As well as the potential to produce pigment - correct skin grafts, the team's 3D bioprinting method could also be used to develop skin constructs for toxicology testing and
fundamental cell biology research.
«It will be immediately relevant to many areas of
fundamental cell biology research and practical applications such as drug discovery.
Not exact matches
I could go on and elaborate on a number of other disciplines or facts that creationists have to pretend into oblivion to retain their faith, including the Ice Ages, cavemen and early hominids, much of microbiology, paleontology and archeology, continental drift and plate tectonics, even large parts of medical
research (medical
research on monkeys and mice only works because they share a common ancestor with us and therefore our
fundamental cell biology and basic body architecture is identical to theirs).
Even large parts of medical
research would be rendered unusable but for the fact that monkeys and mice share a common ancestor with us and therefore our
fundamental cell biology and basic body architecture is identical to theirs.
The method opens new opportunities for
fundamental research in
cell biology and for applications in biotechnology and medicine.
«This year's Nobel Laureates have been studying this
fundamental problem and solved the mystery of how an inner clock in most of our
cells in our bodies can anticipate daily fluctuations between night and day to optimize our behavior and physiology... since the paradigm shifting discoveries by Hall, Rosbash and Young, circadian
biology has developed into a highly dynamic
research field with vast implications for our health and well - being.»
«The exciting part of this work is not just that we made hydrogels, but that we're now equipped with this powerful technique that lets us ask
fundamental — and very challenging — questions about them,» says Takanari Inoue, Ph.D., an associate professor of
cell biology at the Johns Hopkins University School of Medicine and senior author of the report on the
research published online Nov. 6 in the journal Nature Materials.
Emerging and established investigators leading 32
research groups who share our interest in
fundamental stem
cell biology.
Research in his Laboratory of Stem
Cell Bioengineering (LSCB) is at the interface of stem cell biology and biomolecular engineering to gain fundamental insight into how protein components of niches control the fate of adult stem ce
Cell Bioengineering (LSCB) is at the interface of stem
cell biology and biomolecular engineering to gain fundamental insight into how protein components of niches control the fate of adult stem ce
cell biology and biomolecular engineering to gain
fundamental insight into how protein components of niches control the fate of adult stem
cells.
With their deep expertise in the
biology of senescent
cells, the Campisi lab will be focused on
fundamental research into questions like how senescent
cells vary in their susceptibility and resistance to immune clearance (depending on factors like their tissues of residence or the pathway that led them into senescence); the targets and mechanisms used by NK
cells to clear senescent
cells; and why subsets of senescent
cells might persist when their similarly - situated neighbors are cleared out (and what might allow us to overcome that resistance).
Research The EuroSyStem Federation brings together elite European research teams to create a unique and world - leading programme in fundamental stem cell
Research The EuroSyStem Federation brings together elite European
research teams to create a unique and world - leading programme in fundamental stem cell
research teams to create a unique and world - leading programme in
fundamental stem
cell biology.
Chlamydomonas is used as a model system for
research on many very
fundamental questions in
cell and molecular
biology: how do
cells move?
My laboratory also conducts
fundamental research using genetics, biochemistry,
cell biology and proteomics to define mechanisms of ECM assembly and turnover and their effects on
cell behavior.
The Sanford Consortium for Regenerative Medicine's basic
research program is targeted to understand the
fundamental biology of stem
cells and pluripotency, and consists of five
research areas:
«Over recent years, major investments in
research in areas like immunology,
cell biology and genetics have provided impressive insights into the basic
biology of
fundamental processes, such as injury, repair and neoplasia (abnormal cancerous tissue growth),» Elias said.