Life Sciences
By first probing the way primitive yeast make cholesterol, a team of scientists has discovered a long-sought protein whose human counterpart controls cholesterol production and potentially drug metabolism.
The collaborative study by investigators at Johns Hopkins University School of Medicine, Vanderbilt University, Indiana University and Eli Lilly Co., was published in the February issue of Cell Metabolism.
“Dap1 controls the activity of a clinically important class of enzymes required for cholesterol synthesis and drug metabolism,” says Peter Espenshade, Ph.D., assistant professor of cell…
The genomes of the largest collection of families with multiple cases of autism ever assembled have been scanned and the preliminary results published in Nature Genetics (February 18, 2007). They provide new insights into the genetic basis of autism.
The research was performed by more than 120 scientists from more than 50 institutions representing 19 countries. In the UK, work was carried out at The University of Manchester, the Institute of Psychiatry at King’s College, London and the University of Oxford.
The international collaboration started in 2002 when researchers from around the…
Everyone hopes that one day stem cell-based regenerative medicine will help repair diseased tissue. Before then, it may be necessary to decipher the epigenetic signals that give stem cells their unique ability to self-renew and transform them into different cell types.
The hype over epigenetic research is because it opens up the possibility of reprograming cells. By manipulating epigenetic marks, cells can be transformed into other cell types without changing their DNA. It is simply a question of adding or removing the chemical tags involved.
Stem cells rely heavily on epigenetic signals.…
Scientists working at Novocell, Inc. in San Diego, CA have reported a stunning advance in the race to move embryonic stem cells from the province of basic scientific research into the arena of clinical trials for patients suffering from diabetes. Type I diabetes results from the degeneration of specialized cells in the pancreas (called beta-cells) that produce the hormone insulin. In healthy individuals, a rise in blood sugar after a meal induces beta-cells to secrete insulin, which enables other cells to absorb and utilize the sugar as fuel; when blood sugar levels drop, insulin production…
On December 28, the Food and Drug Administration issued a draft report stating that "meat and milk from clones of adult cattle, pigs and goats, and their offspring, are as safe to eat as food from conventionally bred animals." In modern-day America, however, the FDA is not allowed to base its decisions concerning public safety simply on the basis of scientific knowledge. It must listen to the way people feel -- rationally or not -- about its finding. And so, the FDA explained,
Because the release of the draft risk assessment and proposed risk management…
Though the cell membrane is a protective barrier, it also plays a role in letting some foreign material in — via ion channels that dot the cell’s surface. Now new research from the Nobel Prize-winning laboratory that first solved the atomic structure of several such channels shows that their function is controlled in part by a complex interaction between a channel’s voltage sensor and the cell membrane immediately adjacent to it.
The cell membrane is a specialized environment, home to a variety of proteins that enable the cell to interact with its environment. One specific family of proteins…
Challenging Nature is the title of my new column here on Scientific Blogging as well as the title of my new book. Since the idea of challenging nature may seem heretical to some, I will provide a brief explanation here of both the rationale for my argument and the opposition it faces.
The word "nature" and its cognate "natural" are typically imagined as metaphors for what is good and right in the world -- natural things are God's creations, not to be tampered with unduly by humankind. In opposition stand the unnatural, artificial, and synthetic -- the imagined profane creations of human…
New research challenges traditional perceptions of contemporary climate as sole determiner of richness of species.
The climate is changing! But how does that affect nature? New research challenges traditional perceptions of contemporary climate as sole determiner of richness of species.
An international research team led by Professor Carsten Rahbek from Department of Biology, University of Copenhagen, questions traditional beliefs that contemporary climate alone determines richness of species, that is, how life is distributed on earth. The current issue of Science magazine highlights the…
The rise of multicellular animals about 540 million years ago was a turning point in the history of life. A group of Finnish scientists suggests a new climate-biosphere interaction mechanism for the underlying processes in a new study, which will be published on February 14, 2007 in PLoS ONE, the international, peer-reviewed, open-access, online publication from the Public Library of Science (PLoS).
The theory invokes cold, ice-containing climates as a key precursor for multicellular life. If the model turns out to be correct, one can assume that complex life might exist also around stars…
The rise of multicellular animals about 540 million years ago was a turning point in the history of life. A group of Finnish scientists suggests a new climate-biosphere interaction mechanism for the underlying processes in a new study, which will be published on February 14, 2007 in PLoS ONE, the international, peer-reviewed, open-access, online publication from the Public Library of Science (PLoS).
The theory invokes cold, ice-containing climates as a key precursor for multicellular life. If the model turns out to be correct, one can assume that complex life might exist also around stars…