Disruption of the BLM gene in ATM-null DT40 cells does not exacerbate either phenotype


Autoria(s): Fukao, T; Chen, P; Ren, J; Kaneko, H; Zhang, GX; Kondo, M; Yamamoto, K; Furuichi, Y; Takeda, S; Kondo, N; Lavin, MF
Contribuinte(s)

E. P. Reddy

J. Jenkins

Data(s)

01/01/2004

Resumo

Bloom syndrome and ataxia-telangiectasia are autosomal recessive human disorders characterized by immunodeficiency, genome instability and predisposition to develop cancer. Recent data reveal that the products of these two genes, BLM and ATM, interact and function together in recognizing abnormal DNA structures. To investigate the function of these two molecules in DNA damage recognition, we generated double knockouts of ATM(-/-) BLM-/- in the DT40 chicken B-lymphocyte cell line. The double mutant cells were viable and exhibited a variety of characteristics of both ATM(-/-) and BLM-/- cells. There was no evidence for exacerbation of either phenotype; however, the more extreme radiosensitivity seen in ATM(-/-) and the elevated sister chromatid exchange seen in BLM-/- cells were retained in the double mutants. These results suggest that ATM and BLM have largely distinct roles in recognizing different forms of damage in DNA, but are also compatible with partially overlapping functions in recognizing breaks in radiation-damaged DNA.

Identificador

http://espace.library.uq.edu.au/view/UQ:69704

Idioma(s)

eng

Publicador

Nature Publishing Group

Palavras-Chave #Biochemistry & Molecular Biology #Oncology #Cell Biology #Genetics & Heredity #Ataxia-telangiectasia #Bloom Syndrome #Dna Damage #Dt40 Cells #Gene Disruption #Blooms-syndrome Gene #Double-strand Breaks #Ionizing-radiation #Dna-damage #Dependent Phosphorylation #Recombinational Repair #Genomic Instability #Syndrome Protein #S-phase #C1 #321204 Mental Health #730204 Child health
Tipo

Journal Article