The nuclear membrane re-forms during the telophase stage of mitosis. After the chromosomes have been pulled to opposite poles of the cell during anaphase, telophase sees the chromosomes begin to de-condense back into chromatin. The nuclear envelope then re-establishes around each set of chromosomes, resulting in two distinct nuclei in the newly forming daughter cells.
in early stage of mitosis
The first stage of mitosis is prophase. During prophase, chromatin condenses into visible chromosomes, the nuclear envelope breaks down, and the spindle fibers begin to form.
This describes the prophase stage of mitosis, where the chromatin condenses into visible chromosomes, the nucleolus disappears, and the nuclear membrane breaks down. Spindle fibers also start to form and attach to the chromosomes at their kinetochores to prepare for their separation.
The nuclear membrane begins to fade from view during prophase, which is the first stage of mitosis. As the cell prepares for division, the nuclear membrane breaks down to allow the chromosomes to move freely within the cell.
The stage of mitosis where chromosomes shorten and thicken and the nuclear membrane begins to disappear is prophase. During prophase, the chromatin condenses into distinct chromosomes and the nuclear envelope breaks down, allowing the chromosomes to interact with the spindle fibers.
The nuclear envelope reforms during telophase, which is the final stage of mitosis. In telophase, the nuclear membrane and nucleolus reappear, and the chromosomes begin to decondense back into chromatin.
The chromosomes form chromatin and the nuclear envelope reforms during telophase of mitosis. Telophase marks the final stage of cell division, where the nuclear envelope reassembles around the separated daughter chromosomes, and the chromatin begins to relax back into its less condensed state.
The nuclear membrane re-forms during the telophase stage of mitosis. After the chromosomes have been pulled to opposite poles of the cell during anaphase, telophase sees the chromosomes begin to de-condense back into chromatin. The nuclear envelope then re-establishes around each set of chromosomes, resulting in two distinct nuclei in the newly forming daughter cells.
Cytokinesis is the last stage of mitosis (cell division) where the cell splits into two parts. The chromosomes condense into chromatin and a new nuclear membrane is formed on each new cell.
Resulting from interphase, is a genetic material in the nucleus called chromatin. The chromatin condenses in chromosomes. During prophase, the nucleoli disappear and the chromatid structure of the chromosomes becomes apparent. Since each chromosome has duplicated and now consists of two sister chromatids, the nuclear membrane dissolves so that the sister chromatids can separate. If it didn't dissolve, they'd still be held together.
During telophase.
The nuclear membrane begins to fade during the prophase stage of mitosis, which is the phase in the cell cycle when the chromatin condenses into chromosomes and the nuclear envelope breaks down. This allows the chromosomes to be better organized for separation during cell division.
in early stage of mitosis
the definition of telophase is the final stage in mitosis, during which a set of chromosomes is present at each end of the cell and a nuclear membrane forms around each, producing two new nuclei.
a stage during mitosis consisiting of the regrouping of chromatides and string like chromosomes. In summery Chromosomes uncoil and revert to chromatin; nuclear membranes form around the sets of chromosomes.
the first stage of mitosis or meiosis in eukaryotic cell division, during which the nuclear envelope breaks down and strands of chromatin form into chromosomes.