Not exact matches
«We have identified an entirely new mechanism for how the
cell responds to
stress,» said Christopher V. Nicchitta, Ph.D., a professor of
cell biology at Duke University School of Medicine.
Weinberg, who is also a professor of
biology at MIT, says he has created cancer
cells in culture by adding oncogenes — as, he
stresses, have hundreds of others.
Researchers from immune
biology professor Annette Oxenius's group have now discovered what keeps NK
cells from killing off their «colleagues from the other department» of the immune system: healthy CD8 +
cells are able to detect the immune messenger substance type 1 interferon, which binds to specific receptors on the surface of these immune
cells and thereby conceals their
stress.
Research interests: protein and RNA transport, nuclear function and organization,
stress, signaling, chaperones, nanobiology, stem
cell biology, microscopy, quantitative image analysis, high - throughput screening.
Corresponding author: Birendranath Banerjee, Group leader, Molecular
stress and stem
cell biology group, Disease
Biology Lab, KIIT School of Biotechnology, KIIT University, Bhubaneshwar - 751024, Odisha, India: Email: bnbanerjee ac.in, phone: +91 - 9090840042 Fax: 0674-2378776
He then laid out his strategy for figuring out how to take advantage of the tumor - targeting T
cells that patients already possess, and
stressed the need for improved systems
biology tools, including the ability to perform automated, high throughput analyses to perform deep interrogations into patients» T
cell repertoires.
AGEs impair this axonal transport and alpha adrenergic blockers (acting on
cell «
stress receptors») can exert a protection of this phenomenon.Thus, will look on the molecular mechanisms of this process (crosslinking of motor proteins in axonal transport, energy depletion etc.) by analyzing the colocalization of fluorescence staining of (motor --RRB- proteins and tagged AGE - molecules and by methods of molecular
biology.
Altieri and his team are currently focused on three programs to understand the
biology of survivin with respect to
cell cycle progression, in particular, mitosis,
cell survival and the cellular
stress response and how exploiting these pathways may provide new cancer therapeutics.
Tracy's broad research interests include
stress responses,
cell biology, immunity and disease of marine invertebrates.