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DNA Binding Compound That Kills Bacteria In 2 Minutes Could Lead To New Antibiotics
A synthetic DNA binding compound has proved surprisingly effective at binding to the DNA of bacteria and killing all the bacteria it touched within two minutes. The DNA binding properties of the compound were first discovered in the Department of Chemistry at the University of Warwick by Professor Mike Hannon and Professor Alison Rodger (Professor Mike Hannon is now at the University of Birmingham). However the strength of its antibiotic powers have now made it a compound of high interest for University of Warwick researchers working on the development of novel antibiotics.
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What Is Ovulation? What Is The Ovulation Calendar?
Ovulation is one part of the female menstrual cycle whereby a mature ovarian follicle (part of the ovary) discharges an egg (also known as an ovum, oocyte, or female gamete). It is during this process that the egg travels down the fallopian tube where it may be met by a sperm and become fertilized.
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Bausch & Lomb Receives FDA Approval Of Besivance™, New Topical Ophthalmic Anti-Infective For The Treatment Of Bacterial Conjunctivitis ("Pink Ey
Bausch & Lomb, a world leader in eye health, today announced that the U.S. Food and Drug Administration (FDA) approved Besivance™ (besifloxacin ophthalmic suspension) 0.6% for the treatment of bacterial conjunctivitis, commonly referred to as "pink eye." Besivance™ is a new topical ophthalmic anti-infective, administered via sterile ophthalmic drops, that treats a wide range of eye pathogens including those that most commonly cause bacterial conjunctivitis.4 Bacterial conjunctivitis is one of the most common ocular conditions worldwide. 2
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Chain Reaction Of The Immune System Frozen

A team of scientists led by chemist and NWO Pioneer laureate Piet Gros and medical microbiologist Jos van Strijp from Utrecht University have succeeded in freezing a chain reaction of the immune system. This achievement marks a breakthrough in the field of immunology. The researchers from Utrecht University, University Medical Centre Utrecht and the University of Pennsylvania, published their findings on 7 June with two simultaneous articles in Nature Immunology. One of the oldest defence mechanisms of our body is the complement system. Unlike white blood cells, which must learn to recognise pathogens, the complement system works from birth onwards. The system consists of proteins that initiate a chain reaction to kill bacteria and damaged cells. However the system is not perfect; it can run wild and attack our own healthy cells. The chain reaction needs to be studied in detail in order to understand how it proceeds and how it can be stopped. Yet there is only one brief moment in the chain reaction during which the protein complex indicates whether cells are harmful. The complex then adjusts the surface of a pathogen so that the pathogen can be engulfed by white blood cells. Enemy becomes an ally The researchers made smart use of the tricks that bacteria have developed over the years. They stopped the chain reaction using the protein SCIN (Staphylococcal complement inhibitor) from the pathogenic bacterium Staphylococcus aureus. The SCIN protein brings the chain reaction to a halt and consequently the message that a bacteria has entered does not reach the white blood cells. By freezing the protein complex at this point in time, the researchers could study its structure. They could see how the central protein was activated to indicate the presence of harmful cells and how the protein complex initiated the chain reaction. Moreover, they could analyse how SCIN brought the chain reaction to a halt. Natural defence In a parallel study, a second team of researchers investigated how our own cells defend themselves against possible attacks from the complement system. Factor H (FH) is the most important inhibitor of attacks on healthy cells. The researchers analysed how FH worked at the moment it came into contact with the proteins from the complement system. They compared the structure of FH at this point in time with the structure of the protein complex if it comes into contact with SCIN. The research revealed that defence proteins on the cells ensure that the chain reaction is not activated and that the protein complex is broken down. Jin Wu and Suzan Rooijakkers carried out most of the research. Suzan Rooijakkers received an NWO Veni grant in 2006. Both studies were supervised by Vici winner Piet Gros. Jos van Strijp received a TOP subsidy from the Netherlands Organisation for Health Research and Development (ZonMw). Netherlands Organization for Scientific Research


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