To understand the functional role of miR - 7 in CSCs, we first searched its potential target genes that may be involved in
stem cell physiology using multiple database including TargetScan, PicTar, miRanda, and SLOAN - Kettering.
Not exact matches
«We have confirmed what earlier studies indicated, and gained new knowledge about molecular characteristics of these neural
stem cells,» says Milos Pekny, professor at the Institute of Neuroscience and
Physiology.
To start with human
stem cells will be a powerful way to understand what goes on in the development of human
physiology.
«Proper blood
cell production is dependent on functioning hematopoietic
stem and progenitor
cells that are destroyed during conditioning procedures for transplantation or following bone marrow injury,» said the study's first author Kevin A. Goncalves, who performed this research as part of his PhD studies in cellular and molecular
physiology at the Sackler School.
In a published study, the team of researchers implanted human pluripotent
stem cells in a special line of pigs developed by Randall Prather, an MU Curators Professor of reproductive
physiology.
«This study is a great example of a highly collaborative endeavor that combines expertise in systems RNA biology,
stem cell and neuronal biology,
physiology, and cutting - edge imaging techniques.
Stem cell therapies are clinically unproven, the
physiology of head trauma remains a mystery, and rest is still the best Rx for pulled muscles.
They wondered if there was a mutation unique to cancer
stem cells, or a hidden role for the microRNA in normal
physiology.
A new study in the American Journal of
Physiology — Heart and Circulatory
Physiology reports a more practical approach called microsphere therapy that can be kept on - hand and administered more readily than
stem cells.
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Cell Biology,
Physiology, and Metabolism Cancer Biology Developmental,
Stem Cell and Regenerative Biology Gene Therapy and Vaccines Genetics and Epigenetics Microbiology, Virology and Parasitology
Yu - Hua Tseng, Ph.D., is an Investigator in the Section on Integrative
Physiology & Metabolism at Joslin Diabetes Center, Assistant Professor of Medicine at Harvard Medical School, and Principal Faculty of the Harvard
Stem Cell Institute.
We will have major players give state of the art talks in sessions including Avian Behavior, Avian
Physiology, Avian
Stem Cell & Transgenesis - related Techniques, Developmental Biology, Genetic / Genomic Analysis and the Origin and Evolution of Birds, etc..
Despite their lack of cBAT, the mutant mice were able to «maintain their body temperature perfectly,» says senior author Yu - Hua Tseng, Ph.D., Assistant Professor of Medicine at Harvard Medical School, Principal Faculty of the Harvard
Stem Cell Institute and an Investigator in the Section on Integrative
Physiology and Metabolism.
Embryonic
stem cells, discovered in the Department of Genetics in the 1980s (for which Sir Martin Evans was awarded the Nobel Prize in
Physiology or Medicine 2007), have become an important tool for developmental biology, understanding disease, and in regenerative medicine due to the ability to give rise to all
cell types in culture.
Meet and interact with colleagues inside and outside your discipline (i.e.
physiology, pathology, developmental biology,
stem cell biology,
cell and molecular regulation, vascular bioengineering and many more)
Stem cell therapy used to regenerate injured tissue in the heart restores synchronous pumping, shows research published today [1 September] in The Journal of
Physiology.
In 2012, Dr. Yamanaka was awarded the Nobel Prize in
Physiology or Medicine for his discovery that skin
cells can be reprogrammed into pluripotent
stem cells by changing just four key genes.
This discovery, which earned Dr. Yamanaka the 2012 Nobel Prize in
Physiology or Medicine, has revolutionized the fields of
stem cell biology and regenerative medicine and has allowed scientists to model disease from patient - derived
cells in a dish, thus working towards a new era of personalized medicine.
Dr. Péault, a professor in the Department of Pediatrics,
Cell Biology and
Physiology at the University of Pittsburgh School of Medicine, recognized the importance of determining the origin of these muscle - derived
stem cells.
Individual topics addressed each day are as diverse as the communication of science, drug development, adult
stem cells, sustainable food systems, translational
physiology, and investigative pathology.
«These insights will lead to new treatments by hindering a cancer's ability to survive,» said John Cunningham, MD, section chief of pediatric hematology / oncology and professor of pediatrics,
physiology and
stem cell research.
Shinya Yamanaka MD, PhD, a senior investigator at the Gladstone Institutes has won the 2012 Nobel Prize in
Physiology or Medicine for his discovery of how to transform ordinary adult skin
cells into
cells that, like embryonic
stem cells, are capable of developing into any
cell in the human body.
These results open new perspectives in the regeneration of articular cartilage as well as in the establishment of
stem cell - based models of cartilage development,
physiology, and possibly pathology.
Yamanaka's 2006 discovery of induced pluripotent
stem cells won him the 2012 Nobel Prize in Medicine or
Physiology.
His pioneering mouse embryonic
stem (ES)
cell work in the 1980s, demonstrating germ - line transmission and the great potential of ES
cells to generate mice carrying mutations in endogenous genes, established milestones in a field that saw the award of the 2007 Nobel Prize in
Physiology or Medicine to Mario Capecchi, Martin Evans, and Oliver Smithies.
This new understanding will accelerate studies of
stem cell biology,
cell therapy, as well as work related to multiple aspects of gut
physiology including the burgeoning field of the gut microbiome.
The department has laboratories equipped for physiological research,
cell biology, membrane
physiology, PCR technology, gene expression, kinesiology, biomechanical testing,
stem cell biology, and assisted reproduction.
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