The present invention relates to methods for enhancing at least one growth parameter of a leguminous plant via co-inoculation of a leguminous plant with at least one rhizobial microorganism together with at least one actinobacterial microorganism. In further aspects, the present invention also relates to leguminous plants co-inoculated with at least one rhizobial microorganism together with at least one actinobacterial microorganism, as well as specific actinobacterial strains and inoculant compositions which are useful in accordance with the present invention.

This disclosure describes compositions and methods for enhanced production of enduracidin in genetically engineered strains of Streptomyces fungicidicus. In particular, the present disclosure describes the genetic manipulation of regulatory genes orf24 and orf18 associated with the enduracidin (enramycin) biosynthesis gene cluster from Streptomyces fungicidicus to generate vector constructs and recombinant strains producing greater yields of enduracidin.

The present invention relates to a strain for producing chitinase and application thereof. The class of the strain is named Streptomyces diastaticus CS1801 and the preservation number thereof is CCTCC NO: M2018263. The Streptomyces diastaticus CS1801 of the present invention is derived from naturally fermented prawn paste. By fermentation of prawns, the enzyme activity of the chitosan is as high as 57.3 U/L and the content of chitooligosaccharides is 0.58 mol/L. The present invention provides a new method for producing chitooligosaccharides and has a good application prospect.

The application belongs to the field of biotechnology and microbiology, in particular to a strain of Streptomyces roseoverticillatus (Sr-63) which antagonizes the Rice Bacterial Blight and its application in the prevention and treatment of plant diseases. The application discloses a strain of S. roseoverticillatus (Sr-63) with the accession number CCTCC No.: M 2019261. It is also disclosed the application of the S. roseoverticillatus (Sr-63): used for controlling Rice Bacterial Blight.

The present invention relates to the field of biocontrol of plant pathogenic fungi, particularly to bacterial strains effective in treating and/or preventing plant diseases associated with phytopathogenic fungi and/or oomycetes, preparations, lysates and extracts thereof and compositions comprising same, and methods of use thereof.

The present invention refers to the strain Streptomyces melanosporofaciens AGL22 identified in the Spanish Type Culture Collection (CECT) as Streptomyces melanosporofaciens CECT9420, and the use of said strain as a pesticide in plants. Further aspects of the invention relate to suspensions and extracts of strain S. melanosporofaciens AGL225 and methods of preparing the same. Additional aspects relate to pesticidal compositions comprising S. melanosporofaciens AGL225. Finally the invention relates to a method for biological control of plant pests comprising administering to the plant strain S. melanosporofaciens AGL225, a composition including said strain or a cell-free extract derived from S. melanosporofaciens AGL225.

The present invention includes modified and unmodified microbes, compositions comprising these microbes, and methods of using these microbes and/or compositions for enhancing plant health, plant growth plant yield and/or drought tolerance. This disclosure also provides non-naturally occurring plant varieties that are artificially infected with microbes descried herein, as well as seed, reproductive tissue, vegetative tissue, regenerative tissues, plant parts, or progeny thereof.

Provided is a method for promoting bacterial cell wall degradation. A method for promoting cell wall degradation, comprising allowing an N-acetylmuramidase to act on a bacterium in the presence of one or more saccharides selected from the group consisting of: a monosaccharide wherein the monosaccharide is an aldopentose, an L-aldohexose, or a ketohexose; a disaccharide, an oligosaccharide, and a polysaccharide each containing one or more of the monosaccharides as a constituent saccharide; and a derivative thereof.

A method for controlling a plant disease according to an embodiment includes treating a plant part, a seed, or a soil with a composition including at least one amino acid selected from the group consisting of glutamic acid, proline, tryptophan, and a combination thereof as an effective component. A method for promoting growth of an effective microorganism or controlling a plant disease uses prebiotics. As the amino acids have an effect of significantly promoting the growth of effective microorganism and having sustained maintenance of the effective microorganism at the same time and can reduce the incidence rate of plant disease, they can enhance the usefulness of eco-friendly microbial strains for disease control and be advantageously used as a substitute for chemical control agents.

A novel PSL family prenyltransferase has relaxed substrate specificity, which can use a variety of cyclic dipeptides and prenyl donors as substrates to produce various terpenylated diketopiperazines. An amino acid sequence of the prenyltransferase is SEQ ID NO:1. An application of the prenyltransferase is transferring different prenyl groups to Trp-containing cyclic dipeptides. The prenyltransferase catalyzes the formation of terpenylated diketopiperazines by assembling prenyl groups onto cyclic di peptides, which provides a new strategy for drug development of diketopiperazines.