Author/Editor | Stenovec, M; Šolmajer, T; Perdih, A; Vardjan, N; Kreft, M; Zorec, R | |
Title | Distinct labelling of fusion events in rat lactotrophs by FM 1-43 and FM 4-64 is associated with conformational differences | |
Type | članek | |
Source | Acta Physiol (Oxf) | |
Vol. and No. | Letnik 191, št. 1 | |
Publication year | 2007 | |
Volume | str. 35-42 | |
Language | eng, slv | |
Abstract | Aim: Conformational analysis of fluorescent styryl dyes FM 1-43 and FM 4-64 was undertaken to clarify if distinct activity-dependent labelling of single lactotrophs vesicles and plasma membrane by two dyes is associated with their structural differences. Methods: The activity-dependent labelling of single vesicles and plasma membrane by FM 1-43 and FM 4-64 was studied using confocal microscopy. The fluorescence intensity of vesicles fused with the plasma membrane, and the plasma membrane alone was measured; the ratio of their respective peak amplitudes was calculated. The conformational analysis of FM 1-43 and FM 4-64 was further undertaken by employing the Monte Carlo approach to search the conformational space of these molecules. Results: In FM 1-43 staining of vesicles and plasma membrane, the ratio of the fluorescence peak amplitudes (vesicle vs. plasma membrane) was 2.6 times higher in comparison with FM 4-64 staining. In FM 4-64 molecule the low-energy conformations are distributed in three conformational states (consisting of 3, 4 and 2 conformers respectively) in which the proportion of the molecules residing in a given state is 62%, 28% and 9% respectively. In FM 1-43 the conformation distribution is limited to just one conformational state with three approximately equally populated conformers what can be explained by greater intrinsic rigidity of the molecule. Conclusions: The observed structural characteristics of FM 1-43 molecules may account for a higher increase in quantum yield and/or binding affinity upon incorporation of the dye into the vesicle matrix and therefore stronger fluorescence emission in comparison with FM 4-64. | |
Descriptors | EXOCYTOSIS CELL MEMBRANE FLUORESCENT DYES MICROSCOPY, CONFOCAL PITUITARY GLAND, ANTERIOR PROLACTIN CELLS, CULTURED RATS, WISTAR |