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SUMMARY:Photonics Webinar Series: Sub-Cellular Biology at Tissue Scales with Cleared Tissue Axially Scanned Light-Sheet Microscopy
DESCRIPTION:Click here for free registration to attend this webinar!\nAbout the Webinar: \nLarge-scale interdisciplinary research efforts have worked to comprehensively catalog cellular architectures in health and disease. To aid in this effort\, researchers have developed a scalable imaging platform that delivers isotropic subcellular resolution throughout millimeters of chemically cleared tissues. The system\, referred to as cleared-tissue axially swept light-sheet microscopy (CT-ASLM)\, leverages high-speed\, aberration-free remote focusing to achieve an isotropic resolution of 300-nm with unparalleled optical sectioning capacity throughout a large field of view. Due to CT-ASLM’s performance\, researchers can now routinely resolve and automatically segment dendritic spines\, evaluate cell-type differences in mitochondrial composition\, and quantitatively measure hematopoietic stem cell interactions in a bone marrow plug. Thus\, CT-ASLM provides not only global tissue architectures but also quantitatively detailed morphological and biochemical descriptions of the individual cells that compose tissues in health and disease. \nWho should attend:\nScientists\, researchers\, laboratory technicians\, clinicians\, and others in the fields of biology\, biotechnology\, microbiology\, and other areas of the life sciences who are using light-sheet microscopy. Engineers and commercial representatives involved in R&D and marketing of the CT-ASLM system. Those working in industries such as cancer research\, histopathology\, biophotonics\, and medicine. \nAbout the presenter:\nKevin Dean\, Ph.D.\, runs an interdisciplinary lab at the University of Texas (UT) Southwestern Medical Center\, which aims to identify the molecular mechanisms that enable cancer cells to populate a distant tissue. To achieve this\, his lab develops and applies cutting-edge microscopy instrumentation\, optical probes\, tissue clearing\, and computer vision analyses. Further\, he helps lead a National Cancer Institute Cellular Cancer Biology Imaging Research Center that aims to advance knowledge of early metastatic colonization events. Dean received his Bachelor of Arts in chemistry at Willamette University in Oregon and his doctorate in biochemistry at the University of Colorado. His graduate work\, which took place under the guidance of Amy Palmer and Ralph Jimenez\, focused on spectroscopy\, protein engineering\, and multiparameter high-throughput microfluidic analyses and cell sorting. Following graduation\, he established the first campus-wide light microscopy facility at the BioFrontiers Institute at the University of Colorado and then moved to the UT Southwestern Medical Center in Dallas to perform his postdoctoral research under the guidance of Gaudenz Danuser and Reto Fiolka. During this time\, he was named a Ruth L. Kirschstein Postdoctoral Fellow\, received the Dean’s Discretionary Award at UT Southwestern\, and was the runner-up for the UT Southwestern Brown-Goldstein Award for Excellence in Postdoctoral Research.
URL:https://www.powertechnology.com/event/photonics-webinar-series-sub-cellular-biology-at-tissue-scales-with-cleared-tissue-axially-scanned-light-sheet-microscopy/
LOCATION:Online Virutal Conference – Register for free!
CATEGORIES:Virtual Events
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SUMMARY:Photonics North 2021 - Virtual Conference
DESCRIPTION:Power Technology\, Inc presented at Photonics North 2021 Virtual Conference on Tuesday\, June 1 at 2:45 p.m. You can watch the presentation below titled\, “Lasers for Life Science Applications”! \nhttps://www.powertechnology.com/wp-content/uploads/PowerTechnology-Photonics-North.mp4\nFor more information on the conference\, please visit: Photonics North
URL:https://www.powertechnology.com/event/photonics-north-2021-virtual-conference/
CATEGORIES:Virtual Events
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