Anne Santerre scite author profile

The D. melanogaster mei-41 gene is required for DNA repair, mitotic chromosome stability, and normal levels of meiotic recombination in oocytes. Here we show that the predicted mei-41 protein is similar in sequence to the ATM (ataxia telangiectasia) protein from humans and to the yeast rad3 and Mec1p proteins. There is also extensive functional overlap between mei-41 and ATM. Like ATM-deficient cells, mei-41 cells are exquisitely sensitive to ionizing radiation and display high levels of mitotic chromosome instability. We also demonstrate that mei-41 cells, like ATM-deficient cells, fail to show an irradiation-induced delay in the entry into mitosis that is characteristic of normal cells. Thus, the mei-41 gene of Drosophila may be considered to be a functional homolog of the human ATM gene.

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Characterization of monascidin A from Monascus as citrinin

Blanc

Laussac

Bars³

et al. 1995

International Journal of Food Microbiology

251

149

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Production and Food Applications of the Red Pigments of Monascus ruber

Fabre

Santerre

Loret

et al. 1993

Journal of Food Science

165

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Following our investigations on food additive production through fermentation, we studied properties of red pigments secreted by Monascus ruber in submerged culture, using ethanol and glutamate as carbon and nitrogen sources. After extraction and purification, these colorants were suspended in water for evaluation. The stability of the extract was tested both in solution and when incorporated into meat products (sausage and plte). The pigments added to sausage or pate remained stable when stored for 3 mo at 4°C; their stability was between 92 and 98%. Sensory tests revealed that Monascus pigments could replace some traditional food additives such as nitrite salts or cochineal.

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Pigments of Monascus

Blanc

Loret

Santerre

et al. 1994

Journal of Food Science

138

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A chemically defined medium with glutamic acid as nitrogen source was devised for the culture of two species of Monascus (M. ruber and M. purpurercr), resulting in optimum production of their pigments and their chemical structures (both free and complexed) were compared. Structural data on two major complex pigments in aqueous solution were obtained by IR, UV, NMR and MS. They were free pigments linked to glutamic acid by amino groups, where nitrogen replaced the pyronoid oxygen.

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Anne Santerre

The mei-41 gene of D. melanogaster is a structural and functional homolog of the human ataxia telangiectasia gene

Characterization of monascidin A from Monascus as citrinin

Production and Food Applications of the Red Pigments of Monascus ruber

Pigments of Monascus

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