Presence of guanine nucleotide-binding proteins in Catharanthus roseus transformed roots |
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Authors: | Victor Manuel Suárez-Solis Mildred R Carrillo-Pech J Armando Muñoz-Sánchez Roberto Coria-Ortega Sm Teresa Hernández-Sotomayor |
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Institution: | Unidad de Biología Experimental Centro de Investigación Científica de Yucatán Ap. Postal 87 Cordemex 97310 Mérida, Yuc. México; Departmento de Microbiología, Instituto de Fisiología Celular Universidal Nacional Autónoma de México, Ap. Postal 70-242, 04510 México, D.F., Mexico |
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Abstract: | Biochemical analysis revealed the presence of GTP-binding proteins (G-proteins) in Catharanthus roseus hairy root cultures. In a microsomal fraction, several proteins, with molecular masses of 17, 21, 38, 42, 65, and 79 kDa were substrates for ADP-ribosylation by cholera toxin. Antisera raised against a conserved amino-acid sequence (GTSNSGKSTIVKQMK) of mammalian G α subunits recognized three proteins of 42, 50, and 79 kDa. Incubation of nitrocellulose blots with α -32P]-GTP also indicated the presence of several proteins (17, 21, 50, and 79 kDa) that could bind GTP. In this system, we previously identified a phosphatidylinositol 4,5-bisphosphate-phospholipase C (PLC, EC 3.1.4.11) activity. As the activation of PLC by G-proteins was described, we decided to see whether, in our system, G-protein activators, such as guanosine 5- o -(3-thiotriphosphate) (GTP Γ S) and sodium fluoride ions, were able to regulate PLC activity in C. roseus transformed roots. Our results show that these agents regulated PLC activity in an inhibitory fashion and that this effect is dose-dependent. GTP was ineffective in producing either stimulation or inhibition of PLC activity. Our results demonstrate that non-hydrolyzable guanine nucleotides and fluoride ions exert an inhibitory effect on membrane PLC activity. In summary, a set of proteins of 17, 21, 38, 42, 50, and 79 kDa present in C. roseus transformed roots possessed at least two of the three main characteristics of a GTP-binding protein, and one of these proteins may be involved in the regulation of PLC activity in C. roseus transformed roots. |
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