This disclosure provides methods and compositions for making and using a protein or peptide array.

Provided herein are methods and compositions relating to glucagon-like peptide-1 receptor (GLP1R) libraries having nucleic acids encoding for a scaffold comprising a GLP1R binding domain. Libraries described herein include variegated libraries comprising nucleic acids each encoding for a predetermined variant of at least one predetermined reference nucleic acid sequence. Further described herein are protein libraries generated when the nucleic acid libraries are translated. Further described herein are cell libraries expressing variegated nucleic acid libraries described herein.

The present disclosure provides recombinant host cells comprising a pathway capable of producing a cannabinoid and a nucleic acid derived from a Cannabis trichome mRNA that that does not encode an enzyme in the pathway but enhances the host cells' ability to produce the cannabinoid. The disclosure also provides methods of using host cells to produce cannabinoids.

The present application provides a method of synthesizing a genetically-encoded chemical modification of a peptide library. A vector in a substrate, such as a phage, is modified to include a peptide linker and a modification to form a genetic “barcode”. The barcode is screened against potential targets which may be used in drug discovery.

The invention describes a method for the synthesis of compounds comprising the steps of: (a) compartmentalising two or more sets of primary compounds into microcapsules; such that a proportion of the microcapsules contains two or more compounds; and (b) forming secondary compounds in the microcapsules by chemical reactions between primary compounds from different sets; wherein one or both of steps (a) and (b) is performed under microfluidic control; preferably electronic microfluidic control, The invention further allows for the identification of compounds which bind to a target component of a biochemical system or modulate the activity of the target, and which is co-compartmentalised into the microcapsules.

The current application describes various compositions and methods for the production of FN3-based binding proteins with improved stability properties. Aspects of the disclosure relate to polypeptides comprising a variant fibronectin type III (FN3) domain from Sulfolobus tokodaii or Pyrococcus horikoshii comprising one or more amino acid substitutions or insertions in a loop region of FN3, in a non-loop region of FN3, or in both.

The current application describes various compositions and methods for the production of FN3-based binding proteins with improved stability properties. Aspects of the disclosure relate to polypeptides comprising a variant fibronectin type III (FN3) domain from Sulfolobus tokodaii or Pyrococcus horikoshii comprising one or more amino acid substitutions or insertions in a loop region of FN3, in a non-loop region of FN3, or in both.

Fibronectin type III (.sup.10Fn3) binding domains having novel designs that are associated with reduced immunogenicity are provided. The application describes alternative .sup.10Fn3 binding domains in which certain immunogenic regions are not modified when producing a binder in order to maintain recognition as a self antigen by the host organism. The application also describes .sup.10Fn3 binding domains in which HLA anchor regions have been destroyed thereby reducing the immunogenic contribution of the adjoining region. Also provided are .sup.10Fn3 domains having novel combinations of modified regions that can bind to a desired target with high affinity.

Disclosed herein are methods for collecting data from chip arrays and for piecewise real-time scanning and stitching of said data. Such arrays can comprise a plurality of microarrays, each microarray comprising biomolecular features that are attached to a surface of the microarray.

Disclosed herein are methods for collecting data from chip arrays and for piecewise real-time scanning and stitching of said data. Such arrays can comprise a plurality of microarrays, each microarray comprising biomolecular features that are attached to a surface of the microarray.