpHsp90 gene could be induced by S. agalactiae in S. prenanti and that SpHsp90 may be involved in resistance to bacterial infection and provide an early warning information. The kidney is the most suitable for detecting SpHsp90 after bacterial infection.