Engineered CRISPR-Cas9 nucleases with altered and improved PAM specificities and their use in genomic engineering, epigenomic engineering, and genome targeting.

Provided are a Cas effector protein, a fusion protein containing said protein, and a nucleic acid molecule coding same. Also provided are a complex and a composition for nucleic acid editing, for example, a complex and a composition for gene or genome editing, containing the Cas effector protein or the fusion protein, or the nucleic acid molecule encoding same. Also provided is a method for nucleic acid editing, for example, a method for gene or genome editing, using the Cas effector protein or the fusion protein.

The present invention relates to a cell comprising a first nucleic acid sequence encoding a first polypeptide fused to the N-terminus of a first variant of a histidine kinase comprising a DHp domain and a CA domain, wherein said first variant does not comprise a transmembrane domain, a second nucleic acid sequence encoding a second polypeptide fused to the N-terminus of a second variant of said histidine kinase comprising a DHp domain and a CA domain, wherein said second variant does not comprise a transmembrane domain, and a third nucleic acid sequence encoding a response regulatory protein specifically phosphorylatable by said DHp domain of said first or said second variant. The present invention further relates to uses of the cell of the invention.

Disclosed by the present application are an antibody library construction method and an application thereof. The method comprises the following steps: inserting a first element and a second element into a same vector or different vectors, and transfecting the vectors into the cells to obtain an antibody expression cell library, i.e., the antibody library. The first element comprises CIS activators and selection marker genes; the second element comprises extracellular antibody library coding domain, Notch nuclear structure domain and intracellular transcription structure domain.

Provided are engineered split Cas12b systems and methods of use thereof. Also provided are compositions comprising one or more components of the engineered split Cas12b systems, as well as engineered cells and non-human animals produced by the methods. The systems, methods and compositions are useful for genome editing, transcription modulation and gene therapy.

Described herein are polypeptides, systems, and methods that relate to using domains that bind specifically to a biotinylamide to control receptor and cellular activity.

The present invention relates to an anti-IL-6 agent for use in a method of preventing or treating post-operative pain in an individual.

In some aspects, the disclosure relates to recombinant adeno-associated viruses (rAAVs) comprising a nucleic acid encoding a fusion protein comprising a DNA-binding domain and a transcriptional regulator domain and methods of using the same. In some embodiments, expression of the fusion protein results in modified expression of a target gene in a cell.

The present disclosure generally relates to, inter alia, a new class of receptors engineered to modulate transcriptional regulation in a ligand-dependent manner. Particularly, the new receptors, even though derived from Notch, do not require the Notch negative regulatory regions previously believed to be essential for the functioning of the receptors. In addition, the new receptors described herein incorporate an extracellular oligomerization domain to promote oligomer formation of the chimeric receptors. The disclosure also provides compositions and methods useful for producing such receptors, nucleic acids encoding same, host cells genetically modified with the nucleic acids, as well as methods for modulating an activity of a cell and/or for the treatment of various health conditions such as cancers.

Engineered CRISPR-Cas9 nucleases with altered and improved PAM specificities and their use in genomic engineering, epigenomic engineering, and genome targeting.