Project description:Bacterial community of fresh chilled pork

Project description:Bacterial diversity

Project description:Microbial diversity during Pork Lard Ripening

Project description:Previous studies have evaluated pork quality by omics methods. However, proteomics coupled with metabolomics to investigate pork freshness by using pork exudates has not been reported. This study determined the changes in profiles of peptides and metabolites in exudates from pork stored at different temperatures (25, 10, 4, and -2 ℃). Multivariate statistical analysis revealed similar changes in profiles in exudates collected from pork stored at -2 and 4 ℃, and additional changes following storage at higher temperatures. We identified peptides from 7 proteins and 30 metabolites differing in abundance between fresh and spoiled pork. Significant correlations be-tween pork quality and most of the peptides from these 7 proteins and 30 metabolites were found. The present study provides insight into changes in peptide and metabolite profiles of exudates from pork during storage at different temperatures and our analysis suggest that such changes can be used as markers for pork spoilage.

Project description:To explore the bacterial community profile of the gut of the African palm weevil and to identify the abundance and diversity of lignin degradation-associated bacteria in each gut segment.

Project description:St. 14 embryos were incubated in 100mM of a Jnk inhibitor (SP600125)-0,1x MBS until stage 24. Embryonic epidermis was isolated and stored immediately in chilled (4°C) Trizol. We sought to uncover all the putative targets of Jnk expresssed in the embryonic epidermis whole embryonic skin was isolated and immediately stored in chilled trizol

Project description:Chilled meat metagenome

Project description:16S rRNA gene-based sequencing, microbial diversity with chilled foods.

Project description:Microbial diversity of fresh pork under electrostatic field.

Project description:Intramuscular (i.m.) fat content influencing consumer’s acceptability of pork is considered as a limiting factor for meat quality. To gain insight into the biological basis of individual variability in i.m. fat content, both gene expression profiling and proteomic investigation were associated in pig longissimus muscle (LM). Keywords: intramuscular fat, gene expression, pigs, proteomics, microarray, pork meat