69 research outputs found
Terahertz underdamped vibrational motion governs protein-ligand binding in solution
Low-frequency collective vibrational modes in proteins have been proposed as being responsible for efficiently directing biochemical reactions and biological energy transport. However, evidence of the existence of delocalized vibrational modes is scarce and proof of their involvement in biological function absent. Here we apply extremely sensitive femtosecond optical Kerr-effect spectroscopy to study the depolarized Raman spectra of lysozyme and its complex with the inhibitor triacetylchitotriose in solution. Underdamped delocalized vibrational modes in the terahertz frequency domain are identified and shown to blue-shift and strengthen upon inhibitor binding. This demonstrates that the ligand-binding coordinate in proteins is underdamped and not simply solvent-controlled as previously assumed. The presence of such underdamped delocalized modes in proteins may have significant implications for the understanding of the efficiency of ligand binding and protein–molecule interactions, and has wider implications for biochemical reactivity and biological function
Glutamate regulation of calcium and IP3 oscillating and pulsating dynamics in astrocytes
Recent years have witnessed an increasing interest in neuron-glia
communication. This interest stems from the realization that glia participates
in cognitive functions and information processing and is involved in many brain
disorders and neurodegenerative diseases. An important process in neuron-glia
communications is astrocyte encoding of synaptic information transfer: the
modulation of intracellular calcium dynamics in astrocytes in response to
synaptic activity. Here, we derive and investigate a concise mathematical model
for glutamate-induced astrocytic intracellular Ca2+ dynamics that captures the
essential biochemical features of the regulatory pathway of inositol
1,4,5-trisphosphate (IP3). Starting from the well-known two-state Li-Rinzel
model for calcium-induced-calcium release, we incorporate the regulation of the
IP3 production and phosphorylation. Doing so we extended it to a three-state
model (referred as the G-ChI model), that could account for Ca2+ oscillations
triggered by endogenous IP3 metabolism as well as by IP3 production by external
glutamate signals. Compared to previous similar models, our three-state models
include a more realistic description of the IP3 production and degradation
pathways, lumping together their essential nonlinearities within a concise
formulation. Using bifurcation analysis and time simulations, we demonstrate
the existence of new putative dynamical features. The cross-couplings between
IP3 and Ca2+ pathways endows the system with self-consistent oscillator
properties and favor mixed frequency-amplitude encoding modes over pure
amplitude modulation ones. These and additional results of our model are in
general agreement with available experimental data and may have important
implications on the role of astrocytes in the synaptic transfer of information.Comment: 42 pages, 16 figures, 1 table. Figure filenames mirror figure order
in the paper. Ending "S" in figure filenames stands for "Supplementary
Figure". This article was selected by the Faculty of 1000 Biology: "Genevieve
Dupont: Faculty of 1000 Biology, 4 Sep 2009" at
http://www.f1000biology.com/article/id/1163674/evaluatio
Effect of Inorganic and Organic Carbon Enrichments (DIC and DOC) on the Photosynthesis and Calcification Rates of Two Calcifying Green Algae from a Caribbean Reef Lagoon
Coral reefs worldwide are affected by increasing dissolved inorganic carbon (DIC) and organic carbon (DOC) concentrations due to ocean acidification (OA) and coastal eutrophication. These two stressors can occur simultaneously, particularly in near-shore reef environments with increasing anthropogenic pressure. However, experimental studies on how elevated DIC and DOC interact are scarce and fundamental to understanding potential synergistic effects and foreseeing future changes in coral reef function. Using an open mesocosm experiment, the present study investigated the impact of elevated DIC (pHNBS: 8.2 and 7.8; pCO2: 377 and 1076 ?atm) and DOC (added as 833 ?mol L-1 of glucose) on calcification and photosynthesis rates of two common calcifying green algae, Halimeda incrassata and Udotea flabellum, in a shallow reef environment. Our results revealed that under elevated DIC, algal photosynthesis decreased similarly for both species, but calcification was more affected in H. incrassata, which also showed carbonate dissolution rates. Elevated DOC reduced photosynthesis and calcification rates in H. incrassata, while in U. flabellum photosynthesis was unaffected and thalus calcification was severely impaired. The combined treatment showed an antagonistic effect of elevated DIC and DOC on the photosynthesis and calcification rates of H. incrassata, and an additive effect in U. flabellum. We conclude that the dominant sand dweller H. incrassata is more negatively affected by both DIC and DOC enrichments, but that their impact could be mitigated when they occur simultaneously. In contrast, U. flabellum can be less affected in coastal eutrophic waters by elevated DIC, but its contribution to reef carbonate sediment production could be further reduced. Accordingly, while the capacity of environmental eutrophication to exacerbate the impact of OA on algal-derived carbonate sand production seems to be species-specific, significant reductions can be expected under future OA scenarios, with important consequences for beach erosion and coastal sediment dynamics
Control of the phosphorylation of the astrocyte marker glial fibrillary acidic protein (GFAP) in the immature rat hippocampus by glutamate and calcium ions: possible key factor in astrocytic plasticity
On certain fluorescent axon terminals containing granular synaptic vesicles in the cerebellar nucleus lateralis
Possible modulation of phosphorylation of acetylcholine receptor-enriched membrane preparations
Phosphorylation in vitro of Membrane Fragments from Torpedo marmorata Electric Organ. Effect on Membrane Solubilization by Detergents
N-methyl-d-Aspartic Acid Differentially Regulates Extracellular Dopamine, GABA, and Glutamate Levels in the Dorsolateral Neostriatum of the Halothane-Anesthetized Rat: An In Vivo Microdialysis Study
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