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71.
72.
Jonathan A. Myers Jonathan M. Chase Iván Jiménez Peter M. Jørgensen Alejandro Araujo‐Murakami Narel Paniagua‐Zambrana Renate Seidel 《Ecology letters》2013,16(2):151-157
Site‐to‐site variation in species composition (β‐diversity) generally increases from low‐ to high‐diversity regions. Although biogeographical differences in community assembly mechanisms may explain this pattern, random sampling effects can create this pattern through differences in regional species pools. Here, we compared assembly mechanisms between spatially extensive networks of temperate and tropical forest plots with highly divergent species pools (46 vs. 607 species). After controlling for sampling effects, β‐diversity of woody plants was similar and higher than expected by chance in both forests, reflecting strong intraspecific aggregation. However, different mechanisms appeared to explain aggregation in the two forests. In the temperate forest, aggregation reflected stronger environmental correlations, suggesting an important role for species‐sorting (e.g. environmental filtering) processes, whereas in the tropics, aggregation reflected stronger spatial correlations, more likely reflecting dispersal limitation. We suggest that biogeographical differences in the relative importance of different community assembly mechanisms contribute to these striking gradients in global biodiversity. 相似文献
73.
《Cell communication & adhesion》2013,20(5-6):146-153
AbstractThe receptor protein tyrosine phosphatase T PTPρ is the most frequently mutated tyrosine phosphatase in human cancer. PTPρ mediates homophilic cell-cell aggregation. In its extracellular region, PTPρ has cell adhesion molecule–like motifs, including a MAM domain, an immunoglobulin domain, and four fibronectin type III (FNIII) repeats. Tumor-derived mutations have been identified in all of these extracellular domains. Previously, the authors determined that tumor-derived mutations in the MAM and immunoglobulin domains of PTPρ reduce homophilic cell-cell aggregation. In this paper, the authors describe experiments in which the contribution of the FNIII repeats to PTPρ-mediated cell-cell adhesion was evaluated. The results demonstrate that deletion of the FNIII repeats of PTPρ result in defective cell-cell aggregation. Furthermore, all of the tumor-derived mutations in the FNIII repeats of PTPρ also disrupt cell-cell aggregation. These results further support the hypothesis that mutational inactivation of PTPρ may lead to cancer progression by disrupting cell-cell adhesion. 相似文献
74.
Species-Specific Association of the Cell-Aggregation Molecule Mediates Recognition in Marine Sponges
《Cell communication & adhesion》2013,20(5):405-414
Reaggrcgation of dissociated cells of marine sponges, resulting in reformation of functional sponges, is a calcium-dependent process mediated by large, proteoglycan-like molecules termed aggregation factors (AF). During aggregation, species-specific sorting of cells is often observed. We purified and characterized AFs from three different sponge species and investigated their role in species-specific aggregation using novel approaches. The calcium-dependent association between purified AFs is species-specific in most combinations, as was shown in overlay assays and bead-sorting assays with AFs immobilized onto colored beads. Species-specific interactions of living cells and AF-beads resulted in incorporation of only homospecific AF-beads into reforming cell aggregates. Sequences from peptides obtained from the AF core proteins could all be aligned to the sequence of one species, the Microciona prolifera AFp3 core protein. In contrast to this similarity, major species-specific differences were seen in carbohydrate composition and in the response of AFs to specific carbohydrate-recognizing antibodies. In summary, our data point to a prominent role for the calcium-dependent association of AFs in recognition processes during aggregation. As this association of AFs occurs via carbohydrate -carbohydrate interactions, we speculate that the specificity of those interactions may be fundamental to recognition mechanisms required for regeneration of individuals from dissociated cells and for rejection of foreign material by sponge individuals. 相似文献
75.
Tatyana A Shelkovnikova Hannah K Robinson Natalie Connor-Robson Vladimir L Buchman 《Cell cycle (Georgetown, Tex.)》2013,12(19):3383-3391
Fused in sarcoma (FUS) belongs to the group of RNA-binding proteins implicated as underlying factors in amyotrophic lateral sclerosis (ALS) and certain other neurodegenerative diseases. Multiple FUS gene mutations have been linked to hereditary forms, and aggregation of FUS protein is believed to play an important role in pathogenesis of these diseases. In cultured cells, FUS variants with disease-associated amino acid substitutions or short deletions affecting nuclear localization signal (NLS) and causing cytoplasmic mislocalization can be sequestered into stress granules (SGs). We demonstrated that disruption of motifs responsible for RNA recognition and binding not only prevents SG recruitment, but also dramatically increases the protein propensity to aggregate in the cell cytoplasm with formation of juxtanuclear structures displaying typical features of aggresomes. Functional RNA-binding domains from TAR DNA-binding protein of 43 kDa (TDP-43) fused to highly aggregation-prone C-terminally truncated FUS protein restored the ability to enter SGs and prevented aggregation of the chimeric protein. Truncated FUS was also able to trap endogenous FUS molecules in the cytoplasmic aggregates. Our data indicate that RNA binding and recruitment to SGs protect cytoplasmic FUS from aggregation, and loss of this protection may trigger its pathological aggregation in vivo. 相似文献
76.
The structural conversion of the prion protein PrP into a transmissible, misfolded form is the central element of prion disease, yet there is little consensus as to how it occurs. Key aspects of conversion into the diseased state remain unsettled, from details about the earliest stages of misfolding such as the involvement of partially- or fully-unfolded intermediates to the structure of the infectious state. Part of the difficulty in understanding the structural conversion arises from the complexity of the underlying energy landscapes. Single molecule methods provide a powerful tool for probing complex folding pathways as in prion misfolding, because they allow rare and transient events to be observed directly. We discuss recent work applying single-molecule probes to study misfolding in prion proteins, and what it has revealed about the folding dynamics of PrP that may underlie its unique behavior. We also discuss single-molecule studies probing the interactions that stabilize non-native structures within aggregates, pointing the way to future work that may help identify the microscopic events triggering pathogenic conversion. Although single-molecule approaches to misfolding are relatively young, they have a promising future in prion science. 相似文献
77.
《朊病毒》2013,7(3):234-239
Most prions in yeast form amyloid fibrils that must be severed by the protein disaggregase Hsp104 to be propagated and transmitted efficiently to newly formed buds. Only one yeast prion, [PSI+], is cured by Hsp104 overexpression. We investigated the interaction between Hsp104 and Sup35, the priongenic protein in yeast that forms the [PSI+] prion.1 We found that a 20-amino acid segment within the highly-charged, unstructured middle domain of Sup35 contributes to the physical interaction between the middle domain and Hsp104. When this segment was deleted from Sup35, the efficiency of [PSI+] severing was substantially reduced, resulting in larger Sup35 particles and weakening of the [PSI+] phenotype. Furthermore, [PSI+] in these cells was completely resistant to Hsp104 curing. The affinity of Hsp104 was considerably weaker than that of model Hsp104-binding proteins and peptides, implying that Sup35 prions are not ideal substrates for Hsp104-mediated remodeling. In light of this finding, we present a modified model of Hsp104-mediated [PSI+] propagation and curing that requires only partial remodeling of Sup35 assembled into amyloid fibrils. 相似文献
78.
Andrew Buchanan Veronica Clementel Rob Woods Nicholas Harn Michael A Bowen Wenjun Mo Bojana Popovic Steven M. Bishop William Dall’Acqua Ralph Minter Lutz Jermutus Vahe Bedian 《MABS-AUSTIN》2013,5(2):255-262
Antibodies can undergo a variety of covalent and non-covalent degradation reactions that have adverse effects on efficacy, safety, manufacture and storage. We had identified an antibody to Angiopoietin 2 (Ang2 mAb) that neutralizes Ang2 binding to its receptor in vitro and inhibits tumor growth in vivo. Despite favorable pharmacological activity, the Ang2 mAb preparations were heterogeneous, aggregated rapidly and were poorly expressed. Here, we report the engineering of the antibody variable and constant domains to generate an antibody with reduced propensity to aggregate, enhanced homogeneity, 11°C elevated Tm, 26-fold improved level of expression and retained activity. The engineered molecule, MEDI-3617, is now compatible with the large scale material supply required for clinical trials and is currently being evaluated in Phase 1 in cancer patients. This is the first report to describe the stability engineering of a therapeutic antibody addressing non canonical cysteine residues and the design strategy reported here is generally applicable to other therapeutic antibodies and proteins. 相似文献
79.
《Autophagy》2013,9(5):851-852
Disrupted in Schizophrenia 1 (DISC1) is a key susceptibility gene for major psychiatric disorders. DISC1 plays a role in key neuronal processes such as neuronal proliferation, migration, integration and function via DISC1's roles at the centrosome and synapse, and in the regulation of intracellular signaling pathways. Recently, the idea of protein aggregation as a disease mechanism for DISC1 has been suggested. In our recent paper we explore these DISC1 protein aggregates in cell lines and neurons and find they are recruited to the aggresome and cause disruption of DISC1 function in intracellular transport. 相似文献
80.
《Autophagy》2013,9(11):1686-1687
The most common neurodegenerative diseases are characterized by the accumulation of misfolded proteins. Tauopathies, which include Alzheimer disease, progressive supranuclear palsy, corticobasal degeneration, Pick disease and cases of frontotemporal dementia and parkinsonism linked to chromosome 17, are characterized by the accumulation of hyperphosphorylated and filamentous MAPT/tau protein. The pathological mechanisms involved in MAPT protein accumulation are not well understood, but a possible impairment of protein degradation pathways has been suggested. We investigated the effects of autophagy stimulation on MAPT pathology in a model tauopathy, the human mutant P301S MAPT transgenic mouse line. In the brain of the trehalose-treated mutant mice, autophagy is activated and a reduced number of neurons containing MAPT inclusions, as well as a decreased amount of insoluble MAPT, are observed. The improvement of MAPT pathology is associated with increased nerve cell survival. Moreover, MAPT inclusions colocalize with SQSTM1/p62- and LC3-positive puncta, suggesting the colocalization of MAPT aggregates with autophagic vacuoles. Autophagy is not activated in the spinal cord of the human P301S MAPT transgenic mice and neuronal survival, as well as MAPT pathology, is unaffected. This study supports a role for autophagy stimulation in the degradation of MAPT aggregates and opens new perspectives for the investigation of autophagy as a pathological mechanism involved in neurodegenerative diseases. 相似文献