. Remarkably, even homopolymeric poly(A) was moderately active, whereas a poly(G) homopolymer was not active. Furthermore, a database search for existing PARS sequences in 5-untranslated regions (5UTR) of genes in tobacco genome allowed the easy identification of a number of IRES candidates, in particular in the 5UTR of the gene encoding Nicotiana tabacum heat-shock factor 1 (NtHSF1). Consistent with our prediction, the 5UTR of NtHSF1 turned out to be an IRES element active in vitro, in plant protoplasts and HeLa cells. We predict that PARS elements, when found in other mRNAs, will show a similar activity.
Spherical nanoparticles (SNPs) were generated by two-step thermal remodelling of native tobacco mosaic virus (TMV) at 94 6C. Particles of irregular shape and varying size were generated by TMV at 90 6C. They could be converted into SNPs by heating at 94 6C and were considered to be intermediate precursors of SNPs. In addition to SNP monomers (53 nm diameter), generated by individual TMV virions, large SNPs (100-800 nm diameter) were assembled. The size of the SNPs depended on the TMV concentration. The SNPs could be generated by distinct forms of RNA-free TMV coat protein (CP) aggregates and individual CP subunits. A one-step SNP assembly appeared to occur in these cases. These results show that SNPs represent a new type of particle nanoplatform for producing compositions of SNPs with foreign protein molecules bound to their surface.The rod-like particles of tobacco mosaic virus (TMV) of 18 nm diameter and 300 nm modal length consist of 2130 identical 17.5 kDa protein subunits arranged helically into a rigid tube. The viral RNA is intercalated between the protein turns (Zaitlin & Israel, 1975;Butler, 1999;Klug, 1999). TMV can be disassembled into protein subunits with subsequent reassembly (reconstitution) of viral particles in vitro from the nucleic acid and coat protein (CP) (Butler & Klug, 1978;Fraenkel-Conrat & Singer, 1999;Klug, 1999). In the absence of nucleic acid, the viral CP may be assembled into several types of aggregate. It has been established that polymerization of TMV CP is an endothermic, concentration-dependent and reversible process. TMV protein polymerizes when the concentration and/or temperature is increased and depolymerizes when they are decreased (Lauffer & Stevens, 1968). At a pH of approximately 6.5, TMV CP can be repolymerized into virus-like particles that are structurally similar to native virions (Anderer, 1963;Caspar, 1963;Butler & Klug, 1978;Namba et al., 1989;Butler, 1999). At a pH near 8.0 and at low ionic strength, a mixture of monomers and two-layer trimers, called A-protein, is formed (Schramm & Zillig, 1955;Lauffer & Stevens, 1968;Butler & Klug, 1978;Butler, 1999). The predominant aggregate at neutral pH and low ionic strength is a 20S two-layer polar disc made of 34 subunits (Díaz-Avalos & Caspar, 1998). Lauffer & Price (1940) found that heat inactivation of TMV is closely associated with CP denaturation. Hart (1956) used electron microscopy to analyse the morphological changes induced in TMV by heating and reported that heating in the range 80-98 u C for 10 s resulted in a swelling of TMV particles at one or both ends. Eventually, the rods were converted into 'ball-like particles' with the approximate volume of the original rod.Here, we found that the size of the spherical nanoparticles (SNPs) generated by heating TMV did not necessarily correlate with that of the original rod, but varied in a wide range from approximately 50 to 800 nm. The SNPs were not only generated by the native TMV rods, but were also readily produced by different forms of RNA-free TMV CP. The eviden...
Plant virus-encoded movement proteins promote viral spread between plant cells via plasmodesmata. The movement is assumed to require a plasmodesmata targeting signal to interact with still unidentified host factors presumably located on plasmodesmata and cell walls. The present work indicates that a ubiquitous cell wall-associated plant enzyme pectin methylesterase of Nicotiana tabacum L. specifically binds to the movement protein encoded by tobacco mosaic virus. We also show that pectin methylesterase is an RNA binding protein.These data suggest that pectin methylesterase is a host cell receptor involved in cell-to-cell movement of tobacco mosaic virus.z 1999 Federation of European Biochemical Societies.
Plant virus-encoded movement protein(s) (MP), and for many viruses the coat protein (CP), is required to mediate viral spread between plant cells via plasmodesmata (PD). Most probably, the genomic RNA of potexviruses moves through PD as assembled virions and/or as ribonucleoprotein complexes containing the CP and 25-kDa MP. Here we report that encapsidated potato virus X (PVX) virion RNA, which is nontranslatable in a cell-free protein synthesizing system, can be converted into a fully translatable form after interaction of intact PVX particles with the PVX 25-kDa MP. The 25-kDa MP molecules bind selectively to only one extremity of the viral particle (that presumably contains the 5' end of the genomic RNA). The process of complex formation is ATP-independent; i.e., the ATPase activity of the 25-kDa MP is not involved in the binding of the MP to PVX virion.
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