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      Biocontrol Efficacy of Bacillus cereus Strain Bc-cm103 Against Meloidogyne incognita

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          Abstract

          Root-knot nematodes (Meloidogyne spp.) are soilborne pathogens that infect vegetable crops and cause major economic losses worldwide annually. Therefore, there is an urgent need for novel nematicides or biological control agents to reduce the damage caused by root-knot nematodes. In this study, we tested efficacy of the Bacillus cereus strain Bc-cm103, isolated from the rhizoplane of Cucumis metuliferus, against Meloidogyne incognita. Strain Bc-cm103 fermentation broth caused 100% mortality of the nematode second-stage juveniles within 12 h and decreased the egg hatching rate by 40.06% within 72 h compared with sterile water. Confocal laser-scanning microscopy revealed that strain Bc-cm103 formed a biofilm on cucumber (C. sativus) roots, which protected the roots from the infection of M. incognita. Additionally, strain Bc-cm103 activated the defense-responsive genes PR1, PR2, LOX1, and CTR1 in cucumber. Furthermore, strain Bc-cm103 significantly reduced the appearance of root galls in pot, split-root, and field tests. These results indicated that B. cereus strain Bc-cm103 had a strong suppressive effect on M. incognita and therefore could be used as a potential biocontrol agent against this pathogen.

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          Most cited references44

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          Antibiotic resistance of bacteria in biofilms

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            Biofilm formation as microbial development.

            Biofilms can be defined as communities of microorganisms attached to a surface. It is clear that microorganisms undergo profound changes during their transition from planktonic (free-swimming) organisms to cells that are part of a complex, surface-attached community. These changes are reflected in the new phenotypic characteristics developed by biofilm bacteria and occur in response to a variety of environmental signals. Recent genetic and molecular approaches used to study bacterial and fungal biofilms have identified genes and regulatory circuits important for initial cell-surface interactions, biofilm maturation, and the return of biofilm microorganisms to a planktonic mode of growth. Studies to date suggest that the planktonic-biofilm transition is a complex and highly regulated process. The results reviewed in this article indicate that the formation of biofilms serves as a new model system for the study of microbial development.
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              Microbial Biofilms: from Ecology to Molecular Genetics

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                Author and article information

                Contributors
                Journal
                Plant Disease
                Plant Disease
                Scientific Societies
                0191-2917
                1943-7692
                August 01 2021
                August 01 2021
                : 105
                : 8
                : 2061-2070
                Affiliations
                [1 ]Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences, No. 12 Zhongguancun South Street, Beijing 100081, China
                Article
                10.1094/PDIS-03-20-0648-RE
                33599517
                2cecb8cf-7089-435b-9609-7d2e7fa3eb19
                © 2021
                History

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