In a biological system, water can be bound to the matrix with different energies and thus, when the latter is heated, be lost at subsequent stages according to the activation energies required to obtain the release of the different types of water. In this sense, particularly when combined with ancillary systems such as FT-IR spectroscopy, thermoanalytical techniques allow us to distinguish all the different types of water contained in a biological system. Using this approach, the water in the cerebellum of mice treated by subdural inoculation of ouabain (G-strophanthin) was studied.
Modifications induced on water-matrix interactions and on ATPase, Na,K-dependent acitivity in ouabain-treated cerebella of mice / Curini, Roberta; Antonelli, Marta Letizia; E. M., Pennisi; L., Calandriello; G., D'Ascenzo; DE ANGELIS CURTIS, Simonetta Carla Benedett; G., Palladini. - In: THERMOCHIMICA ACTA. - ISSN 0040-6031. - STAMPA. - 285:(1996), pp. 127-140. [10.1016/0040-6031(96)02873-0]
Modifications induced on water-matrix interactions and on ATPase, Na,K-dependent acitivity in ouabain-treated cerebella of mice
CURINI, Roberta;ANTONELLI, Marta Letizia;DE ANGELIS CURTIS, Simonetta Carla Benedett;
1996
Abstract
In a biological system, water can be bound to the matrix with different energies and thus, when the latter is heated, be lost at subsequent stages according to the activation energies required to obtain the release of the different types of water. In this sense, particularly when combined with ancillary systems such as FT-IR spectroscopy, thermoanalytical techniques allow us to distinguish all the different types of water contained in a biological system. Using this approach, the water in the cerebellum of mice treated by subdural inoculation of ouabain (G-strophanthin) was studied.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
