Potenciais hospedeiros alternativos para o fitoplasma e o espiroplasma, agentes do enfezamento do milho, e alterações bioquímicas em plantas infectadas pelo espiroplasma / Potencial hosts for maize mollicutes, agent of corn stunt, and biochemical changes in plants infected by the spiroplasma

AUTOR(ES)
DATA DE PUBLICAÇÃO

2010

RESUMO

The maize bushy stunt and corn stunt are relevant diseases caused, respectively, by a phytoplasma and a spiroplasma (Spiroplasma kunkelii). Both kinds of stunting were reported in Brazil in the beginning of the 1970´s and became economically important in the beginning of the 1980´s, with the adoption of new techniques for maize cultivation. Although this pathosystem has been well studied, there are still some unknown points related to the diseases. One of them is related to survival of the leafhopper vector (Dalbulus maidis) and pathogens during the maize off-season. The other one is related to biochemical changes involved in the host-pathogen interaction. This research aimed to evaluate some pasture grasses and weeds that occur on areas cultivated with corn as possible alternatives hosts for these pathogens; an additional study was conducted to investigate biochemical alterations in maize plants infected by S. kunkelii. So, the research was carried out on three steps. First, eleven species of grasses and weeds were inoculated with S. kunkelii by using infective leafhoppers. The evaluations were based on symptoms and molecular detection of the pathogen in the inoculated plants, as well as on counting of surviving insects onto these inoculated plants. S. kunkelii was not detected by PCR or symptoms in any of the inoculated plant species, indicating that they are not able to host this pathogen. In the second step, three species of grasses (Panicum maximum, Brachiaria plantaginea and Brachiaria decumbens) infected with the maize bushy stunt phytoplasma (MBSP) were tested as source plants of this pathogen for acquisition by its vector. After insects establishing on these plants, they were transferred to healthy corn plants. Transmission to maize was determined based on symptoms and molecular detection of the phytoplasma in the inoculated plant tissues. Out of the three grass species tested, only P. maximum was shown to serve as an alternative host of the phytoplasma. These results represent a relevant contribution to understanding of the disease epidemiology, indicating a species distinct of maize as a source plant for MBSP. In the last study, a susceptible and a resistant hybrid were inoculated with S. kunkelii by infective leafhoppers. Biochemical analyses were carried out to evaluate changes in proteins, phenols, chlorophylls, total sugars and enzymes peroxidase and -1, 3 glucanase. Leaf samples were harvested at 6 different times: 0, 10, 20, 40, 60 and 80 days after inoculation. Results revealed an increase in all biochemical parameters evaluated, with exception for the chlorophyll content and soluble protein in a susceptible hybrid that decreased. The analysis showed that enzyme activity may be an unspecific response of the plant to the pathogen.

ASSUNTO(S)

maize mollicutes enfezamento (doença de planta) fitoplasmas bioquímica vegetal mollicutes cigarrinhas vector of plant disease. host plants leafhopper corn stunt (plant disease) milho plant biochemistry phytoplasma plantas hospedeiras vetores de doenças de plantas.

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