The invention relates to methods for template-independent synthesis of nucleic acids, comprising iteratively contacting an initiator sequence comprising a 3′-end nucleotide with a free 3′-hydroxyl group, with at least one nucleoside triphosphate, or a combination of nucleoside triphosphates, in the presence of an archaeal DNA primase or a functionally active fragment and/or variant thereof, thereby covalently binding said nucleoside triphosphate to the free 3-hydroxyl group of the 3-end nucleotide. It also relates to isolated functionally active fragments of archaeal DNA primases which are capable of template-independent terminal nucleotidyl transferase activity but are devoid of a template-independent primase activity.

The present invention provides methods for large-scale production of a composition enriched for full-length mRNA molecules using an SP6 RNA polymerase and compositions produced using such methods and uses thereof.

Insect inhibitory compositions comprising certain Chryseobacterium organisms, compositions and compounds derived from Chryseobacterium organisms, methods of using the compositions to inhibit insects that are injurious to humans, animals, and plants, and methods of making the compositions are disclosed.

The present disclosure provides RNA polymerase variants for high efficiency transcription.

A protein expression system for use in a prokaryotic host is provided, the expression system comprising: a) an expression cassette comprising a nucleic acid sequence encoding a protein of interest operably linked to a T7 RNA polymerase-dependent promoter; and b) an expression cassette comprising a nucleic acid sequence encoding T7 RNA polymerase operably linked to a host polymerase-dependent λ phage promoter and a single perfect palindrome operator sequence; wherein the expression cassette for T7 RNA polymerase is located on the chromosome of a host cell.

The present disclosure provides RNA polymerase variants for high efficiency transcription.

Vectors for cloning, maintaining and expressing a wide range of coding sequences in inducible T7 expression systems in Escherichia coli expression hosts are disclosed herein. Target genes that can be stably maintained and expressed include those that specify proteins that are highly toxic to the host cell. Different configurations of vectors and expression hosts provide different rates of transcription and translation of target genes and therefore different rates of accumulation of target proteins. Methods for cloning by asymmetric ligation and co-expression of more than one target protein in a single vector are also disclosed, as are variants of BL21(DE3) having lower basal transcription by T7 RNA polymerase.

Disclosed herein, in some embodiments, are vectors encoding biosynthetic enzymes from gut microbiome-derived bacterium (e.g., Clostridia enzymes), engineered cells comprising the vectors, and methods of using biosynthetic enzymes from gut microbiome-derived bacterium (e.g., Clostridia enzymes) to produce fatty acid amides.

A method for the production of proteins used in the in vitro transcription (IVT) of messenger RNA (mRNA), wherein the proteins are evaluated for purity and efficacy by the efficiency with which mRNA synthetically derived therefrom, subsequently transfects cells and produces encoded proteins.

This application relates to mutant polymerases. This application discloses mutant phage-type RNA polymerases, such as a mutant T7, SP6, and T3 RNA polymerase, may use 2′-modified nucleoside triphosphates or deoxynucleotide triphosphates as substrates. Methods for producing nucleic acid molecules using these mutant polymerases are also disclosed.