Cytological modifications in maize plants infected by barley yellow dwarf virus and maize dwarf mosaic virus

Chloroplast in Plant-Virus Interaction

In plants, the chloroplast is the organelle that conducts photosynthesis. It has been known that chloroplast is involved in virus infection of plants for approximate 70 years. Recently, the subject of chloroplast-virus interplay is getting more and more attention. In this article we discuss the different aspects of chloroplast-virus interaction into three sections: the effect of virus infection on the structure and function of chloroplast, the role of chloroplast in virus infection cycle, and the function of chloroplast in host defense against viruses. In particular, we focus on the characterization of chloroplast protein-viral protein interactions that underlie the interplay between chloroplast and virus. It can be summarized that chloroplast is a common target of plant viruses for viral pathogenesis or propagation; and conversely, chloroplast and its components also can play active roles in plant defense against viruses. Chloroplast photosynthesis-related genes/proteins (CPRGs/CPRPs) are suggested to play a central role during the complex chloroplast-virus interaction.

Chloroplast in Plant-Virus Interaction

In plants, the chloroplast is the organelle that conducts photosynthesis. It has been known that chloroplast is involved in virus infection of plants for approximate 70 years. Recently, the subject of chloroplast-virus interplay is getting more and more attention. In this article we discuss the different aspects of chloroplast-virus interaction into three sections: the effect of virus infection on the structure and function of chloroplast, the role of chloroplast in virus infection cycle, and the function of chloroplast in host defense against viruses. In particular, we focus on the characterization of chloroplast protein-viral protein interactions that underlie the interplay between chloroplast and virus. It can be summarized that chloroplast is a common target of plant viruses for viral pathogenesis or propagation; and conversely, chloroplast and its components also can play active roles in plant defense against viruses. Chloroplast photosynthesis-related genes/proteins (CPRGs/CPRPs) are suggested to play a central role during the complex chloroplast-virus interaction.

Ultrastructural insights into tomato infections caused by three different pathotypes of Pepino mosaic virus and immunolocalization of viral coat proteins

This paper presents studies on an ultrastructural analysis of plant tissue infected with different pathotypes of Pepino mosaic virus (PepMV) and the immunolocalization of viral coat proteins. Because the PepMV virus replicates with a high mutation rate and exhibits significant genetic diversity, therefore, isolates of PepMV display a wide range of symptoms on infected plants. In this work, tomato plants of the Beta Lux cultivar were inoculated mechanically with three pathotypes representing the Chilean 2 (CH2) genotype: mild (PepMV-P22), necrotic (PepMV-P19) and yellowing (PepMV-P5-IY). The presence of viral particles in all infected plants in the different compartments of various cell types (i.e. spongy and palisade mesophyll, sieve elements and xylem vessels) was revealed via ultrastructural analyses. For the first time, it was possible to demonstrate the presence of crystalline inclusions, composed of virus-like particles. In the later stage of PepMV infection (14 dpi) various pathotype-dependent changes in the structure of the individual organelles (i.e. mitochondria, chloroplasts) were found. The strongest immunogold labeling of the viral coat proteins was also observed in plants infected by necrotic isolates. A large number of viral coat proteins were marked in the plant conductive elements, both xylem and phloem.

Ultrastructural analysis of Vitis vinifera leaf tissues showing atypical symptoms of Plasmopara viticola

In an abandoned farm in Tuscany a year by year regression of downy mildew disease on grapevines was observed and a decrease in virulence as well as vigor and fertility of the causal fungus, Plasmopara viticola. Anomalous spots of the fungus (i.e. atypical coloration of leaves or mosaic) on leaf tissues of a sensitive Vitis vinifera grapevine were observed. The anomalous symptoms were often associated with the typical 'oil spots' and were present under environmental conditions favourable for a normal development of the disease. An ultrastructural study was carried out on leaf tissues of grapevine plants aimed at clarifying the cause of this phenomenon and detecting whether there were alterations in P. viticola mycelium and endophytes present. ELISA was also performed to check the presence of grapevine viruses in the plants. TEM results demonstrated that characteristic P. viticola was present in leaf samples showing oil spots, while, both the fungus and the host tissues showed cytological alterations in leaves with mosaic symptoms. Finally, hyphae were absent in leaf tissues without downy mildew spots, but showing severe ultrastructural modifications. Several plant virus infections were found in these grapevines. Literature reports that the development and sporulation of some phytopathogenic fungi inside their hosts can be limited by virus infections. Further experimental approaches are required to determine if resistance to P. viticola can be induced by viral infections in grapevines.