New rat study may help understand genetic basis of human hypertension
Washington, April 29 (ANI): Scientists have sequenced the genome of the spontaneously hypertensive rat, which could help understand causes of the disease in humans.
The spontaneously hypertensive rat (SHR) strain is the most widely studied animal model of human hypertension. Research on this strain has identified many genomic regions that likely harbour genetic variants that are responsible for the hypertension phenotype, however without a complete sequence of the hypertensive rat genome, it has been difficult to resolve many of these genomic changes and explore their molecular consequences.
Taking advantage of new technologies that are rapidly driving down the cost of DNA sequencing, an international team of researchers led by Timothy Aitman of the MRC Clinical Sciences Centre and Imperial College London have sequenced the first genome of a mammalian disease model with second-generation sequencing technology.
By comparing the SHR genome sequence with that of the rat reference genome sequence, Aitman and colleagues generated a nearly complete catalog of SHR genomic variants that could contribute to hypertension and other phenotypes.
They also found that genes known to be abnormally expressed in SHR are especially enriched for sequence variants.
The group expected that the genome sequence would reveal mutations disrupting a number of genes in the SHR strain, however the number of mutated genes they found was quite surprising - 788 genes are mutated in SHR compared to the reference genome, including 60 that are deleted altogether.
"So many major differences in protein sequence were unexpected because of the previous belief that differences in a small number of genes and proteins would be responsible for the phenotypic differences between such rat strains," said Aitman.
Of the 788 mutated genes identified in the SHR genome, many are related to cellular functions such as ion transport and plasma membrane localization, as well as immunological and neurological processes.
The authors suggest that defects in these functional categories may be causally associated with the known phenotypes of this strain.
Aitman said that their characterization of genetic variation in the hypertensive rat would be invaluable for complete elucidation of the causes of hypertension and related traits at the molecular level in hypertensive rat.
"This in turn will pave the way for greater understanding of the genetic basis of hypertension in humans," Aitman said.
The study has been published online in Genome Research. (ANI)
-
LPG Crunch: Karnataka Brings New SOPs, Makes PNG Registration Mandatory for Businesses -
Hyderabad Gold Silver Rate Today, 30 March 2026: Check Fresh 24K, 22K, 18K Gold And Silver Prices In City -
Opinion Poll For Kerala Assembly Election 2026: Ldf Strength In Kannur And Kasaragod -
Tamil Nadu Polls 2026: Vijay Reveals Rs 645 Crore Assets, Rs 266 Crore in Banks; Know All His Declaration -
Mumbai Metro Line 9 Set for April 3 Launch, Dahisar-Mira Bhayandar to Get Direct Boost -
Trump Hints At Breakthrough With Iran Amid War Escalation, Calls Recent Move A ‘Sign Of Respect’ -
Rahul Arunoday Banerjee Autopsy Report: Actor Was Underwater For Over An Hour, Sand Found In Lungs -
West Bengal Assembly elections: Election Commission transfers heads of 173 police stations -
Delhi Weather Brings Relief: IMD Issues Yellow Alert For Rain, Thunderstorms And Gusty Winds; Check Forecast -
Tamil Nadu Elections 2026: Vijay Files Nomination Same Day as MK Stalin, Sets Up Symbolic Political Face-Off -
Too Close To Call? 57 Key Seats Could Decide West Bengal Election 2026 As TMC And BJP Gear Up For Tight Battle -
Kim Jong Un Oversees New Solid-Fuel Missile Engine Test, Claims Capability To Reach US Mainland
Click it and Unblock the Notifications
Sign in with Google