Project description:For final aim to completes network map between gene that is concerned in cystogenesis, verifies meaning genes connected with cyst formation analyzing gene pattern in Mxi1 KO mouse that have phenotype of polycystic kidney disease. Monitoring meaning genes through microarray analysis, and confirm the function of these genes. Also, find pathway including meaning genes and new pathway related with PKD. Completes network map concerned in cystogenesis through integrates knowing pathway and predicting pathway. Develope diagnostic of cyst disease and cure target through such completed network map, and wish to clear new role of cyst formation connection gene through in vivo model and examine closely control system of cyst formation mechanism. Keywords: Cystogenesis

Project description:For final aim to completes network map between gene that is concerned in cystogenesis, verifies meaning genes connected with cyst formation analyzing gene pattern in time-dependent Mxi1 KO mouse that have phenotype of polycystic kidney disease. Monitoring meaning genes through microarray analysis, and confirm the function of these genes. Also, find pathway including meaning genes and new pathway related with PKD. Completes network map concerned in time-dependent cystogenesis through integrates knowing pathway and predicting pathway. Develope diagnostic of cyst disease and cure target through such completed network map, and wish to clear new role of cyst formation connection gene through in vivo model and examine closely control system of cyst formation mechanism. Keywords: time course Use 1 mouse at each time experiment and control(total 12 mice). Indirect labeling of 10g cRNA, using bacterial control mRNA.

Project description:For final aim to completes network map between gene that is concerned in cystogenesis, verifies meaning genes connected with cyst formation analyzing gene pattern in time-dependent Mxi1 KO mouse that have phenotype of polycystic kidney disease. Monitoring meaning genes through microarray analysis, and confirm the function of these genes. Also, find pathway including meaning genes and new pathway related with PKD. Completes network map concerned in time-dependent cystogenesis through integrates knowing pathway and predicting pathway. Develope diagnostic of cyst disease and cure target through such completed network map, and wish to clear new role of cyst formation connection gene through in vivo model and examine closely control system of cyst formation mechanism. Keywords: time course

Project description:Through genome-wide profiling of chromatin dynamics, we revealed a profound increase of global chromatin accessibility and a switch from H3K9me3 to H3K9ac on cis-regulatory DNA elements of cyst-associated genes during cystogenesis. In an integrated epigenomic and transcriptomic analysis, we identified a transcription factor network associated with dynamic shifts in chromatin states. Functionally, we showed that inhibition of H3K9ac acetyltransferase or H3K9me3 demethylase restored chromatin states and gene expression program to slow cyst growth in PLD mice.

Project description:Through genome-wide profiling of chromatin dynamics, we revealed a profound increase of global chromatin accessibility and a switch from H3K9me3 to H3K9ac on cis-regulatory DNA elements of cyst-associated genes during cystogenesis. In an integrated epigenomic and transcriptomic analysis, we identified a transcription factor network associated with dynamic shifts in chromatin states. Functionally, we showed that inhibition of H3K9ac acetyltransferase or H3K9me3 demethylase restored chromatin states and gene expression program to slow cyst growth in PLD mice.

Project description:Through genome-wide profiling of chromatin dynamics, we revealed a profound increase of global chromatin accessibility and a switch from H3K9me3 to H3K9ac on cis-regulatory DNA elements of cyst-associated genes during cystogenesis. In an integrated epigenomic and transcriptomic analysis, we identified a transcription factor network associated with dynamic shifts in chromatin states. Functionally, we showed that inhibition of H3K9ac acetyltransferase or H3K9me3 demethylase restored chromatin states and gene expression program to slow cyst growth in PLD mice.

Project description:Through genome-wide profiling of chromatin dynamics, we revealed a profound increase of global chromatin accessibility and a switch from H3K9me3 to H3K9ac on cis-regulatory DNA elements of cyst-associated genes during cystogenesis. In an integrated epigenomic and transcriptomic analysis, we identified a transcription factor network associated with dynamic shifts in chromatin states. Functionally, we showed that inhibition of H3K9ac acetyltransferase or H3K9me3 demethylase restored chromatin states and gene expression program to slow cyst growth in PLD mice.

Project description:Through genome-wide profiling of chromatin dynamics, we revealed a profound increase of global chromatin accessibility and a switch from H3K9me3 to H3K9ac on cis-regulatory DNA elements of cyst-associated genes during cystogenesis. In an integrated epigenomic and transcriptomic analysis, we identified a transcription factor network associated with dynamic shifts in chromatin states. Functionally, we showed that inhibition of H3K9ac acetyltransferase or H3K9me3 demethylase restored chromatin states and gene expression program to slow cyst growth in PLD mice.

Project description:Through genome-wide profiling of chromatin dynamics, we revealed a profound increase of global chromatin accessibility and a switch from H3K9me3 to H3K9ac on cis-regulatory DNA elements of cyst-associated genes during cystogenesis. In an integrated epigenomic and transcriptomic analysis, we identified a transcription factor network associated with dynamic shifts in chromatin states. Functionally, we showed that inhibition of H3K9ac acetyltransferase or H3K9me3 demethylase restored chromatin states and gene expression program to slow cyst growth in PLD mice.

Project description:Through genome-wide profiling of chromatin dynamics, we revealed a profound increase of global chromatin accessibility and a switch from H3K9me3 to H3K9ac on cis-regulatory DNA elements of cyst-associated genes during cystogenesis. In an integrated epigenomic and transcriptomic analysis, we identified a transcription factor network associated with dynamic shifts in chromatin states. Functionally, we showed that inhibition of H3K9ac acetyltransferase or H3K9me3 demethylase restored chromatin states and gene expression program to slow cyst growth in PLD mice.