4 resultados para MOLECULE REACTIONS

em National Center for Biotechnology Information - NCBI


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The electronic nature of low-barrier hydrogen bonds (LBHBs) in enzymatic reactions is discussed based on combined low temperature neutron and x-ray diffraction experiments and on high level ab initio calculations by using the model substrate benzoylacetone. This molecule has a LBHB, as the intramolecular hydrogen bond is described by a double-well potential with a small barrier for hydrogen transfer. From an “atoms in molecules” analysis of the electron density, it is found that the hydrogen atom is stabilized by covalent bonds to both oxygens. Large atomic partial charges on the hydrogen-bonded atoms are found experimentally and theoretically. Therefore, the hydrogen bond gains stabilization from both covalency and from the normal electrostatic interactions found for long, weak hydrogen bonds. Based on comparisons with other systems having short-strong hydrogen bonds or LBHBs, it is proposed that all short-strong and LBHB systems possess similar electronic features of the hydrogen-bonded region, namely polar covalent bonds between the hydrogen atom and both heteroatoms in question.

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The present paper describes the total chemical synthesis of the precursor molecule of the Aequorea green fluorescent protein (GFP). The molecule is made up of 238 amino acid residues in a single polypeptide chain and is nonfluorescent. To carry out the synthesis, a procedure, first described in 1981 for the synthesis of complex peptides, was used. The procedure is based on performing segment condensation reactions in solution while providing maximum protection to the segment. The effectiveness of the procedure has been demonstrated by the synthesis of various biologically active peptides and small proteins, such as human angiogenin, a 123-residue protein analogue of ribonuclease A, human midkine, a 121-residue protein, and pleiotrophin, a 136-residue protein analogue of midkine. The GFP precursor molecule was synthesized from 26 fully protected segments in solution, and the final 238-residue peptide was treated with anhydrous hydrogen fluoride to obtain the precursor molecule of GFP containing two Cys(acetamidomethyl) residues. After removal of the acetamidomethyl groups, the product was dissolved in 0.1 M Tris⋅HCl buffer (pH 8.0) in the presence of DTT. After several hours at room temperature, the solution began to emit a green fluorescence (λmax = 509 nm) under near-UV light. Both fluorescence excitation and fluorescence emission spectra were measured and were found to have the same shape and maxima as those reported for native GFP. The present results demonstrate the utility of the segment condensation procedure in synthesizing large protein molecules such as GFP. The result also provides evidence that the formation of the chromophore in GFP is not dependent on any external cofactor.

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Multinucleated giant cells and osteoclasts arise through the fusion of mononuclear phagocyte precursors. To elucidate the mechanism by which cells of monocytic lineage fuse and differentiate into giant cells and osteoclasts, we hypothesized that, as with other cell fusion events, specific surface molecules mediate the adhesion/fusion process. It has been observed that macrophages can be induced to fuse with one another in response to specific stimuli or when placed in a specific microenvironment. The formation of giant cells is primarily associated with chronic inflammatory reactions and tumors, while osteoclasts differentiate on bone which they resorb. The fact that, under normal conditions, macrophages and monocytes fail to fuse in regions and tissues where they are present in large numbers suggests the regulated and transient expression of potential fusion molecules. To identify such a fusion-associated molecule, we established a macrophage fusion assay and generated monoclonal antibodies (mAbs) that alter the fusion of macrophages in vitro. We selected four mAbs that each had the ability to block the fusion but not the aggregation of macrophages in vitro. All four antibodies recognize surface proteins of 150 kDa. The expression of the antigens recognized by all four mAbs is restricted to macrophages that have been induced to fuse in vitro and in vivo and is inducible, transient, and regulated, as neither nonfusing macrophages nor macrophages fused in vitro express these antigens. These results support the hypothesis that macrophage fusion is mediated by specific fusion/adhesion molecules and also provide a means to study the molecular mechanisms of macrophage fusion.

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Cultured human umbilical vein endothelial cells (EC) constitutively express a low level of CD40 antigen as detected by monoclonal antibody binding and fluorescence flow cytometric quantitation. The level of expression on EC is increased about 3-fold following 24 h treatment with optimal concentrations of tumor necrosis factor, interleukin 1, interferon beta, or interferon gamma; both interferons show greater than additive induction of CD40 when combined with tumor necrosis factor or interleukin 1. Expression of CD40 increases within 8 h of cytokine treatment and continues to increase through 72 h. A trimeric form of recombinant murine CD40 ligand acts on human EC to increase expression of leukocyte adhesion molecules, including E-selectin, vascular cell adhesion molecule 1, and intercellular adhesion molecule 1. CD40 may be detected immunocytochemically on human microvascular EC in normal skin. We conclude that endothelial CD40 may play a role as a signaling receptor in the development of T-cell-mediated inflammatory reactions.