Eric Wieschaus (Princeton) Part 1: Patterning Development in the Embryo
https://www.ibiology.org/development-and-stem-cells/bicoid/
Following fertilization, the single celled embryo undergoes a number of mitotic divisions to produce a ball of cells called a blastula or blastoderm. Although these cells are all genetically identical, they gradually begin to express different gene products that reflect the regions of the adult body they will form. In my first lecture I discuss how these initial patterns of gene expression arise. In Drosophila, a maternally supplied transcription factor called Bicoid plays a particularly important role. Bcd RNA is anchored at the anterior end of the egg but is only translated after fertilization. From that anterior source, Bcd protein is thought to diffuse through the egg, establishing a concentration gradient that activates different genes at different thresholds. See more at http://www.ibioseminars.org
Видео Eric Wieschaus (Princeton) Part 1: Patterning Development in the Embryo канала iBiology
Following fertilization, the single celled embryo undergoes a number of mitotic divisions to produce a ball of cells called a blastula or blastoderm. Although these cells are all genetically identical, they gradually begin to express different gene products that reflect the regions of the adult body they will form. In my first lecture I discuss how these initial patterns of gene expression arise. In Drosophila, a maternally supplied transcription factor called Bicoid plays a particularly important role. Bcd RNA is anchored at the anterior end of the egg but is only translated after fertilization. From that anterior source, Bcd protein is thought to diffuse through the egg, establishing a concentration gradient that activates different genes at different thresholds. See more at http://www.ibioseminars.org
Видео Eric Wieschaus (Princeton) Part 1: Patterning Development in the Embryo канала iBiology
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
Eric Wieschaus (Princeton) Part 2: Stability of Morphogen Gradients & Movement of Molecules
Nipam Patel (MBL) 1: Patterning the Anterior-Posterior Axis: The Role of Homeotic (Hox) Genes![Drosophila Embryogenesis - Anterior/Posterior Patterning [English Captions]](https://i.ytimg.com/vi/ZOzKXrOGtgw/default.jpg)
Drosophila Embryogenesis - Anterior/Posterior Patterning [English Captions]
The Regulation of Translation in Developing Drosophila Embryos
Joints: Structure and Types of Motion
PAID PhD IN GERMANY
Nipam Patel (MBL) 2: The Role of Ubx in the Development of Crustacean Body Plan
Eric Wieschaus and Christiane Nüsslein-Volhard: Collaborating to Find Developmental Genes
Dominique Bergmann (Stanford U / HHMI) 1: Key issues in plant development
Out of the Ashes: Dawn of the Age of Mammals | HHMI BioInteractive Video
Edward Lewis (Drosophila Development)
Eric Wieschaus (Princeton) Part 3: Evolution of Bicoid-based Patterning in the Diptera
Phenotyping Embryonic Lethal Knockout mice with neural crest and
neural defects - Lee Niswander
Michael Dickinson (CalTech) 1: How Flies Fly: Lift
Cliff Brangwynne (Princeton & HHMI) 1: Liquid Phase Separation in Living Cells
Marc Kirschner (Harvard U) Part 1: The Origin of the Vertebrate Nervous System
Drosophila development
Marc Kirschner (Harvard U) Part 2: Telling the Back from the Front
Introduction to Animal Development
The Future of Forests