Provided are Cas9 enzymes that have mutations that enhance their properties, relative to un-mutated Cas9. The altered Cas9 enzymes exhibit i) an increased rate of spacer acquisition, or ii) increased cleavage efficiency of targets with NAG PAMs, or a combination of i) and ii). The altered Cas9 enzymes comprise an amino acid substitution of 1473 and K500 in a Streptococcus pyogenes or similar Cas9 enzyme. Also provided are polynucleotides, including expression vectors that encode the Cas9 enzymes, cells that contain the polynucleotides, and methods of making and using such cells. The disclosure includes tagging, or labelling bacteria, and for enhancing phage acquired immunity in bacteria, such as those used in industrial processes, including the food and beverage industry, such as the dairy industry. The food products are also included.

Compositions for a phage particle are disclosed. The phage particle is non-replicating and includes at least one heterologous nucleic acid sequence that is capable of being expressed in a target bacteria. The expressed heterologous nucleic acid sequence is non-lethal to the target bacteria.

The invention relates to the production and use of Cas-encoding sequences and vectors comprising these. Aspects of the invention provide products, vectors, delivery vehicles, uses and methods for producing Cas-encoding sequences in bacterial or archaeal cells.

A PDL1 block CAR-T transgenic vector for suppressing immune escape includes: AmpR sequence containing ampicillin resistance gene (SEQ ID NO: 1); prokaryotic replicon pUC Ori sequence (SEQ ID NO: 2); virus replicon SV40 Ori sequence (SEQ ID NO: 3); eWPRE enhanced posttranscriptional regulatory element of hepatitis B virus (SEQ ID NO: 11); human EF1a promoter (SEQ ID NO: 12); lentiviral packaging cis-elements for lentiviral packaging; humanized single-chain antibody fragment PDL1scFv1 (SEQ ID NO: 21), PDL1scFv2 (SEQ ID NO: 22), or PDL1scFv3 (SEQ ID NO: 23) of human PDL1; IRES ribosome binding sequence (SEQ ID NO: 25); IL6 signal peptide (SEQ ID NO: 26); human antibody Fc segment (SEQ ID NO: 27); and chimeric antigen receptors of the second or third generation CAR for integrating recognition, transmission and initiation. A preparation method of the PDL1 block CAR-T transgenic vector and an application thereof in a preparation of anti-immune escape drugs.

Fungal artificial chromosome (FAC) vectors are disclosed. A vector can be replicated in a bacterial or a fungal host, and can comprise an insert of heterologous DNA up to about 500 kilobases. A vector can be used for cloning and expressing a secondary metabolite (SM) gene cluster. An insert sequence can be modified by homologous recombination. A vector can be a plasmid comprising bacterial and fungal origins of replication, as well as bacterial and fungal selection marker genes. Also disclosed are vectors that can be integrated into a fungal genome, and dual function vectors which can be replicated in a bacterial or a fungal host and can also be integrated into a fungal genome. Also disclosed are methods of generating plasmid libraries including vectors comprising intact SM gene clusters.

The present invention relates to a covalently closed circular recombinant DNA molecule comprising an origin of replication and an insert comprising a homopolymeric region, wherein the homopolymeric region is located at a distance of least 500 bp from the origin of replication in the direction of replication and/or wherein the insert comprising a homopolymeric region is oriented so that the direction of transcription of the insert is the same as the direction of replication of the origin of replication. The invention further relates to the use of the covalently closed circular recombinant DNA molecule for increasing the yield and/or shortening the fermentation time during fermentation.

Compositions for a phage particle are disclosed. The phage particle is non-replicating and includes at least one heterologous nucleic acid sequence that is capable of being expressed in a target bacteria. The expressed heterologous nucleic acid sequence is non-lethal to the target bacteria.

Fungal artificial chromosome (FAC) vectors are disclosed. A vector can be replicated in a bacterial or a fungal host, and can comprise an insert of heterologous DNA up to about 500 kilobases. A vector can be used for cloning and expressing a secondary metabolite (SM) gene cluster. An insert sequence can be modified by homologous recombination. A vector can be a plasmid comprising bacterial and fungal origins of replication, as well as bacterial and fungal selection marker genes. Also disclosed are vectors that can be integrated into a fungal genome, and dual function vectors which can be replicated in a bacterial or a fungal host and can also be integrated into a fungal genome. Also disclosed are methods of generating plasmid libraries including vectors comprising intact SM gene clusters.

Methods and compositions are provided for durably influencing microbiological ecosystems (microbiomes) in a subject in order to prevent infection and reduce recurrence of infection by microorganisms. In some embodiments, compositions and methods are provided for the creation and use of molecularly-modified bacterial strains with the potential to prevent a variety of microorganism infections.

A eukaryotic replicative pUC-free minicircle expression vector is provided. The eukaryotic replicative pUC-free minicircle expression vector includes a pUC-free eukaryotic region sequence encoding a transgene of interest and comprising 5 and 3 ends and a ii) pUC-free spacer region of less than 500 basepairs in length linking the 5 and 3 ends of the eukaryotic region sequences and comprising a bacterial R6K replication origin having at least 95% sequence identity to SEQ ID NO: 11 and SEQ ID NO: 12 and a RNA selectable marker, the RNA selectable marker being an RNA-IN regulating RNA-OUT functional variant having at least 95% sequence identity to SEQ ID NO: 20 or SEQ ID NO: 22.