Arunima Chaudhuri scite author profile

Dynamics of confined water has interesting implications in the organization and function of molecular assemblies such as membranes. A direct consequence of this type of organization is the restriction imposed on the mobility of the constituent structural units. Interestingly, this restriction (confinement) of mobility couples the motion of solvent (water) molecules with the slow moving molecules in the assembly. It is in this context that the red edge excitation shift (REES) represents a sensitive approach to monitor the environment and dynamics around a fluorophore in such organized assemblies. A shift in the wavelength of maximum fluorescence emission toward higher wavelengths, caused by a shift in the excitation wavelength toward the red edge of the absorption band, is termed REES. REES relies on slow solvent reorientation in the excited state of a fluorophore that can be used to monitor the environment and dynamics around a fluorophore in a host assembly. In this article, we focus on the application of REES to monitor organization and dynamics of membrane probes and proteins.

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Synaptotagmin oligomerization is essential for calcium control of regulated exocytosis

Bello

Jouannot

Chaudhuri

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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Regulated exocytosis, which underlies many intercellular signaling events, is a tightly controlled process often triggered by calcium ion(s) (Ca). Despite considerable insight into the central components involved, namely, the core fusion machinery [soluble -ethylmaleimide-sensitive factor attachment protein receptor (SNARE)] and the principal Ca sensor [C2-domain proteins like synaptotagmin (Syt)], the molecular mechanism of Ca-dependent release has been unclear. Here, we report that the Ca-sensitive oligomers of Syt1, a conserved structural feature among several C2-domain proteins, play a critical role in orchestrating Ca-coupled vesicular release. This follows from pHluorin-based imaging of single-vesicle exocytosis in pheochromocytoma (PC12) cells showing that selective disruption of Syt1 oligomerization using a structure-directed mutation (F349A) dramatically increases the normally low levels of constitutive exocytosis to effectively occlude Ca-stimulated release. We propose a parsimonious model whereby Ca-sensitive oligomers of Syt (or a similar C2-domain protein) assembled at the site of docking physically block spontaneous fusion until disrupted by Ca Our data further suggest Ca-coupled vesicular release is triggered by removal of the inhibition, rather than by direct activation of the fusion machinery.

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Symmetrical organization of proteins under docked synaptic vesicles

Radhakrishnan

Grushin

et al. 2019

FEBS Letters

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During calcium‐regulated exocytosis, the constitutive fusion machinery is ‘clamped’ in a partially assembled state until synchronously released by calcium. The protein machinery involved in this process is known, but the supra ‐molecular architecture and underlying mechanisms are unclear. Here, we use cryo‐electron tomography analysis in nerve growth factor‐differentiated neuro‐endocrine (PC12) cells to delineate the organization of the release machinery under the docked vesicles. We find that exactly six exocytosis modules, each likely consisting of a single SNARE pin with its bound Synaptotagmins, Complexin, and Munc18 proteins, are symmetrically arranged at the vesicle–PM interface. Mutational analysis suggests that the symmetrical organization is templated by circular oligomers of Synaptotagmin. The observed arrangement, including its precise radial positioning, is in‐line with the recently proposed ‘buttressed ring hypothesis’.

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Bacterial outer membrane vesicles: New insights and applications

Anand

Chaudhuri

2016

Molecular Membrane Biology

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Outer membrane vesicles (OMVs) (∼50-250 nm in diameter) are produced by both pathogenic and nonpathogenic bacteria as a canonical end product of secretion. In this review, we focus on the OMVs produced by gram-negative bacteria. We provide an overview of the OMV structure, various factors regulating their production, and their role in modulating host immune response using a few representative examples. In light of the importance of the diverse cargoes carried by OMVs, we discuss the different modes of their entry into the host cell and advances in the high-throughput detection of these OMVs. A conspicuous application of OMVs lies in the field of vaccination; we discuss its success in immunization against human diseases such as pertussis, meningitis, shigellosis and aqua-farming endangering diseases like edwardsiellosis.

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Exploring tryptophan dynamics in acid-induced molten globule state of bovine α-lactalbumin: a wavelength-selective fluorescence approach

et al. 2010

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The relevance of partially ordered states of proteins (such as the molten globule state) in cellular processes is beginning to be understood. Bovine alpha-lactalbumin (BLA) assumes the molten globule state at acidic pH. We monitored the organization and dynamics of the functionally important tryptophan residues of BLA in native and molten globule states utilizing the wavelength-selective fluorescence approach and fluorescence quenching. Quenching of BLA tryptophan fluorescence using quenchers of varying polarity (acrylamide and trichloroethanol) reveals varying degrees of accessibility of tryptophan residues, characteristic of native and molten globule states. We observed red edge excitation shift (REES) of 6 nm for the tryptophans in native BLA. Interestingly, we show here that BLA tryptophans exhibit REES (3 nm) in the molten globule state. These results constitute one of the early reports of REES in the molten globule state of proteins. Taken together, our results indicate that tryptophan residues in BLA in native as well as molten globule states experience motionally restricted environment and that the regions surrounding at least some of the BLA tryptophans offer considerable restriction to the reorientational motion of the water dipoles around the excited-state tryptophans. These results are supported by wavelength-dependent changes in fluorescence anisotropy and lifetime for BLA tryptophans. These results could provide vital insight into the role of tryptophans in the function of BLA in its molten globule state in particular, and other partially ordered proteins in general.

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Organization and dynamics in micellar structural transition monitored by pyrene fluorescence

Chaudhuri

Haldar

Chattopadhyay

2009

Biochemical and Biophysical Research Communications

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Transbilayer organization of membrane cholesterol at low concentrations: Implications in health and disease

Chaudhuri

Chattopadhyay

2011

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Cholesterol is an essential and representative lipid in higher eukaryotic cellular membranes and is often found distributed nonrandomly in domains in biological membranes. A large body of literature exists on the organization of cholesterol in plasma membranes or membranes with high cholesterol content. However, very little is known about organization of cholesterol in membranes containing low amounts of cholesterol such as the endoplasmic reticulum or inner mitochondrial membranes. In this review, we have traced the discovery and subsequent development of the concept of transbilayer cholesterol dimers (domains) in membranes at low concentrations. We have further discussed the role of membrane curvature and thickness on the transbilayer organization of cholesterol. Interestingly, this type of cholesterol organization could be relevant in cellular sorting and trafficking, and in pathological conditions.

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Differential effects of cholesterol and 7-dehydrocholesterol on ligand binding of solubilized hippocampal serotonin1A receptors: Implications in SLOS

Chattopadhyay

Paila

Jafurulla

et al. 2007

Biochemical and Biophysical Research Communications

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