The invention relates to C. acnes strains carrying DNA vectors for the production of recombinant C. acnes phages. The invention encompasses a C. acnes producer cell carrying DNA vectors, with a template for recombination with C. acnes phage genome leading to the insertion of a gene of interest, for the production of recombinant phages that can lead to the transgene expression into C. acnes infected by the recombinant phage. The invention encompasses, C. acnes strains containing these vectors, C. acnes recombinant phages and methods of using these recombinant phages.

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 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 invention relates to C. acnes carrying DNA vectors with a C. acnes phage packaging signal and a gene of interest. The invention encompasses a C. acnes producer cell carrying DNA vectors, with a C. acnes phage packaging signal and a gene of interest, for the production of phage-derived particles that can robustly transduce C. acnes receiver cell allowing transgene expression. The invention encompasses C. acnes phage-derived particles carrying these vectors, C. acnes containing these vectors or modified by transduction of these phage-derived particles, and methods of using these phage-derived particles.

The invention relates to C. acnes carrying DNA vectors with a C. acnes phage packaging signal and a gene of interest. The invention encompasses a C. acnes producer cell carrying DNA vectors, with a C. acnes phage packaging signal and a gene of interest, for the production of phage-derived particles that can robustly transduce C. acnes receiver cell allowing transgene expression. The invention encompasses C. acnes phage-derived particles carrying these vectors, C. acnes containing these vectors or modified by transduction of these phage-derived particles, and methods of using these phage-derived particles.

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.

The invention relates to C. acnes carrying DNA vectors with a C. acnes phage packaging signal and a gene of interest. The invention encompasses a C. acnes producer cell carrying DNA vectors, with a C. acnes phage packaging signal and a gene of interest, for the production of phage-derived particles that can robustly transduce C. acnes receiver cell allowing transgene expression. The invention encompasses C. acnes phage-derived particles carrying these vectors, C. acnes containing these vectors or modified by transduction of these phage-derived particles, and methods of using these phage-derived particles.

The invention relates to C. acnes carrying DNA vectors with a C. acnes phage packaging signal and a gene of interest. The invention encompasses a C. acnes producer cell carrying DNA vectors, with a C. acnes phage packaging signal and a gene of interest, for the production of phage-derived particles that can robustly transduce C. acnes receiver cell allowing transgene expression. The invention encompasses C. acnes phage-derived particles carrying these vectors, C. acnes containing these vectors or modified by transduction of these phage-derived particles, and methods of using these phage-derived particles.

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.

A heterologous gene cassette useful for creating Streptomyces species with enhanced capability of growing on a cellulosic polysaccharide substrate, wherein the cassette comprises at least two members of the following categories: a) a GH6 gene, b) an AA10 gene, c) a GH48 gene, d) a GH5 gene and e) either (i) a GH9 gene, (ii) a GH9 gene and a GH12 gene, or (iii) a GH12 gene is disclosed.