First report of tomato ringspot virus infection of Krymsk 86 (Prunus cerasifera × P. persica), a hybrid rootstock, in California.

IF 4.4 2区 农林科学 Q1 PLANT SCIENCES Plant disease Pub Date : 2024-10-23 DOI:10.1094/PDIS-09-24-1894-PDN
Kishorekumar Reddy, Natalia James Ott, Sheridan L Chavira, Andreas Westphal, Mysore R Sudarshana
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引用次数: 0

Abstract

California produces 99% of prunes (Prunus domestica) in the U.S.A., valued at $148 million and accounting for 40% of world prune production. In the last decade, the rootstock Krymsk 86 (K86; P. cerasifera x P. persica) is increasingly used in prune production because of its high vigor, excellent anchorage and graft compatibility with a wide variety of Prunus crops. An estimated >50% of new prune plantings in the Sacramento Valley are on K86. In late spring of 2023, 'Improved French' prune trees in two Northern California counties, grafted on K86 and Lovell (P. persica) rootstocks, were declining with a pale colored canopy. One orchard was ~ 9-years-old and in the other, trees varied from ~ 20 years to newly planted. The percentage of affected trees in one orchard was 3.6% (n=1,824) and 4.6% (n=1,295) in trees on K86 and Lovell, respectively. Symptomatic trees were scattered throughout this orchard, with a higher density of affected trees in the northeast quadrant. Examination of the trunk revealed a necrotic brown line at the graft union, typical of prune brown line (PBL) disease (Mircetich and Hoy, 1981), caused by infection of rootstock by tomato ringspot virus (ToRSV), a member species of Nepovirus lycopersici (family Secoviridae. The virus is vectored by dagger nematodes (Teliz et al. 1967) and its presence was confirmed in one of the orchards. To confirm infection by ToRSV in declining trees, total RNA from leaf samples, feeder roots, and cambial tissue from bark samples from scion and rootstock of one tree each on K86 and Lovell, was obtained using RNeasy Plant Mini kit (www.qiagen.com) and tested by one step reverse transcription-polymerase chain reaction (RT-PCR) assay using primers previously described (Tang et al., 2014). The reaction conditions included RT at 54oC using random hexamers and Superscript III (Thermo Fisher Scientific, USA), followed by a denaturation step at 95°C for 5 min, and 35 amplification cycles of 95°C for 30 s, 55°C for 30 s, and 72°C for 45 sec; and a final extension of 72°C for 5 min. The expected size amplicons (176 bp) were visualized by agarose gel electrophoresis only from RNA obtained from the cambial tissue below the graft union confirming the ToRSV infection in K86 rootstock. Extracts from bark scrapings of the rootstocks of three symptomatic trees also tested positive for ToRSV with immunostrips (www.agdia.com). In subsequent RT-PCR tests, RNA extracts from cambial tissue from 9 of 10 symptomatic trees on K86 tested positive for ToRSV. The amplicons were purified using a gel extraction kit (Qiagen Inc., Valencia, CA), and subjected to Sanger sequencing (Azenta Life Sciences (South Plainfield, NJ, USA). The sequence of the ToRSV isolates 316 (GenBank accession PQ282959) and 318 (GenBank accession PQ2829560 exhibited 99.4% (175/176 base pairs) and 98.9 % (175/177) sequence identity, respectively, with ToRSV isolate Rasp1-2014 segment RNA2 (GenBank accession KM083895). Our results indicate that ToRSV can infect K86 and cause PBL. ToRSV and its nematode vectors have a wide host range that includes several crop plants and weeds, but this virus is not currently part of registration and phytosanitory certification of Prunus species in the state of California. This is the first report of ToRSV infection of the K86 rootstock. This information is important for the selection of a rootstock in prune orchards where the virus is endemic.

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首次报告加利福尼亚州的 Krymsk 86(Prunus cerasifera × P. persica)杂交砧木感染番茄环斑病毒的情况。
加利福尼亚州生产美国 99% 的西梅(Prunus domestica),价值 1.48 亿美元,占世界西梅产量的 40%。在过去的十年中,砧木 Krymsk 86(K86;P. cerasifera x P. persica)越来越多地用于西梅生产,因为这种砧木具有高活性、出色的锚固性以及与多种西梅作物的嫁接兼容性。据估计,在萨克拉门托河谷新种植的西梅中,>50% 采用的是 K86。2023 年春末,北加州两个县的 "改良法国 "西梅树(嫁接于 K86 和洛弗尔(P. persica)砧木)树势衰退,树冠颜色变淡。其中一个果园的树龄约为 9 年,另一个果园的树龄从约 20 年到新栽种不等。在一个果园中,K86 和 Lovell 砧木受影响的树木比例分别为 3.6%(n=1,824)和 4.6%(n=1,295)。有症状的树木散布在整个果园中,东北象限的受害树木密度较高。对树干的检查发现,嫁接结合处有一条坏死的褐色线,这是典型的梅褐色线(PBL)病(Mircetich 和 Hoy,1981 年),是由番茄环斑病毒(ToRSV)感染砧木引起的。该病毒由匕首线虫传播(Teliz 等人,1967 年),其中一个果园已证实存在该病毒。为确认衰退树感染了 ToRSV,使用 RNeasy Plant Mini 试剂盒(www.qiagen.com)从 K86 和 Lovell 上各一棵树的接穗和砧木的叶片样本、支根和树皮样本中获取了总 RNA,并使用之前描述的引物(Tang 等人,2014 年)进行了一步反转录聚合酶链反应(RT-PCR)检测。反应条件包括使用随机六聚体和 Superscript III(赛默飞世尔科技公司,美国)在 54oC 下进行 RT,然后在 95°C 下变性 5 分钟,再进行 35 个扩增循环:95°C 30 秒、55°C 30 秒和 72°C 45 秒,最后在 72°C 下延伸 5 分钟。通过琼脂糖凝胶电泳,只有从嫁接结合部以下的韧皮部组织中获得的 RNA 能显示出预期大小的扩增子(176 bp),这证明 K86 根茎感染了 ToRSV。三棵有症状树木的砧木树皮刮取物提取物经免疫测定片检测也对 ToRSV 呈阳性(www.agdia.com)。在随后的 RT-PCR 测试中,从 K86 上 10 棵有症状的树中的 9 棵树皮组织中提取的 RNA 对 ToRSV 检测呈阳性。使用凝胶提取试剂盒(Qiagen Inc., Valencia, CA)纯化了扩增子,并对其进行了桑格测序(Azenta Life Sciences (South Plainfield, NJ, USA))。ToRSV分离物316(GenBank登录号PQ282959)和318(GenBank登录号PQ2829560)与ToRSV分离物Rasp1-2014片段RNA2(GenBank登录号KM083895)的序列同一性分别为99.4%(175/176碱基对)和98.9%(175/177)。我们的研究结果表明,ToRSV 可感染 K86 并导致 PBL。ToRSV 及其线虫载体的宿主范围很广,包括多种农作物和杂草,但这种病毒目前还不属于加利福尼亚州梅花品种登记和植物检疫认证的范围。这是第一份关于 K86 根茎感染 ToRSV 的报告。这一信息对于在该病毒流行的梅园选择砧木非常重要。
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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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