Abstract

Strawberry anthracnose is a serious disease, and fungicides are currently widely used by farmers. Thus, biological control is a good alternative. This study aims to identify the species of endophytic Streptomyces CINv1 that was previously isolated from Cinnamomum verum J. Presl. and to evaluate its properties as a biocontrol agent, plant growth promoter, and plant colonizing endophyte. This strain was identified by analysis of its 16S rRNA gene sequences, and the result shows 100% similarity to Streptomyces albus CINv1. The CINv1 strain displayed high resistance (81.83%) against Colletotrichum sp. isolate CA0110, as tested by the dual culture technique. Additionally, inhibited pathogen growth on IMA-2 agar was observed under a compound microscope. The results demonstrated swelling, bulbousness, and cytoplasmic aggregation of abnormal hyphal, which were confirmed by SEM as well. Furthermore, the functional media used to evaluate plant growth-promoting properties, including nitrogen fixation, phosphate solubilization, and siderophore production, yielded positive results. Analyses of plant hormones by HPLC found their ability to produce indole-3-acetic acid (IAA). Thus, a biological control trial in greenhouse conditions was conducted by spraying a spore suspension of the strain onto strawberry seedlings once a week, which showed a significant reduction in disease severity. After the seventh spraying, the assessment of the number of leaves and canopy height of the seedling showed significant promotion. In addition, the CINv1 strain established a mutualistic interaction with the plant cells through colonization inter-and intracellularly in strawberry roots, leaves, and petioles. Moreover, using LC-MS/MS to analyze the secondary metabolites of this strain, various groups of compounds were found that could potentially benefit pharmaceutical and agricultural uses.

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