Project description:FabR ChIP-chip on Salmonella enterica subsp. enterica serovar Typhimurium SL1344 using anti-Myc antibody against strain with chromosomally 9Myc-tagged FabR (IP samples) and wildtype strain (mock IP samples)

Project description:We performed affinity purification coupled to quantitative mass spectrometry (AP-qMS) for proteins belonging to retrons of Salmonella enterica. We quantified the proteome of rcaT point mutants in Salmonella enterica. We quantified the proteome of phage P1vir in E. coli.

Project description:Many non-typhoidal serovars of Salmonella such as Salmonella enterica serovar Typhimurium (S. Typhimurium) are the leading cause of food-borne gastroenteritis, resulting in millions of infections each year and sometimes death. Salmonella enterica serovar Typhimurium is the most common non-typhoidal Salmonella strain isolated from patients around the world and is used as a mouse model to study bacterial pathogenesis and host-microbe interactions. Furthermore, S. Typhimurium is an important pathogen in livestock animals including chickens and cattle. S. Typhimurium utilises a multitude of virulence factors to reach and invade host cells and for its intracellular survival. However, little is known about the mechanism of protein synthesis of these virulence factors at the codon level. Here, we performed RNA-seq and ribosome profiling. Ribosome profiling allows the global mapping of translating ribosomes on the transcriptome and therefore provides direct measure of protein synthesis.

Project description:WGS of Salmonella enterica from asymptomatic carriers

Project description:Salmonella enterica serovar Agona (S. Agona) is a foodborne pathogen that caused recurrent multistate outbreaks associated with cereal between 1998 and 2008, underscoring the endurance of Salmonella over time in low-moisture food (LMF) processing facilities. In this study, we aimed to determine the molecular mechanism of survival of S. Agona in LMF and confirm their impact on phenotype by the knockout study. S. Agona strain (CFSAN 000477), isolated from cereal, was selected for this study. A 100µl suspension with a concentration of ~10^11 cfu/ml was inoculated into 3g of rice cereals. Three replications of inoculated cereals were subjected to desiccation stress (aw ≤ 0.25) for 24h at room temperature (25⁰C). Inoculated cereal samples were collected at 6 timepoints post-inoculation. Cells were separated from the food matrix for RNA extraction. RNA sequencing was performed using the NextSeq 2000 platform. Read counts were generated with Salmon v1.9.0. Downstream analysis was conducted with R and KEGG mapper. There were 1120 differentially expressed genes (DEGs) in S. Agona in response to desiccation stress (Padj < 0.01, |log2FoldChange| >1), with 647 downregulated and 473 upregulated. Functional analysis of downregulated DEGs revealed that most of the genes were associated with metabolic pathways, followed by translation, suggesting slower growth in the surviving population. The top 3 upregulated genes/operons: kdp and ccm operon, and tisB were knocked out and checked for survival study. Approximately 1-2 log reduction (p>0.05) was noticed in the survival of the mutants compared with the wild type. This transcriptome data suggests that Salmonella Agona survives in low-moisture food by conserving energy, lowering metabolism, and reducing replication.

Project description:Investigation of whole genome gene expression level changes in a Salmonella enterica serovar Typhimurium 14028 delta GidA mutant The mutant described in this study is further analyzed in Shippy, D. C., N. M. Eakley, P. N. Bochsler, and A. A. Fadl. 2011. Biological and virulence characteristics of Salmonella enterica serovar Typhimurium following deletion of glucose-inhibited division (gidA) gene. Microb Pathog.

Project description:We performed two dimensional thermal proteome profiling (2D-TPP) of the infection time course of Salmonella enterica.

Project description:Salmonella enterica causes serious global burden of morbidity and mortality and is a major cause of infant bacteremia in sub Saharan Africa. Diseases caused by Salmonella are treatable with antibiotics but successful antibiotic treatment has become difficult due to antimicrobial resistance. An effective vaccine together with public health effort may therefore be a better strategy to control these infections. Protective immunity against Salmonella depends primarily on T cell-mediated immune responses and therefore identifying relevant T cell antigens is necessary for Salmonella vaccine development. Our laboratory has used an immunoproteomics approach to identify Chlamydia T cell antigens that exhibited significant protection against Chlamydia infection in mice. In this study, we infected murine bone marrow derived dendritic cells from C57BL/6 mice with Salmonella enterica strain SL1344 followed by isolation of MHC class I and II- molecules and elution of bound peptides. The sequences of the peptides were then identified using tandem mass spectrometry. We identified 87 MHC class II and 23 MHC class I Salmonella derived peptides. Four of 12 peptides stimulated IFN-? production by CD4 T cells from the spleens of mice with persistent Salmonella infection. These antigens will be useful for Salmonella immunobiology research and are potential Salmonella vaccine candidates.

Project description:The effects of space environment on the of Salmonella enterica protemic production

Project description:Single-molecule read technologies allow for detection of epigenomic base modifications during routine sequencing by analysis of kinetic data during the reaction, including the duration between base incorporations at the elongation site (the "inter-pulse duration.") Methylome data associated with a closed de novo bacterial genome of Salmonella enterica subsp. enterica serovar Javiana str. CFSAN001992 was produced and submitted to the Gene Expression Omnibus.