Deep learning enables structured illumination microscopy with low light levels and enhanced speed

Abstract: Structured illumination microscopy (SIM) surpasses the optical diffraction limit and offers a two-fold enhancement in resolution over diffraction limited microscopy. However, it requires both intense illumination and multiple acquisitions to produce a single high-resolution image. Using deep learning to augment SIM, we obtain a five-fold reduction in the number of raw images required for super-resolution SIM, and generate images under extreme low light conditions (at least 100× fewer photons). We validate the … Show more

“…SIM-MFM also enables rapid super-resolution imaging of structural proteins such as paxillin in parallel with super-resolution imaging of force magnitude and orientation, and facile, photostable timelapse imaging of molecular force orientation. We expect that ongoing SIM and pSIM technique developments will continue to improve SIM-MFM acquisition [68][69][70] . Perhaps eventually, SIM will be performed with dipoles that are not parallel to the coverslip, which would enable nondegenerate force vector mapping 40 .…”

Turn-key super-resolution mapping of cell receptor force orientation and magnitude using a commercial structured illumination microscope

“…SIM-MFM also enables rapid super-resolution imaging of structural proteins such as paxillin in parallel with super-resolution imaging of force magnitude and orientation, and facile, photostable timelapse imaging of molecular force orientation. We expect that ongoing SIM and pSIM technique developments will continue to improve SIM-MFM acquisition [68][69][70] . Perhaps eventually, SIM will be performed with dipoles that are not parallel to the coverslip, which would enable nondegenerate force vector mapping 40 .…”

Turn-key super-resolution mapping of cell receptor force orientation and magnitude using a commercial structured illumination microscope

“…An overview of the recent advances in SRM techniques is given in Figure 3 and discussed more throughout. The SRM techniques shown in Figure 3 include deep learning assisted SIM ( Figure 3 A), 45 multicolor SOFI ( Figure 3 B), 46 raster ( Figure 3 C, left) compared to smart ( Figure 3 C, right) scanning, 47 and automated maS 3 TORM multiplexing ( Figure 3 D). 48 …”

“…(D) Automated maS 3 TORM multiplex setup and experimental workflow. Panel A is reproduced from Jin, L.; Liu, B.; Zhao, F.; et al Nature Communications 2020 , 11 , 1934 (ref ( 45 )). Panel B is reproduced from Grußmayer, K. S.; Geissbuehler, S.; Descloux, A.; et al Nature Communications 2020 , 11 , 3023 (ref ( 46 )).…”

Chemical Analysis of Single Cells and Organelles

“…深度学习技术通 过学习建立高低分辨率图像之间的映射, 能够从低分 辨图像推断出高分辨图像, 且推断出的高分辨图像与 低分辩图像保持时间分辨率一致 [98] . 深度学习技术可 从低信噪比图像预测其相应的高信噪比图像, 在缩短 曝光时间、减少光毒性的情况下, 实现长时程高时空 分辨率成像 [99] . .…”

Progress and prospect of biomedical optical imaging