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. However, the mechanism connecting the differentiation state of a cell to the shape changes of its nucleus are not well understood. We investigated this question in early Drosophila embryos, where the nuclear shape changes from spherical to ellipsoidal together with a 2.5-fold increase in nuclear length during cellularization. RESULTS: We identified two genes, kugelkern and kurzkern, required for nuclear elongation. In kugelkern- and kurzkern-depleted embryos, the nuclei reach only half the length of the wild-type nuclei at the end of cellularization. The reduced nuclear s...
Studies of chromosome and genome biology often focus on condensed chromatin in the form of chromosom...
Changes in nuclear morphology occur during normal development and have been observed during the prog...
ABSTRACT How nuclear shape correlates with nuclear movements during the cell cycle is poorly underst...
Background: The shape of a nucleus depends on the nuclear lamina, which is tightly associated with t...
SummaryBackgroundThe shape of a nucleus depends on the nuclear lamina, which is tightly associated w...
BACKGROUND: The shape of a nucleus depends on the nuclear lamina, which is tightly associated with t...
Summary Background: The shape of a nucleus depends on the nuclear lamina, which is tightly associate...
New studies in Drosophila have identified a novel nuclear envelope protein with a farnesyl moiety, t...
Nuclear shape changes are observed during a variety of developmental processes, pathological conditi...
Membrane-bound organelles provide physical and functional compartmentalization of biological process...
Nuclear shape and size are emerging as mechanistic regulators of genome function. Yet, the coupling ...
International audienceNuclear shape is different in stem cells and differentiated cells and reflects...
Abstract Background Nuclear si...
Eukaryotic cells are characterized by having a clearly defined nucleus that encloses genetic materia...
© 2019, The Author(s). How the nuclear lamina (NL) impacts on global chromatin architecture is poorl...
Studies of chromosome and genome biology often focus on condensed chromatin in the form of chromosom...
Changes in nuclear morphology occur during normal development and have been observed during the prog...
ABSTRACT How nuclear shape correlates with nuclear movements during the cell cycle is poorly underst...
Background: The shape of a nucleus depends on the nuclear lamina, which is tightly associated with t...
SummaryBackgroundThe shape of a nucleus depends on the nuclear lamina, which is tightly associated w...
BACKGROUND: The shape of a nucleus depends on the nuclear lamina, which is tightly associated with t...
Summary Background: The shape of a nucleus depends on the nuclear lamina, which is tightly associate...
New studies in Drosophila have identified a novel nuclear envelope protein with a farnesyl moiety, t...
Nuclear shape changes are observed during a variety of developmental processes, pathological conditi...
Membrane-bound organelles provide physical and functional compartmentalization of biological process...
Nuclear shape and size are emerging as mechanistic regulators of genome function. Yet, the coupling ...
International audienceNuclear shape is different in stem cells and differentiated cells and reflects...
Abstract Background Nuclear si...
Eukaryotic cells are characterized by having a clearly defined nucleus that encloses genetic materia...
© 2019, The Author(s). How the nuclear lamina (NL) impacts on global chromatin architecture is poorl...
Studies of chromosome and genome biology often focus on condensed chromatin in the form of chromosom...
Changes in nuclear morphology occur during normal development and have been observed during the prog...
ABSTRACT How nuclear shape correlates with nuclear movements during the cell cycle is poorly underst...
Add to ORKG