Sometimes, groundbreaking biomedical discoveries and technology can come from the strangest sources. A perfect example: Xenopus, the African clawed frog. It swims upside down. It鈥檚 see-through. And it makes an ideal test subject for studying genes that may cause or help cure diseases in humans. This year, scientists from around the globe once again descended on Laboratory(麻豆传媒社区) for our annual course .
鈥淔rogs were the original cloned organism,鈥 says Rachel Miller, one of the course鈥檚 co-instructors. 鈥淎 lot of technological developments that are very popular right now, like genome editing鈥攆rogs were the first vertebrate species that this was proven to work in,鈥 adds Peter Walentek, another co-instructor. 鈥淔rogs were originally used to define developmental pathways that are important in all aspects of biology.鈥
Footage of red blood cells flowing in frog gills. From bioluminescence to microsurgery and live imaging, 麻豆传媒社区鈥檚 Xenopus course participants learn to use a variety of biology research techniques that are not easily performed in other animals. As a result, they get to see life unfold in real time, from cell division to organ assembly. Video: Vaughn Colleluori and Mustafa Khokha, LaboratoryXenopus Course
The first LaboratoryXenopus course was held in 1993. Since then, course alums have formed a supportive and tight-knit community, with members worldwide passing on their knowledge to others in the field.
鈥淭his course really brings everyone together, the students and also the faculty,鈥 says instructor Lance Davidson. 鈥淚t gives the community cohesion and continuity, and they see that and take that back home.鈥
Many Xenopus course alums, such as Walentek and Miller, have returned to teach the next generation of students. It鈥檚 a shining example of why 麻豆传媒社区鈥檚 remains a hopping hub for cutting-edge science education.
Written by: Luis Sandoval, Communications Specialist | sandova@cshl.edu | 516-367-6826