Establishment and Optimization of a Method for Rapid Extraction of Plant Virus RNA Based on Functional Magnetic Beads / 中国生物化学与分子生物学报

ABSTRACT

Plant virus diseases are one of the major diseases restricting erop production.Timely identification of their pathogen and development rules is the prerequisite for effective control of their large- scale spread.However, long cycle, tedious steps and strict detection environment were the disadvantages existing in the detection technology of plant virus disease.In this study, Tobacco Mosaic virus (TMV) was used as a model to he extract UNA based on CMBs-ACPtmv , which was design based on the principle of complementary base pairing.Meanwhile, the experimental conditions were optimized and analyzed, including the preparation conditions of functionalized magnetic beads, the reaction conditions during extraction, and the sensitivity, stability and other properties of the method.The results showed the ability to capture RNA of CMBs-ACPtmv were best when prepared with 4 fxmol capture probe (ACPTMV ) and 0.08 mg carboxyl magnetic beads (CMBs) ; After 3 min of extraction, CMBs-ACPtmv has the best RNA extraction effect, but when the extraction temperature of CMBs-ACPtmv was changed, its extraction capacity showed no significant change; In the comprehensive performance evaluation, the sensitivity of CMBs-ACPjjjv can reach 2.5 ng/fxL, and the detection stability is good.Compared with conventional RNA extraction technology, CMBs-ACPimv has outstanding advantages in detection time and sample consumption.The functional magnetic beads extraction method established in this study is fast, safe and simple.It can achieve rapid extraction of plant virus RNA with simple equipment, which has a broad application prospect.