排序方式: 共有149条查询结果,搜索用时 296 毫秒
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Stadler MB Murr R Burger L Ivanek R Lienert F Schöler A van Nimwegen E Wirbelauer C Oakeley EJ Gaidatzis D Tiwari VK Schübeler D 《Nature》2011,480(7378):490-495
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Sylvia E. Le Dévédec Kuan Yan Hans de Bont Veerander Ghotra Hoa Truong Erik H. Danen Fons Verbeek Bob van de Water 《Cellular and molecular life sciences : CMLS》2010,67(19):3219-3240
Cell migration is essential in a number of processes, including wound healing, angiogenesis and cancer metastasis. Especially,
invasion of cancer cells in the surrounding tissue is a crucial step that requires increased cell motility. Cell migration
is a well-orchestrated process that involves the continuous formation and disassembly of matrix adhesions. Those structural
anchor points interact with the extra-cellular matrix and also participate in adhesion-dependent signalling. Although these
processes are essential for cancer metastasis, little is known about the molecular mechanisms that regulate adhesion dynamics
during tumour cell migration. In this review, we provide an overview of recent advanced imaging strategies together with quantitative
image analysis that can be implemented to understand the dynamics of matrix adhesions and its molecular components in relation
to tumour cell migration. This dynamic cell imaging together with multiparametric image analysis will help in understanding
the molecular mechanisms that define cancer cell migration. 相似文献
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Surfactant templating is a method that has successfully been used to produce nanoporous inorganic structures from a wide range of oxide-based material. Co-assembly of inorganic precursor molecules with amphiphilic organic molecules is followed first by inorganic condensation to produce rigid amorphous frameworks and then, by template removal, to produce mesoporous solids. A range of periodic surfactant/semiconductor and surfactant/metal composites have also been produced by similar methods, but for virtually all the non-oxide semiconducting phases, the surfactant unfortunately cannot be removed to generate porous materials. Here we show that it is possible to use surfactant-driven self-organization of soluble Zintl clusters to produce periodic, nanoporous versions of classic semiconductors such as amorphous Ge or Ge/Si alloys. Specifically, we use derivatives of the anionic Ge9(4-) cluster, a compound whose use in the synthesis of nanoscale materials is established. Moreover, because of the small size, high surface area, and flexible chemistry of these materials, we can tune optical properties in these nanoporous semiconductors through quantum confinement, by adsorption of surface species, or by altering the elemental composition of the inorganic framework. Because the semiconductor surface is exposed and accessible in these materials, they have the potential to interact with a range of species in ways that could eventually lead to new types of sensors or other novel nanostructured devices. 相似文献
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Contreras FX Ernst AM Haberkant P Björkholm P Lindahl E Gönen B Tischer C Elofsson A von Heijne G Thiele C Pepperkok R Wieland F Brügger B 《Nature》2012,481(7382):525-529
Functioning and processing of membrane proteins critically depend on the way their transmembrane segments are embedded in the membrane. Sphingolipids are structural components of membranes and can also act as intracellular second messengers. Not much is known of sphingolipids binding to transmembrane domains (TMDs) of proteins within the hydrophobic bilayer, and how this could affect protein function. Here we show a direct and highly specific interaction of exclusively one sphingomyelin species, SM 18, with the TMD of the COPI machinery protein p24 (ref. 2). Strikingly, the interaction depends on both the headgroup and the backbone of the sphingolipid, and on a signature sequence (VXXTLXXIY) within the TMD. Molecular dynamics simulations show a close interaction of SM 18 with the TMD. We suggest a role of SM 18 in regulating the equilibrium between an inactive monomeric and an active oligomeric state of the p24 protein, which in turn regulates COPI-dependent transport. Bioinformatic analyses predict that the signature sequence represents a conserved sphingolipid-binding cavity in a variety of mammalian membrane proteins. Thus, in addition to a function as second messengers, sphingolipids can act as cofactors to regulate the function of transmembrane proteins. Our discovery of an unprecedented specificity of interaction of a TMD with an individual sphingolipid species adds to our understanding of why biological membranes are assembled from such a large variety of different lipids. 相似文献
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VEGF delivery with retrogradely transported lentivector prolongs survival in a mouse ALS model 总被引:1,自引:0,他引:1
Azzouz M Ralph GS Storkebaum E Walmsley LE Mitrophanous KA Kingsman SM Carmeliet P Mazarakis ND 《Nature》2004,429(6990):413-417
Amyotrophic lateral sclerosis (ALS) causes adult-onset, progressive motor neuron degeneration in the brain and spinal cord, resulting in paralysis and death three to five years after onset in most patients. ALS is still incurable, in part because its complex aetiology remains insufficiently understood. Recent reports have indicated that reduced levels of vascular endothelial growth factor (VEGF), which is essential in angiogenesis and has also been implicated in neuroprotection, predispose mice and humans to ALS. However, the therapeutic potential of VEGF for the treatment of ALS has not previously been assessed. Here we report that a single injection of a VEGF-expressing lentiviral vector into various muscles delayed onset and slowed progression of ALS in mice engineered to overexpress the gene coding for the mutated G93A form of the superoxide dismutase-1 (SOD1(G93A)) (refs 7-10), even when treatment was only initiated at the onset of paralysis. VEGF treatment increased the life expectancy of ALS mice by 30 per cent without causing toxic side effects, thereby achieving one of the most effective therapies reported in the field so far. 相似文献
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