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131.
132.
Li C Shields JD Small HJ Reece KS Hartwig CL Cooper RA Ratzlaff RE 《Diseases of aquatic organisms》2006,72(3):185-192
Panulirus argus Virus 1 (PaV1) is the first virus known to be pathogenic to a wild lobster. It infects the Caribbean spiny lobster P. argus from the Florida Keys, and has a predilection for juveniles. The monitoring of the virus in wild populations and study of its behavior in the laboratory require the development of reliable diagnostic tools. A sensitive and specific fluorescence in situ hybridization (FISH) assay was developed for detection of PaV1. The lower detection limit using a 110 bp DNA probe in a dot-blot hygridization for PaV1 DNA was 10 pg of cloned template PaV1 DNA and 10 ng of genomic DNA extracted from the hemolymph of diseased spiny lobster. The fluorescein (FITC)-labeled probe specifically hybridized to PaVl-infected cells in the hepatopancreas, hindgut, gills, heart, foregut, and nerve tissues. FITC staining was observed around the inner periphery of the nuclear membrane, with lighter staining in a more dispersed pattern within the nucleus. The probe did not hybridize with host tissues of uninfected spiny lobsters, nor did it cross-react with 4 other virus samples tested. This assay will facilitate our understanding of the pathogenesis of the viral disease and help in monitoring efforts directed at determining the prevalence of PaV1 in juvenile nurseries for this lobster. 相似文献
133.
Ena/VASP family proteins are important modulators of cell migration and localize to focal adhesions, stress fibres and the very tips of lamellipodia and filopodia. Proline-rich proteins like vinculin and zyxin are well established interaction partners, which mediate Ena/VASP-recruitment via their EVH1-domains to focal adhesions and stress fibres. However, it is still unclear, which binding partners Ena/VASP proteins may have at lamellipodia tips and how their recruitment to these cellular protrusions is regulated. Here, we report the identification of a novel protein with high similarity to the C. elegans MIG-10 protein, which we termed PREL1 (Proline Rich EVH1 Ligand). PREL1 is a 74 kDa protein and shares homology with the Grb7-family of signalling adaptors. We show that PREL1 directly binds to Ena/VASP proteins and co-localizes with them at lamellipodia tips and at focal adhesions in response to Ras activation. Moreover, PREL1 directly binds to activated Ras in a phosphoinositide-dependent manner. Thus, our data pinpoint PREL1 as the first direct link between Ras signalling and cytoskeletal remodelling via Ena/VASP proteins during cell migration and spreading. 相似文献
134.
135.
Annexin A6 (AnxA6) is highly expressed in hypertrophic and terminally differentiated growth plate chondrocytes. Rib chondrocytes isolated from newborn AnxA6-/- mice showed delayed terminal differentiation as indicated by reduced terminal differentiation markers, including alkaline phosphatase, matrix metalloproteases-13, osteocalcin, and runx2, and reduced mineralization. Lack of AnxA6 in chondrocytes led to a decreased intracellular Ca(2+) concentration and protein kinase C α (PKCα) activity, ultimately resulting in reduced extracellular signal-regulated kinase (ERK) and p38 mitogen-activated protein kinase (MAPK) activities. The 45 C-terminal amino acids of AnxA6 (AnxA6(1-627)) were responsible for the direct binding of AnxA6 to PKCα. Consequently, transfection of AnxA6-/- chondrocytes with full-length AnxA6 rescued the reduced expression of terminal differentiation markers, whereas transfection of AnxA6-/- chondrocytes with AnxA6(1-627) did not or only partially rescued the decreased mRNA levels of terminal differentiation markers. In addition, lack of AnxA6 in matrix vesicles, which initiate the mineralization process in growth plate cartilage, resulted in reduced alkaline phosphatase activity and Ca(2+) and inorganic phosphate (P(i)) content and the inability to form hydroxyapatite-like crystals in vitro. Histological analysis of femoral, tibial, and rib growth plates from newborn mice revealed that the hypertrophic zone of growth plates from newborn AnxA6-/- mice was reduced in size. In addition, reduced mineralization was evident in the hypertrophic zone of AnxA6-/- growth plate cartilage, although apoptosis was not altered compared with wild type growth plates. In conclusion, AnxA6 via its stimulatory actions on PKCα and its role in mediating Ca(2+) flux across membranes regulates terminal differentiation and mineralization events of chondrocytes. 相似文献
136.
Disease will limit future food supply from the global crustacean fishery and aquaculture sectors 总被引:2,自引:0,他引:2
Stentiford GD Neil DM Peeler EJ Shields JD Small HJ Flegel TW Vlak JM Jones B Morado F Moss S Lotz J Bartholomay L Behringer DC Hauton C Lightner DV 《Journal of invertebrate pathology》2012,110(2):141-157
Seafood is a highly traded food commodity. Farmed and captured crustaceans contribute a significant proportion with annual production exceeding 10 M metric tonnes with first sale value of $40bn. The sector is dominated by farmed tropical marine shrimp, the fastest growing sector of the global aquaculture industry. It is significant in supporting rural livelihoods and alleviating poverty in producing nations within Asia and Latin America while forming an increasing contribution to aquatic food supply in more developed countries. Nations with marine borders often also support important marine fisheries for crustaceans that are regionally traded as live animals and commodity products. A general separation of net producing and net consuming nations for crustacean seafood has created a truly globalised food industry. Projections for increasing global demand for seafood in the face of level or declining fisheries requires continued expansion and intensification of aquaculture while ensuring best utilisation of captured stocks. Furthermore, continued pressure from consuming nations to ensure safe products for human consumption are being augmented by additional legislative requirements for animals (and their products) to be of low disease status. As a consequence, increasing emphasis is being placed on enforcement of regulations and better governance of the sector; currently this is a challenge in light of a fragmented industry and less stringent regulations associated with animal disease within producer nations. Current estimates predict that up to 40% of tropical shrimp production (>$3bn) is lost annually, mainly due to viral pathogens for which standard preventative measures (e.g. such as vaccination) are not feasible. In light of this problem, new approaches are urgently required to enhance yield by improving broodstock and larval sourcing, promoting best management practices by farmer outreach and supporting cutting-edge research that aims to harness the natural abilities of invertebrates to mitigate assault from pathogens (e.g. the use of RNA interference therapeutics). In terms of fisheries losses associated with disease, key issues are centred on mortality and quality degradation in the post-capture phase, largely due to poor grading and handling by fishers and the industry chain. Occurrence of disease in wild crustaceans is also widely reported, with some indications that climatic changes may be increasing susceptibility to important pathogens (e.g. the parasite Hematodinium). However, despite improvements in field and laboratory diagnostics, defining population-level effects of disease in these fisheries remains elusive. Coordination of disease specialists with fisheries scientists will be required to understand current and future impacts of existing and emergent diseases on wild stocks. Overall, the increasing demand for crustacean seafood in light of these issues signals a clear warning for the future sustainability of this global industry. The linking together of global experts in the culture, capture and trading of crustaceans with pathologists, epidemiologists, ecologists, therapeutics specialists and policy makers in the field of food security will allow these issues to be better identified and addressed. 相似文献
137.
Narita A Mueller J Urban E Vinzenz M Small JV Maéda Y 《Journal of molecular biology》2012,419(5):359-368
Actin filaments are polar structures that exhibit a fast growing plus end and a slow growing minus end. According to their organization in cells, in parallel or antiparallel arrays, they can serve, respectively, in protrusions or in contractions. The determination of actin filament polarity in subcellular compartments is therefore required to establish their local function. Myosin binding has previously been the sole method of polarity determination. Here, we report the first direct determination of actin filament polarity in the cell without myosin binding. Negatively stained cytoskeletons of lamellipodia were analyzed by adapting electron tomography and a single particle analysis for filamentous complexes. The results of the stained cytoskeletons confirmed that all actin filament ends facing the cell membrane were the barbed ends. In general, this approach should be applicable to the analysis of actin polarity in tomograms of the actin cytoskeleton. 相似文献
138.
J. Neurochem. (2012) 122, 1155-1166. ABSTRACT: Coordinated calcium signalling is vital for neuronal growth cone function and axon pathfinding. Although store-operated calcium entry (SOCE) has been suggested to be an important source of calcium in growth cone navigation, the mechanisms that regulate calcium signalling, particularly the regulation of internal calcium stores within growth cones, are yet to be fully determined. Stromal Interaction Molecule 1 (STIM1) is a calcium-sensing protein localized in the endoplasmic reticulum membrane that interacts with Orai proteins in the plasma membrane to initiate SOCE and refilling of intracellular calcium stores. We hypothesize that STIM1- and Orai1/2-mediated SOCE are necessary for growth cone turning responses to extracellular guidance cues. We show that STIM1 and Orai reorganize into puncta upon store depletion and during growth cone turning with STIM1 localization biased towards the turning side (high calcium side) of the growth cone. Importantly, STIM1 knock-down perturbed growth cone turning responses to the guidance cues brain-derived neurotrophic factor and semaphorin-3a (Sema-3a), as well as abolishing Sema-3a-induced growth cone collapse. Furthermore, STIM1 knock-down abolished SOCE induced by brain-derived neurotrophic factor, but not Sema-3a. Our data suggest that STIM1 is essential for correct growth cone navigation, playing multiple roles in growth cone motility, including the activation of SOCE. 相似文献
139.
Microalgal biotechnology could generate substantial amounts of biofuels with minimal environmental impact if the economics can be improved by increasing the rate of biomass production. Chlorella kessleri was grown in a small‐scale raceway pond and in flask cultures with the entire volume, 1% (v/v) at any instant, periodically exposed to static magnetic fields to demonstrate increased biomass production and investigate physiological changes, respectively. The growth rate in flasks was maximal at a field strength of 10 mT, increasing from 0.39 ± 0.06 per day for the control to 0.88 ± 0.06 per day. In the raceway pond the 10 mT field increased the growth rate from 0.24 ± 0.03 to 0.45 ± 0.05 per day, final biomass from 0.88 ± 0.11 to 1.56 ± 0.18 g/L per day, and maximum biomass production from 0.11 ± 0.02 to 0.38 ± 0.04 g/L per day. Increased pigment, protein, Ca, and Zn content made the biomass produced with magnetic stimulation nutritionally superior. An increase in oxidative stress was measured indirectly as a decrease in antioxidant capacity from 26 ± 2 to 17 ± 1 µmol antioxidant/g biomass. Net photosynthetic capacity (NPC) and respiratory rate were increased by factors of 2.1 and 3.1, respectively. Loss of NPC enhancement after the removal of magnetic field fit a first‐order model well (R2 = 0.99) with a half‐life of 3.3 days. Transmission electron microscopy showed enlarged chloroplasts and decreased thylakoid order with 10 mT treatment. By increasing daily biomass production about fourfold, 10 mT magnetic field exposure could make algal oil cost competitive with other biodiesel feedstocks. Bioelectromagnetics 33:298–308, 2012. © 2011 Wiley Periodicals, Inc. 相似文献
140.
Williamson HR Benbow ME Campbell LP Johnson CR Sopoh G Barogui Y Merritt RW Small PL 《PLoS neglected tropical diseases》2012,6(1):e1506