A subset of growth hormone-secreting human pituitary tumours carries somatic mutations that inhibit GTPase activity of a G protein α chain, α(s). The resulting activation of adenylyl cyclase bypasses the cells' normal requirement for trophic hormone. Amino acids substituted in the putative gsp oncogene identify a domain of G protein α-chains required for intrinsic ability to hydrolyse GTP. This domain may serve as a built-in counterpart of the separate GTPase-activating proteins required for GTP hydrolysis by small GTP-binding proteins such as p21(ras).
GTPase inhibiting mutations activate the α chain of Gs and stimulate adenylyl cyclase in human pituitary tumours / C.A. Landis, S.B. Masters, A. Spada, A.M. Pace, H.R. Bourne, L. Vallar. - In: NATURE. - ISSN 0028-0836. - 340:6236(1989), pp. 692-696.
GTPase inhibiting mutations activate the α chain of Gs and stimulate adenylyl cyclase in human pituitary tumours
A. Spada;L. VallarUltimo
1989
Abstract
A subset of growth hormone-secreting human pituitary tumours carries somatic mutations that inhibit GTPase activity of a G protein α chain, α(s). The resulting activation of adenylyl cyclase bypasses the cells' normal requirement for trophic hormone. Amino acids substituted in the putative gsp oncogene identify a domain of G protein α-chains required for intrinsic ability to hydrolyse GTP. This domain may serve as a built-in counterpart of the separate GTPase-activating proteins required for GTP hydrolysis by small GTP-binding proteins such as p21(ras).
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