Not exact matches
The fields within biology are further divided based
on the scale at which organisms are studied and the methods used to study them: biochemistry examines the fundamental chemistry of life; molecular biology studies the complex
interactions of systems of biological molecules;
cellular biology examines the basic building block of all life, the cell; physiology examines the physical and chemical functions of the tissues and organ systems of an organism; and ecology examines how various organisms interrelate.
Named after the IBM Blue Gene supercomputer it relies
on, the Blue Brain Project has started modelling — in every detail — the
cellular infrastructure and electrophysiological
interactions within the cerebral neocortex, which represents about 80 % of the brain and is believed to house cognitive functions such as language and conscious thought.
By systematically illustrating key
cellular processes and multilayered circuit - host
interactions, it further sheds light
on quantitative biology towards a better understanding of complex bacterial physiology.
«Our study
on the TACC3 - chTOG
interaction will allow
cellular biologists and researchers
on microtubule dynamics to better understand how microtubule assembly is regulated during
cellular division,» says Montoya, and he anticipates that «it could also help in developing new anti-microtubule drugs, providing more effective therapeutic options in cancer treatment.»
«When we study the
interactions between the host cell and the virus, we get information about both of them and about how
cellular machinery is working under viral infection,» says Alessia Ruggieri, a group leader and virologist at University of Heidelberg in Germany and senior researcher
on the study.
With respect to biological applications, the group is focusing
on how
cellular heterogeneity and cell - to - cell communication drive ensemble - level decision - making in the immune system, with an emphasis
on «two - body»
interaction (e.g., host cell - virus
interactions, innate immune control of adaptive immunity, tumor infiltration by immune cells).
His research focuses
on molecular mechanisms that orchestrate
cellular regulation through protein - RNA
interactions.
The HFSP supports novel, innovative and interdisciplinary basic research focused
on the complex mechanisms of living organisms; topics range from molecular and
cellular approaches to systems and cognitive neuroscience and the
interactions between organisms.
It concentrates
on analysis of gene function at all levels: the gene and its product, the cell and
cellular interactions, embryonic tissues and the entire animal.
Research in our laboratory focuses
on the
cellular and molecular mechanisms of action of substances of abuse and their
interaction with neurotransmitter systems.
Centmitor - 1, a novel acridinyl - acetohydrazide, possesses similar molecular
interaction field and antimitotic
cellular phenotype as rigosertib,
on 01910.
The journal focuses broadly
on cellular biology, physiology, biochemistry, molecular biology, genetics, development, plant - microbe
interaction, genomics, bioinformatics, and molecular evolution.
Our strong expertise allows us study lipid - protein
interaction based phenomena at different scales, from the organ and
cellular systems down to minimal synthetic systems in which we can control the proteins as well as the lipid, for instance to monitor the allosteric effects of specific lipids
on fundamental receptors such as the EGF receptor (Coskun et al (2011) PNAS) and the insulin receptor.
In addition, a fluorescent microscope was used to examine host - pathogen
interaction on a
cellular level.
These
interactions are typically plentiful during exercise, where continuous movement meets specific complex coordinations throughout different systems within the body, often generating
on the
cellular level.