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51.
52.
Omer Lavy Ohad Lewin-Epstein Yonatan Bendett Uri Gophna Eran Gefen Lilach Hadany Amir Ayali 《Environmental microbiology》2022,24(1):507-516
Locust plagues are a notorious, ancient phenomenon. These swarming pests tend to aggregate and perform long migrations, decimating cultivated fields along their path. When population density is low, however, the locusts will express a cryptic, solitary, non-aggregating phenotype that is not considered a pest. Although the transition from the solitary to the gregarious phase has been well studied, associated shifts in the locust's microbiome have yet to be addressed. Here, using 16S rRNA amplicon sequencing, we compared the bacterial composition of solitary desert locusts before and after a phase transition. Our findings revealed that the microbiome is altered during the phase transition, and that a major aspect of this change is the acquisition of Weissella (Firmicutes). Our findings led us to hypothesize that the locust microbiome plays a role in inducing aggregation behaviour, contributing to the formation and maintenance of a swarm. Employing a mathematical model, we demonstrate the potential evolutionary advantage of inducing aggregation under different conditions; specifically, when the aggregation-inducing microbe exhibits a relatively high horizontal transmission rate. This is the first report of a previously unknown and important aspect of locust phase transition, demonstrating that the phase shift includes a shift in the gut and integument bacterial composition. 相似文献
53.
Alice Lacombe Andrew E. Maclean Jana Ovciarikova Julie Tottey Alexander Mühleip Paula Fernandes Lilach Sheiner 《Molecular microbiology》2019,112(4):1235-1252
Apicomplexan parasites cause diseases such as malaria and toxoplasmosis. The apicomplexan mitochondrion shows striking differences from common model organisms, including fundamental processes such as mitochondrial translation. Despite evidence that mitochondrial translation is essential for parasite survival, it is largely understudied. Progress has been restricted by the absence of functional assays to detect apicomplexan mitochondrial translation, a lack of knowledge of proteins involved in the process and the inability to identify and detect mitoribosomes. We report the localization of 12 new mitochondrial proteins, including 6 putative mitoribosomal proteins. We demonstrate the integration of three mitoribosomal proteins in macromolecular complexes, and provide evidence suggesting these are apicomplexan mitoribosomal subunits, detected here for the first time. Finally, a new analytical pipeline detected defects in mitochondrial translation upon depletion of the small subunit protein 35 (TgmS35), while other mitochondrial functions remain unaffected. Our work lays a foundation for the study of apicomplexan mitochondrial translation. 相似文献
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55.
Lilach Sheiner Joana M. Santos Natacha Klages Fabiola Parussini Noelle Jemmely Nikolas Friedrich Gary E. Ward Dominique Soldati‐Favre 《Molecular microbiology》2010,77(4):912-929
Host cell invasion by the Apicomplexa critically relies on regulated secretion of transmembrane micronemal proteins (TM‐MICs). Toxoplasma gondii possesses functionally non‐redundant MIC complexes that participate in gliding motility, host cell attachment, moving junction formation, rhoptry secretion and invasion. The TM‐MICs are released onto the parasite's surface as complexes capable of interacting with host cell receptors. Additionally, TgMIC2 simultaneously connects to the actomyosin system via binding to aldolase. During invasion these adhesive complexes are shed from the surface notably via intramembrane cleavage of the TM‐MICs by a rhomboid protease. Some TM‐MICs act as escorters and assure trafficking of the complexes to the micronemes. We have investigated the properties of TgMIC6, TgMIC8, TgMIC8.2, TgAMA1 and the new micronemal protein TgMIC16 with respect to interaction with aldolase, susceptibility to rhomboid cleavage and presence of trafficking signals. We conclude that several TM‐MICs lack targeting information within their C‐terminal domains, indicating that trafficking depends on yet unidentified proteins interacting with their ectodomains. Most TM‐MICs serve as substrates for a rhomboid protease and some of them are able to bind to aldolase. We also show that the residues responsible for binding to aldolase are essential for TgAMA1 but dispensable for TgMIC6 function during invasion. 相似文献
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57.
Gilboa R Zharkov DO Golan G Fernandes AS Gerchman SE Matz E Kycia JH Grollman AP Shoham G 《The Journal of biological chemistry》2002,277(22):19811-19816
Formamidopyrimidine-DNA glycosylase (Fpg) is a DNA repair enzyme that excises oxidized purines from damaged DNA. The Schiff base intermediate formed during this reaction between Escherichia coli Fpg and DNA was trapped by reduction with sodium borohydride, and the structure of the resulting covalently cross-linked complex was determined at a 2.1-A resolution. Fpg is a bilobal protein with a wide, positively charged DNA-binding groove. It possesses a conserved zinc finger and a helix-two turn-helix motif that participate in DNA binding. The absolutely conserved residues Lys-56, His-70, Asn-168, and Arg-258 form hydrogen bonds to the phosphodiester backbone of DNA, which is sharply kinked at the lesion site. Residues Met-73, Arg-109, and Phe-110 are inserted into the DNA helix, filling the void created by nucleotide eversion. A deep hydrophobic pocket in the active site is positioned to accommodate an everted base. Structural analysis of the Fpg-DNA complex reveals essential features of damage recognition and the catalytic mechanism of Fpg. 相似文献
58.
Immunotherapy of cancer with dendritic-cell-based vaccines 总被引:32,自引:0,他引:32
Animal studies have shown that vaccination with genetically modified tumor cells or with dendritic cells (DC) pulsed with
tumor antigens are potent strategies to elicit protective immunity in tumor-bearing animals, more potent than “conventional”
strategies that have been tested in clinical settings with limited success. While both vaccination strategies are forms of
cell therapy requiring complex and costly ex vivo manipulations of the patient’s cells, current protocols using dendritic
cells are considerably simpler and would be more widely available. Vaccination with defined tumor antigens presented by DC
has obvious appeal. However, in view of the expected emergence of antigen-loss variants as well as natural immunovariation,
effective vaccine formulations must contain mixtures of commonly, if not universally, expressed tumor antigens. When, or even
if, such common tumor antigens will be identified cannot be, predicted, however. Thus, for the foreseeable future, vaccination
with total-tumor-derived material as source of tumor antigens may be preferable to using defined tumor antigens. Vaccination
with undefined tumor-derived antigens will be limited, however, by the availability of sufficient tumor tissue for antigen
preparation. Because the mRNA content of single cells can be amplified, tumor mRNA, or corresponding cDNA libraries, offer
an unlimited source of tumor antigens. DC transfected with tumor RNA were shown to engender potent antitumor immunity in animal
studies. Thus, immunotherapy using autologous DC loaded with unfractionated tumor-derived antigens in the form of RNA emerges
as a potentially powerful and broadly useful vaccination strategy for cancer patients.
Received: 10 October 1997 / Accepted: 12 January 1998 相似文献
59.
In vitro synthesis of a 9 kbp terminally redundant DNA carrying the infectivity of Moloney murine leukemia virus. 总被引:80,自引:0,他引:80
Detergent-disrupted virions of Moloney murine leukemia virus synthesize a 9 kbp double-stranded infectious DNA. It contains mainly full-length, single-stranded DNA, and its infectivity and size are insensitive to digestion by the single-strand-specific S1 nuclease. Analysis of fragmentation of the DNA using restriction endonucleases has shown that it is indistinguishable from the linear double-stranded DNA synthesized in infected cells. On the basis of the positions of the cleavage sites for a number of enzymes, the 9 kbp DNA has a 575 base direct terminal repetition. It is longer than the viral RNA at both ends, evidently due to repetitive copying of segments of the RNA. Virions also synthesize an 8.4 kbp double-stranded circular DNA that lacks one copy of the terminal repetition, as well as viral DNA longer than 9 kbp. The enzymatic machinery in the virions of retroviruses therefore appears to be responsible for all the steps involved in making fully double-stranded linear and one form of circular DNA. 相似文献
60.
The synthesis and uptake of intracellular organic osmolytes (compatible solutes) were studied with the aid of natural abundance 13C NMR spectroscopy in two unrelated, moderately halophilic eubacteria: Ba1 and Vibrio costicola. In minimal media containing 1 M NaCl, both microorganisms synthesized the cyclic amino acid, 1,4,5,6-tetrahydro-2-methyl-4-pyrimidinecarboxylic acid (trivial name, ectoine) as the predominant compatible solute, provided that no glycine betaine was present in the growth medium. When, however, the minimal medium was supplemented with glycine betaine or the latter was a component of a complex medium, it was transported into the cells and the accumulating glycine betaine replaced the ectoine. In Ba1, grown in a defined medium containing glucose as the single carbon source, ectoine could only be detected if the NaCl concentration in the medium was higher than 0.6 M; the ectoine content increased with the external salt concentration. At NaCl concentrations below 0.6 M, alpha,alpha-trehalose was the major organic osmolyte. The concentration of ectoine reached its peak during the exponential phase and declined subsequently. In contrast, the accumulation of glycine betaine continued during the stationary phase. The results presented here indicate that, at least in the two microorganisms studied, ectoine plays an important role in haloadaptation. 相似文献