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1.
Braz. j. biol ; Braz. j. biol;80(2): 311-318, Apr.-June 2020. tab, graf
Article in English | LILACS | ID: biblio-1132392

ABSTRACT

Abstract Aphids can harbor several secondary symbionts that alter important aphid-related ecological traits, such as defense against natural enemies, heat tolerance and host plant utilization. One of these secondary symbionts, Spiroplasma, is well known in Drosophila as a sex modulator and by interacting with the host immune system. However, little is known on the effects of Spiroplasma on aphids, such as its influence on the host immune defense against fungi and on host plant utilization. Aphid infections by Spiroplasma are known to be low and few aphid species were reported to be infected with this secondary symbiont, however aphids belonging to the genus Aphis in neotropical regions show high infection rates by Spiroplasma. Thus, we investigated the association of Spiroplasma with the tropical aphid Aphis citricidus through comparative biology experiments on two host plants with different nutritional value to the aphid. We demonstrate Spiroplasma induced no significant fitness costs to A. citricidus on either host plant as no changes in the fitness traits we assessed were observed. Spiroplasma infection only induced sutle changes on host longevity and fecundity. Therefore, we concluded Spiroplasma established a neutral interaction with A. citricidus under the selection pressure we tested, and argue on stress conditions that could better demonstrate the role of Spiroplasma in A. citricidus bioecology and associated costs involved.


Resumo Pulgões podem abrigar vários simbiontes secundários que alteram características ecológicas importantes, como defesa contra inimigos naturais, tolerância ao calor e utilização da planta hospedeira. Um desses simbiontes secundários, Spiroplasma, é estudado em Drosophila por alterar a razão sexual e interagir com o sistema imunológico do hospedeiro. No entanto, pouco se sabe sobre os efeitos do Spiroplasma em pulgões, como sua influência na defesa contra fungos entomopatogénicos ou na utilização da planta hospedeira, por exemplo. Spiroplasma foi identificado em poucas espécies de pulgão e geralmente em baixa densidade, contudo pulgões pertencentes ao gênero Aphis em regiões neotropicais apresentam altas taxas de infecção por Spiroplasma. Assim, investigamos a associação entre Spiroplasma e o pulgão neotropical Aphis citricidus por meio de biologia comparativa em duas plantas hospedeiras com diferentes valores nutricionais para o pulgão. Spiroplasma não causou custo adaptativo significativo para A. citricidus em ambas planta hospedeira. A infecção por Spiroplasma induziu apenas pequenas mudanças na longevidade e fecundidade do hospedeiro. Portanto, concluímos que Spiroplasma estabeleceu uma interação neutra com A. citricidus sob ausência de pressão de seleção. Entretanto, discutimos sobre condições de estresse que possam demonstrar o papel de Spiroplasma na bioecologia de A. citricidus e os possíveis custos envolvidos.


Subject(s)
Animals , Aphids , Spiroplasma , Plants , Symbiosis , Fungi
2.
Rev. MVZ Córdoba ; 16(2): 2576-2583, mayo-ago. 2011.
Article in Spanish | LILACS | ID: lil-621986

ABSTRACT

Objetivo. Determinar la presencia de Spiroplasma penaei en el plancton, bentos y fauna acompañante en 2 fincas comerciales de camarones. Materiales y métodos. Fueron colectadas 200 muestras para identificación de lesiones características de Spiroplasma, a través de la técnica de histología, mientras que para la técnica de PCR se tomaron 326 muestras de plancton, bentos y fauna acompañante. Las muestras colectadas fueron preservadas en tubos estériles con etanol al 95% para análisis de PCR y en solución Davidson para análisis histológicos. Resultados. En los muestreos realizados en las dos fincas camaroneras fue detectada la presencia de Spiroplasma en una muestra de un representante de los dípteros (mosca de agua) a través de la técnica de PCR en tiempo real, el cual arrojo una Tm=84, similar a la del control positivo de Spiroplasma utilizado. Esta muestra fue secuenciada y comparada con secuencias de bacterias almacenadas en el banco de datos GenBank usando el algoritmo BLAST, encontrando 100% de homología con un fragmento de los genes ribosomales 16S de la bacteria Spiroplasma penaei. Conclusiones. La mosca de agua es portadora de Spiroplasma penaei, sin embargo no se puede afirmar que este organismo sea el transmisor de la infección, por lo que se recomienda realizar ensayos de tipo experimental con moscas de agua infectadas con Spiroplasma penaei, en camarones libres de patógenos, para evaluar si en realidad es el vector de infección.


Subject(s)
Animals , Benthic Fauna , Plankton , Polymerase Chain Reaction , Spiroplasma
3.
Biocell ; Biocell;33(2): 133-136, Aug. 2009. ilus
Article in English | LILACS | ID: lil-595030

ABSTRACT

Maize plants infected with Spiroplasma kunkelii show symptoms similar to that of plants in a magnesium-deficient soil, and it has been shown that the spiroplasma alters the plants' magnesium absorption. In the current study we compared changes associated to either spiroplasma infection, two soil magnesium levels and their combinations. Plant symptoms were recorded and correlated with transmission electron microscopy observations. Plants grown on a high magnesium treatment showed no macroscopical alterations nor organelle ultrastructural alterations, while plants on a low magnesium treatment showed macroscopical vein yellowing and, ultrastructurally, they had most chloroplasts and mitochondrial membranes altered. Infected plants on a low magnesium treatment had an ageing aspect, ultrastructurally showed chloroplast s and mitochondrial alterations similar to those non-infected and grown on a low magnesium treatment, and spiroplasma cells were found in phloem cells, but outside their cytoplasm. Infected plants on a high magnesium treatment showed similar symptoms and ultrastructural alterations as either non-infected plants on the low magnesium treatment or in infected plants on the low magnesium treatment, but differ from them in that the spiroplasma cells were located inside the cytoplasm. Results suggest that magnesium is involved in the plant-pathogen interaction.


Subject(s)
Intracellular Space , Intracellular Space/microbiology , Spiroplasma , Spiroplasma/physiology , Zea mays , Zea mays/microbiology , Plant Diseases/microbiology , Magnesium/pharmacology
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