10.6084/m9.figshare.c.3622535_D7.v1
Barbara Hübner
Barbara
Hübner
Mariana Lomiento
Mariana
Lomiento
Fabiana Mammoli
Fabiana
Mammoli
Doris Illner
Doris
Illner
Yolanda Markaki
Yolanda
Markaki
Sergio Ferrari
Sergio
Ferrari
Marion Cremer
Marion
Cremer
Thomas Cremer
Thomas
Cremer
MOESM2 of Remodeling of nuclear landscapes during human myelopoietic cell differentiation maintains co-aligned active and inactive nuclear compartments
Springer Nature
2015
Myelopoiesis
Somatic cell differentiation
Nuclear architecture
Active nuclear compartment
Interchromatin compartment
Perichromatin region
Super-resolution microscopy
Electron microscopy
Chromatin domain
Chromatin density classification
2015-11-17 05:00:00
Figure
https://springernature.figshare.com/articles/figure/MOESM2_of_Remodeling_of_nuclear_landscapes_during_human_myelopoietic_cell_differentiation_maintains_co-aligned_active_and_inactive_nuclear_compartments/4398545
Additional file 2. Section galleries of nuclei shown in Fig. 2. Galleries of light optical serial sections (axial distance = 125 nm between each optical section) of whole 3D-SIM 3D acquisitions of the DAPI stained nuclei shown in Fig. 2. For the progenitor cell every fifth image (axial distance = 625 nm), for the monoblast every second image (axial distance = 250 nm), for myeloblasts, monocytes and granulocytes every third image (axial distance = 375 nm) is included. Nuclei of progenitors exhibit an overall roundish shape with invaginations at the surface. Monoblast nuclei are of ellipsoid shape with typically deep and complex invaginations. Nuclei of myeloblasts are similar to monoblast nuclei; however, typically they are slightly thicker, and invaginations often pervade the whole nucleus. Monocytes are characterized by horseshoe-shaped nuclei with an irregular surface. Nuclei of granulocytes are divided into several interconnected lobes.