On the rigidity of RNA in tomato bushy stunt virus

The motional state of RNA in tomato bushy stunt virus, both in the crystalline state and in solution, has been investigated using ³¹P nuclear magnetic resonance methods. It has been found that the RNA is highly immobile in the native virus and it is suggested that the lack of a high-resolution X-ray diffraction pattern for either the RNA or the N-terminal regions of the protein coat molecules (Harrison et al., 1978) is due to static disorder in the crystals. Dynamic disorder has been detected in the virus after treatment with EDTA, which causes a structural change and an increase in particle size.     

Chloroplast alterations induced by tomato bushy stunt virus inDatura leaves

Summary Peculiar chloroplast alterations were found in mesophyll cells ofDatura stramonium systemically infected with tomato bushy stunt virus. These alterations lead to complete rearrangement of the thylakoids.     

Natural infection of sugar beet with tomato bushy stunt virus

A virus transmissible toChenopodium quinoa was isolated from leaves of sugar beet showing large chlorotic ring spots and line pattern. The virus was serologically unrelated to tobacco necrosis virus and tomato black ring virus or to its beet ringspot strain either. A positive result was obtained with antiserum against tomato bushy stunt virus. Reactions of herbaceous indicators and properties of the virus in crude sap were in accordance with the serological diagnosis. A survey of natural hosts of tomato bushy stunt virus demonstrated recently by the authors is given.     

Studies on the occurrence of tomato bushy stunt virus in English rivers

Tomato bushy stunt virus (TBSV) of unknown source was isolated from water of the River Thames, near Oxford. The isolate designated TBSV-T was mechanically transmissible to several tomato (Lycopersicon esculentum) cvs and to other species including Petunia hybrida, pepper (Capsicum annuum). eggplant (Solanum melongena), Nicotiana clevelandii, Chenopodium amaranticolor and C. quinoa in which it caused systemic symptoms. It caused no infection of globe artichoke (Cynara scolymus) or Pelargonium domesticum. The virus was not adsorbed to soil and could be isolated from leachate of soil in which systemically-infected tomato or C. quinoa plants were grown. Tomato plants became infected when grown in soil watered with virus suspensions. TBSV-T was infective after 10 min at 80°C but not at 90°C and when diluted to 10^-5 but not to 10^-6. Purified virus preparations contained C. 30 nm isometric particles. In gel-diffusion serological tests, TBSV-T reacted with homologous anti-serum and with antiserum to petunia asteroid mosaic virus but not to pelargonium leaf curl virus. Seed-borne infection (50–65%) of TBSV was demonstrated in plants grown from seed of symptomlessly-infected tomato fruit. TBSV was isolated from symptomlessly-infected tomato fruit imported from Morocco during October-April 1981. One of the isolates (TBSV-M) was indistinguishable from TBSV-T in host range, symptomatology and serological reactions. TBSV was also found in tomato plants growing extraneously in primary settlement beds at sewage works; such plants having been derived from undigested seeds in sewage. Because of its ‘alimentary-resistance’ in man, it is possible that one ecological route whereby TBSV enters rivers is by man's consumption of TBSV-infected tomatoes and eventual sewage dispersal into rivers.     

Calcium binding sites in tomato bushy stunt virus visualized by Laue crystallography

We have collected Laue diffraction data from crystals of tomato bushy stunt virus using the full white X-ray spectrum from the wiggler magnet of the Synchrotron Radiation Source at Daresbury, U.K. A single 24 second exposure of a crystal soaked in EDTA yielded a data set that was 90% complete between 6 and 3.5 A resolution. A large proportion of the data could be measured using an overlap deconvolution routine to separate spatially overlapping reflections in the dense Laue photograph. Reflections with I greater than 2 sigma I (40% of the data set) were subjected to wavelength normalization. A difference Fourier map between these reflections and a monochromatic native set showed, after icosahedral averaging, the three pairs of Ca2+ binding sites related by quasi-symmetry and the movement of a liganding loop in the protein at the A/C subunit interface. The extent and quality of the data obtained from a single Laue photograph of this virus were thus sufficient to detect clearly such small structural alterations. In a second experiment, a Laue photograph was taken from a crystal that was soaked first in EDTA and then in GdCl3. A difference Fourier map between this Laue data set and the Laue data set from the EDTA-soaked crystal showed clearly the Gd3+ sites in the capsid, demonstrating that the Laue technique is a reliable and efficient means for data collection with virus crystals.     

Structure of the tomato bushy stunt virus: a model for protein-RNA interaction

The structure of tomato bushy stunt virus has been investigated by neutron small-angle scattering. Data were collected in aqueous solutions containing various amounts of D₂O, and the radial distribution of both protein and RNA could be computed. The main feature of that distribution is the clustering of protein into two concentric shells separated by about 30 Å, where the density is so low that the polypeptide chain must be extended. Most of the RNA is located between these two protein shells. The implications of that structure for protein-RNA interactions are discussed.     

Divalent ion-dependent swelling of tomato bushy stunt virus: a multi-approach study

Time-resolved small-angle X-ray and neutron scattering (SAXS and SANS) in solution were used to study the swelling reaction of TBSV upon chelation of its constituent calcium at mildly basic pH. SAXS intensities comprise contribution from the protein capsid and the RNA moiety, while neutron scattering, recorded in 72% D2O, is essentially due to the protein capsid. Cryo-electron micrographs of compact and swollen virus were used to produce 3D reconstructions of the initial and final conformations of the virus at a resolution of 13 A and 19 A, respectively. While compact particles appear to be very homogeneous in size, solutions of swollen particles exhibit some size heterogeneity. A procedure has been developed to compute the SAXS pattern from the 3D reconstruction for comparison with experimental data. Cryo-electron microscopy thereby provides an invaluable starting (and ending) point for the analysis of the time-resolved swelling process using the scattering data.     

A structural comparison of concanavalin a and tomato bushy stunt virus protein

Summary Significant structural equivalence has been found among the polypeptide folds of the two tomato bushy stunt virus (TBSV) subunit domains and concanavalin A. This suggests gene duplication in the TBSV coat protein and leads to speculation on common functional properties of concanavalin A and viral coat proteins.Non-standard abbreviations TBSV tomato bushy stunt virus - SBMV southern bean mosaic virus     

Conformational organization of the 3' untranslated region in the tomato bushy stunt virus genome

The 3' untranslated regions (UTRs) of positive-strand RNA viruses often form complex structures that facilitate various viral processes. We have examined the RNA conformation of the 352 nucleotide (nt) long 3' UTR of the Tomato bushy stunt virus (TBSV) genome with the goal of defining both local and global structures that are important for virus viability. Gel mobility analyses of a 3'-terminal 81 nt segment of the 3' UTR revealed that it is able to form a compact RNA domain (or closed conformation) that is stabilized by a previously proposed tertiary interaction. RNA-RNA gel shift assays were used to provide the first physical evidence for the formation of this tertiary interaction and revealed that it represents the dominant or "default" structure in the TBSV genome. Further analysis showed that the tertiary interaction involves five base pairs, each of which contributes differently to overall complex stability. Just upstream from the 3'-terminal domain, a long-distance RNA-RNA interaction involving 3' UTR sequences was found to be required for efficient viral RNA accumulation in vivo and to also contribute to the formation of the 3'-terminal domain in vitro. Collectively, these results provide a comprehensive overview of the conformational and functional organization of the 3' UTR of the TBSV genome.     

Protein interfaces and intersubunit bonding. The case of tomato bushy stunt virus.

An atomic model of the subunit of tomato bushy stunt virus (TBSV) has been constructed to fit an electron density map at 2.9 A resolution. Subunit interfaces show networks of polar residues forming H-bonds and salt bridges. The way in which alternative specific bonding geometries are built into a contact are described.     

Identification of tomato bushy stunt virus in cherry and plum trees showing fruit pitting symptoms

The fruit pitting symptoms on cherries, plums and prunes were investigated from the standpoint of their etiology. Tomato bushy stunt virus (TBSV) was isolated from pitted fruits of these plants and from their leaves and identified by means of biological and serological methods. Both isolates reacted with antisera againstPetunia and artichoke strain of this virus. In addition, the etiology of pseudopox disease of plum and that of cherry detrimental canker is discussed.