Abstract: A fan with airfoil blades is provided for a regenerative air vacuum street sweeper. The blades are formed using cut and pressed upper and lower panels which are welded at a forward edge to a rod to form the airfoil leading edge and welded at the rear edges to form the airfoil trailing edge. Pins extend laterally outwardly from the rod for mounting each blade in corresponding holes in the front and rear plates of the fan housing. The side edges of the blade are welded to the plates at a 9-11° angle of attack. The airfoil blades allow for reduced size, horse power, noise, and manufacturing and shipping costs.

Abstract: Activity-based probes that can be used to selectively identify and characterize enzymes that are involved in different phases of xenobiotic metabolism in a host and its microbiota population(s) are described. The activity-based probes described specifically label only their target active enzymes involved in xenobiotic metabolism and therefore provide a measurement of true protein functional activity rather than transcript or protein abundance. The activity-based probes also provide multimodal profiling of these active enzymes. Methods for preparing the activity based probes and exemplary methods for their use also are disclosed.

Abstract: Activity-based probes that can be used to selectively identify and characterize enzymes that are involved in different phases of xenobiotic metabolism in a host and its microbiota population(s) are described. The activity-based probes described specifically label only their target active enzymes involved in xenobiotic metabolism and therefore provide a measurement of true protein functional activity rather than transcript or protein abundance. The activity-based probes also provide multimodal profiling of these active enzymes. Methods for preparing the activity based probes and exemplary methods for their use also are disclosed.

Abstract: Probe embodiments for targeting, identifying, and isolating enzymes exhibiting BSH activity as well as devices and kits that use the probes are described herein. Methods of making and using the probes, devices, and kits are also described. In some embodiments, probes, devices, and kits for targeting, identifying, and isolating enzymes in a biological sample are disclosed. In some embodiments, compositions and methods of treatment using the probes, devices, and kits disclosed herein are described.

Abstract: Activity-based probes that can be used to selectively identify and characterize enzymes that are involved in different phases of xenobiotic metabolism in a host and its microbiota population(s) are described. The activity-based probes described specifically label only their target active enzymes involved in xenobiotic metabolism and therefore provide a measurement of true protein functional activity rather than transcript or protein abundance. The activity-based probes also provide multimodal profiling of these active enzymes. Methods for preparing the activity based probes and exemplary methods for their use also are disclosed.

Abstract: Probe embodiments for identifying analytes involved in biofuel or bioenergy production, bioremediation, or nutrient cycling as well as methods of making and use are described herein. In some embodiments, probes identifying cellulose degradation and/or sugar transport, lignin or chitin degradation, or peptide or toxin metabolism are included. In some embodiments, probes for identifying analytes in a soil sample are included in the compositions and methods disclosed herein.

Abstract: Probe embodiments for targeting, identifying, and isolating enzymes exhibiting BSH activity as well as devices and kits that use the probes are described herein. Methods of making and using the probes, devices, and kits are also described. In some embodiments, probes, devices, and kits for targeting, identifying, and isolating enzymes in a biological sample are disclosed. In some embodiments, compositions and methods of treatment using the probes, devices, and kits disclosed herein are described.

Abstract: Methods and systems for identifying binding sites in macromolecules using small molecule mimics of naturally occurring molecules is disclosed. A reactive probe is provided that mimics small molecule cofactors. A target macromolecule is irreversibly bound to the probe in vivo to selectively pull down or precipitate probe-bound macromolecules. The macromolecules may be, but are not limited to, DNA, RNA, and proteins.

Abstract: Probe embodiments for targeting, identifying, and isolating enzymes exhibiting BSH activity as well as devices and kits that use the probes are described herein. Methods of making and using the probes, devices, and kits are also described. In some embodiments, probes, devices, and kits for targeting, identifying, and isolating enzymes in a biological sample are disclosed. In some embodiments, compositions and methods of treatment using the probes, devices, and kits disclosed herein are described.

Abstract: Activity-based probes that can be used to selectively identify and characterize enzymes that are involved in different phases of xenobiotic metabolism in a host and its microbiota population(s) are described. The activity-based probes described specifically label only their target active enzymes involved in xenobiotic metabolism and therefore provide a measurement of true protein functional activity rather than transcript or protein abundance. The activity-based probes also provide multimodal profiling of these active enzymes. Methods for preparing the activity based probes and exemplary methods for their use also are disclosed.

Abstract: Probe embodiments for identifying analytes involved in biofuel or bioenergy production, bioremediation, or nutrient cycling as well as methods of making and use are described herein. In some embodiments, probes identifying cellulose degradation and/or sugar transport, lignin or chitin degradation, or peptide or toxin metabolism are included. In some embodiments, probes for identifying analytes in a soil sample are included in the compositions and methods disclosed herein.

Abstract: Methods and systems for identifying binding sites in macromolecules using small molecule mimics of naturally occurring molecules is disclosed. A reactive probe is provided that mimics small molecule cofactors. A target macromolecule is irreversibly bound to the probe in vivo to selectively pull down or precipitate probe-bound macromolecules. The macromolecules may be, but are not limited to, DNA, RNA, and proteins.

Abstract: Methods and systems for detecting the presence of analytes are described. A fluid or gas sample containing one or more analytes may pass through a particle-based sensor array. Detection and analysis techniques may be applied to determine the identity and quantity of the analytes.

Abstract: Synthetic receptor cores are provided that comprise a compound represented by the following formula: wherein R1, R2, and R3 independently comprise at least one moiety chosen from a hydroxyl group, an amine group, and derivatives thereof. Synthetic receptor cores are provided that comprise a compound represented by the following formula: wherein R comprises at least one moiety chosen from a hydroxyl group, an amine group, and derivatives thereof. Synthetic receptors are provided that comprise a synthetic receptor core; and an analyte binding moiety, wherein the analyte binding moiety is capable of complexion with an analyte. Systems, methods, and kits are also provided that use a synthetic receptor.