The invention provides a series of peptide signals which, when linked to a polypeptide of interest (POI), ensure that said polypeptide is secreted in high yields by a host cell such as Mycoplasma pneumoniae. The invention also provides fusion proteins tagged with said peptide signals, the nucleic acid sequences coding for them, host cells comprising said tagged fusion proteins and a variety of uses of the fusion proteins and the host cells.

The present invention provides materials and methods useful for error correction of nucleic acid molecules. In one embodiment of the invention, a first plurality of double-stranded nucleic acid molecules having a nucleotide mismatch are fragmented by exposure to a molecule having unidirectional mismatch endonuclease activity. The nucleic acid molecules are cut at the mismatch site or near the mismatch site, leaving a double-stranded nucleic acid molecule having a mismatch at the end or near end of the molecule. The nucleic acid molecule is then exposed to a molecule having unidirectional exonuclease activity to remove the mismatched nucleotide. The missing nucleotides can then be filled in by the action of, e.g., a molecule having DNA polymerase activity. The result is double-stranded nucleic acid molecules with a decreased frequency of nucleotide mismatches. Also provided are novel nucleic acid sequences encoding mismatch endonucleases, polypeptides encoded thereby, as well as nucleic acid constructs, transgenic cells, and various compositions thereof.

This disclosure describes methods and systems for engineering and manufacturing collagen-based biomaterials. The methods and systems combine synthetic biology, fermentation, material science and machine learning. Collagen molecules or collagen based materials obtained from using the methods have desired physical or chemical properties such as melting temperature, stiffness, or elasticity. The obtained collagen molecules and sequences are also disclosed.

The disclosure provides nucleic acids, and variants and fragments thereof, obtained from strains of Bacillus thuringiensis encoding polypeptides having pesticidal activity against insect pests, including Lepidoptera. Particular embodiments of the disclosure provide isolated nucleic acids encoding pesticidal proteins, pesticidal compositions, DNA constructs, and transformed microorganisms and plants comprising a nucleic acid of the embodiments. These compositions find use in methods for controlling pests, especially plant pests.

The invention relates to methods of producing eukaryotic cell libraries encoding a repertoire of binding molecules (binders), wherein the methods use a site-specific nuclease for targeted cleavage of cellular DNA to enhance site-specific integration of binder genes through endogenous cellular repair mechanisms. Populations of eukaryotic cells are produced in which a repertoire of genes encoding binders are integrated into a desired locus in cellular DNA (e.g., a genomic locus) allowing expression of the encoded binding molecule, thereby creating a population of cells expressing different binders.

The invention relates to methods of producing eukaryotic cell libraries encoding a repertoire of binding molecules (binders), wherein the methods use a site-specific nuclease for targeted cleavage of cellular DNA to enhance site-specific integration of binder genes through endogenous cellular repair mechanisms. Populations of eukaryotic cells are produced in which a repertoire of genes encoding binders are integrated into a desired locus in cellular DNA (e.g., a genomic locus) allowing expression of the encoded binding molecule, thereby creating a population of cells expressing different binders.

The invention relates to methods of producing eukaryotic cell libraries encoding a repertoire of binding molecules (binders), wherein the methods use a site-specific nuclease for targeted cleavage of cellular DNA to enhance site-specific integration of binder genes through endogenous cellular repair mechanisms. Populations of eukaryotic cells are produced in which a repertoire of genes encoding binders are integrated into a desired locus in cellular DNA (e.g., a genomic locus) allowing expression of the encoded binding molecule, thereby creating a population of cells expressing different binders.

The present invention relates to recombinant virulence attenuated Gram-negative bacterial strains and its use in a method of treating cancer in a subject.

The present disclosure provides immunomodulatory fusion proteins comprising a collagen-binding domain operably linked to an immunomodulatory domain. The disclosure also features compositions and methods of using the same, for example, to treat cancer.

The invention relates generally to the field of microbiology and molecular biology. Provided herein is an expression construct for producing a recombinant protein. The subject specification discloses an expression construct for producing a prolyl endopeptidase protein in lactic acid bacteria and methods of treatment comprising use of such a prolyl endopeptidase.