Expanding and understanding the CRISPR toolbox for Bacillus subtilis with MAD7 and dMAD7.

The CRISPR-Cas9 system has become increasingly popular for genome engineering across all fields of biological research, including in the Gram-positive model organism Bacillus subtilis. A major drawback for the commercial use of Cas9 is the IP landscape requiring a license for its use, as well as reach-through royalties on the final product. Recently an alternative CRISPR nuclease, free to use for industrial R&D, MAD7 was released by Inscripta (CO).

CRISPR-Cas9 In Situ engineering of subtilisin E in Bacillus subtilis.

CRISPR-Cas systems have become widely used across all fields of biology as a genome engineering tool. With its recent demonstration in the Gram positive industrial workhorse Bacillus subtilis, this tool has become an attractive option for rapid, markerless strain engineering of industrial production hosts. Previously described strategies for CRISPR-Cas9 genome editing in B.

A Review of Bioinformatics Tools for Bio-Prospecting from Metagenomic Sequence Data.

The microbiome can be defined as the community of microorganisms that live in a particular environment. Metagenomics is the practice of sequencing DNA from the genomes of all organisms present in a particular sample, and has become a common method for the study of microbiome population structure and function. Increasingly, researchers are finding novel genes encoded within metagenomes, many of which may be of interest to the biotechnology and pharmaceutical industries.

Pichia pastoris mutants as host strains for efficient secretion of recombinant branched chain aminotransferase (BCAT).

Branched chain aminotransferase (BCAT) is one of the enzymatic tools of choice for the production of chiral amines or amino acids; especially, non-natural amino acids are of interest as building blocks for the pharmaceutical industry. The expression and subsequent secretion of BCAT counteracts limited cell permeability of target substrates and facilitates downstream processing. Since Pichia pastoris secretes a negligible amount of native proteins and was previously shown to efficiently secrete recombinant proteins, it was chosen as the expression host.

Meta4: a web application for sharing and annotating metagenomic gene predictions using web services.

Whole-genome shotgun metagenomics experiments produce DNA sequence data from entire ecosystems, and provide a huge amount of novel information. Gene discovery projects require up-to-date information about sequence homology and domain structure for millions of predicted proteins to be presented in a simple, easy-to-use system. There is a lack of simple, open, flexible tools that allow the rapid sharing of metagenomics datasets with collaborators in a format they can easily interrogate.