Abstract: The present invention provides a system and method for assessing a synthetic peptide population including interrogating a population of peptide features in the presence of a receptor having an affinity for a binder sequence. The population of peptide features is synthesized over a plurality of synthesis periods and includes a plurality of control peptide features synthesized to have an amino acid sequence including the binder sequence. The control peptide features include a first feature synthesized beginning with a first one of the synthesis periods, and a second feature synthesized beginning after the first one of the synthesis periods such that synthesis of the second control peptide feature is delayed by at least one synthesis period. The method further includes detecting a signal output characteristic of an interaction of the receptor with the control peptide features, the signal output indicative of the fidelity of synthesis of the population of peptide features.

Abstract: The present invention provides a system and method for assessing the fidelity of a synthetic peptide population including interrogating a population of peptide features in the presence of a receptor having an affinity for a plurality of binder sequences. A first amino acid is at a defined position within a first one of the binder sequences, and the population of peptide features includes a first control peptide feature synthesized to have an amino acid sequence including the first one of the binder sequences. The system and method further includes detecting a signal output characteristic of an interaction of the receptor with the first control peptide feature. The signal output is indicative of the fidelity of incorporation of the first amino acid into the first control peptide at the defined position within the first one of the binder sequences.

Abstract: This invention relates to peptide microarrays, methods of generating peptide microarrays, and methods of identifying peptide binders using microarrays. More specifically, this invention relates to peptide microarrays, methods of generating peptide microarrays, and methods of identifying peptide binders using microarrays wherein the microarrays comprise cyclic peptides. The invention also relates to methods of increasing the number of cyclized peptides on a microarray by treating the peptides on the microarray with a protease. Additionally, the invention relates to methods of generating linear and cyclic peptides subarrays on a microarray.

Abstract: This invention relates to a method of selecting a peptide using an mRNA-displayed cow antibody scaffold polypeptide. The invention also relates to the mRNA-displayed cow antibody scaffold polypeptide comprising a peptide of interest or to a peptide microarray comprising the cow antibody scaffold polypeptide comprising a peptide of interest or to a peptide microarray comprising a peptide of interest as described herein.

Abstract: The invention provides novel peptide binders for streptavidin (SA), Taq polymerase and several human proteins: Prostate Specific Antigen (PSA), thrombin, Tumor Necrosis Factor Alpha (TNF?), and Urokinase-type Plasminogen Activator (uPA).

Abstract: In one aspect, the present disclosure provides a system and method for the identification and characterization of a transglutaminase. Further, the present disclosure provides transglutaminase enzymes for forming isopeptide bonds, methods of forming isopeptide bonds in the presence of transglutaminases, and substrate tags for use with transglutaminases.

Abstract: A method, system and non-transitory computer readable storage medium for coverage determination of DUT tests. The method may include obtaining via an input device a selection of a subset of interest of coverage reports included in one or a plurality of saved merged coverage reports. The method may further include using a processing unit, finding a saved merged coverage report of said one or a plurality of saved merged coverage reports that has the smallest number of unwanted coverage reports. The method may also include using the found saved merged coverage report to obtain a merged coverage report that corresponds to the subset and merging the merged coverage report with the newly gathered coverage reports into a new merged coverage report.

Abstract: The invention is a method of separating full-length oligonucleotide products from shorter synthesis by-products by using mRNA display and affinity purification followed by recovery and amplification of the selected oligonucleotide.

Abstract: The invention comprises systems, methods and arrays for identification and optimization of novel peptide binders to protein targets. Embodiments include steps of peptide binder discovery, core peptide maturation, N-terminal and C-terminal extension and kinetics analysis of the final peptide binder.

Abstract: The present invention is a novel protocol for the massively parallel production of improved MIPs. The molecular improvements to the MIP cover the manufacturing of the probes, the workflow, the addition of unique sequence elements which connote sample specificity, and a sequence tag which uniquely identifies a specific molecule present in the initial sample population. Lastly, this invention also is combined with an empirical optimization strategy that overcomes issues of both locus representation and allelic bias. This improved technique is scalable and can be utilized to amplify targets comprised of a single locus' amplicon up to targeting more than 1 million loci.

Abstract: The discovery of distinct modes of asymmetric catalysis has the potential to rapidly advance chemists' ability to build enantioenriched molecules. As an example, the use of chiral cation salts as phase-transfer catalysts for anionic reagents has enabled a vast set of enantioselective transformations. A largely overlooked analogous mechanism wherein a chiral anionic catalyst brings a cationic species into solution is itself a powerful method. The concept is broadly applicable to a number of different reaction pathways, including to the enantioselective fluorocyclization of olefins, and dearomatization of aromatic systems with a cationic electrophile-transferring (e.g., fluorinating) agent and a chiral phosphate catalyst. The reactions proceed in high yield and stereoselectivity. The compounds and methods of the invention are of particular value, especially considering the scarcity of alternative approaches.

Abstract: The present disclosure provides methods and systems for sequence specific nucleic acid target capture comprising enzymatic reactions. The present disclosure relates to a plurality of oligonucleotide probes for capture and subsequent detection of target nucleic acid sequences, using flap endonucleases, ligases, and/or additional enzymes, proteins or compounds, on substrates, for example microarray slides, and in solution formats.

Abstract: The present invention relates to a process for the purification of Sucralose of formula (I) which comprises acetylation of substantially impure Sucralose to its penultimate intermediate 4,1?,6?-trichloro-4,1?,6?-trideoxy galactosucrose penta-acetate (TOPSA) of formula (VI) followed by purification of TOPSA and then deacetylation of purified TOPSA.