First Report of Leaf Spot on Lonicera japonica Caused by Aspergillus niger in China.

IF 4.4 2区 农林科学 Q1 PLANT SCIENCES
Jiaxing Ji, Lu Zhang, He Zhou, Maocun Wang, Zhenhua Jia, Tianliang Zhang, Zhiqiang Wang, Yue Wang, Qinghua Gao
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引用次数: 0

Abstract

Honeysuckle (Lonicera japonica Thunb, LJ) is a common medicinal and edible plant (He et al. 2022). It has been utilized in various industries such as biomedicine, animal husbandry, and food production (Li et al. 2014; Su et al. 2020). In June 2023, a significant leaf lesion was observed on approximately 20% of honeysuckle "Juhua No.1" leaves in a 3.33-ha field at the base of Julu County, Hebei province, China. Almost all leaves were infected. Leaf spot disease occurred in the field honeysuckle throughout the flowering period, especially after picking. The disease mainly infected the leaves of honeysuckle, forming irregular spots on the edge of the leaf surface with black-brown edges, the midrib and lateral veins were affected (Figure S1A). In advanced stages, the entire leaf would become necrotic. For pathogen isolation, small pieces (4×4 mm) of the infected tissue from diseased leaves were surface sterilized with 75% ethanol and 5% sodium hypochlorite, rinsed with the sterile water, incubated on PDA. Finally, six isolated pathogens were obtained. Hyphae were white. The mycelium was multicellular, had diaphragm. Conidiophores protruded from the stroma, started as spherical structures and gradually developed into radial, black-brown formations. Spore acrosome was subglobose, bilayered pedicels covering acrosome, 40-60 µm in diameter, yellowish brown (Figures S1B, S1C). Based on morphological and cultural characteristics, the leaf spot disease fungus was tentatively identified as Aspergillus spp. (Wei 1979). To test the pathogenicity of pathogen, leaves of three healthy potted honeysuckle "Juhua No.1" plants were inoculated by sprayed with conidial suspensions (106 spores/ml) (Figure S1D). Negative controls were established by inoculating leaf with sterile distilled water. All plants were incubated in a greenhouse at 28 ± 2℃. The experiment was replicated three times. After 10 days, typical leaf spot symptoms were observed on inoculated leaves, whereas no symptoms were found on the control groups. The re-isolated fungus from the inoculated leaves displayed the same morphological traits (Figures S1E-S1H), again identified as Aspergillus spp., confirming Koch's postulates, designated as H2. To confirm the pathogen's identity, genomic DNA was extracted from the pathogenicity isolate H2. The 18S rDNA and the ITS genes were amplified and sequenced using primer pairs S1/S2 (Zhang et al. 2018) and ITS1/ITS4 (Zhang et al. 2023), respectively. Results of BLAST searches showed that the 18s rDNA and ITS sequences of H2 were highly homologous (>99%) with Aspergillus niger. The close genetic relationship indicated that H2 belonged to the genus Aspergillus (Figure S2a). We further sequenced the whole genome of H2. The sequence data were available in the NCBI GenBank (Accession number: PRJNA1117256). We also analyzed the ANI (Yoon et al. 2017) and digital DNA-DNA blotting (dDDH) (Figures S2b, S2c). The ANI values of H2 compared to Aspergillus niger CBS 554.65 and Aspergillus niger KJC3 were higher than 95%. The dDDH values of H2 compared to Aspergillus niger CBS 554.65 and Aspergillus niger KJC3 were higher than 70%. Above all results, honeysuckle leaf spot disease was identified as Aspergillus niger. This is the first report of leaf spot on Lonicera japonica caused by Aspergillus niger in China. Our findings expand the geographical range of A.niger-infected plants, also provide reference for scientific prevention and control of honeysuckle leaf spot disease.

中国首次报道由黑曲霉引起的忍冬叶斑病
金银花(Lonicera japonica Thunb,LJ)是一种常见的药用和食用植物(He 等人,2022 年)。它已被用于生物医药、畜牧业和食品生产等多个行业(Li 等人,2014 年;Su 等人,2020 年)。2023 年 6 月,在中国河北省巨鹿县基地的一块 3.33 公顷的田地里,约 20% 的金银花 "巨花 1 号 "叶片上出现了明显的病斑。几乎所有叶片都受到感染。叶斑病在田间金银花的整个花期都有发生,尤其是在采摘后。该病主要侵染金银花叶片,在叶面边缘形成不规则病斑,边缘呈黑褐色,中脉和侧脉受害(图 S1A)。晚期整个叶片坏死。为了分离病原体,用 75% 的乙醇和 5% 的次氯酸钠对病叶上的小块感染组织(4×4 毫米)进行表面消毒,然后用无菌水冲洗,放在 PDA 上培养。最后获得了 6 个分离的病原体。菌丝呈白色。菌丝多细胞,有隔膜。分生孢子梗从基质中伸出,开始为球形结构,逐渐发展为放射状、黑褐色。孢子顶体近球形,双层花梗覆盖顶体,直径 40-60 微米,黄褐色(图 S1B、S1C)。根据形态和培养特性,叶斑病真菌被初步鉴定为曲霉属(Wei,1979 年)。为检测病原的致病性,用分生孢子悬浮液(106 个孢子/毫升)喷洒 3 株健康的盆栽金银花 "菊花 1 号"(图 S1D)。阴性对照是用无菌蒸馏水接种叶片。所有植物均在 28 ± 2℃的温室中培养。实验重复三次。10 天后,接种的叶片上出现了典型的叶斑病症状,而对照组则没有症状。从接种叶片上再次分离出的真菌显示出相同的形态特征(图 S1E-S1H),再次鉴定为曲霉属,证实了科赫的假设,命名为 H2。为了确认病原体的身份,从病原性分离物 H2 中提取了基因组 DNA。分别使用引物对 S1/S2 (Zhang 等,2018 年)和 ITS1/ITS4 (Zhang 等,2023 年)对 18S rDNA 和 ITS 基因进行了扩增和测序。BLAST 搜索结果显示,H2 的 18s rDNA 和 ITS 序列与黑曲霉高度同源(>99%)。这种密切的遗传关系表明 H2 属于曲霉属(图 S2a)。我们进一步对 H2 的全基因组进行了测序。序列数据可在 NCBI GenBank 中获得(登录号:PRJNA1117256)。我们还分析了 ANI(Yoon 等,2017 年)和数字 DNA-DNA 印迹(dDDH)(图 S2b、S2c)。与黑曲霉 CBS 554.65 和黑曲霉 KJC3 相比,H2 的 ANI 值高于 95%。与黑曲霉 CBS 554.65 和黑曲霉 KJC3 相比,H2 的 dDDH 值高于 70%。综上所述,金银花叶斑病被鉴定为黑曲霉。这是中国首次报道由黑曲霉引起的忍冬叶斑病。我们的研究结果扩大了黑曲霉感染植物的地域范围,也为科学防治金银花叶斑病提供了参考。
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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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