The present invention relates to the field of sustainable agriculture. Specifically, the invention provides microbial compositions and methods useful for the production of crop plants. In particular, the compositions and methods disclosed herein are useful for enhancing plant growth.

The present disclosure belongs to the technical field of microorganisms, and provides Streptomyces ardesiacus, a microbial biological control agent (MBCA) and use. The use specifically refers to prevention and treatment of various plant diseases. In the present disclosure, the Streptomyces ardesiacus has a serial number of HL-06, and has been deposited on Jun. 9, 2022, with a deposit number of CGMCC No. 25033. The HL-06 strain can degrade organic phosphorus and inorganic phosphorus, has a broad-spectrum antimicrobial activity, and can stimulate various defense enzymes of plants to improve disease resistance of the plants.

The present disclosure relates to bacterial inoculants, and methods for their use, to control a fungal root disease in a plant and promote plant growth in water limited conditions. In particular strains of Paenibacillus and Streptomyces are disclosed.

Disclosed are novel nitrilated psilocybin derivative compounds and pharmaceutical and recreational drug formulations containing the same. The compounds may be produced by reacting a reactant psilocybin derivative with a nitrile-group containing compound.

The present invention relates to the analysis of complex single cell sequencing libraries. Disclosed are methods for enrichment of library members based on the presence of cell-of origin barcodes to identify and concentrate DNA that is relevant to interesting cells or components that would be expensive or difficult to study otherwise. Also, disclosed are methods of capturing cDNA library molecules by use of CRISPR systems, hybridization or PCR. The present invention allows for identifying the properties of rare cells in single cell RNA-seq data and accurately profile them through clustering approaches. Further information on transcript abundances from subpopulations of single cells can be analyzed at a lower sequencing effort. The methods also allow for linking TCR alpha and beta chains at the single cell level.

The process of making a biocomposite material utilize a bacterial species and a fungal species in an agricultural feedstock composed of a substrate of non-nutrient discrete particles and a nutrient material wherein the bacterial species imparts mechanical properties to the biocomposite material and the fungal species binds the biocomposite material. Both bacterium and fungus can be genetically engineered to produce desired properties within the microbial communities.

The present invention provides a Streptomyces sp. SNC087 strain (KCCM12505P) that is isolated from seawater and produces staurosporine, a method for producing staurosporine using the same, a method for culturing the same, and a pure culture medium of the same.

Disclosed are microbial compositions having unique combinations of microbial species which are used in plant material recycling to form a nutrient source. Also disclosed microbial inoculants which contains such a microbial composition, water, and an optional carbon source. The microbial compositions and microbial inoculants are particularly useful in recycling high lignin-content plant material. Methods of making and methods of using the microbial compositions and the microbial inoculants are also described.

This disclosure describes compositions and methods for enhanced production of enduracidin in genetically engineered strains of Streptomycesfungicidicus. 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.

Disclosed herein is a method for separating a protein from a microorganism comprising a cell wall. Further compositions comprising a first fraction, a second fraction or both, derived from a microorganism comprising a cell wall and comprising a protein content between 10% and 90% by weight of the fraction, are also disclosed.