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Eimerian parasites display a biologically interesting range of phenotypic variation. In addition to a wide spectrum of drug-resistance phenotypes that are expressed similarly by many other parasites, the Eimeria spp. present some unique phenotypes. For example, unique lines of Eimeria spp. include those selected for growth in the chorioallantoic membrane of the embryonating hens egg or for faster growth (precocious development) in the mature host. The many laboratory-derived egg-adapted or precocious lines also share a phenotype of a marked attenuation of virulence, the basis of which is different as a consequence of the in ovo or in vivo selection procedures used. Of current interest is the fact that some wild-type populations of Eimeria maxima are characterized by an ability to induce protective immunity that is strain-specific. The molecular basis of phenotypes that define Eimeria spp. is now increasingly amenable to investigation, both through technical improvements in genetic linkage studies and the availability of a comprehensive genome sequence for the caecal parasite E. tenella. The most exciting phenotype in the context of vaccination and the development of new vaccines is the trait of strain-specific immunity associated with E. maxima. Recent work in this laboratory has shown that infection of two inbred lines of White Leghorn chickens with the W strain of E. maxima leads to complete protection to challenge with the homologous parasite, but to complete escape of the heterologous H strain, i.e. the W strain induces an exquisitely strain-specific protective immune response with respect to the H strain. This dichotomy of survival in the face of immune-mediated killing has been examined further and, notably, mating between a drug-resistant W strain and a drug-sensitive H strain leads to recombination between the genetic loci responsible for the specificity of protective immunity and resistance to the anticoccidial drug robenidine. Such a finding opens the way forward for genetic mapping of the loci responsible for the induction of protective immunity and integration with the genome sequencing efforts. 相似文献
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Leão SC Bernardelli A Cataldi A Zumarraga M Robledo J Realpe T Mejía GI da Silva Telles MA Chimara E Velazco M Fernandez J Rodrigues PA Guerrero MI León CI Porras TB Rastogi N Goh KS Suffys P da Silva Rocha A dos Santos Netto D Ritacco V López B Barrera L Palomino JC Martin A Portaels F 《Journal of microbiological methods》2005,61(2):193-199
The identification of mycobacterial species in clinical isolates is essential for making patient care decisions. Polymerase chain reaction (PCR) restriction enzyme analysis (PRA) is a simple and rapid identification method, based on amplification of 441 bp of the hsp65 gene and restriction with BstEII and HaeIII. As a contribution to the validation of PRA, a multicenter study was performed in eight laboratories located in Argentina, Brazil, Colombia, Chile, and Guadeloupe. Each laboratory received 18 coded isolates from the collection of the Institute of Tropical Medicine (Antwerp, Belgium), representing duplicates of nine laboratory strains: Mycobacterium terrae CIPT 140320001, Mycobacterium scrofulaceum CIPT 140220031, Mycobacterium flavescens ATCC 14474, Mycobacterium triviale ATCC 23292, Mycobacterium nonchromogenicum ATCC 19530, Mycobacterium chitae ATCC 19627, Mycobacterium abscessus ATCC 19977, Mycobacterium kansasii ATCC 12478, and Mycobacterium peregrinum ATCC 14467. A detailed protocol including amplification, enzymatic digestion, and gel preparation was provided to each laboratory. Two laboratories identified correctly all 18 (100%) isolates, one identified correctly 17 (94.5%), two identified 14 (77.7%), one identified 11 (61%), and two identified 8 (44.4%) isolates. Errors detected in laboratories with more than 77% accuracy were associated with electrophoresis running conditions and an unspecific amplicon produced by a single strain. Lower accuracy was mainly related to inappropriate use of DNA markers and insufficient training in interpretation of patterns. In conclusion, the PRA method was readily implemented in some Latin American and Caribbean laboratories of mycobacteria, but improvements in critical points, as gel running conditions and training in interpretiation of patterns, are needed in order to improve accuracy. In others, improvement in critical points is still necessary. 相似文献
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Wickert U Mücke N Wedig T Müller SA Aebi U Herrmann H 《European journal of cell biology》2005,84(2-3):379-391
We have investigated the co-assembly properties of the intermediate filament (IF) proteins vimentin and desmin. First, the soluble complexes formed by both proteins separately in 5 mM Tris-HCl, pH 8.4, were characterized by analytical ultracentrifugation. In both cases, s-values of around 5 S were obtained corresponding to the formation of tetramers. However, at pH 7.5 and in the presence of 1 mM EDTA, both proteins behaved quite differently; whereas vimentin sedimented at 7.2 S, desmin assembled into much larger complexes of about 13 S. A mixture of equimolar amounts of vimentin and desmin in 8 M urea yielded, after reconstitution into 5 mM Tris-HCl, pH 7.5, and 1 mM EDTA, complexes exhibiting a sharp peak at 10.9 S. This intermediate s-value indicated that co-assembly into a distinct new set of complexes had occurred. As judged by electron microscopy and viscometry, these mixtures assembled into IFs with characteristics similar to those of pure vimentin and desmin. Furthermore, when vimentin and desmin tetramers were mixed in 5 mM Tris-HCl, pH 8.4, and subsequently subjected to IF assembly conditions, again "hybrid" filaments were obtained. Most interestingly, after 10 min of assembly, mass-per-length (MPL) measurements by scanning transmission electron microscopy yielded IFs with an MPL-peak value of 36 +/- 5 kDa/nm, hence closer to that of vimentin IFs (33 +/- 4 kDa/nm) than to that of desmin IFs (48 +/- 8 kDa/nm). Finally, when unit length-filaments (ULF) of vimentin and desmin were mixed and assembled further, the diameters of individual mature IFs formed exhibited a significantly higher degree of width inhomogeneity along their length than vimentin and desmin IFs as might be expected for a modular mode of assembly. Last but not least, atomic force microscopy provided further direct evidence that desmin IFs are able to fuse end-to-end with vimentin IFs. In summary, we have shown that vimentin and desmin are able to co-assemble at the dimer, tetramer, ULF and even the mature IF level. 相似文献
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Benoit NE Goldenberg D Deng SX Rosenbaum E Cohen Y Califano JA Shackelford WH Wang XB Sidransky D 《BioTechniques》2005,38(4):635-639
High-throughput genomic mutation screening for primary tumors has characteristically been expensive, labor-intensive, and inadequate to detect low levels of mutation in a background of wild-type signal. We present a new, combined PCR and colorimetric approach that is inexpensive, simple, and can detect the presence of 1% mutation in a background of wild-type. We compared manual dideoxy sequencing of p53 for eight lung cancer samples to a novel assay combining a primer extension step and an enzymatic colorimetric step in a 96-well plate with covalently attached oligonucleotide sequences. For every sample, we were able to detect the presence or absence of the specific mutation with a statistically significant difference between the sample optical density (OD) and the background OD, with a sensitivity and specificity of 100%. This assay is straightforward, accurate, inexpensive, and allows for rapid, high-throughput analysis of samples, making it ideal for genomic mutation or polymorphism screening studies in both clinical and research settings. 相似文献
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Yu J He S Friedman JS Akimoto M Ghosh D Mears AJ Hicks D Swaroop A 《The Journal of biological chemistry》2004,279(40):42211-42220