ICTV Virus Taxonomy Profile: Caulimoviridae.

Caulimoviridae is a family of non-enveloped reverse-transcribing plant viruses with non-covalently closed circular dsDNA genomes of 7.1-9.8 kbp in the order Ortervirales. They infect a wide range of monocots and dicots. Some viruses cause economically important diseases of tropical and subtropical crops. Transmission occurs through insect vectors (aphids, mealybugs, leafhoppers, lace bugs) and grafting. Activation of infectious endogenous viral elements occurs in Musa balbisiana, Petunia hybrida and Nicotiana edwardsonii. However, most endogenous caulimovirids are not infectious. This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on the family Caulimoviridae, which is available at ictv.global/report/caulimoviridae.

Genome-scale proteomics reveals Arabidopsis thaliana gene models and proteome dynamics.

We have assembled a proteome map for Arabidopsis thaliana from high-density, organ-specific proteome catalogs that we generated for different organs, developmental stages, and undifferentiated cultured cells. We matched 86,456 unique peptides to 13,029 proteins and provide expression evidence for 57 gene models that are not represented in the TAIR7 protein database. Analysis of the proteome identified organ-specific biomarkers and allowed us to compile an organ-specific set of proteotypic peptides for 4105 proteins to facilitate targeted quantitative proteomics surveys. Quantitative information for the identified proteins was used to establish correlations between transcript and protein accumulation in different plant organs. The Arabidopsis proteome map provides information about genome activity and proteome assembly and is available as a resource for plant systems biology.

Detection of petunia vein-clearing virus: model for the detection of DNA viruses in plants with homologous endogenous pararetrovirus sequences.

A number of cases of plant virus sequence integration into host plant genome have been reported. In at least two cases, endogenous pararetrovirus sequences are correlated strongly with subsequent episomal virus infection and there is circumstantial evidence that this also occurs for Petunia vein-clearing virus (PVCV). The detection of viruses is a critical component of plant health and therefore, it is important to have diagnostic procedures that differentiate between the detection of encapsidated viral DNA and homologous sequences in the host genome. PCR-based detection methods targeted at PVCV DNA have been tested and particular attention was paid to design controls that would indicate the existence of host DNA in the reaction. The use of ion-exchange chromatography for the partial purification of plant viruses from other cellular components, including chromosomal DNA, is described. The methods tested for PVCV detection are used to illustrate general principles for the specific detection of virus infections in host plants that carry homologous virus sequences in their genomes.

Characterization of a protein from Rice tungro spherical virus with serine proteinase-like activity.

The RNA genome of Rice tungro spherical virus (RTSV) is predicted to be expressed as a large polyprotein precursor (Shen et al., Virology 193, 621-630, 1993 ). The polyprotein is processed by at least one virus-encoded protease located adjacent to the C-terminal putative RNA polymerase which shows sequence similarity to viral serine-like proteases. The catalytic activity of this protease was explored using in vitro transcription/translation systems. Besides acting in cis, the protease had activity in trans on precursors containing regions of the 3' half of the polyprotein but did not process a substrate consisting of a precursor of the coat proteins. The substitution mutation of Asp(2735) of the RTSV polyprotein had no effect on proteolysis; however, His(2680), Glu(2717), Cys(2811) and His(2830) proved to be essential for catalytic activity and could constitute the catalytic centre and/or substrate-binding pocket of the RTSV 3C-like protease.

Viral sequences integrated into plant genomes.

Sequences of various DNA plant viruses have been found integrated into the host genome. There are two forms of integrant, those that can form episomal viral infections and those that cannot. Integrants of three pararetroviruses, Banana streak virus (BSV), Tobacco vein clearing virus (TVCV), and Petunia vein clearing virus (PVCV), can generate episomal infections in certain hybrid plant hosts in response to stress. In the case of BSV and TVCV, one of the parents contains the integrant but is has not been seen to be activated in that parent; the other parent does not contain the integrant. The number of integrant loci is low for BSV and PVCV and high in TVCV. The structure of the integrants is complex, and it is thought that episomal virus is released by recombination and/or reverse transcription. Geminiviral and pararetroviral sequences are found in plant genomes although not so far associated with a virus disease. It appears that integration of viral sequences is widespread in the plant kingdom and has been occurring for a long period of time.