Synthetic Biology: High throughput synthetic biology and biosensors - Group 4
https://www.ibiology.org/bioengineering/biosensors/
Humans are bad at detecting weak signals in the environment, for example sensing pollutants in the area or toxins in drinking water. Most instruments that have been developed to detect such signals are very expensive and cannot be used in day-to-day lives. Using synthetic biology, inexpensive and efficient biosensors can be created to detect weak signals and create a response that humans can detect, such as emitting light. Using engineering principles and robotics, the Synthetic Biology in Action participants describe the steps they used to optimize a biosensor to sense an environmental input and create the maximal response possible.
Speakers:
Angela Carvalho, PhD student at Evolva
Lauri Reuter, PhD student at the VTT Technical Research Centre of Finland
Claudia Wehrspaun, PhD student at Oxford University
Видео Synthetic Biology: High throughput synthetic biology and biosensors - Group 4 канала iBiology Techniques
Humans are bad at detecting weak signals in the environment, for example sensing pollutants in the area or toxins in drinking water. Most instruments that have been developed to detect such signals are very expensive and cannot be used in day-to-day lives. Using synthetic biology, inexpensive and efficient biosensors can be created to detect weak signals and create a response that humans can detect, such as emitting light. Using engineering principles and robotics, the Synthetic Biology in Action participants describe the steps they used to optimize a biosensor to sense an environmental input and create the maximal response possible.
Speakers:
Angela Carvalho, PhD student at Evolva
Lauri Reuter, PhD student at the VTT Technical Research Centre of Finland
Claudia Wehrspaun, PhD student at Oxford University
Видео Synthetic Biology: High throughput synthetic biology and biosensors - Group 4 канала iBiology Techniques
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
Tumor suppressor genes - J. Michael Bishop (UCSF)
Overview of microtubules - Anthony Hyman (MPI-CBG)
Microscopy: Array Tomography (Stephen Smith)
Central Dogma - Susan Taylor (UCSD)
The Scientific Community Image Forum - Anne Carpenter and Kevin Eliceiri
Microscopy: Mobile Microscopy (Daniel Fletcher)
Experiments in Cellular Organization - Anthony Hyman (MPI - CBG)
Influenza infection - Carolyn Bertozzi (Berkeley/HHMI)
Parvoviruses - Stephen Harrison (Harvard/HHMI)
Repression of mRNA translation - Roy Parker (Boulder/HHMI)
Extended phenotype - Hopi Hoekstra (Harvard/HHMI)
Bioimage Analysis 6: Tips and Best Practices (Anne Carpenter and Kevin Eliceiri)
Multi-Dimensional Microscopy Datasets - Loic Royer (CZ Biohub)
Nitrogen fixation - Sharon Long (Stanford)
The persister phenomenon - John McKinney (EPFL)
Transgenic crop development - Roger Beachy (Donald Danforth Plant Science Center)
Cilia signaling - Robert Lefkowitz (Duke)
Chromosome breakage - Jim Haber (Brandeis)
Microscopy: Polarized Light and its Interaction with Material (Shinya Inoue)
iBiology Bioimage Analysis Course - Life cycle of an image data set
Splice sites - Melissa Moore (U Mass/HHMI)