Download Mobile App

Video Library

Events

more events

13 Jun 2026 - 16 Jun 2026

ESHG 2026 Hybrid Conference – European Society of Human Genetics

17 Jun 2026 - 19 Jun 2026

WHX Miami 2026

28 Jun 2026 - 01 Jul 2026

ECB 2026 - European Congress on Biotechnology

Partner Sites

HospiMedica

WHX in Dubai (formerly Arab Health) to debut specialised Biotech & Life Sciences Zone as sector growth accelerates globally

3D Bioprinting Pushes Boundaries in Quest for Custom Livers

WHX in Dubai (formerly Arab Health) to bring together key UAE government entities during the groundbreaking 2026 edition

First-Of-Its-Kind Probe Monitors Fetal Health in Utero During Surgery

Interoperability Push Fuels Surge in Healthcare IT Market

Peptoids that Mimic Antigen Shapes May Lead to a New Generation of Diagnostic Tests

By LabMedica International staff writers
Posted on 22 Jun 2016

A novel immunoassay for detection of HIV is based on anti-HIV antibodies that recognize specific three-dimensional shapes in a massive, randomly generated library of synthetic peptoid molecules.

Investigators at the University of Pittsburgh School of Medicine (PA, USA) hypothesized that a random combinatorial library of synthetic poly-N-substituted glycine oligomers, or peptoids, could represent a random "shape library" in antigen space.

To test this theory, the investigators synthesized and screened a "one bead one compound" combinatorial library of peptoids, in which each bead displayed an eight-mer (repeating unit) peptoid with ten possible different amines at each position (108 theoretical variants). More...

By screening one million peptoid beads the investigators found 112 (approximately one in 10,000) that preferentially bound immunoglobulins from human sera known to be positive for anti-HIV antibodies. Reactive peptoids were re-synthesized and rigorously evaluated in plate-based ELISA-style tests.

Results published in the May 12, 2016, online edition of the Journal of Immunological Methods revealed that four peptoids showed very good, and one showed excellent, properties for establishing a sero-diagnosis of HIV. These results demonstrated the feasibility of constructing sero-diagnostic assays for infectious diseases from libraries of random molecular shapes.

"This "needle-in-a-molecular haystack" approach is a new way to develop diagnostic assays," said senior author Dr. Donald S. Burke, director of the Center for Vaccine Research at the University of Pittsburgh School of Medicine. "The method does not rely on starting with known viral components. This is important because there are conditions for which there is not a known antigen, such as newly emerged epidemics, autoimmune diseases or even responses to traumatic injury."

"This technology means that we may be able to take a single drop of blood from a patient and detect antibodies to all manner of infections, cancers or other conditions they may be carrying or been exposed to," said Dr. Burke. "We hope that this is the first step toward development of an "Epi-chip" that can be used to reconstruct a person's entire exposure history."

Related Links:
University of Pittsburgh School of Medicine

Visit expo >

Gold Member

Quality Control Material

iPLEX Pro Exome QC Panel

POC Helicobacter Pylori Test Kit
Hepy Urease Test

Clinical Chemistry System

P780

Hemodynamic System Monitor

OptoMonitor

Read the full article by registering today, it's FREE!

Register now for FREE to LabMedica.com and get access to news and events that shape the world of Clinical Laboratory Medicine.

Free digital version edition of LabMedica International sent by email on regular basis
Free print version of LabMedica International magazine (available only outside USA and Canada).
Free and unlimited access to back issues of LabMedica International in digital format
Free LabMedica International Newsletter sent every week containing the latest news
Free breaking news sent via email
Free access to Events Calendar
Free access to LinkXpress new product services
REGISTRATION IS FREE AND EASY!