Telophase
Last stage of mitosis in which a nuclear envelope forms around each of both sets of chromosomes at opposite poles of the cell, the chromosomes de-condense to their chromatin form, and the nucleoli reappear
its not really in mitosis, mitosis is pro-,ana-,meta-,telo-, phases followed by cytokinesis. THis marks the end of mitotic phase, nuclear envelope may form any time following telophase and through cytokinesis if at all (syncitial cells have no nucleus)
a nuclear membrane
Ionic Bond because it is between a metal and non-metal and therfeore between oppositely charged ions.
interphase
hope this helps,
biologywix101
Phase of the cell cycle when chromosomes line up in the middle of the cell
telophase
Telophase.
telophase
Anaphase
Ggfff
The nuclear membrane reforms around the nucleus during Telophase, the last phase of mitosis.
In the cell cycle, the nuclear envelope reforms around each cluster of chromosomes in telophase.
In mitosis, the nuclear membranes form around the chromosomes at the telophase.
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.
Telophase (from the Greek τελος meaning "end") is a reversal of prophase and prometaphase events. It "cleans up" the after effects of mitosis. At telophase, the nonkinetochore microtubules continue to lengthen, elongating the cell even more. Corresponding sister chromosomes attach at opposite ends of the cell. A new nuclear envelope, using fragments of the parent cell's nuclear membrane, forms around each set of separated sister chromosomes. Both sets of chromosomes, now surrounded by new nuclei, unfold back into chromatin. Mitosis is complete, but cell division is not yet complete.
Telophase
The nuclear membrane reforms around the nucleus during Telophase, the last phase of mitosis.
In the cell cycle, the nuclear envelope reforms around each cluster of chromosomes in telophase.
In mitosis, the nuclear membranes form around the chromosomes at the telophase.
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.
telophase
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.
At the time of nuclear division the nuclear envelope get disintegrated to provide enough space to the chromosomes to move at two poles of the spindle. When the division is complete the nuclear envelope organizes again around these daughter 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.
A new nuclear envelope forms around each region of chromosomes
No. Mitosis is strictly the stage of the cell cycle where the chromatin condenses into chromosomes, the nuclear envelope dissolves, the chromosomes line up on the metaphase plate, spindly fibers attach to the kinetochores of each chromosome and "pull" sister chromatids apart to opposite poles of the cell. Then the cell pinches off and forms a nuclear envelope around the DNA. The stage in the cell cycle where a cell duplicates its genetic material is called the S phase, preceded by the G1 phase, followed by the G2 phase, then mitosis and cytokinesis.
No. Mitosis is strictly the stage of the cell cycle where the chromatin condenses into chromosomes, the nuclear envelope dissolves, the chromosomes line up on the metaphase plate, spindly fibers attach to the kinetochores of each chromosome and "pull" sister chromatids apart to opposite poles of the cell. Then the cell pinches off and forms a nuclear envelope around the DNA. The stage in the cell cycle where a cell duplicates its genetic material is called the S phase, preceded by the G1 phase, followed by the G2 phase, then mitosis and cytokinesis.