Abstract
The present study examined the effects of Candidatus Phytoplasma solani infection on antioxidative metabolism in leaves and roots of carrot (Daucus carota L.). Disease symptoms appeared at the end of June in the form of the chlorosis on some of the leaves, which became intensely red one week later, while the previously healthy leaves from the same branch becme chlorotic. A few days later, all leaves from the infected leaf branch were intensely red. Infected plants also had slower growth compared to the healthy ones with fewer leaf branches developed. The roots of infected plants were less developed, seared, or gummy with or without brown-colored root hair. The presence of the pathogen was detected by sequencing the 16S rRNA. National Center for Biotechnology Information (NCBI) BLAST analyses of the obtained sequence revealed 100% identity of tested strain with deposited Ca. Phytoplasma solani strains from various countries and hosts, all belonging to the “stolbur” group (16SrXII-A). Identity of 99.74% was found when the tested Serbian strain (MF503627) was compared with the reference stolbur strain STOL11 (AF248959). The oxidative damage of membranes in carrot cells was accompanied by a decrease in the content of photosynthetic pigments. Furthermore, for the determination of specific scavenging properties of the extracts, in vitro antioxidant assay was performed. In phytoplasma-infected carrot leaves, there was a greater reduction in the level of glutathione content (GSH); however; flavonoids and anthocyanidins seem to be responsible for the accompanied increased antioxidative capacity against hydroxyl radical and hydrogen peroxide.
Highlights
Phytoplasmas are plant pathogens from the class Mollicutes that inhabit phloem sieve elements of host plants [1]
The present study examined the effects of Candidatus Phytoplasma solani infection on antioxidative metabolism in leaves and roots of carrot (Daucus carota L.)
Mixed infection, expressed through symptoms of leaves redness, shoot proliferation, and reduced tap roots quality, caused by phytoplasmas belonging to three 16S rRNA RFLP subgroups—Aster yellows group 16SrI (A and B) and Stolbur 16SrXII-A subgroup was found on carrot field in Serbia in 2007 [21]
Summary
Phytoplasmas are plant pathogens from the class Mollicutes that inhabit phloem sieve elements of host plants [1]. Other symptoms are more generic (for groups of pathogens that are not phytoplasmas) such as chlorosis, necrosis, flower abortion, small fruits, stunting, decline, etc. An “oxidative burst”, a phenomenon related to the pathogen attack, initiates a cascade of signaling pathways, including the plant stress hormone network. Plant hormones such as jasmonic (JA) and salicylic acid (SA) participate directly or indirectly in the generation of the oxidative burst, superoxide, and hydrogen peroxide in the extracellular apoplast–cell wall matrix by enzymes such as the plasmalemma-localized NADPH oxidases and peroxidases [4]
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