AbstractEarly development of the endosperm of flowering plants involves the formation of a syncytium through successive rounds of nuclear division without cell wall synthesis. New data reveal that cellularisation of this syncytium requires the SPÄTZLE protein and involves the formation of cell walls similar to those of somatic tissues
Cytolkinesis ensures proper partitioning of the nucleocytoplasmic contents into two daughter cells. ...
Dividing plant cells perform a remarkable task of building a new cell wall within the cytoplasm in a...
In somatic cell division, cytokinesis is the final step of the cell cycle and physically divides the...
AbstractEarly development of the endosperm of flowering plants involves the formation of a syncytium...
AbstractCytokinesis in plants has unique features concerned with defining and maintaining the line o...
SummaryDividing plant cells perform a remarkable task of building a new cell wall within the cytopla...
Endosperm supports the development of embryos and thus, is crucial for the life cycle and reproducti...
AbstractThe recent discovery that another gene involved in plant embryogenesis encodes a probable re...
Plants have a distinctive mode of continuous development, involving the repeated initiation and grow...
Cell cycle regulation is of pivotal importance for plant growth and development. Although plant cell...
AbstractCytokinesis in plant cells involves a microtubule-containing structure, the phragmoplast, wh...
Flowering plants have evolved a unique double-fertilization process. Two sperm cells fuse with two f...
AbstractPostembryonic development of plant organs requires a constant interplay between the cell cyc...
AbstractFor many years, cytokinesis in eukaryotic cells was considered to be a process that took a v...
The unique cytokinetic apparatus of higher plant cells comprises two cytoskeletal systems: A predict...
Cytolkinesis ensures proper partitioning of the nucleocytoplasmic contents into two daughter cells. ...
Dividing plant cells perform a remarkable task of building a new cell wall within the cytoplasm in a...
In somatic cell division, cytokinesis is the final step of the cell cycle and physically divides the...
AbstractEarly development of the endosperm of flowering plants involves the formation of a syncytium...
AbstractCytokinesis in plants has unique features concerned with defining and maintaining the line o...
SummaryDividing plant cells perform a remarkable task of building a new cell wall within the cytopla...
Endosperm supports the development of embryos and thus, is crucial for the life cycle and reproducti...
AbstractThe recent discovery that another gene involved in plant embryogenesis encodes a probable re...
Plants have a distinctive mode of continuous development, involving the repeated initiation and grow...
Cell cycle regulation is of pivotal importance for plant growth and development. Although plant cell...
AbstractCytokinesis in plant cells involves a microtubule-containing structure, the phragmoplast, wh...
Flowering plants have evolved a unique double-fertilization process. Two sperm cells fuse with two f...
AbstractPostembryonic development of plant organs requires a constant interplay between the cell cyc...
AbstractFor many years, cytokinesis in eukaryotic cells was considered to be a process that took a v...
The unique cytokinetic apparatus of higher plant cells comprises two cytoskeletal systems: A predict...
Cytolkinesis ensures proper partitioning of the nucleocytoplasmic contents into two daughter cells. ...
Dividing plant cells perform a remarkable task of building a new cell wall within the cytoplasm in a...
In somatic cell division, cytokinesis is the final step of the cell cycle and physically divides the...
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