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tag pcr disease medicine developmental biology

Stem Cell Trial for Eye Disease Commences
Jef Akst | Sep 12, 2014 | 2 min read
Researchers at the RIKEN Center for Developmental Biology will treat the first patient in its clinical trial testing an induced pluripotent stem cell-based treatment for age-related macular degeneration.
Guts and Glory
Anna Azvolinsky | Apr 1, 2016 | 9 min read
An open mind and collaborative spirit have taken Hans Clevers on a journey from medicine to developmental biology, gastroenterology, cancer, and stem cells.
Image of the tissue surrounding a pancreatic tumor thickening and scarring.
How Pancreas Injuries Can Cause Cancer in Mice
Dan Robitzski | Nov 9, 2021 | 4 min read
A key mutation turns healing cells into cancer promoters.
Valerie Arboleda Uses Big Data to Unravel the Biology of a Rare Disease
Shawna Williams | May 1, 2018 | 3 min read
The UCLA geneticist examines how defects in a histone protein lead to symptoms throughout the body.
Innovations Expand Lab Power, Uses Of PCR Technique
Ricki Lewis | Jul 25, 1993 | 8 min read
The gene amplification technique invented by genetics researcher Kary Mullis on a moonlit drive through the northern California hills a decade ago--the polymerase chain reaction (PCR)-- continues to revolutionize the life sciences. Uses in molecular biology research and in diagnostic tests are proliferating, and PCR is even bringing a new molecular approach to such fields as paleontology and epidemiology. The following companies are among those supplying PCR-related products for the resear
PCR Primed To Spur Chain Of Applications
Holly Ahern | Jun 25, 1995 | 10+ min read
What would you do if your research interests revolved around obtaining DNA from a bacterium preserved for millions of years in the gut of a bee stuck in amber, matching up a murderer to crime- scene blood half a century old, or cloning genes from a 1,000- year-old mummy? Most scientists would first consider PCR--the polymerase chain reaction--as a technique for approaching problems such as these. With PCR, minute quantities of nucleic acids can be amplified millions of times into sufficient qua
Going Their Separate Ways: A Profile of Products for Cell Separation
Michelle Vettese-dadey | Sep 12, 1999 | 10+ min read
Date: September 13, 1999Cell Separation Products Magnetic Cell Separation Technologies that isolate rare cell types to high purity are essential to the cell biology researcher. Understanding cell developmental pathways becomes increasingly significant as diagnosis and treatment of disease turns more to the molecular level.1 This diagnosis of cell-related diseases requires methods for detection, isolation, and analysis of individual cells regardless of their frequency.2 The hematopoietic system
'Limitless' PCR Technology Offers Scientists Vast Variety Of Applications
Holly Ahern | Feb 4, 1996 | 10 min read
With the introduction of the polymerase chain reaction by Nobelist Kary Mullis and other scientists with the former Cetus Corp. in 1985, researchers can amplify their minute samples into a virtually unlimited supply of material to study.
The AIDS Research Evaluators
Lynn Gambale | Jul 9, 1995 | 6 min read
Chairman: Arnold Levine, chairman, department of molecular biology, Princeton University Barry Bloom, Weinstock Professor and Howard Hughes Medical Institute (HHMI) investigator, department of microbiology and immunology, Albert Einstein College of Medicine, New York Rebecca Buckley, professor of pediatrics and immunology, Duke University Medical Center Charles Carpenter, chairman, Office of AIDS Research Advisory Committee; professor of medicine,Brown University School of Medicine Don
Monoclonal Antibodies Find Utility In Cell Biology
Ricki Lewis | Dec 11, 1994 | 10+ min read
But, just as antibodies are finding increasing utility in cell biology, a new Food and Drug Administration classification for those products with clinical utility may affect researchers' access to the important technology (see accompanying story). Monoclonal History MAbs were born in 1975, when Georges Kohler and Cesar Milstein at the Medical Research Council Laboratories in Cambridge, England, fused two types of cells to form a hy

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