An epigenetic silencer factor (ESF) comprising a transcription factor DNA-binding domain operably linked to at least one epigenetic effector domain, wherein the transcription factor is an oncogenic transcription factor or a cancer-associated transcription factor.

Methods for reactivating genes on the inactive X chromosome that include administering one or both of a DNA methyltransferase (DNMT) Inhibitor and/or a topoisomerase inhibitor, e.g., etoposide and/or 5-azacytidine (aza), optionally in combination with an inhibitor of XIST RNA and/or an Xist-interacting protein, e.g., a chromatin-modifying protein, e.g., a small molecule or an inhibitory nucleic acid (such as a small inhibitory RNA (siRNAs) or antisense oligonucleotide (ASO)) that targets XIST RNA and/or a gene encoding an Xist-interacting protein, e.g., a chromatin-modifying protein.

The invention relates to methods of modifying DNA methylation by contacting a catalytically inactive site specific nuclease fused to an effector domain having methylation or demethylation activity and one or more guide sequences.

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

Provided herein are gene repressor systems comprising fusion proteins, such as fusion proteins comprising a DNA binding domain such as a TALE, zinc finger or catalytically-dead CRISPR protein and guide nucleic acid (gRNA), which are useful in the repression of a proprotein convertase subtilisin kexin Type 9 (PCSK9) gene. Also provided are methods of using such systems to repress transcription of PCSK9.

Provided herein are gene repressor systems comprising fusion proteins, such as fusion proteins comprising a DNA binding domain such as a TALE, zinc finger or catalytically-dead CRISPR protein and guide nucleic acid (gRNA), which are useful in the repression of a proprotein convertase subtilisin/kexin Type 9 (PCSK9) gene. Also provided are methods of using such systems to repress transcription of PCSK9.

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 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.

The present disclosure provides compositions with a modulating gene expression and methods for modulating transcription.

Provided herein are fusion proteins comprising a catalytically inactive Cas9 domain and an effector domain. The fusion proteins of the present invention can be used to, for example, produce epigenetic modifications at target chromatin sites. Nucleic acids and expression vectors encoding the fusion proteins, as well as cells comprising the fusion proteins, are also provided herein.