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Links from GEO DataSets

Items: 4

1.
Full record GDS4812

High phosphate diet effect on the kidney

Analysis of kidneys from male Wistar animals fed a high phosphorous diet. An HP diet causes renal calcification and hypertrophy. Results provide insight into the molecular mechanisms regulating phosphate homeostasis.
Organism:
Rattus norvegicus
Type:
Expression profiling by array, transformed count, 2 protocol sets
Platform:
GPL1355
Series:
GSE31973
8 Samples
Download data: CEL
2.

Effect of a High Phosphorus Diet on Renal Gene Expressions in Rat

(Submitter supplied) The mechanism by which phosphorus levels are maintained in the body was investigated by analyzing changes in gene expression in the rat kidney following administration of a high-phosphorus diet. Male Wistar rats were fed a high phosphorous (HP) diet containing 1.2% phosphorous, or 0.3% HP as a control, for 24 days. Phosphorous retention was not significantly increased in HP rats, but fractional excretion of phosphorus was significantly increased in the HP group compared to controls, with an excessive amount of the ingested phosphorus being passed through the body. more...
Organism:
Rattus norvegicus
Type:
Expression profiling by array
Dataset:
GDS4812
Platform:
GPL1355
8 Samples
Download data: CEL
Series
Accession:
GSE31973
ID:
200031973
3.

Effect of a High Phosphorus Diet on Hepatic Gene Expressions in Rat

(Submitter supplied) A high phosphorus (HP) diet causes disorders of renal function, bone metabolism, and vascular function. We previously demonstrated that DNA microarray analysis is an appropriate method to comprehensively evaluate the effects of a HP diet on kidney dysfunction such as calcification, fibrillization, and inflammation. We reported that type IIb sodium-dependent phosphate transporter is significantly up-regulated in this context. more...
Organism:
Rattus norvegicus
Type:
Expression profiling by array
Platform:
GPL1355
8 Samples
Download data: CEL
Series
Accession:
GSE71201
ID:
200071201
4.

Identification of a Mammalian Silicon Transporter

(Submitter supplied) Silicon (Si) has long been known to play a major physiological role in certain organisms, including some sponges and many diatoms and higher plants, leading to the recent identification of multiple proteins responsible for silicon transport in a range of algal and plant species. In mammals, despite several convincing studies suggesting that silicon is an important factor in bone development and connective tissue health, there is a critical lack of understanding in biochemical pathways that enable silicon homeostasis. more...
Organism:
Rattus norvegicus
Type:
Expression profiling by array
Platform:
GPL1355
8 Samples
Download data: CEL
Series
Accession:
GSE58404
ID:
200058404
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