Download >>> https://tinurli.com/283p3o
The Alberts lab is one of the world's most prestigious centers for the study of molecular biology. Here you will find all work related to their research on cellular structure and function, as well as how they impact evolution, development, and disease. The researchers at this laboratory employ a broad array of experimental approaches that include protein biochemistry, electron microscopy imaging techniques, molecular genetics, fluorescence microscopy imaging techniques, quantitative fluorescence lifetime imaging techniques (QFLIM), mathematical modeling/simulation methods using computational genomics approaches (i.e., systems-level genome engineering), stereology methods for quantifying three dimensional tissue structures with light microscopical axial sections (i.e. confocal microscopy), and super-resolution fluorescence imaging techniques (e.g., light-sheet microscopy, reversible quantitative 2D photoactivation localization microscopy (2PALM), and "Giga"/"Tera"-pixel array detectors) to study various biological processes. The Alberts lab also has a rich history of developing innovative sample preparation methods that are now widely used in the biotechnology industry. George Beadle was born in Washington, Iowa on December 10, 1903 to Sylvester James Beadle and Clara May Veal. Beadle's interest in biology began at an early age when he worked on his father's farm. George would do his own experiments. He had an orange tree which he pollinated with the pollen of Japanese plums growing nearby. Beadle's mother let him continue, but there were no plums on the tree that year; yet two years later, they bore fruit. George Beadle attended Washington High School in Washington, Iowa for his freshman year before moving to Calmar, Iowa. He graduated from Calmar High School in 1921 and entered the University of Iowa as an undergraduate student at age seventeen. He graduated with honors in zoology in 1925. Beadle was initially interested in work in the field of physiology. However, he experienced a profound interest in genetics and biochemistry during his graduate student training. After graduating in 1925 with a Ph.D. in zoology, Beadle accepted a position with the Department of Genetics at the University of Wisconsin. He remained there for the rest of his career and developed significant expertise in cell biology and cell structure and function. His research attracted many renowned scientists who trained under him, including George Wald (Nobel Laureate) and Alfred Sturtevant (Nobel Prize Winner). He was elected to the National Academy of Sciences in 1943. Beadle was awarded the Nobel Prize in Physiology or Medicine with Edward Tatum for discovering "the mode of action of the products of genes" in 1958. Beadle's lab hosted both George Wald and Alfred Sturtevant as postdoctoral fellows. Wald and Sturtevant shared the Nobel Prize with Beadle for their work on vitamin A and its role on vision. George Beadle died on October 11, 1989 at the age of 85. George had five children: Paul, Sue, Suzanne, Amy, and Nancy Beadle-Blair (a graduate student).The Albert Lab is named after Jeffrey C. cfa1e77820