A research group from Kumamoto University, Japan has developed a highly sensitive technique to quantitatively evaluate the extent of cytoskeleton bundling from microscopic images. Until now, analysis ...
Dysfunctions and malformations in the scaffold of a cell are thought to contribute to heart muscle weakness, neurodegenerative disease and even deafness. Now biophysics research at The University of ...
Dysfunctions and malformations in the scaffold of a cell are thought to contribute to heart muscle weakness, neurodegenerative disease and even deafness. Now biophysics research at The University of ...
A research group from Kumamoto University, Japan has developed a highly sensitive technique to quantitatively evaluate the extent of cytoskeleton bundling from microscopic images. Until now, analysis ...
Cells are characterized to be stable yet highly flexible. They constantly modify their shape and even move through tissue. These vital properties are based on a dynamically organized network of ...
대한민국 과학기술인상 7월 수상자로 노성훈 서울대 생명과학부 교수가 선정됐다. 세포 기능에 필수적인 세포골격 재생 시스템을 규명해 노화와 신경퇴행성 질환 극복 기반을 마련한 성과를 인정받았다. 과학기술정보통신부와 한국연구재단은 '세계 뇌의 날(7월 22일)'을 맞아 노 교수를 대한민국 과학기술인상 7월 수상자로 선정했다고 1일 밝혔다. 대한민국 과학기술인상 ...
(May 8, 2019) - Dysfunctions and malformations in the scaffold of a cell are thought to contribute to heart muscle weakness, neurodegenerative disease and even deafness. Now biophysics research at The ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results