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Lamprin: A new vertebrate protein comprising the major structural protein of adult lamprey cartilage
G. M. Wright F. W. Keeley J. H. Youson 《Cellular and molecular life sciences : CMLS》1983,39(5):495-497
Summary Chemical analysis of lamprey cartilage showed that its major constituent was a newly defined structural protein termed lamprin. Amino acid analysis of lamprin revealed that it has a unique composition which is distinct from previously identified structural proteins.Acknowledgment. This work was supported by grants U0105 to G.M.W. and A5945 to J.H.Y. from the Natural Sciences and Engineering Research Council of Canada. 相似文献
204.
U. K. M. Bhat D. F. Mahoney I. G. Wright 《Cellular and molecular life sciences : CMLS》1979,35(6):752-753
Summary Erythrocytic forms ofBabesia bovis inoculated into cell cultures of the tickBoophilus microplus invaded the tick cells and showed multiplication for up to 48 h after inoculation.Acknowledgment. We thank Mr. G.B. Mirre and Mrs M. Steinhoffer for able technical assistance during the course of the work. We also thank Dr. H.M.D. Hoyte, Parasitology Department, University of Queensland, for the use of an electron microscope. The work was supported by funds from the Australian Meat Research Committee. 相似文献
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Antibiotic resistance is ancient 总被引:7,自引:0,他引:7
D'Costa VM King CE Kalan L Morar M Sung WW Schwarz C Froese D Zazula G Calmels F Debruyne R Golding GB Poinar HN Wright GD 《Nature》2011,477(7365):457-461
The discovery of antibiotics more than 70 years ago initiated a period of drug innovation and implementation in human and animal health and agriculture. These discoveries were tempered in all cases by the emergence of resistant microbes. This history has been interpreted to mean that antibiotic resistance in pathogenic bacteria is a modern phenomenon; this view is reinforced by the fact that collections of microbes that predate the antibiotic era are highly susceptible to antibiotics. Here we report targeted metagenomic analyses of rigorously authenticated ancient DNA from 30,000-year-old Beringian permafrost sediments and the identification of a highly diverse collection of genes encoding resistance to β-lactam, tetracycline and glycopeptide antibiotics. Structure and function studies on the complete vancomycin resistance element VanA confirmed its similarity to modern variants. These results show conclusively that antibiotic resistance is a natural phenomenon that predates the modern selective pressure of clinical antibiotic use. 相似文献
207.
Crosnier C Bustamante LY Bartholdson SJ Bei AK Theron M Uchikawa M Mboup S Ndir O Kwiatkowski DP Duraisingh MT Rayner JC Wright GJ 《Nature》2011,480(7378):534-537
Erythrocyte invasion by Plasmodium falciparum is central to the pathogenesis of malaria. Invasion requires a series of extracellular recognition events between erythrocyte receptors and ligands on the merozoite, the invasive form of the parasite. None of the few known receptor-ligand interactions involved are required in all parasite strains, indicating that the parasite is able to access multiple redundant invasion pathways. Here, we show that we have identified a receptor-ligand pair that is essential for erythrocyte invasion in all tested P. falciparum strains. By systematically screening a library of erythrocyte proteins, we have found that the Ok blood group antigen, basigin, is a receptor for PfRh5, a parasite ligand that is essential for blood stage growth. Erythrocyte invasion was potently inhibited by soluble basigin or by basigin knockdown, and invasion could be completely blocked using low concentrations of anti-basigin antibodies; importantly, these effects were observed across all laboratory-adapted and field strains tested. Furthermore, Ok(a-) erythrocytes, which express a basigin variant that has a weaker binding affinity for PfRh5, had reduced invasion efficiencies. Our discovery of a cross-strain dependency on a single extracellular receptor-ligand pair for erythrocyte invasion by P. falciparum provides a focus for new anti-malarial therapies. 相似文献
208.
Moore RB Oborník M Janouskovec J Chrudimský T Vancová M Green DH Wright SW Davies NW Bolch CJ Heimann K Slapeta J Hoegh-Guldberg O Logsdon JM Carter DA 《Nature》2008,451(7181):959-963
Many parasitic Apicomplexa, such as Plasmodium falciparum, contain an unpigmented chloroplast remnant termed the apicoplast, which is a target for malaria treatment. However, no close relative of apicomplexans with a functional photosynthetic plastid has yet been described. Here we describe a newly cultured organism that has ultrastructural features typical for alveolates, is phylogenetically related to apicomplexans, and contains a photosynthetic plastid. The plastid is surrounded by four membranes, is pigmented by chlorophyll a, and uses the codon UGA to encode tryptophan in the psbA gene. This genetic feature has been found only in coccidian apicoplasts and various mitochondria. The UGA-Trp codon and phylogenies of plastid and nuclear ribosomal RNA genes indicate that the organism is the closest known photosynthetic relative to apicomplexan parasites and that its plastid shares an origin with the apicoplasts. The discovery of this organism provides a powerful model with which to study the evolution of parasitism in Apicomplexa. 相似文献
209.
Cardinale BJ Srivastava DS Duffy JE Wright JP Downing AL Sankaran M Jouseau C 《Nature》2006,443(7114):989-992
Over the past decade, accelerating rates of species extinction have prompted an increasing number of studies to reduce species diversity experimentally and examine how this alters the efficiency by which communities capture resources and convert those into biomass. So far, the generality of patterns and processes observed in individual studies have been the subjects of considerable debate. Here we present a formal meta-analysis of studies that have experimentally manipulated species diversity to examine how it affects the functioning of numerous trophic groups in multiple types of ecosystem. We show that the average effect of decreasing species richness is to decrease the abundance or biomass of the focal trophic group, leading to less complete depletion of resources used by that group. At the same time, analyses reveal that the standing stock of, and resource depletion by, the most species-rich polyculture tends to be no different from that of the single most productive species used in an experiment. Of the known mechanisms that might explain these trends, results are most consistent with what is called the 'sampling effect', which occurs when diverse communities are more likely to contain and become dominated by the most productive species. Whether this mechanism is widespread in natural communities is currently controversial. Patterns we report are remarkably consistent for four different trophic groups (producers, herbivores, detritivores and predators) and two major ecosystem types (aquatic and terrestrial). Collectively, our analyses suggest that the average species loss does indeed affect the functioning of a wide variety of organisms and ecosystems, but the magnitude of these effects is ultimately determined by the identity of species that are going extinct. 相似文献