首次报告亚利桑那州陆地棉植株感染棉花卷叶矮小病毒。

IF 4.4 2区 农林科学 Q1 PLANT SCIENCES
Alejandro Olmedo-Velarde, Hayk Shakhzadyan, Randy Norton, Michelle L Heck
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引用次数: 0

摘要

棉花卷叶矮化病毒(CLRDV)对美国的棉花生产构成持续威胁(Edula 等,2023 年)。CLRDV 最初在阿拉巴马州发现(Avelar 等人,2019 年),现在几乎遍布美国棉花带的所有州,从弗吉尼亚州一直延伸到得克萨斯州。与 CLRDV 相关的症状包括叶脉间萎黄、叶片卷曲、发育不良和棉铃成套率降低。不过,也有报道称无症状的 CLRDV 感染植株(Edula 等,2023 年)。2023 年生长季节,在亚利桑那州皮纳尔县的一块商业田地中观察到陆地棉(Gossypium hirsutum)植株在开花期出现顶端开裂症状,发病率为 60%。为了评估 CLRDV 是否与这些症状有关,我们从 20 株有症状的植株和 10 株无症状的植株中采集了完全展开的顶生幼叶。此外,还从同一田块的第二个无症状区块采集了 10 个样本。根据美国动植物检疫局 PPQ 许可证 526-23-256-14384 的规定,样本用干冰装在密封袋中运往康奈尔大学。根据制造商的说明,使用 OPS Synergy 2.0 植物 DNA 提取试剂盒(OPS Diagnostics)从每个样本中提取中叶和叶柄的总核酸。使用 iScript 逆转录酶试剂盒(BioRad)合成互补 DNA (cDNA),并按照之前的描述(Mahas 等,2022 年),使用 PCR 检测法检测 CLRDV 的衣壳蛋白 (CP) 部分序列。仅从一个有症状的样本中获得了预期的 309-bp 产物。使用针对 RNA 依赖性 RNA 聚合酶(RdRp)基因的 CLRDV 特异性引物进一步评估了样本中的 CLRDV 存在情况。引物 CLRDV-Pol_innerF1 (5'- ACCCTCCAAGGAACAGAG -3') / R1 (5'- CGAATAATCTGATYGGGTCAC -3') 和 CLRDV-Pol_outerF1 (5'- AACGCGCCCAGTCCGCACAAATACC-3') / R1 (5'-ACCGGTTTACTGGGATTGCACGC-3')、根据截至 2022 年 9 月 GenBank 中的病毒分离株设计,用于实施 Dey 等人(2012)详述的单管巢式 RT-PCR,并指示病毒是否存在。(2012)的详述,对所有样本进行单管巢式 RT-PCR,以确定是否存在 CLRDV。另外两个有症状的样本和三个无症状的样本(两个来自一号田,一个来自二号田)对病毒呈阳性反应。对有症状和无症状样本(PP482918-20)中的一个 CP 和两个 RdRp 扩增片段进行了直接 Sanger 测序,结果表明它们与南卡罗来纳州的一个分离株(OQ300129)的核苷酸相同度大于 99%。为了进一步评估亚利桑那州是否存在 CLRDV,我们使用针对 CP 的驼科单链抗体作为捕获抗体(专利申请号 18/436,287),使用市售的抗-PLRV 结合物(Agdia, Elkhart, IN)作为第二抗体,对中肋和叶柄样本进行了双抗体夹心(DAS)-ELISA 检测。DAS-ELISA 在 8 份有症状样本和 3 份无症状样本中检测出 CLRDV,阳性对照和阴性对照分别检测出阳性和阴性。考虑到所有诊断方法,10 个有症状样本和 5 个无症状样本的 CLRDV 检测结果呈阳性(表 S1)。据我们所知,这是亚利桑那州首次报告 CLRDV。未来的研究需要评估该州可能的发病率及其对作物产量的影响,并开发出一种可靠的诊断方法来检测所有感染样本中的病毒。由于我们的研究并未将 CLRDV 与顶端流产或裂果症状联系起来,因此目前正在努力阐明是否有其他病毒可能与这些症状有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The first report of cotton leafroll dwarf virus infecting upland cotton plants in Arizona.

Cotton leafroll dwarf virus (CLRDV) represents a persistent threat to cotton production in the United States (U.S.) (Edula et al. 2023). Initially detected in Alabama (Avelar et al. 2019), CLRDV occurs in almost all the states in the U.S. cotton belt, extending from Virginia through Texas. The symptoms associated with CLRDV includes interveinal chlorosis, leaf rolling, stunting, and reduced boll sets. However, asymptomatic CLRDV-infected plants have also been reported (Edula et al. 2023). In the 2023 growing season, upland cotton plants (Gossypium hirsutum) presenting terminal splitting symptoms in the blooming stage were observed in a commercial field in Pinal County, Arizona, at 60% incidence. To evaluate if CLRDV may be associated with these symptoms, young fully expanded terminal leaves were collected from 20 symptomatic and ten asymptomatic plants. Moreover, ten samples were collected from a second asymptomatic block in the same field. Samples were shipped on dry ice to Cornell University in hermetic bags under APHIS PPQ permit 526-23-256-14384. Midribs and petioles were used to extract total nucleic acids from each sample using OPS Synergy 2.0 Plant DNA Extraction Kit (OPS Diagnostics) per the manufacturer's instructions. Complementary DNA (cDNA) was synthesized using an iScript Reverse transcriptase kit (BioRad) and used for the detection of a partial sequence of the coat protein (CP) of CLRDV using PCR assays as described previously (Mahas et al. 2022). The expected 309-bp product was obtained from only one symptomatic sample. CLRDV presence in the samples was further evaluated using CLRDV-specific primers targeting the RNA-dependent RNA polymerase (RdRp) gene. Primers CLRDV-Pol_innerF1 (5'- ACCCTCCAAGGAACAGAG -3') / R1 (5'- CGAATAATCTGATYGGGTCAC -3') and CLRDV-Pol_outerF1 (5'- AACGCGCCCAGTCCGCACAAATACC-3') / R1 (5'-ACCGGGTTTACTGGGGATTGCACGC-3'), designed based on virus isolates available in GenBank as of September 2022, were used to implement a single-tube nested RT-PCR as detailed by Dey et al. (2012) and to index the presence of CLRDV in all the samples. Two additional symptomatic samples and three asymptomatic samples (two from field one and one from field two) were positive for the virus. Direct Sanger sequencing of the one CP and two RdRp amplicons from symptomatic and asymptomatic samples (PP482918-20) demonstrated they shared >99% nucleotide identity to an isolate from South Carolina (OQ300129). To further evaluate the presence of CLRDV in Arizona, we performed double antibody sandwich (DAS)-ELISA on midrib and petiole samples using camelid single-chain antibodies against the CP as the capture antibody (Filed Patent 18/436,287) and the commercially available Anti-PLRV conjugate (Agdia, Elkhart, IN) as the secondary antibody. DAS-ELISA detected CLRDV in eight symptomatic and three asymptomatic samples, with the positive and negative controls testing positive and negative, respectively. Considering all the diagnostic approaches, ten symptomatic and five asymptomatic samples were positive for CLRDV (Table S1). To the best of our knowledge, this is the first report of CLRDV in Arizona. Future studies are required to evaluate the possible incidence and impact on the crop yield in the state and develop a reliable diagnostic assay to detect the virus in all infected samples. Since our study did not associate CLRDV with the terminal abortion or splitting symptoms, ongoing efforts are underway to elucidate if other viruses may be associated with the symptoms.

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来源期刊
Plant disease
Plant disease 农林科学-植物科学
CiteScore
5.10
自引率
13.30%
发文量
1993
审稿时长
2 months
期刊介绍: Plant Disease is the leading international journal for rapid reporting of research on new, emerging, and established plant diseases. The journal publishes papers that describe basic and applied research focusing on practical aspects of disease diagnosis, development, and management.
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