Fluorescence Microscopy Image Datasets for Deep Learning Segmentation of Intracellular Orgenelle Networks

Fluorescence microscopy images of the ER network and mitochondrial network in cultured live cells were acquired using spinning disk confocal microscopy and widefield microscopy, respectively. For imaging of ER, cells were labeled with GFP fused sec61β and cultivated on MatTek coverglass dishes to 60% confluence. Images were acquired using a 100×1.45-N.A. oil W.D. 0.13 mm objective on a TI2-E inverted microscope (NIKON) equipped with a 488nm 150mW laser of 4 Laser Combiner unit (Oxxis), a CSU-W1 Spinning Disk scanhead (Yokogawa) and a 95BSI sCMOS camera (PRIME) driven by Nikon Elements software (Nikon).  For imaging of MITO, cells were labeled with mitotracker red and the growth condition was kept identical as for ER. The imaging was performed on a Nikon Eclipse Ti-E inverted microscope with a CoolSNAP HQ2 camera (Photometric) and a 1003/1.40 numerical aperture (NA) or a 603/1.40 NA oil objective lens.

All images were cropped into 256×256 patches with overlap for training and without overlap for validation and testing.  The acquired images were then manually annotated by experts using SNAP-ITK to provide ground truth as binary masks. Annotated images were partitioned into a training set, a validation set and a test set. For ER dataset, the training, validation and testing sets consist of 157, 28 and 38 images, respectively. For MITO dataset, the training, validation and testing sets consist of 165, 8 and 10 images, respectively.