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91.
92.
Nora Wender Jan Hegermann Bettina Brunner Brigitte Nuscher Tim Bartels Armin Giese Klaus Beyer Stefan Eimer Konstanze F Winklhofer Christian Haass 《The EMBO journal》2010,29(20):3571-3589
Aggregation of α‐synuclein (αS) is involved in the pathogenesis of Parkinson's disease (PD) and a variety of related neurodegenerative disorders. The physiological function of αS is largely unknown. We demonstrate with in vitro vesicle fusion experiments that αS has an inhibitory function on membrane fusion. Upon increased expression in cultured cells and in Caenorhabditis elegans, αS binds to mitochondria and leads to mitochondrial fragmentation. In C. elegans age‐dependent fragmentation of mitochondria is enhanced and shifted to an earlier time point upon expression of exogenous αS. In contrast, siRNA‐mediated downregulation of αS results in elongated mitochondria in cell culture. αS can act independently of mitochondrial fusion and fission proteins in shifting the dynamic morphologic equilibrium of mitochondria towards reduced fusion. Upon cellular fusion, αS prevents fusion of differently labelled mitochondrial populations. Thus, αS inhibits fusion due to its unique membrane interaction. Finally, mitochondrial fragmentation induced by expression of αS is rescued by coexpression of PINK1, parkin or DJ‐1 but not the PD‐associated mutations PINK1 G309D and parkin Δ1–79 or by DJ‐1 C106A. 相似文献
93.
Christoph Rademacher Jens Landström Nora Sindhuwinata Monica M. Palcic Göran Widmalm Thomas Peters 《Glycoconjugate journal》2010,27(3):349-358
A substantial body of work has been devoted to the design and synthesis of glycosyltransferase inhibitors. A major obstacle
has always been the demanding chemistry. Therefore, only few potent and selective inhibitors are known to date. Glycosyltransferases
possess two distinct binding sites, one for the donor substrate, and one for the acceptor substrate. In many cases binding
to the donor site is well defined but data for acceptor binding is sparse. In particular, acceptor binding sites are often
shallow, and in many cases the dimensions of the binding pocket are not well defined. One approach to glycosyltransferase
inhibitors is to chemically link donor site and acceptor site ligands to generate high affinity binders. Here, we describe
a novel approach to identify acceptor site ligands from a fragment library. We have chosen human blood group B galactosyltransferase
(GTB) as a biologically important model target. The approach utilizes a combination of STD NMR, spin-lock filtered NMR experiments
and surface plasmon resonance measurements. Following this route we have identified molecular fragments from a fragment library
that bind to the acceptor site of GTB with affinities of the order of a natural acceptor substrate. Unlike natural substrates
these fragments allow for straightforward chemical modifications and, therefore will serve as scaffolds for potent GTB inhibitors.
In general, the approach described is applicable to any glycosyltransferase and may assist in the development of novel glycosyltransferase
inhibitors. 相似文献
94.
95.
Attila Vig Attila Igloi Nora Adanyi Gyongyi Gyemant Csaba Csutoras Attila Kiss 《Bioprocess and biosystems engineering》2010,33(8):947-952
An amperometric detector and an enzymatic reaction were combined for the measurement of l-ascorbic acid. The enzyme cell (containing immobilized ascorbate oxidase) was connected to a flow injection analyzer (FIA)
system with a glassy carbon electrode as an amperometric detector. During optimization and measurements two sample injectors
were used, one before and one after the enzyme cell, thus eliminating the background interferences. Subtraction of the signal
area given in the presence of enzyme from the one given in the absence of enzyme was applied for measuring analyte concentrations
and calibration at 400 mV. Analysis capacity of system is 25 samples/hour. The relative standard deviation (RSD) was below
5% (5 times repeated, 400 μmol/L conc.), linearity up to 400 μmol/L, limit of detection (LOD) 5 μmol/L, fitting of calibration
curve in 25–400 μmol/L range was R
2 = 0.99. 相似文献
96.
Manuel E. Patarroyo Gladys Cifuentes Nora L. Martínez Manuel A. Patarroyo 《Progress in biophysics and molecular biology》2010,102(1):38-3507
The tri-dimensional (3D) structure determined by NMR of functionally relevant High Activity Binding Peptides (HABPs) of chemically-synthesized malarial proteins, involved in invasion to target cells, is practically identical, at the atomic level, to their corresponding recombinantly produced proteins, determined by X-ray crystallography. Both recombinant proteins as well as these chemically-synthesized HABPs bind to host-cell receptors through channels or troughs formation, stabilized by hydrogen bonding; most of them are located on distant segments to the highly polymorphic, highly antigenic, strain specific amino acid sequences the parasite uses to evade immune pressure. When these immunologically silent conserved HABPs are specifically modified, they become highly immunogenic and capable of inducing protective immune responses, supporting the specifically modified minimal subunit-based, multiepitopic, chemically-synthesized vaccines concept. 相似文献
97.
98.
Nora M. Casey Dan Milbourne Susanne Barth Melanie Febrer Glyn Jenkins Michael T. Abberton Charlotte Jones Daniel Thorogood 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2010,121(3):567-576
White clover (Trifolium repens L.) is a forage legume of considerable economic importance in temperate agricultural systems. It has a strong self-incompatibility
system. The molecular basis of self-incompatibility in T. repens is unknown, but it is under the control of a single locus, which is expressed gametophytically. To locate the self-incompatibility
locus (S locus) in T. repens, we carried out cross-pollination experiments in an F1 mapping population and constructed a genetic linkage map using amplified fragment length polymorphism and simple sequence
repeat markers. As the first step in a map-based cloning strategy, we locate for the first time the S locus in T. repens on a genetic linkage map, on the homoeologous linkage group pair 1 (E), which is broadly syntenic to Medicago truncatula L. chromosome 1. On the basis of this syntenic relationship, the possibility that the S locus may or may not possess an S-RNase gene is discussed. 相似文献
99.
María Alejandra Mussi Nora B. Calcaterra 《Comparative biochemistry and physiology. Toxicology & pharmacology : CBP》2010,151(2):240-247
In addition to the endogenous production of reactive oxygen species (ROS) as a result of normal development, amphibian external development often forces embryos to deal with oxidative stress-producing agents present in the environment. Embryos should therefore develop protective systems to reduce ROS toxicity and achieve successful development. The present work was aimed to characterize the effects produced by the widespread-used ROS-generator pesticide Paraquat during early embryonic development in the toad Chaunus arenarum, as well as to get insights into the defense response elicited by amphibian embryos. The approach consisted in generating a sharp and brief oxidative stress condition early during embryonic development to stimulate the cellular mechanisms involved in ROS-antioxidant response. Results revealed that Paraquat-treatment reduced the ability of embryos to develop normally, leading to arrests of development and severe malformations such as tail abnormalities, abdominal edema, reduced head development and curved dorsal structures. Although Paraquat effects were morphologically evident from gastrula stage on, alterations such as chromatin condensation were observed even at blastula stage by histological examinations. Regarding detoxifying enzymes, a significant induction of Mn-superoxide dismutase activity was detected at stages beyond gastrula in embryos surviving Paraquat treatment, suggesting a major role of this enzyme in the antioxidant response during early embryonic development. 相似文献
100.
Carolina Vizcaíno Daniel Restrepo-Montoya Diana Rodríguez Luis F. Ni?o Marisol Ocampo Magnolia Vanegas María T. Reguero Nora L. Martínez Manuel E. Patarroyo Manuel A. Patarroyo 《PLoS computational biology》2010,6(6)
The mycobacterial cell envelope has been implicated in the pathogenicity of tuberculosis and therefore has been a prime target for the identification and characterization of surface proteins with potential application in drug and vaccine development. In this study, the genome of Mycobacterium tuberculosis H37Rv was screened using Machine Learning tools that included feature-based predictors, general localizers and transmembrane topology predictors to identify proteins that are potentially secreted to the surface of M. tuberculosis, or to the extracellular milieu through different secretory pathways. The subcellular localization of a set of 8 hypothetically secreted/surface candidate proteins was experimentally assessed by cellular fractionation and immunoelectron microscopy (IEM) to determine the reliability of the computational methodology proposed here, using 4 secreted/surface proteins with experimental confirmation as positive controls and 2 cytoplasmic proteins as negative controls. Subcellular fractionation and IEM studies provided evidence that the candidate proteins Rv0403c, Rv3630, Rv1022, Rv0835, Rv0361 and Rv0178 are secreted either to the mycobacterial surface or to the extracellular milieu. Surface localization was also confirmed for the positive controls, whereas negative controls were located on the cytoplasm. Based on statistical learning methods, we obtained computational subcellular localization predictions that were experimentally assessed and allowed us to construct a computational protocol with experimental support that allowed us to identify a new set of secreted/surface proteins as potential vaccine candidates. 相似文献