An improved data intake and query system that can perform and display ingest-time and search-time field extraction, redaction, copy, and/or categorization is described herein. As described herein, ingest-time field extraction, redaction, copy, and/or categorization may refer to field or field value extraction, redaction, copy, and/or categorization that is performed by a log observer system of the data intake and query system on raw machine data as the raw machine data is ingested or received from a publisher. As described herein, search-time field extraction, redaction, copy, and/or categorization may refer to field or field value extraction, redaction, copy, and/or categorization that is performed by the log observer system and/or other components of the improved data intake and query system on historical raw machine data that has already been ingested and indexed by the improved data intake and query system.

The present disclosure relates to bifunctional compounds, which find utility as modulators of enhancer of zeste homolog 2 (target protein). In particular, the present disclosure is directed to bifunctional compounds, which contain on one end a Von Hippel-Lindau, cereblon, Inhibitors of Apotosis Proteins or mouse double-minute homolog 2 ligand which binds to the respective E3 ubiquitin ligase and on the other end a moiety which binds the target protein, such that the target protein is placed in proximity to the ubiquitin ligase to effect degradation (and inhibition) of target protein. The present disclosure exhibits a broad range of pharmacological activities associated with degradation/inhibition of target protein. Diseases or disorders that result from aggregation or accumulation of the target protein are treated or prevented with compounds and compositions of the present disclosure.

The invention relates to a nucleic acid comprising at least one methylation-protectable restriction element, the methylation-protectable restriction element comprising: (i) a type IIS restriction enzyme recognition sequence, or a partial type IIS restriction enzyme recognition sequence, that is recognised by a type IIS restriction enzyme that cleaves outside of the recognition sequence; (ii) a DNA methylase recognition sequence that is recognised and methylated by a DNA methylase, wherein the DNA methylase recognition sequence is identical to, or is encompassed within, the type IIS restriction recognition sequence, such that methylation of the nucleic acid by the DNA methylase methylates the type IIS restriction enzyme recognition sequence and protects the nucleic acid from cleavage by the type IIS restriction enzyme; and (iii) a recognition sequence for a sequence-specific DNA-binding protein, wherein the recognition sequence is positioned such that the binding of the sequence-specific DNA-binding protein overlaps with the DNA methylase recognition sequence such that binding of the sequence-specific DNA-binding protein is capable of preventing methylation of the type IIS restriction enzyme recognition sequence by the DNA methylase such that it is not protected from cleavage by the type IIS restriction enzyme. The invention further relates to associated methods of nucleic acid assembly.

Provided are methods, prokaryotic host cells, expression vectors, and kits for the production of psilocybin or an intermediate or a side product thereof. Also provided are methods, prokaryotic host cells, expression vectors, and kits for the production of norbaeocystin. In certain embodiments, the prokaryotic host cell is selected from the group consisting of Escherichia coli, Corynebacterium glutamicum, Vibrio natriegens, Bacillus subtilis, Bacillus megaterium, Escherichia coli Nissle 1917, Clostridium acetobutlyicum, Streptomyces coelicolor, Lactococcus lactis, Pseudomonas putida, Streptomyces clavuligerus, and Streptomyces venezuelae.

Disclosed herein are artificially synthesized nucleic acid constructs to guide an epigenetic modification for at least partially silencing or activating a target gene in an organism such as a plant or seed, and formulations thereof. Also disclosed are methods of applying such nucleic acid constructs to the plant or to the seed. Also disclosed are engineered seeds and plants obtained by the epigenetic modification.

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

The present invention relates to compounds that inhibit Protein Arginine N-Methyl Transferase 5 (PRMT5) activity. In particular, the present invention relates to compounds, pharmaceutical compositions and methods of use, such as methods of treating cancer using the compounds and pharmaceutical compositions of the present invention.

The invention generally relates to methods of producing loline alkaloids or precursors thereof, expression constructs, and host cells useful for producing loline alkaloids or precursors thereof, and methods for producing loline alkaloids or precursors thereof in a host cell.

The present disclosure provides modified immune cells or precursors thereof (e.g., gene edited modified T cells) comprising an exogenous T cell receptor (TCR) and/or a chimeric antigen receptor (CAR) having specificity for a target antigen, and an insertion and/or deletion in an endogenous gene locus encoding DNMT3A. Compositions and methods of treatment are also provided.

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