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Cellular Werner phenotypes in mice expressing a putative dominant-negative human WRN gene.

ABSTRACT: Mutations at the Werner helicase locus (WRN) are responsible for the Werner syndrome (WS). WS patients prematurely develop an aged appearance and various age-related disorders. We have generated transgenic mice expressing human WRN with a putative dominant-negative mutation (K577M-WRN). Primary tail fibroblast cultures from K577M-WRN mice showed three characteristics of WS cells: hypersensitivity to 4-nitroquinoline-1-oxide (4NQO), reduced replicative potential, and reduced expression of the endogenous WRN protein. These data suggest that K577M-WRN mice may provide a novel mouse model for the WS.

SUBMITTER: Wang L 

PROVIDER: S-EPMC1460888 | biostudies-other | 2000 Jan

REPOSITORIES: biostudies-other

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Cellular Werner phenotypes in mice expressing a putative dominant-negative human WRN gene.

Wang L L   Ogburn C E CE   Ware C B CB   Ladiges W C WC   Youssoufian H H   Martin G M GM   Oshima J J  

Genetics 20000101 1

Mutations at the Werner helicase locus (WRN) are responsible for the Werner syndrome (WS). WS patients prematurely develop an aged appearance and various age-related disorders. We have generated transgenic mice expressing human WRN with a putative dominant-negative mutation (K577M-WRN). Primary tail fibroblast cultures from K577M-WRN mice showed three characteristics of WS cells: hypersensitivity to 4-nitroquinoline-1-oxide (4NQO), reduced replicative potential, and reduced expression of the end  ...[more]

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