The disclosure provides, in various embodiments, fusion proteins comprising a DNA-binding domain, a DNMT3A-binding domain, and a H3K4me0; and polynucleotides and vectors encoding one or more of the fusion proteins. The disclosure also provides, in various embodiments, gene-delivery systems, cells, compositions (e.g., pharmaceutical compositions) and kits comprising one or more of the fusion proteins polynucleotides, or vectors; methods of epigenetically modifying a genomic locus in a cell; and methods of treating a subject (e.g., a human) in need thereof.

Disclosed herein are compositions, methods, kits, and systems relating to efficient delivery of cargos (e.g., therapeutic cargos) into cells, for instance, for in vivo delivery. The present disclosure provides lipid-containing particles (e.g., virus-like particles) for delivering therapeutic cargos. The present disclosure also provides polynucleotides encoding the lipid-containing particles provided herein, which may be useful for producing said lipid-containing particles. Also provided are methods for editing nucleic acid molecules in cells using the lipid-containing particles provided herein, as well as cells and kits comprising the lipid-containing particles.

Disclosed herein are compositions, methods, kits, and systems relating to efficient delivery of cargos (e.g., therapeutic cargos) into cells, for instance, for in vivo delivery. The present disclosure provides lipid-containing particles (e.g., virus-like particles) for delivering therapeutic cargos. The present disclosure also provides polynucleotides encoding the lipid-containing particles provided herein, which may be useful for producing said lipid-containing particles. Also provided are methods for editing nucleic acid molecules in cells using the lipid-containing particles provided herein, as well as cells and kits comprising the lipid-containing particles.

The present disclosure relates to a method for increasing biomass synthesis capacity of microorganisms. The method in accordance with the present disclosure comprises overexpressing the genes involved in protein synthesis to increase the levels of protein synthesis and thereby, increase the biomass synthesis capacity of the microorganisms. The present disclosure also provides a modified microorganism having increased biomass synthesis capacity.

A method for designing and selecting a protein having a stabilized structure compared to a corresponding wild type protein, and proteins having at least six amino acid substitutions with respect to a corresponding wild type protein, designed for improved thermal stability, improved specific activity and/or improved expression levels, are provided herein.

The present invention provides methods for obtaining plants that exhibit useful traits by expression of a DNA methyltransferase fusion protein in progenitor plants. Methods for identifying genetic loci that provide for useful traits in plants and plants produced with those loci are also provided. In addition, plants that exhibit the useful traits, parts of the plants including seeds, and products of the plants are provided as well as methods of using the plants. Recombinant DNA vectors and transgenic plants comprising those vectors that express a DNA methyltransferase fusion protein are also provided.

Disclosed herein are compositions and methods comprising epigenetic editing systems for epigenetic editing or cells, nucleic acids, and vectors comprising the same. Also disclosed are epigenetically modified chromosomes.

This invention relates to compositions, methods, strategies, and treatment modalities related to the epigenetic modification of hepatitis B virus (HBV) genes.

A product comprising two or more artificial transcription repressors (ATRs), or polynucleotides encoding therefor, selected from groups (a), (b), (c) or (d): (a) an ATR comprising a DNA-binding domain operably linked to a KRAB domain or homologue thereof; (b) an ATR comprising a DNA-binding domain operably linked to a DNMT3A, DNMT3B or DNMT1 domain or homologue thereof; (c) an ATR comprising a DNA-binding domain operably linked to a DNMT3L domain or homologue thereof; and (d) an ATR comprising a DNA-binding domain operably linked to a SETDB1 domain or homologue thereof, wherein at least two of the ATRs are selected from different groups (a), (b), (c) or (d).

The disclosure provides, in various embodiments, fusion proteins comprising a DNA-binding domain, a DNMT3A-binding domain, and a H3K4me0; and polynucleotides and vectors encoding one or more of the fusion proteins. The disclosure also provides, in various embodiments, gene-delivery systems, cells, compositions (e.g., pharmaceutical compositions) and kits comprising one or more of the fusion proteins polynucleotides, or vectors; methods of epigenetically modifying a genomic locus in a cell; and methods of treating a subject (e.g., a human) in need thereof.