Basic genetic research on human embryos already happens in many countries.
Not exact matches
His
research career, peppered with landmark discoveries that go all the way from uncovering the
basic principles of how DNA instructs cells to make proteins to unraveling the
genetic blueprint of the puffer fish, is an indelible part of the history of molecular biology.
Nearly 100 years later,
research teams on both sides of the Atlantic were vying to be the first to decipher the structure of DNA, the
genetic material that is the
basic molecule of life.
It takes
basic research like this to understand the intricate
genetic development but the researchers say it opens up some really cool opportunities for future biotechnology.
His current
research uses a variety of molecular, biochemical, and
genetic approaches to study the
basic biology of mesenchymal stem cells (MSCs).
Understanding the physiological mechanisms that cause or, as in this case, prevent
genetic instability is a
basic question in Molecular Biology and Biomedicine which is of vital importance in the
research against cancer, given that
genetic instability is a distinctive feature of tumorous cells.
The development of «bioinformatic packages» for the analysis of
genetic variability and genotype - phenotype relationships will be of great value for any
basic and applied comparative genomics
research issues.
In 2003, in «A vision for the future of genomics
research,» Francis Collins — who was then the director of the National Human Genome Research Institute (NHGRI), part of the National Institutes of Health — and his co-authors encouraged collaboration between basic scientists and clinical scientists, and between life scientists and social scientists, to address the ethical, legal, and social implications of genomic and genetic research and the resulting new techn
research,» Francis Collins — who was then the director of the National Human Genome
Research Institute (NHGRI), part of the National Institutes of Health — and his co-authors encouraged collaboration between basic scientists and clinical scientists, and between life scientists and social scientists, to address the ethical, legal, and social implications of genomic and genetic research and the resulting new techn
Research Institute (NHGRI), part of the National Institutes of Health — and his co-authors encouraged collaboration between
basic scientists and clinical scientists, and between life scientists and social scientists, to address the ethical, legal, and social implications of genomic and
genetic research and the resulting new techn
research and the resulting new technologies.
A team led by scientists at St. Jude Children's
Research Hospital and Mayo Clinic has identified a
basic biological mechanism that kills neurons in amyotrophic lateral sclerosis (ALS) and in a related
genetic disorder, frontotemporal dementia (FTD), found in some ALS patients.
In its twenty years of operation, the NRSA program has made it possible for many thousands of talented individuals in the
basic biomedical, behavioral, and clinical sciences to sharpen their
research skills and to apply those skills to topics of special concern to the nation, such as aging, hypertension, the
genetic basis of disease, acquired immune deficiency syndrome (AIDS), cancer, environmental toxicology, nutrition and health, and substance abuse.
Members of the section have discovered three of the nine
genetic subtypes of HPS, and serve as authorities on the clinical and
basic research aspects of this group of diseases.
Over the years, Dr. Nimer has conducted extensive clinical and
basic science
research into the treatment and
genetic basis of adult leukemia and bone marrow failure states, defining the regulatory mechanisms that control the production of blood cells and exploring ways to improve the treatment of blood based cancers.
This
basic research study provides an answer to one of the key questions within the field of biology: How is the development of blood cell types regulated after the original
genetic information has been transcribed into messenger RNA?
Some are at a
basic research level, where investigators study
genetic variation to identify pathways that can be targets for common diseases, such as diabetes and common birth defects.
Translational reproductive
genetic research is aimed at
basic as well as applied aspects of pre - and postimplanation development.
PHENOMIN - TAAM (The Transgenesis and Archiving of Animal Models) provides services for
basic research, biomedical and pharmaceutical
research covering the creation, transgenesis, health status monitoring, the cryopreservation, the revival, the
genetic analysis and the functional imaging.
However, they remain supportive of
basic CRISPR
research on animals and non-embryonic human cells to see if human germline gene therapy might be helpful in the future to fix
genetic mutations.
The Hereditary Disease Foundation (HDF) aims to cure
genetic illness by supporting
basic biomedical
research.
In
basic research, xenopus is used for studies in development biology, cell biology, molecular
genetic and in the area of ecotoxicology.
The third webinar, and the final one will focus on animal models of obesity and diabetes, both talking about
genetic models, as well as dietary models and how they are used in
basic research, but also in pharmaceutical and biotech
research.
December 21, 2015 — Noteworthy NIH advances in
basic research include charting human
genetic variation across the globe, the discovery of lymphatic vessels in the central nervous system, and insights into energy - burning fat cells.
Research ranges from basic molecular and genetic studies to epidemiological and clinical research on cancer prevention, early diagnosis, molecular characteristics of the cancer process and new treatments for cancer using drugs and radio
Research ranges from
basic molecular and
genetic studies to epidemiological and clinical
research on cancer prevention, early diagnosis, molecular characteristics of the cancer process and new treatments for cancer using drugs and radio
research on cancer prevention, early diagnosis, molecular characteristics of the cancer process and new treatments for cancer using drugs and radiotherapy.
Research efforts in each program span from bench - to - bedside, including
basic /
genetic, cellular, animal model, andhuman clinicalinvestigations.
Target Identification and Validation: The focus of
basic neuroscience
research at Boston Children's Hospital encompasses
genetic - molecular
research and systems - circuits - behavior
research to advance understanding of the developing brain.
Transgenic and gene knockout / knockin technologies have become important experimental tools for assigning functions to genes at the level of whole complexity of organism, creating models of
genetic disorders, evaluating effects drugs and toxins, thus helping to answer fundamental issues in
basic and applied
research.
Health disparities
research programs involve not only
basic, clinical, or behavioral
research related to health disparity populations and the medically underserved, but also strive to create a diverse group of
genetic and genomic scientists who engage in such
research.
The
genetic technology is reshaping
basic biological
research.
Their discovery of the LDL receptor as the major molecule regulating cholesterol metabolism and its
genetic disruption in the human disease familial hypercholesterolemia have been recognized by their receipt of numerous awards, including the Nobel Prize in Physiology or Medicine (1985), the Albert D. Lasker Award in
Basic Medical
Research (1985), and the U.S. National Medal of Science (1988).
The department of genetics is comprised of an interdisciplinary group of faculty focused on performing
basic laboratory and clinical
research, providing inpatient and outpatient consultation services, and offering state - of - the - art
genetic diagnostic testing.
«This collaboration fits in very well with our approach, which is to use diverse animal models to study the
basic mechanisms of aging and tissue regeneration,» said assistant professor Aric Rogers, Ph.D. «The role of triggers in the cell's
genetic machinery is a fruitful new avenue of
research.
From the development of a test to detect antibodies to feline coronavirus in the early 1980s to the recent identification of a unique
genetic signature of the transformation of the relatively benign feline coronavirus to the routinely fatal feline infectious peritonitis (FIP) virus, the Center has been a driving force in the support of
basic scientific
research that directly impacts feline health.