[HTML][HTML] Developmental Regulation of Nucleolus Size during Drosophila Eye Differentiation
NE Baker - PLoS One, 2013 - journals.plos.org
When cell cycle withdrawal accompanies terminal differentiation, biosynthesis and cellular
growth are likely to change also. In this study, nucleolus size was monitored during cell fate …
growth are likely to change also. In this study, nucleolus size was monitored during cell fate …
Changing chromatin dynamics and nuclear organization during differentiation in Drosophila larval tissue
R Thakar, AK Csink - Journal of cell science, 2005 - journals.biologists.com
Global changes in gene expression and exit from the cell cycle underlie differentiation.
Therefore, understanding chromatin behavior in differentiating nuclei and late G1 is key to …
Therefore, understanding chromatin behavior in differentiating nuclei and late G1 is key to …
[HTML][HTML] The slender lobes gene, identified by retarded mushroom body development, is required for proper nucleolar organization in Drosophila
M Orihara-Ono, E Suzuki, M Saito, Y Yoda, T Aigaki… - Developmental …, 2005 - Elsevier
The nucleolus dynamically alters its shape through the assembly and disassembly of a
variety of nucleolar components in proliferating cells. While the nucleolus is known to …
variety of nucleolar components in proliferating cells. While the nucleolus is known to …
[HTML][HTML] Epithelial cell-turnover ensures robust coordination of tissue growth in Drosophila ribosomal protein mutants
N Akai, S Ohsawa, Y Sando, T Igaki - PLoS genetics, 2021 - journals.plos.org
Highly reproducible tissue development is achieved by robust, time-dependent coordination
of cell proliferation and cell death. To study the mechanisms underlying robust tissue growth …
of cell proliferation and cell death. To study the mechanisms underlying robust tissue growth …
The nuclear to cytoplasmic ratio directly regulates zygotic transcription in Drosophila through multiple modalities
S Syed, H Wilky, J Raimundo, B Lim… - Proceedings of the …, 2021 - National Acad Sciences
Early embryos must rapidly generate large numbers of cells to form an organism. Many
species accomplish this through a series of rapid, reductive, and transcriptionally silent …
species accomplish this through a series of rapid, reductive, and transcriptionally silent …
Dynamics of the sub-nuclear distribution of Modulo and the regulation of position-effect variegation by nucleolus in Drosophila
L Perrin, O Demakova, L Fanti… - Journal of Cell …, 1998 - journals.biologists.com
ABSTRACT modulo belongs to the class of Drosophila genes named 'suppressor of position-
effect variegation', suggesting the involvement of the encoded protein in chromatin …
effect variegation', suggesting the involvement of the encoded protein in chromatin …
[HTML][HTML] Quantification of proteins and histone marks in Drosophila embryos reveals stoichiometric relationships impacting chromatin regulation
Gene transcription in eukaryotes is regulated through dynamic interactions of a variety of
different proteins with DNA in the context of chromatin. Here, we used mass spectrometry for …
different proteins with DNA in the context of chromatin. Here, we used mass spectrometry for …
[HTML][HTML] Number of nuclear divisions in the Drosophila blastoderm controlled by onset of zygotic transcription
The cell number of the early Drosophila embryo is determined by exactly 13 rounds of
synchronous nuclear divisions, allowing cellularization and formation of the embryonic …
synchronous nuclear divisions, allowing cellularization and formation of the embryonic …
Regulation of growth and cell proliferation during eye development
TP Neufeld, IK Hariharan - Drosophila Eye Development, 2002 - Springer
The adult eye is composed of 750-800 ommatidia each consisting of 20 cells. Thus there are
approximately 16,000 viable cells in the adult eye. Approximately 2000 of the cells …
approximately 16,000 viable cells in the adult eye. Approximately 2000 of the cells …
[HTML][HTML] Developmental control of nuclear size and shape by Kugelkern and Kurzkern
A Brandt, F Papagiannouli, N Wagner… - Current biology, 2006 - cell.com
Background The shape of a nucleus depends on the nuclear lamina, which is tightly
associated with the inner nuclear membrane and on the interaction with the cytoskeleton …
associated with the inner nuclear membrane and on the interaction with the cytoskeleton …