Research Institute of Molecular Pathology

The Research Institute of Molecular Pathology (IMP) is a basic biomedical research center sponsored largely by the pharmaceutical company Boehringer Ingelheim, and located in the Campus Vienna Biocenter (VBC). The IMP's primary goal is to conduct innovative basic research in the molecular life sciences. Over the years, the IMP has rapidly established a strong international reputation, reflected in the numerous national and international awards bestowed upon its scientists, and the many key research papers published in top-ranking scientific journals each year. The IMP attracts researchers from all over the world, almost all of whom move on after several years to leading scientific positions elsewhere in Austria or abroad. This constant turnover gives the IMP a young, dynamic and international spirit, and the flexibility to continually hire promising new scientific talents and expand its research activities into exciting new directions. Researchers at the IMP are committed to basic science, striving to unlock life's fundamental mysteries at the molecular and cellular levels.

Address
Campus-Vienna-Biocenter 1
Website
https://www.imp.ac.at

Subscribe to rss feed

Earth Sciences

New study explores functionality in aquatic ecosystems

The functions of water-dominated ecosystems can be considerably influenced and changed by hydrological fluctuation. The varying states of redox-active substances are of crucial importance here. Researchers at the University ...

Paleontology & Fossils

18.5 million year old vine fossil identified as new species

An 18.5 million-year-old fossil found in Panama provides evidence of a new species and is the oldest reliable example of a climbing woody vine known as a liana from the soapberry family. The discovery sheds light on the evolution ...

Cell & Microbiology

Essential virulence proteins of corn smut discovered

To infect its host plant maize, the fungal parasite Ustilago maydis uses a complex of seven proteins. Numerous findings reveal an essential role of the complex in causing disease and suggest a widespread occurence in fungal ...

Nanomaterials

Discovery of huge Raman scattering at atomic point contact

Nanofabrication of electronic devices has reached a single nanometer scale (10-9 m). The rapid advancement of nanoscience and nanotechnology now requires atomic-scale optical spectroscopy in order to characterize atomistic ...