Abstract: Beta-sheet forming polypeptides at least 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, or 100% identical to the amino acid sequence selected from the group consisting of SEQ ID NOS:1-24 are disclosed, together with their use and methods for designing beta-sheet forming polypeptides.

Abstract: Polypeptides, and methods for their use, are disclosed that have an amino acid sequence at least 75% identical to the amino acid sequence of SEQ ID NO:1, are provided, wherein (a) the polypeptide degrades a PFQPQLPY (SEQ ID NO: 140) peptide and/or a PFPQPQQPF (SEQ ID NO: 68) at pH 4; (b) residue 467 is Ser, residue 267 is Glu, and residue 271 is Asp; and (c) the polypeptide comprises an amino acid change from SEQ ID NO: 1 at one or more residues selected from the group consisting of 221, 262E, 268, 269, 270, 319A, 320, 354E/Q/R/Y, 358S/Q/T, 368F/Q, 399, 402, 406, 424, 449, 461, 463, 105, 171, 172, 173, 174, and 456.

Abstract: The present invention relates to methods and compositions for the high throughput screening of protein-protein interactions in yeast liquid culture. Protein fusions non-native to yeast may be expressed to replace endogenous sexual agglutination proteins and mediate library-by-library interrogation of protein interactions. The methods and compositions of the invention can be utilized for the characterization of protein interaction networks in high throughput for both binding affinity and specificity, which is crucial for understanding cellular functions, screening therapeutic candidates, and evaluating engineered protein networks.

Abstract: Methods and apparatus for identifying and screening hydrogen bond networks are provided. A computing device can determine a search space for hydrogen bond networks related to one or more molecules, where the search space can include a plurality of energy terms related to a plurality of residues related to the hydrogen bond networks. The computing device can search the search space to identify one or more hydrogen bond networks based on the plurality of energy terms. The computing device can screen the identified hydrogen bond networks to identity one or more screened hydrogen bond networks based on scores for the identified hydrogen bond networks. An output can be generated that is related to the one or more screened hydrogen bond networks. Also provided are polypeptides that can form homo-oligomers with modular hydrogen bond network-mediated specificity.

Abstract: Disclosed are protein switches that can sequester bioactive peptides and/or binding domains, holding them in an inactive (“off”) state, until combined with a second designed polypeptide called the key, which induces a conformational change that activates (“on”) the bioactive peptide or binding domain, components of such protein switches, and their use.

Abstract: Methods and apparatus for identifying and screening hydrogen bond networks are provided. A computing device can determine a search space for hydrogen bond networks related to one or more molecules, where the search space can include a plurality of energy terms related to a plurality of residues related to the hydrogen bond networks. The computing device can search the search space to identify one or more hydrogen bond networks based on the plurality of energy terms. The computing device can screen the identified hydrogen bond networks to identity one or more screened hydrogen bond networks based on scores for the identified hydrogen bond networks. An output can be generated that is related to the one or more screened hydrogen bond networks. Also provided are polypeptides that can form homo-oligomers with modular hydrogen bond network-mediated specificity.

Abstract: The invention provides compositions and methods for treating celiac sprue.

Abstract: The present invention relates to methods and compositions for the high throughput screening of protein-protein interactions in yeast liquid culture. Protein fusions non-native to yeast may be expressed to replace endogenous sexual agglutination proteins and mediate library-by-library interrogation of protein interactions. The methods and compositions of the invention can be utilized for the characterization of protein interaction networks in high throughput for both binding affinity and specificity, which is crucial for understanding cellular functions, screening therapeutic candidates, and evaluating engineered protein networks.

Abstract: Disclosed herein are de novo designed beta barrel polypeptides, methods for designing such polypeptides, and methods for their use.

Abstract: A cooking accessory insert for a cooking grill includes a heat distribution duct that, installed, extends from a burner proximate to the bottom of the grill's fire box generally to a cooking level near the top of the fire box. The heat distribution duct is defined by a plurality of side walls extending from a top end of the heat distribution duct to a bottom end, tapering inward, or narrowing, from top to bottom. A top surface substantially covers the top end of the heat distribution duct, while the bottom is open. A cover is provided to cover the top surface, defining a baking chamber between the cover and the top surface. A cooking surface element such as a pizza stone is removably disposed on the top surface, spaced apart from the top surface by a plurality of spacers.

Abstract: The present invention relates to methods and compositions for the high throughput screening of protein-protein interactions in yeast liquid culture. Protein fusions non-native to yeast may be expressed to replace endogenous sexual agglutination proteins and mediate library-by-library interrogation of protein interactions. The methods and compositions of the invention can be utilized for the characterization of protein interaction networks in high throughput for both binding affinity and specificity, which is crucial for understanding cellular functions, screening therapeutic candidates, and evaluating engineered protein networks.

Abstract: Disclosed herein are compositions and methods for treating celiac sprue.

Abstract: The present disclosure provides nanostructures and nanostructure-based vaccines. Some nanostructures of the present disclosure display antigens capable of eliciting immune responses to infectious agents such as bacteria, viruses, and pathogens. Some vaccines of the present disclosure are useful for preventing or decreasing the severity of infection with an infectious agent, including, for example and without limitation, lyme disease, pertussis, herpes virus, orthomyxovirus, paramyxovirus, pneumovirus, filovirus, flavivirus, reovirus, retrovirus, meningococcus, or malaria. The antigens may be attached to the core of the nanostructure either non-covalently or covalently, including as a fusion protein or by other means disclosed herein. Multimeric antigens may optionally be displayed along a symmetry axis of the nanostructure. Also provided are proteins and nucleic acid molecules encoding such proteins, vaccine compositions, and methods of administration.

Abstract: Disclosed herein are nanostructures and their use, where the nanostructures include (a) a plurality of first assemblies, each first assembly comprising a plurality of identical first polypeptides; (b) a plurality of second assemblies, each second assembly comprising a plurality of identical second polypeptides, wherein the second polypeptide differs from the first polypeptide; wherein the plurality of first assemblies non-covalently interact with the plurality of second assemblies to form a nanostructures; and wherein the nanostructure displays multiple copies of one or more paramyxovirus and/or pneumovirus F proteins or antigenic fragments thereof, on an exterior of the nanostructure.

Abstract: Disclosed are protein switches that can sequester bioactive peptides and/or binding domains, holding them in an inactive (“off”) state, until combined with a second designed polypeptide called the key, which induces a conformational change that activates (“on”) the bioactive peptide or binding domain, components of such protein switches, and their use.

Abstract: De novo designed polypeptides that bind to IL-2 receptor ?c heterodimer (IL-2R?c), IL-4 receptor ?c heterodimer (IL-4R?c), or IL-13 receptor ? subunit (IL-13R?) are disclosed, as are methods for using and designing the polypeptides.

Abstract: A cooking accessory insert for a cooking grill includes a heat distribution duct that, installed, extends from a burner proximate to the bottom of the grill's fire box generally to a cooking level near the top of the fire box. The heat distribution duct is defined by a plurality of side walls extending from a top end of the heat distribution duct to a bottom end, tapering inward, or narrowing, from top to bottom. A top surface substantially covers the top end of the heat distribution duct, while the bottom is open. A cover is provided to cover the top surface, defining a baking chamber between the cover and the top surface. A cooking surface element such as a pizza stone is removably disposed on the top surface, spaced apart from the top surface by a plurality of spacers.

Abstract: 2-ketoacid decarboxylase enzymes, compositions encoding for 2 ketoacid decarboxylase enzymes, and host cells comprising such enzymes or compositions are provided.

Abstract: A retaining wall for retaining matter on a side thereof comprising: a plurality of upwardly projecting primary sheet piles spaced apart from each other and having first structural properties comprising at least one of weight, size, strength and depth to be installed in a supporting body; and one or more intermediate panels of material arranged so as to span the gap between a pair primary sheet piles and to retain at least a portion of the retained matter, wherein the one or more intermediate panels have second structural properties different from the first structural properties.