Project description:This is a study of the change in gene expression in mouse kidney after feeding control (1.0% P) or low phosphate diet (0.03% P) for 3 or 5 days to normal or Hyp (X-linked hypophosphatemic) mice at 5 weeks of age. The mice were C57BL/6J. Normal wild-type mice, hemizygous Hyp (Hyp/Y) male mice, or heterozygous (Hyp/+) female mice were used. The gene is dominant, so that the two genders are equally affected with low renal retention of phosphate and severity of their bone disease. RNA from 3 mice were pooled for each microarray. The arrays were processed as described in the Affymetrix GeneChip Expression Analysis Technical Manual (copyright 2001, Affymetrix, Inc., Santa Clara, CA), rev. 1, Part number 701021. The data for each array were scaled to an average signal value of 500 for all genes on the array. Keywords = mouse Keywords = kidney Keywords = low phosphate diet Keywords = Hyp Keywords = Phex Keywords = X-linked hypophosphatemia Keywords: repeat sample
Project description:Phosphate homeostasis is a known critical function performed by the mammalian kidneys. However, changes to the transcriptome of the mammalian kidney in response to phosphate loading is unclear. The goal of this study was to examine kidney gene expression in response to high phosphate diet, compared to normal phosphate diet. RNA-seq was performed on the kidneys of C57BL/6J mice who were fed a high phosphate diet and in mice who received a normal phosphate diet for three days.
Project description:The renal adaptation to changing dietary phosphate levels is not well understood. The dominant Hyp mutation of the Phex gene in mice causes X-linked hypophosphatemia with low renal retention of phosphate and blocks physiologic adaptation to low phosphate diets. At P < 0.01, there were 1,711 transcripts significantly affected by genotype, 1,428 by diet and 5,601 by sex. Many renal transporters other than phosphate, as well as many novel transcripts of unknown function, were affected by the Hyp mutation. Some genes for fat metabolism and inflammation were up-regulated in Hyp kidneys. Of the genes affected by genotype and diet, only 378 were affected by both. In summary, the Hyp mutation induced changes in mRNA levels for numerous transcripts exceeding that required to alter phosphate retention. The data suggest broader physiological roles for the Phex gene unrelated to phosphate conservation. Keyword = Phex; Keyword = Hyp; Keyword = mouse; Keyword = kidney; Keyword = sex; Keyword = mRNA; Keyword = microarray; Keyword = low phosphorus diet Experiment Overall Design: A 2x2x2 factorial design, balanced for genotype (normal vs. Hyp), diet (control vs. low phosphate), and sex (male vs. female) was employed. Control or low phosphate diets were fed for three days to 10-week-old mice. A total of 24 samples of renal RNA were collected from 72 mice (3/array), processed to biotin-labeled cRNA, and hybridized to Affymetrix mouse MOE 430A and 430B for measurement of expression of over 45,000 transcripts.
Project description:This is a study of the change in gene expression in mouse kidney after feeding control (1.0% P) or low phosphate diet (0.03% P) for 3 or 5 days to normal or Hyp (X-linked hypophosphatemic) mice at 5 weeks of age. The mice were C57BL/6J. Normal wild-type mice, hemizygous Hyp (Hyp/Y) male mice, or heterozygous (Hyp/+) female mice were used. The gene is dominant, so that the two genders are equally affected with low renal retention of phosphate and severity of their bone disease. RNA from 3 mice were pooled for each microarray. The arrays were processed as described in the Affymetrix GeneChip Expression Analysis Technical Manual (copyright 2001, Affymetrix, Inc., Santa Clara, CA), rev. 1, Part number 701021. The data for each array were scaled to an average signal value of 500 for all genes on the array.
Project description:The renal adaptation to changing dietary phosphate levels is not well understood. The dominant Hyp mutation of the Phex gene in mice causes X-linked hypophosphatemia with low renal retention of phosphate and blocks physiologic adaptation to low phosphate diets. At P < 0.01, there were 1,711 transcripts significantly affected by genotype, 1,428 by diet and 5,601 by sex. Many renal transporters other than phosphate, as well as many novel transcripts of unknown function, were affected by the Hyp mutation. Some genes for fat metabolism and inflammation were up-regulated in Hyp kidneys. Of the genes affected by genotype and diet, only 378 were affected by both. In summary, the Hyp mutation induced changes in mRNA levels for numerous transcripts exceeding that required to alter phosphate retention. The data suggest broader physiological roles for the Phex gene unrelated to phosphate conservation. Keyword = Phex Keyword = Hyp Keyword = mouse Keyword = kidney Keyword = sex Keyword = mRNA Keyword = microarray Keyword = low phosphorus diet Keywords: disease state analysis
Project description:determine the effect of the high-fat diet on the proteomics profile of liver tissue.Mice were fed with HFD for 16 weeks to establish a NAFLD mouse model. Mice fed with normal chow diet were taken as controls. Five replicate liver samples were collected from each group for proteomics analysis.