Abstract: The present technology provides an approach to designing libraries of peptide sequences for discovery and testing of significantly more motifs than would be otherwise available in a given fixed library format. The technology includes a plurality of x-mers embedded in N-mer peptides sequences, where N and x are integers and where N is greater than x. This approach provides for the representation of multiple unique x-mer peptides in a single N-mer peptide feature.

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 and compositions for detecting the formation of cyclized peptides from linear peptides on a microarray by contacting the microarray with a detectable protein. The cyclized peptides include tags that are activated upon cyclization, facilitating the detection of successful cyclization reactions. In additional aspects, the invention relates to developing fragmented peptide tags that, upon cyclization, bind to detectable proteins. Additionally, the invention relates to methods of generating linear and cyclic peptides subarrays on a microarray.

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 and compositions for detecting the formation of cyclized peptides from linear peptides on a microarray by contacting the microarray with a detectable protein. The cyclized peptides include tags that are activated upon cyclization, facilitating the detection of successful cyclization reactions. In additional aspects, the invention relates to developing fragmented peptide tags that, upon cyclization, bind to detectable proteins. Additionally, the invention relates to methods of generating linear and cyclic peptides subarrays on a microarray.

Abstract: The present disclosure provides a method of identifying a substrate for a protease including contacting a protease to one of a first array and a second array, each array having the same plurality of features, each feature including at least one sequence linked to a solid support. The at least one sequence includes a candidate protease substrate linked to a reporter. The method further includes contacting a detectable element to each of the arrays to allow binding of the detectable element to the reporter, and detecting first and second signals resulting from binding of the detectable element to the each of the reporters in the first and second arrays. The method further includes comparing the first signal and the second signal to identify a difference in the first signal and the second signal, and identifying at least one candidate protease substrate as a substrate for the protease.

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 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.