Identification and differentiation of Cryptosporidium species by capillary electrophoresis single-strand conformation polymorphism

Cryptosporidium species generally lack distinguishing morphological traits, and consequently, molecular methods are commonly used for parasite identification. Various methods for Cryptosporidium identification have been proposed, each with their advantages and disadvantages. In this study, we show that capillary electrophoresis coupled with single-strand conformation polymorphism (CE-SSCP) is a rapid, simple and cost-effective method for the identification of Cryptosporidium species and genotypes. Species could be readily differentiated based on the SSCP mobility of amplified 18S rRNA gene molecules. Clones that differed by single-nucleotide polymorphisms could be distinguished on CE-SSCP mobility. Profiles of species known to have heterogenic copies of 18S rRNA gene contained multiple peaks. Cloning and sequencing of Cryptosporidium parvum, Cryptosporidium hominis, Cryptosporidium fayeri and Cryptosporidium possum genotype 18S rRNA gene amplicons confirmed that these multiple peaks represented type A and type B 18S rRNA gene copies. CE-SSCP provides a reliable and sensitive analysis for epidemiological studies, environmental detection and diversity screening

Protein discovery: integrons as a source of novel genes

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New Proteins from the Mobile Genome: Structural Definitions of Function

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Stability of Citrus tristeza virus protective isolates in field conditions Estabilidade de isolados protetores contra Citrus tristeza virus em condições de campo

The objective of this work was to monitor the maintenance of Citrus tristeza virus (CTV) protective isolates stability in selected clones of 'Pêra' sweet orange (Citrus sinensis), preimmunized or naturally infected by the virus, after successive clonal propagations. The work was carried out in field conditions in the north of Paraná State, Brazil. Coat protein gene (CPG) analysis of 33 isolates collected from 16 clones of 'Pêra' sweet orange was performed using single strand conformational polymorphism (SSCP). Initially, the isolates were characterized by symptoms of stem pitting observed in clones. Then viral genome was extracted and used as template for the amplification of CPG by reverse transcription polimerase chain reaction (RTPCR). RTPCR products electrophoretic profiles were analyzed using the Jaccard coefficient and the UPGMA method. The majority of the clones had weak to moderate stem pitting symptoms and its CTV isolates showed alterations in the SSCP profiles. However, the stability of the protective complex has been maintained, except for isolates from two analised clones. Low genetic variability was observed within the isolates during the studied years.<br>O objetivo deste trabalho foi monitorar a manutenção da estabilidade de isolados protetores contra Citrus tristeza virus (CTV) em clones selecionados de laranja 'Pêra' (Citrus sinensis) pré-imunizados ou infectados naturalmente pelo vírus, após sucessivas propagações clonais. O trabalho foi realizado em condições de campo, no norte do Estado do Paraná. A análise do gene da capa protéica (GPC) de 33 isolados, coletados de 16 clones de laranjeira 'Pêra', foi realizada com o uso da técnica polimorfismo conformacional da fita simples (SSCP). Inicialmente, os isolados foram caracterizados por meio de sintomas de caneluras observados nos clones. Em seguida, o genoma viral foi extraído e utilizado como molde para a amplificação do GCP com uso da transcrição reversa da reação em cadeia da polimerase (RTPCR). Os perfis eletroforéticos dos produtos da RTPCR foram analisados com emprego do coeficiente de Jaccard e do método UPGMA. A maioria dos clones apresentou sintomas fracos a moderados de caneluras, bem como alterações nos perfis dos isolados de CTV. Contudo, a estabilidade dos complexos protetores foi mantida, com exceção dos isolados presentes em dois dos clones analisados. Foi observada baixa variabilidade genética nos isolados durante os anos avaliados

Stem pitting and seedling yellows symptoms of Citrus tristeza virus infection may be determined by minor sequence variants

The isolates of Citrus tristeza virus (CTV), the most destructive viral pathogen of citrus, display a high level of variability. As a result of genetic bottleneck induced by the bud-inoculation of CTV-infected material, inoculated seedlings of Citrus wilsonii Tanaka displayed different symptoms. All successfully grafted plants showed severe symptoms of stem pitting and seedling yellows, while plants in which inoculated buds died displayed mild symptoms. Since complex CTV population structure was detected in the parental host, the aim of this work was to investigate how it changed after the virus transmission, and to correlate it with observed symptoms. The coat protein gene sequence of the predominant genotype was identical in parental and grafted plants and clustered to the phylogenetic group 5 encompassing severe reference isolates. In seedlings displaying severe symptoms, the low-frequency variants clustering to other phylogenetic groups were detected, as well. Indicator plants were inoculated with buds taken from unsuccessfully grafted C. wilsonii seedlings. Surprisingly, they displayed no severe symptoms despite the presence of phylogenetic group 5 genomic variants. The results suggest that the appearance of severe symptoms in this case is probably induced by a complex CTV population structure found in seedlings displaying severe symptoms, and not directly by the predominant genomic variant