Abstract: The present disclosure provides genetic constructs comprising a recombinant internal ribosome entry site (IRES), which may be used as riboswitches to modulate translation of an operably-mRNA sequence encoding a protein of interest. In other aspects, the disclosure provides recombinant cells, methods, kits and systems that utilize the same, e.g., to provide a platform for modulating the expression of essentially any protein of interest in a eukaryotic cell.

Abstract: Embodiments of various aspects described herein are directed to assays and devices for detecting a target molecule in a sample. In particular, there is described a lateral assay comprising a plurality of serially oriented capture zones, where each capture zone independently comprises an immobilized competitive molecule on a lateral flow matrix. The immobilized competitive molecule and the analyte competitively bind with a capture agent capable of binding the analyte.

Abstract: This disclosure is generally directed to electrochemical readout of rapid diagnostics related to use of CRISPR effector systems. In one aspect, the disclosure provides a nucleic acid detection system. Generally, the system comprises: (1) a detection CRISPR system comprising an effector protein and one or more guide nucleic acid (gNA) strands designed to bind to corresponding target nucleic acid molecules; (2) an effector strand and (3) an electrode.

Abstract: Disclosed herein are hydrogels comprising a polynucleotide-based structural component. Methods of altering a property of a hydrogel based on user-defined nucleic acid input sequences are also disclosed. In addition, various applications are described that utilize these hydrogels and methods.

Abstract: The present invention provides matched antibody pairs for the specific detection of one or more of the four dengue virus serotypes in a biological sample that may contain one or more of such dengue virus serotypes. Each matched antibody pair is capable of detecting not more than one serotype of dengue virus NS1 protein that may be present in the sample and will not cross react with other serotypes that may be present in the sample. Multiple matched pairs may be used to detect one or more dengue virus serotypes that may be present in a sample. Such matched pair antibodies, facilitate the development of confirmatory in vitro diagnostic tests such as sandwich immunoassays, that detect and distinguish the presence of one or more dengue virus serotypes in a biological sample, preferably a sample derived from human subject.

Abstract: The present invention provides a multiplexed immunoassay which leverages stockpiled antibodies to detect whether a patient has been infected with an emerging disease which does not have specific antibodies raised against it (FIG. 1). The assay is preferably designed as a paper-based assay, which allows diagnosis at point of care (POC) and readout by eye or mobile phone. Paper-based rapid diagnostic tests (RDTs) are convenient, robust, and can be read out within minutes. The immunoassay of the invention combines the strategic use of nanoparticles of assorted colors with readily available stockpiled antibodies to one or more biomarkers of disease, particularly viral diseases.

Abstract: The present invention provides matched antibody pairs for the specific detection of one or more of the four dengue virus serotypes in a biological sample that may contain one or more of such dengue virus serotypes. Each matched antibody pair is capable of detecting not more than one serotype of dengue virus NS1 protein that may be present in the sample and will not cross react with other serotypes that may be present in the sample. Multiple matched pairs may be used to detect one or more dengue virus serotypes that may be present in a sample. Such matched pair antibodies, facilitate the development of confirmatory in vitro diagnostic tests such as sandwich immunoassays, that detect and distinguish the presence of one or more dengue virus serotypes in a biological sample, preferably a sample derived from human subject.

Abstract: The present invention provides a lateral flow multiplex assay strip, and lateral flow assay systems and kits comprising the assay strips of the invention and methods of using the assay strip and systems and kits to detect the levels of two or more target analytes that may be present in a liquid sample, wherein the two more target analytes are detectable at a single test area of the assay.

Abstract: The disclosure is directed to enabling reversible, on-demand remote control of blood clotting and clot dissolution. In one embodiment, a laser at one wavelength triggers release of a DNA thrombin inhibitor from one nanorod, which acts as an anticoagulant to stop blood clotting. Another wavelength triggers release of a specific antidote, which reverses the effect of the thrombin inhibitor, restoring blood clotting.

Abstract: The disclosure is directed to enabling reversible, on-demand remote control of blood clotting and clot dissolution. In one embodiment, a laser at one wavelength triggers release of a DNA thrombin inhibitor from one nanorod, which acts as an anticoagulant to stop blood clotting. Another wavelength triggers release of a specific antidote, which reverses the effect of the thrombin inhibitor, restoring blood clotting.