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Merck

Degenerate cysteine patterns mediate two redox sensing mechanisms in the papillomavirus E7 oncoprotein.

Redox biology (2016-11-20)
Gabriela Camporeale, Juan R Lorenzo, Maria G Thomas, Edgardo Salvatierra, Silvia S Borkosky, Marikena G Risso, Ignacio E Sánchez, Gonzalo de Prat Gay, Leonardo G Alonso
RÉSUMÉ

Infection with oncogenic human papillomavirus induces deregulation of cellular redox homeostasis. Virus replication and papillomavirus-induced cell transformation require persistent expression of viral oncoproteins E7 and E6 that must retain their functionality in a persistent oxidative environment. Here, we dissected the molecular mechanisms by which E7 oncoprotein can sense and manage the potentially harmful oxidative environment of the papillomavirus-infected cell. The carboxy terminal domain of E7 protein from most of the 79 papillomavirus viral types of alpha genus, which encloses all the tumorigenic viral types, is a cysteine rich domain that contains two classes of cysteines: strictly conserved low reactive Zn