Contact
Quote

Home » Publications

Publications

Discover how PEPperPRINT Peptide Microarray products have been used in different fields of research.

Filter by
Filtered (3)
Filters
Show (3)
Cancel
Showing most recent

FUSION PROTEIN CONSTRUCTSCOMPRISING ANTI-C3d ANTIBODY AND FACTOR H

Curtis, Michael Steven; Storek, Michael; Violette, Shelia Marie; Kalled, Susan L.; Fahnoe, Kelly C.; Huang, Cheng Ran; Stark, Ellen Garber; Taylor, Frederick Robbins; Caravella, Justin Andrew; Holers, Vernon Michael; Gambel, Phillip
Jan 2021
Provided herein are fusion protein constructs that can bind a complement-associated antigen, comprising a targeting moiety and a complement modulator protein, or a fragment thereof or a variant thereof. The targeting moiety is an antibody or an antigen binding fragment thereof, in some examples. Further provided are methods of using the fusion protein constructs, for example, in treating complement mediation conditions.

Marker Sequences for Diagnosing and Stratifying Systemic Sclerosis Patients

Budde, Petra
Jan 2021
The present invention relates to methods for identifying markers for systemic sclerosis (also scleroderma; SSc) and to the markers identified with the aid of this method, which can differentiate between SSc and other autoimmune diseases on the one hand and between different SSc subgroups on the other hand. The invention also relates to panels, diagnostic devices and test kits which comprise these markers, and to the use and application thereof, for example for the diagnosis, prognosis and therapy control of SSc. The invention also relates to methods for screening and for validating active substances for use in SSc.

Peptide Arrays with a Chip

Nesterov, Alexander; Dörsam, Edgar; Cheng, Yun-Chien; Schirwitz, Christopher; Märkle, Frieder; Löffler, Felix; König, Kai; Stadler, Volker; Bischoff, Ralf; Breitling, Frank
Jan 2010
10.1007/978-1-60761-845-4_9
Today, lithographic methods enable combinatorial synthesis of >50,000 oligonucleotides per cm2, an advance that has revolutionized the whole field of genomics. A similar development is expected for the field of proteomics, provided that affordable, very high-density peptide arrays are available. However, peptide arrays lag behind oligonucleotide arrays. This is mainly due to the monomer-by-monomer repeated consecutive coupling of 20 different amino acids associated with lithography, which adds up to an excessive number of coupling cycles. A combinatorial synthesis based on electrically charged solid amino acid particles resolves this problem. A computer chip consecutively addresses the different charged particles to a solid support, where, when completed, the whole layer of solid amino acid particles is melted at once. This frees hitherto immobilized amino acids to couple all 20 different amino acids in one single coupling reaction to the support. The method should allow for the translation of entire genomes into a set of overlapping peptides to be used in proteome research.

Quote form