Provided herein are compositions and methods for increasing editing efficiency of a target nucleic acid. A composition may comprise a guide nucleic acid, a Cas9 nickase, or a reverse transcriptase. The reverse transcriptase may be fused to the Cas9 nickase. The reverse transcriptase may heterodimerize with the Cas9 nickase. The reverse transcriptase may bind to a guide nucleic acid. The reverse transcriptase may be engineered to increase processivity. The guide nucleic acid may be engineered to facilitate synthesis or editing of a sequence. The guide nucleic acid, Cas9 nickase, and reverse transcriptase may be engineered to fit within AAV vectors. The guide nucleic acid may comprise a region that binds to another region on the guide nucleic acid to improve gene editing.

Disclosed are engineered or modified E. coli ribosomes and methods, components, compositions, and kits for preparing and identifying engineered or modified E. coli ribosomes. The engineered or modified E. coli ribosomes may be prepared and identified under a set of defined conditions, such as in the presences of a engineered or modified tRNA comprising a non-natural, non-α-amino acid monomer (NNA), in order to obtain an engineered or modified ribosome that utilizes the engineered or modified tRNA as a substrate for synthesizing a polymer comprising the NNA.

Provided herein are compositions and methods for increasing editing efficiency of a target nucleic acid. A composition may comprise a guide nucleic acid, a Cas9 nickase, or a reverse transcriptase. The reverse transcriptase may be fused to the Cas9 nickase. The reverse transcriptase may heterodimerize with the Cas9 nickase. The reverse transcriptase may bind to a guide nucleic acid. The reverse transcriptase may be engineered to increase processivity. The guide nucleic acid may be engineered to facilitate synthesis or editing of a sequence. The guide nucleic acid, Cas9 nickase, and reverse transcriptase may be engineered to fit within AAV vectors. The guide nucleic acid may comprise a region that binds to another region on the guide nucleic acid to improve gene editing.

The present invention provides novel RNA switches that are based on modified hammerhead ribozymes with improved activities. Also provided are expression vectors and related expression systems for regulating transgene expression in various clinical or industrial applications.

The present disclosure provides compositions of matter, methods and instruments for editing nucleic acids in live yeast cells.

The present invention relates to a RNA molecule comprising a first ribozyme, a first ligation sequence, an effector molecule, a second ligation sequence, and a second ribozyme. Methods of producing circular RNA molecules and treatment methods are also disclosed.

The present invention relates to a RNA molecule comprising a first ribozyme, a first ligation sequence, an effector molecule, a second ligation sequence, and a second ribozyme. Methods of producing circular RNA molecules and treatment methods are also disclosed.

The present disclosure relates to methods for transiently activating temperature-sensitive agents in one or more cells, for example by contacting one or more cells with a temperature-sensitive agent and transiently incubating the cells at a permissive temperature for inducing an activity of the temperature-sensitive agent in the cells. Additionally, the present disclosure relates to methods of contacting one or more cells in a subject with a temperature-sensitive agent and then lowering the subject's core body temperature to a permissive temperature for inducing an activity of the temperature-sensitive agent in the cells. The disclosure also relates to methods of contacting one or more cells in a subject with a temperature-sensitive agent, maintaining the subject's surface body temperature at a permissive temperature for inducing an activity of the temperature-sensitive agent in the cells. Further disclosed are methods of treating a subject with a temperature-sensitive therapeutic agent.

The present disclosure provides compositions of matter, methods and instruments for editing nucleic acids in live yeast cells.

The present disclosure provides compositions of matter, methods and instruments for editing nucleic acids in live yeast cells.