Renée Gobin scite author profile

The thermophilic cyanobacterium, Thermosynechococcus elongatus, has been grown in the presence of Sr 2؉ instead of Ca 2؉ with the aim of biosynthetically replacing the Ca 2؉ of the oxygen-evolving enzyme with Sr 2؉. Not only were the cells able to grow normally with Sr 2؉ , they actively accumulated the ion to levels higher than those of Ca 2؉ in the normal cultures. A protocol was developed to purify a fully active Sr The evolution of oxygen as a result of light-driven water oxidation is catalyzed by photosystem II (PSII) 1 in which a cluster of 4 manganese ions acts both as a device for accumulating oxidizing equivalents and as the active site. The reaction center of PSII is made up of two membrane-spanning polypeptides (D1 and D2) that bear the redox cofactors involved in the main electron transfer route. Absorption of a photon results in a charge separation between a chlorophyll molecule (P 680 ), and a pheophytin molecule. The pheophytin anion transfers the electron to a quinone, Q A , and P 680 ϩ is reduced by a tyrosine residue, Tyr Z , that in turn is reduced by the Mn 4 cluster. During the enzyme cycle, the oxidizing side of PSII goes through five different redox states that are denoted S n , n varying from 0 to 4. Oxygen is released during the S 3 to S 0 transition in which S 4 is a transient state (reviewed in Refs.

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Functional Expression of AQP3 in Human Skin Epidermis and Reconstructed Epidermis

Sougrat

Morand

Gondran

et al. 2002

Journal of Investigative Dermatology

181

140

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The purpose of this study was to examine the presence of aquaporin water channels in human skin and to assess their functional role. On western blots of human epidermis obtained from plastic surgery, a strong signal was obtained with polyclonal anti-aquaporin-3 antibodies. By indirect immunofluorescence on 5 microm cryosections, anti-aquaporin-3 antibodies strongly stained keratinocyte plasma membranes in human epidermis, whereas no staining was observed in the dermis or the stratum corneum or when anti-aquaporin-3 antibodies were preabsorbed with the peptide used for immunization. Similarly, a strong signal with anti-aquaporin-3 antibodies was observed in keratinocyte plasma membranes of reconstructed human epidermis in culture at the air-liquid interface for up to 3 wk. The keratinocyte plasma membrane localization of aquaporin-3 was confirmed at the electron microscope level in prickle cells. In addition an intracellular localization of aquaporin-3 was also detected in epidermis basal cells. Osmotically induced transepidermal water permeability was measured on stripped human skin and on reconstructed epidermis. Water transport across both stripped human skin and 2-3 wk reconstructed epidermis was comparable, inhibited by > 50% by 1 mM HgCl2 and fully inhibited by acid pH. By stopped-flow light scattering, keratinocyte plasma membranes, where aquaporin-3 is localized, exhibited a high, pH-sensitive, water permeability. Although human skin is highly impermeable to water, this is primarily accounted for by the stratum corneum, where a steep water content gradient was demonstrated. In contrast, the water content of viable strata of the epidermis is remarkably constant. Our results suggest that the human epidermis, below the stratum corneum, exhibits a high, aquaporin-3-mediated, water permeability. We propose that the role of aquaporin-3 is to water-clamp viable layers of the epidermis in order to improve the hydration of the epidermis below the stratum corneum.

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The Arf activator Gea2p and the P-type ATPase Drs2p interact at the Golgi in Saccharomyces cerevisiae

Chantalat

Park

Hua

et al. 2004

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Arf GTPases regulate both the morphological and protein sorting events that are essential for membrane trafficking. Guanine nucleotide exchange factors (GEFs) specific for Arf proteins determine when and where Arf GTPases will be activated in cells. The yeast Gea2p Arf GEF is a member of an evolutionarily conserved family of high molecular mass Arf GEFs that are peripherally associated with membranes. Nothing is known about how these proteins are localized to membranes, and few direct binding partners have been identified. In yeast, Gea2p has been implicated in trafficking through the Golgi apparatus and in maintaining Golgi structure. A major function of the Golgi apparatus is the packaging of cargo into secretory granules or vesicles. This process occurs through a series of membrane transformation events starting with fenestration of a saccular membrane, and subsequent remodeling of the fenestrated membrane into a mesh-like tubular network. Concentration of secretory cargo into nodes of the tubular network leads to enlargement of the nodes, which correspond to forming vesicles/granules, and thinning of the surrounding tubules. The tubules eventually break to release the secretory vesicles/granules into the cytoplasm. This process is highly conserved at the morphological level from yeast to mammalian cells. Drs2p, a multi-span transmembrane domain protein and putative aminophospholipid translocase, is required for the formation of a class of secretory granules/vesicles in yeast. Here we show that Drs2p interacts directly with Gea2p, both in vitro and in vivo. We mapped the domain of interaction of Drs2p to a 20-amino-acid region of the C-terminal cytoplasmic tail of the protein, adjacent to a region essential for Drs2p function. Mutations in Gea2p that abolish interaction with Drs2p are clustered in the C-terminal third of the Sec7 domain, and are important for Gea2p function. We characterize one such mutant that has a thermosensitive phenotype, and show that it has morphological defects along the secretory pathway in the formation of secretory granules/vesicles.

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Renée Gobin

Biosynthetic Ca2+/Sr2+ Exchange in the Photosystem II Oxygen-evolving Enzyme of Thermosynechococcus elongatus

Functional Expression of AQP3 in Human Skin Epidermis and Reconstructed Epidermis

The Arf activator Gea2p and the P-type ATPase Drs2p interact at the Golgi in Saccharomyces cerevisiae

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