Sized-based detection techniques for detection of bio-nanoparticles are described. Detection nanoparticles and methods of forming the detection nanoparticles that can be utilized in the techniques are described. Detection nanoparticles can include modified bacteriophage that express a linking agent for a specific binding agent. Detection nanoparticles can bind a functional bio-nanoparticle with high specificity through specific binding of one or more entities unique to the functional bio-nanoparticle of interest. A detection nanoparticle can target an entity of a bio-nanoparticle that is relevant to its function, and as such, the methods can provide improvements in detection of complete and functional bio-nanoparticles. Size-based detection regimes can include particle displacement measurement techniques based upon Brownian motion.

The present disclosure relates to systems, compositions and methods for modifying target nucleic acid sequences.

The present disclosure relates to systems, compositions and methods for modifying target nucleic acid sequences.

Variant guinea pig L-asparaginases which are truncated and humanized are described as are fusion proteins containing the L-asparaginase and use of the L-asparaginases in the treatment of cancers such as acute lymphoblastic leukemia and acute myeloid leukemia.

The present invention generally relates to improved methods of assembly of two or more DNA fragments, methods of rapid ligation-independent cloning, and kits for rapid ligation-independent cloning and their uses.

The present invention generally relates to improved methods of assembly of two or more DNA fragments, methods of rapid ligation-independent cloning, and kits for rapid ligation-independent cloning and their uses.

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.

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.

The invention pertains to novel methods to increase the tolerance of microbial host cells to toxic substance, for example terpenes and alcohols and other membrane disrupting substances, as well as modified organism with such an increased tolerance a compared to the unmodified organism.

The invention pertains to novel methods to increase the tolerance of microbial host cells to toxic substance, for example terpenes and alcohols and other membrane disrupting substances, as well as modified organism with such an increased tolerance a compared to the unmodified organism.