Proteomics reveals new biological insights
The majority of investigations that reveal a deep mechanistic understanding of disease, genetic variation and drug mechanism of action require direct analysis of proteins, their modifications and their interaction partners.
Focused analyses of biological and clinical systems using mass spectrometry–based technologies detect, identify and quantify proteins and their modifications and interaction partners in cells and tissues under drug treatment or development or during disease perturbation. In this way, MS-based proteomics directly measures the impact and integrative consequences of genomic alterations. When these analyses are combined with specific chemistries, researchers gain insights into the mechanism of action of drugs, the identities of potential new therapeutic targets and new biological knowledge.
The three speakers selected by the editorial leadership of Molecular & Cellular Proteomics to present their work at Discover BMB are a mix of early-career and established investigators who are pushing the boundaries of mass spectrometry–based proteomics combined with elegant chemistries to provide new biological and clinical knowledge.
Katherine Donovan is a group leader and lead scientist at the Dana–Farber Cancer Institute. Her focus is on development and application of targeted proteome degradation and on deepening our understanding of the ubiquitin proteasome system for therapeutic purposes. Read more about Katherine Donovan.
Jim Wells is a professor of pharmaceutical chemistry at the University of California, San Francisco. He focuses on understanding and modulating signaling processes in human cells through protein and small-molecule design. He is especially interested in the interprotein circuitry of pathways involved in cell death and inflammation and the intraprotein allosteric circuitry that governs how distant functional sites in one protein communicate. Read more about Jim Wells.
Lan Huang is a professor of physiology and biophysics in the School of Medicine at the University of California, Irvine. Her research focuses on developing and employing novel mass spectrometry–based proteomic strategies for comprehensive analysis of macromolecular protein complexes to define their composition, heterogeneity, modification, interaction and structure. Read more about Lan Huang.
Donovan, Wells and Huang will present their research at a symposium chaired by Steven Carr on Tuesday, March 28, 2:15 to 3:45 p.m., at .
Enjoy reading ASBMB Today?
Become a member to receive the print edition four times a year and the digital edition monthly.
Learn moreFeatured jobs
from the
Get the latest from ASBMB Today
Enter your email address, and we’ll send you a weekly email with recent articles, interviews and more.
Latest in People
People highlights or most popular articles
Cedeño–Rosario and Kaweesa win research award
The award honors outstanding early-career scientists studying cancer, infectious disease and basic science.
ASBMB names 2026 award winners
Check out their lectures at the annual meeting in March in the Washington, D.C., metro area.
Peer through a window to the future of science
Aaron Hoskins of the University of Wisconsin–Madison and Sandra Gabelli of Merck, co-chairs of the 2026 ASBMB annual meeting, to be held March 7–10, explain how this gathering will inspire new ideas and drive progress in molecular life sciences.
Castiglione and Ingolia win Keck Foundation grants
They will receive at least $1 million of funding to study the biological mechanisms that underly birds' longevity and sequence–function relationships of intrinsically disordered proteins.
How undergrad research catalyzes scientific careers
Undergraduate research doesn’t just teach lab skills, it transforms scientists. For Antonio Rivera and Julissa Cruz–Bautista, joining a lab became a turning point, fostering critical thinking, persistence and research identity.
Simcox and Gisriel receive mentoring award
They were honored for contributing their time, knowledge, energy and enthusiasm to mentoring postdocs in their labs.