Project description:The interaction between fungal pathogen and host innnate and adaptive immunity during infection is a complex and dynamic process. To resolve this, we chose the zebrafish model organism as the host to study C. albicans infection via systems biology approach. Transcriptome microarray data and histological analysis of surviving fish were sampled at different post-infection time points. Time-course microarray data following primary and secondary infection of zebrafish by Candida albicans were obatined. From this set of data, we constructed two intracellular protein–protein interaction (PPI) networks for primary and secondary responses of the host.
Project description:The interaction between neurogenesis and angiogenesis after traumatic brain injury is a complex and dynamic process. To resolve this, we chose the zebrafish model organism for studying brain wound healing via systems biology approach. Transcriptome microarray data and histological analysis of injured fish were sampled at different time points during recovery process. Time-course microarray data following wound healing of zebrafish were obtained. From this set of data, we constructed two intracellular protein–protein interaction (PPI) networks for the traumatic brain injury healing mechanism.
Project description:The mechanism of cardiomyocyte prliferation and migration after ventricular resection is a complex and dynamic process. To resolve this, we chose the zebrafish model organism for studying post-injury heart regeneration and wound healing progress via systems biology approach. Transcriptome microarray data and histological analysis of injured fish were sampled at different time points during recovery process. Time-course microarray data following wound healing of zebrafish were obatined. From this set of data, we constructed two intracellular protein–protein interaction (PPI) networks to provide insights into the ventricular resection wound healing mechanism.
Project description:Study of transcriptome dynamics using a high-resolution gene-expression time course with 180 individual embryos, obtained from nine different spawns that are profiled from late blastula to mid gastrula stage. All individual embryos of genotype ABTL were photographed and an initial developmental time was estimated using percentage epiboly as a metric.
