Brandon Woods successfully defends dissertation March 17, 2023 Congratulations to Brandon Woods on his successful dissertation defense!
New Career step for Cell Bio Instructor March 7, 2023 Congratulations to Giuseppe Di Caprio on his new position as Associate Professor at the University of Strathclyde
Cantley Lab reveals the specificity code of the human serine/threonine kinome March 1, 2023 An atlas of substrate specificities for the human serine/threonine kinome
Pellman postdoc receives Damon Runyon Fellowship February 27, 2023 Postdoc Archana Krishnamoorthy from the Pellman Lab joins the newest class of Damon Runyon Fellows.
Lew Cantley named IUBMB Jubilee Award Lecturer February 23, 2023 Congratulations to Lew Cantley who will be named the IUBMB Jubilee Lecturer at the 3bdtworkshop!
Team from Nikon Imaging Center receives Chan Zuckerberg Grant January 30, 2023 Jennifer Waters, Anna Jost, and Talley Lambert (NIC@HMS) received a Chan Zuckerberg Initiative Advancing Imaging Through Collaborative Projects grant.
Lucas Farnung named a 2023 Damon Runyon-Rachleff Innovator January 24, 2023 Lucas Farnung receives 2023 Damon Runyon-Rachleff Innovation Award
New Career step for Cell Bio postdoc January 17, 2023 Congratulations to Sandra Coveney on her new position with Cell Signaling Technologies
Goldberg postdoc to head lab at Mississippi State University December 16, 2022 Congratulations to postdoc Galen Collins from the Goldberg Lab!
Gygi Lab presents iPSI, a novel resource for Phosphoproteomics December 12, 2022 The Iterative Synthetically Phosphorylated Isomers (iSPI) is a library of >110,000 phosphoserine-containing peptides derived from the observed human phosphoproteome.
Rapoport Lab unravels the peroxisomal protein import cycle. December 8, 2022 Rapoport Lab reveals how a receptor called PEX5 imports proteins into peroxisomes by cycling between the peroxisomal lumen and the cytosol.
Shao Lab reveals how misoriented membrane proteins are corrected at the ER December 5, 2022 Shao Lab reveals how correction of aberrant transmembrane proteins is favored over degradation at the endoplasmic reticulum
