Diseño de microsondas mediante hibridación virtual para el estudio de variantes en los sitios REP-CMT1A / Microarray design using virtual hybridization to study variations in REP-CMT1A sites

Antecedentes: El gen PMP22 se encuentra duplicado en pacientes con Charcot-Marie-Tooth 1A (CMT1A); se ha descrito que el origen de la duplicación es el intercambio desigual de las cromátidas durante la meiosis entre dos regiones de 24 kb denominadas sitios REPCMT1A, encontrándose un REP proximal y un REP distal, los cuales tienen una homología de 98%. Dentro de cada uno de estos sitios existen zonas denominadas puntos calientes de mutación (hot spot), donde se presenta el mayor número de variantes y mutaciones que pudieran dar origen al intercambio desigual. El objetivo de este trabajo fue diseñar un conjunto de microsondas para elaborar un microarreglo con el cual pueda detectarse la presencia de variantes y puntos de mutación en los sitios REP-proximal y REP-distal CMT1A. Material y métodos A partir de las secuencias informadas de los REP distal y proximal, se delimitaron los sitios hot spot dentro de las regiones proximal y distal. Estas secuencias se alinearon, se empalmaron y se detectaron 12 zonas de diferencia secuencial. Resultados y conclusiones. Se diseñaron y analizaron 24 microsondas mediante el programa Genosensor Probe Designer. Las sondas podrán ser sintetizadas y utilizadas en un microarreglo que permita encontrar variaciones, puntos de mutación, y facilitar el diagnóstico de pacientes con CMT1A.

BACKGROUND: Gene PMP22 is duplicated in patients with CMT1A. Duplication is due to an unequal chromatid interchange during meiosis that takes place between two 24 Kb regions named REP-CMT1A proximal and distal sites. Homology is approximately 98%. Within each one of the sites we find zones termed hot spots where a greater number of variants and mutations could give origin to an unequal interchange. The aim of this study was to design a set of probes to create a microarray that could detect the presence of variants and mutation points in distal and proximal REP sites among patients with CMT1A. MATERIAL AND METHODS: With reported sequences of distal and proximal REPs, we determined hot spot sites within proximal and distal regions. These sequences were aligned and matched, hence 12 zones were detected. RESULTS AND CONCLUSIONS: Twenty four probes were designed and analyzed using the Genosensor Probe Designer program. Probes could be synthesized and used in a microarray that is able to find variations and mutation points and facilitates diagnosis of patients with CMT1A.

The Application of Genosensor in the Detection of Functional Genes of Environmental Microorganisms / 微生物学通报

The fast development of the molecular biology and the further research on the nucleic acid set a solid foundation for the development of genosensor.Genosensor is the result of combining molecular biology with microelectronics,electrochemistry,optics and etc,which will build a bridge between the life science and the information science and become one of the most important technologies for DNA information analysis and detection.The working principle,classification of genosenor and the recent research on its application in the detection of functional genes of environmental microorganisms are discussed according to the latest literature.And it is pointed out that the application in the determination of microorganism functional genes in compost is an important development orientation of genosensor.