Sarah J. Rauth scite author profile

We have isolated a murine cDNA, Mrad9, that is orthologous to the fission yeast rad9+ and human HRAD9 genes. Mrad9 encodes a 389 amino acid long, 42,032 Dalton protein that is 27% identical and 56% similar to Rad9p, and 82% identical and 88% similar to HRAD9, at the amino acid level. Expression of the Mrad9 cDNA in Schizosaccharomyces pombe rad9::ura4+ cells restores nearly wild-type levels of hydroxyurea resistance and early S phase checkpoint control to mutant fission yeast cell populations. However, UV resistance is only minimally restored, and mutant cells remain sensitive to gamma radiation. Mrad9 genomic DNA was isolated from a mouse 129/SvEv library. The Mrad9 gene was local ized to a 15-kbp genomic DNA fragment, and contains 10 exons separated by 9 introns. Northern blot analysis indicates that the gene is expressed in many different tissues of the adult mouse, but the mRNA is most abundant in the heart and present at very low levels in the liver. These studies demonstrate the existence of a murine orthologue of the fission yeast rad9+ gene and underscore at least the partial evolutionary conservation of rad9+-dependent checkpoint control mechanisms.

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Possible role of the receptor protein tyrosine phosphatase HmLAR2 in interbranch repulsion in a leech embryonic cell

Baker

Rauth

Macagno

2000

J. Neurobiol.

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Mutant alleles of Schizosaccharomyces pombe rad9+ alter hydroxyurea resistance, radioresistance and checkpoint control

Hang

Rauth

Hopkins

et al. 2000

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Schizosaccharomyces pombe rad9 mutations can render cells sensitive to hydroxyurea (HU), gamma-rays and UV light and eliminate associated checkpoint controls. In vitro mutagenesis was performed on S.pombe rad9 and altered alleles were transplaced into the genome to ascertain the functional significance of five groups of evolutionarily conserved amino acids. Most targeted regions were changed to alanines, whereas rad9-S3 encodes a protein devoid of 22 amino acids normally present in yeast but absent from mammalian Rad9 proteins. We examined whether these rad9 alleles confer radiation and HU sensitivity and whether the sensitivities correlate with checkpoint control deficiencies. One rad9 mutant allele was fully active, whereas four others demonstrated partial loss of function. rad9-S1, which contains alterations in a BH3-like domain, conferred HU resistance but increased sensitivity to gamma-rays and UV light, without affecting checkpoint controls. rad9-S2 reduced gamma-ray sensitivity marginally, without altering other phenotypes. Two alleles, rad9-S4 and rad9-S5, reduced HU sensitivity, radiosensitivity and caused aberrant checkpoint function. HU-induced checkpoint control could not be uncoupled from drug resistance. These results establish unique as well as overlapping functional domains within Rad9p and provide evidence that requirements of the protein for promoting resistance to radiation and HU are not identical.

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Sarah J. Rauth

Molecular cloning and tissue-specific expression ofMrad9, a murine orthologue of theSchizosaccharomyces pombe rad9+ checkpoint control gene

Possible role of the receptor protein tyrosine phosphatase HmLAR2 in interbranch repulsion in a leech embryonic cell

Mutant alleles of Schizosaccharomyces pombe rad9+ alter hydroxyurea resistance, radioresistance and checkpoint control

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