Two full-length genomic cDNA clones, pTA/FMDV and pCA/FMDV, were constructed that contained three point-mutants [A174G and A308G (not present in pTA/FMDV); T1029G] in the genome compared with the wild type A/AKT/58 st...Two full-length genomic cDNA clones, pTA/FMDV and pCA/FMDV, were constructed that contained three point-mutants [A174G and A308G (not present in pTA/FMDV); T1029G] in the genome compared with the wild type A/AKT/58 strain of foot-and-mouth disease virus. These two viruses were rescued by co-transfection of pCA/FMDV with pCT7RNAP, which can express T7 RNA polymerase in BHK-21 cell-lines, or by transfection of the in vitro transcribed RNA. Their biological properties were analyzed for their antigenicity, virulence in suckling-mice (LD50) and growth kinetics in BHK-21 cells. The in vivo rescued viruses showed high pathogenicity for 3-day-old unweaned mice (LD50=10?7.5). However, the in vitro transcribed RNA derived from pTA/FMDV had lower pathogenicity for suckling-mice (LD50=10?6), and the in vivo transcribed RNA recovered from pCA/FMDV co-transfected with pCT7RNAP showed no significant differences from the wild type virus. These data showed that recovery of the infectious foot-and-mouth disease virus directly from the use of in vivo techniques was better than from in vitro methods. Furthermore, the reverse genetic procedure technique was simplified to a faster one-step procedure based on co-transfection with pCT7RNAP. These results suggest that in vivo RNA tran- scripts may be more valuable for engineering recombinant foot-and-mouth disease virus than in vitro RNA transcripts, and may contribute to further understanding of the biological properties, such as replication, maturation and quasispecies, of the foot-and-mouth disease virus.展开更多
The promoters, PTH4 and P-TH270 involved in the regulation of Streptomyces coelicolor differentiation were subcloned into Streptomyces promoter, i.e. probe plasmid pIJ4083, and the recombinant plasmids, pIJ4470 and pI...The promoters, PTH4 and P-TH270 involved in the regulation of Streptomyces coelicolor differentiation were subcloned into Streptomyces promoter, i.e. probe plasmid pIJ4083, and the recombinant plasmids, pIJ4470 and pIJ4471, were constructed. Two promoters could drive the expression of reporter gene encoding catechol dioxygenase when pIJ4470 and pIJ4471 were introduced into some white mutants (C85, C70, C71, C17 and C119). The total RNA was isolated from these strains containing recombinant plasmid. Probes were prepared by labelling 5 -ends of PTH4 AND PTH270 DNA fragments using radioisotope. DNA - RNA hybridization was carried out with the probes and RNAs isolated from different strains. The S1 mapping result showed that all RNAs from strains of C85/pIJ4470, C85/4471, C70/pIJ4470, C70/pIJ4471 and C17/pIJ4470 as well as C17/pIJ4471 gave rise to strong positive hy-bridization signal, whereas RNAs from C71/pIJ4470 and C71/pIJ4471 did not give any positive signal. RNAs from C119/pIJ4470 and C119/pIJ4471 gave weak hybridization signal. The result indicated that the transcription of both PTH4 and PTH270 promoters might depend on whiG, an essential gene in Streptomyces differentiation, and partially de-pend on whiH, but they did not depend on other differentiation genes (whiA, whiB and whiI) .展开更多
基金Supported by the National Key Basic Research Program of China (Grant No. 2005CB523201)National High-Tech Research and Development Program of China (Grant No. 2006BAD06A03)
文摘Two full-length genomic cDNA clones, pTA/FMDV and pCA/FMDV, were constructed that contained three point-mutants [A174G and A308G (not present in pTA/FMDV); T1029G] in the genome compared with the wild type A/AKT/58 strain of foot-and-mouth disease virus. These two viruses were rescued by co-transfection of pCA/FMDV with pCT7RNAP, which can express T7 RNA polymerase in BHK-21 cell-lines, or by transfection of the in vitro transcribed RNA. Their biological properties were analyzed for their antigenicity, virulence in suckling-mice (LD50) and growth kinetics in BHK-21 cells. The in vivo rescued viruses showed high pathogenicity for 3-day-old unweaned mice (LD50=10?7.5). However, the in vitro transcribed RNA derived from pTA/FMDV had lower pathogenicity for suckling-mice (LD50=10?6), and the in vivo transcribed RNA recovered from pCA/FMDV co-transfected with pCT7RNAP showed no significant differences from the wild type virus. These data showed that recovery of the infectious foot-and-mouth disease virus directly from the use of in vivo techniques was better than from in vitro methods. Furthermore, the reverse genetic procedure technique was simplified to a faster one-step procedure based on co-transfection with pCT7RNAP. These results suggest that in vivo RNA tran- scripts may be more valuable for engineering recombinant foot-and-mouth disease virus than in vitro RNA transcripts, and may contribute to further understanding of the biological properties, such as replication, maturation and quasispecies, of the foot-and-mouth disease virus.
基金Proiect supported by the Chinese Academy of Sciences and the Royal Society of UK.
文摘The promoters, PTH4 and P-TH270 involved in the regulation of Streptomyces coelicolor differentiation were subcloned into Streptomyces promoter, i.e. probe plasmid pIJ4083, and the recombinant plasmids, pIJ4470 and pIJ4471, were constructed. Two promoters could drive the expression of reporter gene encoding catechol dioxygenase when pIJ4470 and pIJ4471 were introduced into some white mutants (C85, C70, C71, C17 and C119). The total RNA was isolated from these strains containing recombinant plasmid. Probes were prepared by labelling 5 -ends of PTH4 AND PTH270 DNA fragments using radioisotope. DNA - RNA hybridization was carried out with the probes and RNAs isolated from different strains. The S1 mapping result showed that all RNAs from strains of C85/pIJ4470, C85/4471, C70/pIJ4470, C70/pIJ4471 and C17/pIJ4470 as well as C17/pIJ4471 gave rise to strong positive hy-bridization signal, whereas RNAs from C71/pIJ4470 and C71/pIJ4471 did not give any positive signal. RNAs from C119/pIJ4470 and C119/pIJ4471 gave weak hybridization signal. The result indicated that the transcription of both PTH4 and PTH270 promoters might depend on whiG, an essential gene in Streptomyces differentiation, and partially de-pend on whiH, but they did not depend on other differentiation genes (whiA, whiB and whiI) .
