Be introduced to the latest technologies and methods for automating and standardizing multiplexed IHC methods, and for measuring
complex cellular interaction parameters
As nanomedicine advances from passive technologies, in which nanoparticles act as vehicles for drugs, to active treatments that involve more
complex cellular interactions, specialized oversight may become ever more necessary, says Roco.
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.
Although blood cells serve multiple roles in the body and have
complex interactions with other
cellular materials, most synthetic blood products have aimed to just stick to the bare basics — shuttling oxygen from the lungs to different vital organs and then bringing carbon dioxide back to the lungs to be exhaled.
With worms as his subjects, he plumbs the
cellular mechanisms driving the
complex protein
interactions regulating lifespan, some of which — remarkably — have been conserved through evolution all the way from his microscopic Caenorhabditis elegans to us.
Cell signaling is a
complex process where
interactions between cells and their environment govern basic
cellular functions and activities.
«This camera has the potential to greatly enhance our understanding of very fast biological
interactions and chemical processes that will allow us to build better models of
complex, dynamical systems such as
cellular respiration, or to help doctors better deliver and monitor light - based therapies,» says Richard Conroy, Ph.D., program director for Optical Imaging at NIBIB.
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.
Look up «lysogenic virus» and you read: «a special type of virus bacterial cell
interaction maintained by a
complex cellular regulatory mechanism».
Proteins are responsible for the vast majority of the
cellular functions that shape life, but like guests at a crowded dinner party, they interact transiently and in
complex networks, making it difficult to determine which specific
interactions are most important.
Details that can be included are biochemical reactions; gene regulatory networks; genetic
interactions; proteins, small molecules, DNA, RNA,
complexes and their
cellular locations;
complex assembly and transport; post-translational protein modifications; citations; experimental evidence; and links to other databases e.g. protein sequence annotation.
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.
According to a release from Dr. Hassan Dihazi, editor in chief, the journal covers all areas of proteomics including basic proteomic research; structural, functional, property, and
interaction analysis of
cellular systems, organelles, and protein
complexes; and protein expression profiling for the discovery and validation of diagnostic and prognostic disease biomarkers.
Therefore, key challenges for biology in the twenty - first century are the exploration of the structure and the dynamics of this
complex inter - and intra -
cellular web of
interactions that contribute to the structure and function of a living cell.
The
complex networks,
interactions, and responses of immune cells produce diverse
cellular ecosystems composed of multiple cell types, accompanied by genetic diversity in antigen receptors.
In conclusion, our study highlights the importance of studying gene — gene
interactions in
complex diseases and provides insights into the underlying
cellular and molecular mechanisms.
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.