Inhibitory activity in buffalo follicular fluid and its elution pattern during different season.

Two pools of whole buffalo follicular fluid collected in winter (December, January) and spring (March, April) season were fractionated by Sephadex G-200 column chromatography. Follicular fluid collected in winter and spring eluted into different pattern resulted into four and three peaks respectively. Both the pools of follicular fluid were salted out with 18.5% ammonium sulphate. The salted out fraction of winter and spring season follicular fluid was again subjected to sephadex column chromatography which eluted into two and single peak respectively. Whole follicular fluid (0.6 ml) was administered into ovariectomized mice to see its inhibitory effect. The percentage of compensatory ovarian hypertrophy was 16.3 +/- 4.4 which was significantly different (P < 0.01) as compared to control. 200 micrograms material from peak 1 and peak 2 obtained after fractionation of salted out winter follicular fluid also had inhibitory effect on compensatory ovarian hypertrophy as compared to control group. It was 35.6 +/- 9.3 and 15.9 +/- 4.3% respectively. Thus, the variation in nature of buffalo follicular fluid and its inhibitory effect in ovariectomised mice have significant relation with anoestrus condition in summer and humid months in this species.

Depolarization of synaptosomal membranes: a study of mechanism by which rhodamine 6G measures membrane potential.

The fluorescence intensity of Rhodamine 6G in synaptosomal suspensions has been measured to monitor the membrane potential changes in pre-synaptic nerve terminals. The fluorescence response of the dye was seen to be a function of potential-dependent partitioning of dye molecules between the synaptosomes and the extracellular medium. Binding of dye molecules to the hydrophobic regions of membranes results in the quenching of fluorescence. Upon depolarization of the synaptosomal membrane, the dye molecules are released from the cells. The effect of changing extracellular ionic composition was also studied. The membrane potential increased linearly with log of [K]0. The resting membrane potential in buffer containing 5 mM K+ was calculated to be -60 mV. Raising the extracellular Ca2+ and Mg2+ from 1.2 mM to 10 mM did not change the membrane potential. Ca2+ ionophore A23187, in the presence of Ca2+ was found to depolarize the membranes.