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Hydroxamic acid - A novel molecule for anticancer therapy

Pal Dilipkumar, Saha Supriyo

Year : 2012| Volume: 3| Issue : 2 | Page no: 92-99

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6 Unexpected activation of N-Alkyl hydroxamic acids to produce reactive N-centered free radicals and DNA damage by carcinogenic chlorinated quinones under normal physiological conditions
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