An object of the present invention is to provide a method for efficiently obtaining a lactic acid bacterium that is made to contain a large amount of double-stranded RNA; and a lactic acid bacterium having a high double-stranded RNA content obtained by the method. The object is achieved by: (1) a method for producing a double-stranded RNA-containing lactic acid bacterium, including a step of culturing a lactic acid bacterium under at least one condition of an aeration condition and a low-temperature condition lower than an optimum temperature, thereby obtaining the double-stranded RNA-containing lactic acid bacterium; (2) a double-stranded RNA-containing lactic acid bacterium, in which the content of double-stranded RNA is 2.0 times or more as compared with the content of double-stranded RNA when a bacterium of the same strain is cultured for the same culture time under an optimum temperature and non-aeration condition; or the like.

Disclosed herein are gastrointestinal tract (G1) bacteria and methods for treating or preventing an irradiation-induced intestinal damage in a subject, the methods comprising administering a G1 bacterium to the subject, wherein the G1 bacterium comprises a vector that comprises a polynucleotide encoding IL-22 and/or IFN-P, or a functional fragment thereof.

The present invention relates to a bacterium, in which the expression and/or the activity of surface proteases is/are inhibited, to its preparation process and to the uses of this bacterium.

The invention relates to methods, uses, systems, arrays, engineered nucleotide sequences and vectors for inhibiting bacterial population growth or for altering the relative ratio of sub-populations of first and second bacteria in a mixed population of bacteria. The invention is particularly useful, for example, for treatment of microbes such as for environmental, medical, food and beverage use. The invention relates inter alia to methods of controlling microbiologically influenced corrosion (MIC) or biofouling of a substrate or fluid in an industrial or domestic system.

The present invention falls within the technical field of aquaculture, and specifically, the invention relates to a specific solution for preventing and treating bacterial diseases using a Lactococcus lactis lactic acid bacterium transformed to produce an interferon type II (IFN II) immunostimulating cytokine, particularly interferon gamma (IFNg or IFNγ). Said transformed bacterium has been deposited in the Chilean Microbial Genetic Resources Collection at INIA with accession number RGM 2416 dated 22 Oct. 2017. The invention is also related to an immunostimulating food for aquaculture species comprising the lactic acid bacterium transformed with IFN type II from salmonidae. Moreover, the invention relates to the method for preparing said probiotic food, the method for preparing said lactic acid bacterium expressing IFNg, in other words which produces a cytokine that stimulates the antibacterial immune response.

The invention relates to plasmids capable of expressing a protein targeting immune cells when transformed into a lactic acid bacterial cell, wherein the protein is chosen from the group consisting of murine and human CXCL12 1α; CXCL17 and Ym1. The invention further relates to lactic acid bacteria transformed with a said plasmid, as well as the use of said lactic acid bacteria for wound healing in humans and animals.

Microorganisms are provided, such as lactic acid bacteria (e.g., Lactococcus lactis) containing an exogenous nucleic acid encoding an IL-10 polypeptide and an exogenous nucleic acid encoding a CeD-specific antigen (e.g., a gliadin polypeptide comprising at least one HLA-DQ2 specific epitope, at least one deamidated HLA-DQ2 specific epitope, at least one HLA-DQ8 specific epitope, at least one deamidated HLA-DQ8 specific epitope, or a combination of (a) at least one HLA-DQ2-specific epitope and/or at least one deamidated HLA-DQ2 specific epitope, and (b) at least one HLA-DQ8 specific epitope and/or at least one deamidated HLA-DQ8 specific epitope) polypeptide, wherein both exogenous nucleic acids are integrated into the bacterial chromosome. Such microbial strains are suitable for human therapy. Compositions (e.g., pharmaceutical compositions), methods of using the microorganisms and compositions are provided, e.g., for the treatment of celiac disease (CeD). The microorganism may be administered orally, delivering the microorganism into the gastrointestinal tract, where it is released and expresses the bioactive polypeptides.

The invention relates to plasmids capable of expressing a protein targeting immune cells when transformed into a lactic acid bacterial cell, wherein the protein is chosen from the group consisting of murine and human CXCL12 1α; CXCL17 and Ym1. The invention further relates to lactic acid bacteria transformed with a said plasmid, as well as the use of said lactic acid bacteria for wound healing in humans and animals.

The present disclosure provides a DNA-targeting RNA that comprises a targeting sequence and, together with a modifying polypeptide, provides for site-specific modification of a target DNA and/or a polypeptide associated with the target DNA. The present disclosure further provides site-specific modifying polypeptides. The present disclosure further provides methods of site-specific modification of a target DNA and/or a polypeptide associated with the target DNA The present disclosure provides methods of modulating transcription of a target nucleic acid in a target cell, generally involving contacting the target nucleic acid with an enzymatically inactive Cas9 polypeptide and a DNA-targeting RNA. Kits and compositions for carrying out the methods are also provided. The present disclosure provides genetically modified cells that produce Cas9; and Cas9 transgenic non-human multicellular organisms.

Genetically engineered hosts and methods for their production and use in synthesizing hydrocarbons are provided.