MALDI mass spectrometry-based identification of antifungal molecules from endophytic Bacillus strains with biocontrol potential of Lasiodiplodia theobromae, a grapevine trunk pathogen in Peru

IF 4.8 Q1 MICROBIOLOGY
Manuel Saucedo-Bazalar , Pedro Masias , Estefanía Nouchi-Moromizato , César Santos , Eric Mialhe , Virna Cedeño
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引用次数: 0

Abstract

Lasiodiplodia theobromae, a grapevine trunk pathogen, is becoming a significant threat to vineyards worldwide. In Peru, it is responsible for Botryosphaeria dieback in many grapevine-growing areas and it has spread rapidly due to its high transmissibility; hence, control measures are urgent. It is known that some endophytic bacteria are strong inhibitors of phytopathogens because they produce a wide range of antimicrobial molecules. However, studies of antimicrobial features from endophytic bacteria are limited to traditional confrontation methods. In this study, a MALDI mass spectrometry-based approach was performed to identify and characterize the antifungal molecules from Bacillus velezensis M1 and Bacillus amyloliquefaciens M2 grapevine endophytic strains. Solid medium antagonism assays were performed confronting B. velezensis M1 - L. theobromae and B. amyloliquefaciens M2 - L. theobromae for antifungal lipopeptides identification. By a MALDI TOF MS it was possible identify mass spectra for fengycin, iturin and surfactin protoned isoforms. Masses spectrums for mycobacillin and mycosubtilin were also identified. Using MALDI Imaging MS we were able to visualize and relate lipopeptides mass spectra of fengycin (1463.9 m/z) and mycobacillin (1529.6 m/z) in the interaction zone during confrontations. The presence of lipopeptides-synthesis genes was confirmed by PCR. Liquid medium antagonism assays were performed for a proteomic analysis during the confrontation of B. velezensis M1 - L. theobromae. Different peptide sequences corresponding to many antifungal proteins and enzymes were identified by MALDI TOF MS/MS. Oxalate decarboxylase bacisubin and flagellin, reported as antifungal proteins, were identified at 99 % identity through peptide mapping. MALDI mass spectrometry-based identification of antifungal molecules would allow the early selection of endophytic bacteria with antifungal features. This omics tool could lead to measures for prevention of grapevine diseases and other economically important crops in Peru.

Abstract Image

基于MALDI质谱法鉴定秘鲁葡萄树干病原Lasiodiplodia theobromae具有生防潜力的内生芽孢杆菌菌株的抗真菌分子
木犀病菌是一种葡萄树干病原体,正在对世界各地的葡萄园构成重大威胁。在秘鲁,它是许多葡萄种植区葡萄枯萎病的罪魁祸首,由于其高传播性,它传播迅速;因此,控制措施迫在眉睫。众所周知,一些内生细菌是植物病原体的强大抑制剂,因为它们产生广泛的抗菌分子。然而,对内生细菌抗菌特性的研究仅限于传统的对抗方法。在本研究中,采用基于MALDI质谱的方法来鉴定和表征葡萄内生菌株维勒岑芽孢杆菌M1和解淀粉芽孢杆菌M2的抗真菌分子。用固体培养基拮抗法分别对抗B.velezensis M1-L.Teobromae和B.amyloliquefaciens M2-L.TeoBromae进行抗真菌脂肽鉴定。通过MALDI TOF MS可以鉴定丰霉素、伊妥林和表面活性素质子化异构体的质谱。还鉴定了分枝杆菌素和分枝杆菌素的质谱。使用MALDI Imaging MS,我们能够在对抗过程中观察和关联相互作用区中的丰霉素(1463.9 m/z)和分枝杆菌素(1529.6 m/z)的脂肽质谱。通过PCR证实了脂肽合成基因的存在。在与B.velezensis M1-L.theobromae的对抗过程中,进行了液体培养基拮抗试验以进行蛋白质组学分析。通过MALDI TOF MS/MS鉴定了与多种抗真菌蛋白和酶相对应的不同肽序列。草酸盐脱羧酶bacisubin和鞭毛蛋白被报道为抗真菌蛋白,通过肽图谱鉴定为99%的同一性。基于MALDI质谱法的抗真菌分子鉴定将允许早期选择具有抗真菌特征的内生细菌。这一组学工具可能导致秘鲁采取措施预防葡萄藤疾病和其他具有重要经济意义的作物。
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来源期刊
Current Research in Microbial Sciences
Current Research in Microbial Sciences Immunology and Microbiology-Immunology and Microbiology (miscellaneous)
CiteScore
7.90
自引率
0.00%
发文量
81
审稿时长
66 days
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