Tobiasz Z Druciarek, Alejandro Rojas, Ioannis Tzanetakis
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引用次数: 0
摘要
了解玫瑰轮纹病病毒(RRV)及其载体之间的相互作用对于解决玫瑰轮纹病的爆发至关重要。本研究采用定量实时 RT-PCR 技术评估了 Phyllocoptes fructiphilus 和 P. adalius 中的 RRV 基因组拷贝数,为了解病毒动态和载体能力提供了线索。我们的研究结果表明,Phyllocoptes fructiphilus(一种已确认的病媒物种)体内病毒复制活跃,而 P. adalius 则不同,突出了其非病媒地位。此外,该研究还强调了螨虫体内病毒浓度随时间变化的差异性,强调了螨虫生活方式对 RRV 的保留和复制可能产生的发育阶段特异性反应和影响。这项研究是了解病毒与螨虫相互作用组的第一步,对于制定有效的玫瑰轮纹病管理策略至关重要。
Quantification of rose rosette emaravirus (RRV) titers in eriophyoid mites: insights into viral dynamics and vector competency
Understanding the interaction between rose rosette emaravirus (RRV) and its vectors is pivotal in addressing the epidemic outbreak of rose rosette disease. This study employed quantitative real-time RT-PCR to assess RRV genome copy numbers in Phyllocoptes fructiphilus and P. adalius, providing insights into the viral dynamics and vector competency. Our findings suggest active virus replication within P. fructiphilus, a confirmed vector species, unlike P. adalius, highlighting its non-vector status. Furthermore, the study highlights the variability in virus concentration in mites over time, underlining possible developmental stage-specific response and influence of mite lifestyle on RRV retention and replication. This research is the first step in understanding the virus-mite interactome, which is essential for developing effective management strategies against rose rosette disease.
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