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Karl Rumbold Hugo JJ van Buijsen Karin M Overkamp Johan W van Groenestijn Peter J Punt J van der Mariët Werf 《Microbial cell factories》2009,8(1):1-11
Although many secondary metabolites with diverse biological activities have been isolated from myxobacteria, most strains
of these biotechnologically important gliding prokaryotes remain difficult to handle genetically. In this study we describe
the new fast growing myxobacterial thermophilic isolate GT-2 as a heterologous host for the expression of natural product
biosynthetic pathways isolated from other myxobacteria. According to the results of sequence analysis of the 16S rDNA, this
moderately thermophilic isolate is closely related to Corallococcus macrosporus and was therefore named C. macrosporus GT-2. Fast growth of moderately thermophilic strains results in shorter fermentation and generation times, aspects which are of
significant interest for molecular biological work as well as production of secondary metabolites. Development of a genetic
manipulation system allowed the introduction of the complete myxochromide biosynthetic gene cluster, located on a transposable
fragment, into the chromosome of GT-2. Genetic engineering of the biosynthetic gene cluster by promoter exchange leads to
much higher production of myxochromides in the heterologous host C. macrosporus GT-2 in comparison to the original producer Stigmatella aurantiaca and to the previously described heterologous host Pseudomonas putida (600 mg/L versus 8 mg/L and 40 mg/L, respectively). 相似文献
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Ebert DH Deussing J Peters C Dermody TS 《The Journal of biological chemistry》2002,277(27):24609-24617
After attachment to receptors, reovirus virions are internalized by endocytosis and exposed to acid-dependent proteases that catalyze viral disassembly. Previous studies using the cysteine protease inhibitor E64 and a mutant cell line that does not support reovirus disassembly suggest a requirement for specific endocytic proteases in reovirus entry. This study identifies the endocytic proteases that mediate reovirus disassembly in murine fibroblast cells. Infection of both L929 cells treated with the cathepsin L inhibitor Z-Phe-Tyr(t-Bu)-diazomethyl ketone and cathepsin L-deficient mouse embryo fibroblasts resulted in inefficient proteolytic disassembly of viral outer-capsid proteins and decreased viral yields. In contrast, both L929 cells treated with the cathepsin B inhibitor CA-074Me and cathepsin B-deficient mouse embryo fibroblasts support reovirus disassembly and growth. However, removal of both cathepsin B and cathepsin L activity completely abrogates disassembly and growth of reovirus. Concordantly, cathepsin L mediates reovirus disassembly more efficiently than cathepsin B in vitro. These results demonstrate that either cathepsin L or cathepsin B is required for reovirus entry into murine fibroblasts and indicate that cathepsin L is the primary mediator of reovirus disassembly. Moreover, these findings suggest that specific endocytic proteases can determine host cell susceptibility to infection by intracellular pathogens. 相似文献
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Sequence diversity in S1 genes and S1 translation products of 11 serotype 3 reovirus strains. 总被引:4,自引:12,他引:4 下载免费PDF全文
The S1 gene nucleotide sequences of 10 type 3 (T3) reovirus strains were determined and compared with the T3 prototype Dearing strain in order to study sequence diversity in strains of a single reovirus serotype and to learn more about structure-function relationships of the two S1 translation products, sigma 1 and sigma 1s. Analysis of phylogenetic trees constructed from variation in the sigma 1-encoding S1 nucleotide sequences indicated that there is no pattern of S1 gene relatedness in these strains based on host species, geographic site, or date of isolation. This suggests that reovirus strains are transmitted rapidly between host species and that T3 strains with markedly different S1 sequences circulate simultaneously. Comparison of the deduced sigma 1 amino acid sequences of the 11 T3 strains was notable for the identification of conserved and variable regions of sequence that correlate with the proposed domain organization of sigma 1 (M.L. Nibert, T.S. Dermody, and B. N. Fields, J. Virol. 64:2976-2989, 1990). Repeat patterns of apolar residues thought to be important for sigma 1 structure were conserved in all strains examined. The deduced sigma 1s amino acid sequences of the strains were more heterogeneous than the sigma 1 sequences; however, a cluster of basic residues near the amino terminus of sigma 1s was conserved. This analysis has allowed us to investigate molecular epidemiology of T3 reovirus strains and to identify conserved and variable sequence motifs in the S1 translation products, sigma 1 or sigma 1s. 相似文献
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Structure of the reovirus cell-attachment protein: a model for the domain organization of sigma 1. 总被引:3,自引:15,他引:3 下载免费PDF全文
This report describes a model for the structure of the reovirus cell-attachment protein sigma 1. S1 gene nucleotide sequences were determined for prototype strains of the three serotypes of mammalian reoviruses. Deduced amino acid sequences of the S1-encoded sigma 1 proteins were then compared in order to identify conserved features of these sequences. Discrete regions in the amino-terminal two-thirds of sigma 1 sequence share characteristics with the fibrous domains of other cellular and viral proteins. Most of the amino-terminal one-third of sigma 1 sequence is predicted to form an alpha-helical coiled coil like that of myosin. The middle one-third of sigma 1 sequence appears more heterogeneous; it is predicted to form a large region of beta-sheet that is followed by a region which contains two short alpha-helical coiled coils separated by a smaller region of beta-sheet. The two beta-sheet regions are each proposed to form a cross-beta sandwich like that suggested for the rod domain of the adenovirus fiber protein (N. M. Green, N. G. Wrigley, W. C. Russell, S. R. Martin, and A. D. McLachlan, EMBO J. 2:1357-1365, 1983). The remaining carboxy-terminal one-third of sigma 1 sequence is predicted to form a structurally complex globular domain. A model is suggested in which the discrete regions of sigma 1 sequence are ascribed to morphologic regions seen in computer-processed electron micrographic images of the protein (R. D. B. Fraser, D. B. Furlong, B. L. Trus, M. L. Nibert, B. N. Fields, and A. C. Steven, J. Virol. 64:2990-3000, 1990. 相似文献
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Myocarditis is indicated as the second leading cause of sudden death in young adults. Reovirus induces myocarditis in neonatal mice, providing a tractable model system for investigation of this important disease. Alpha/beta-interferon (IFN-α/β) treatment improves cardiac function and inhibits viral replication in patients with chronic myocarditis, and the host IFN-α/β response is a determinant of reovirus strain-specific differences in induction of myocarditis. Virus-induced IFN-β stimulates a signaling cascade that establishes an antiviral state and further induces IFN-α/β through an amplification loop. Reovirus strain-specific differences in induction of and sensitivity to IFN-α/β are associated with the viral M1, L2, and S2 genes. The reovirus M1 gene-encoded μ2 protein is a strain-specific repressor of IFN-β signaling, providing one possible mechanism for the variation in resistance to IFN and induction of myocarditis between different reovirus strains. We report here that μ2 amino acid 208 determines repression of IFN-β signaling and modulates reovirus induction of IFN-β in cardiac myocytes. Moreover, μ2 amino acid 208 determines reovirus replication, both in initially infected cardiac myocytes and after viral spread, by regulating the IFN-β response. Amino acid 208 of μ2 also influences the cytopathic effect in cardiac myocytes after spread. Finally, μ2 amino acid 208 modulates myocarditis in neonatal mice. Thus, repression of IFN-β signaling mediated by reovirus μ2 amino acid 208 is a determinant of the IFN-β response, viral replication and damage in cardiac myocytes, and myocarditis. These results demonstrate that a single amino acid difference between viruses can dictate virus strain-specific differences in suppression of the host IFN-β response and, consequently, damage to the heart. 相似文献