Daily non-political popular news in brief.

Quality control mechanism tags defective sperm cells inside the body

Defective sperm cells do not pass through the body unnoticed. A new University of Missouri study provides evidence that the body recognizes and tags defective sperm cells while they undergo maturation in the epididymis, a sperm storage gland attached to the testis. According to researchers, only the best sperm that have the highest chance of succeeding in fertilization will survive the production process without a "tag."

Read more »

Keywords: quality, control, mechanism, tags, defective, sperm, cells, body, tag, cell

« Previous | Next »

Similar news on "Quality control mechanism tags defective sperm cells inside the body":

1. Getting one's protein in a bunch -- When quality control fails in cells
   01-16-2007 · EurekAlert!
   Over time, a relatively minor mistake in protein production at the cellular level may lead to serious neurological diseases. But exactly how the cell avoids such mistakes has remained unclear until now. Researchers at Ohio State University found the mechanism that prevents such errors, and explain their findings in the Proceedings of the National Academy of Sciences.
   Similar news · Read more »
   
2. New mechanism for nutrient uptake discovered
   02-11-2007 · EurekAlert!
   Biologists at the Carnegie Institution's Department of Plant Biology have discovered a new way that plant cells govern nutrient regulation—neighboring pore-like structures at the cell’s surface physically interact to control the uptake of a vital nutrient, nitrogen. It is the first time scientists have found that the interaction of neighboring molecules is essential to this regulation. The discovery has widespread potential -- from understanding human diseases, such as kidney function, to engineering better crops.
   Similar news · Read more »
   
3. MIT Team finds new mechanism of gene control
   07-12-2007 · Massachusetts Institute of Technology (MIT)
   Biologists have long thought that a simple on/off switch controls most genes in human cells. Flip the switch and a cell starts or stops producing a particular protein. But new evidence suggests that our genes are more ready for action than previously thought.
   Similar news · Read more »
   
4. Cells take risks with their identities
   07-12-2007 · EurekAlert!
   Contrary to textbook models, many genes that should be "off" in embryonic stem cells and specialized adult cells remain primed to produce master regulatory proteins, leaving those cells vulnerable to identity changes. The genes encoding the master regulators of cell fate begin making RNA templates for these proteins, though a control mechanism stops them from finishing the job.
   Similar news · Read more »
   
5. Why your fertility cells must have 'radio silence'
   01-29-2008 · EurekAlert!
   Researchers in Kobe, Japan, and Montreal, Canada, have uncovered a previously unknown mechanism which causes embryonic germ cells -- which later develop into sperm or ova -- to go through a period of "transcriptional silence," during which information from the cell's DNA cannot be copied. Without this important phase, unique to cells of this type, an organism produces sterile offspring. Their results were published in January 2008, in the journal Nature.
   Similar news · Read more »
   
6. A novel molecular dictator 'with a conscience' discovered
   07-22-2007 · EurekAlert!
   University of New South Wales (UNSW) researchers have uncovered an important naturally occurring mechanism in the body where "bad" cells that cause blockages in our blood vessels are kept under strict growth control, while "good" cells that keep our blood vessels free of clots and growths are left unaffected.
   Similar news · Read more »
   
7. Scientists explain how insulin secreting cells maintain their glucose sensitivity
   09-05-2007 · EurekAlert!
   Scientists at the leading Swedish medical university Karolinska Institutet have now disclosed the mystery how the insulin-secreting cells maintain an appropriate number of ATP sensing ion channel proteins on their surface. This mechanism, which is described in the latest issue of Cell Metabolism, explains how the human body can keep the blood glucose concentration within the normal range and thereby avoid the development of diabetes.
   Similar news · Read more »
   
8. Protein found to shield pancreatic cancer cells from self-destruction
   03-20-2007 · EurekAlert!
   An overexpressed protein protects human pancreatic cancer cells from being forced to devour themselves, removing one of the body's natural defenses against out-of-control cell growth, researchers at The University of Texas M. D. Anderson Cancer Center report in the March issue of Molecular Cancer Research.
   Similar news · Read more »
   
9. Stanford researchers get precise picture of cell target for drugs
   10-25-2007 · EurekAlert!
   More than half of all drugs given to patients work by targeting a particular type of "docking station," or receptor, found on body cells, to steer the cell's machinery toward healing an illness. Researchers from Stanford University School of Medicine and the Scripps Research Institute have determined what one of those receptors looks like at the molecular level, giving them the keys to greater control of the process.
   Similar news · Read more »
   
10. UVA researchers explain cell response to skin-damaging UV rays
    10-01-2007 · EurekAlert!
    Researchers at the University of Virginia Health System have published a new study that helps scientists around the world expand the body of knowledge on how cells protect themselves (or not) from DNA damage caused by UV rays. Their study reveals part of a 'simple switch' mechanism inside cells, triggered by UV exposure from the sun, that helps our cells survive and thrive after being exposed. This mechanism involves an unanticipated connection between several proteins in the cell, the researchers discovered.
    Similar news · Read more »