At the beginning of Prophase 1 during meiosis. It occurs in a sub-stage of Prophase 1 called Leptonema.
During cell reproduction, chromosomes condense from the chromatin that is normally found in the nucleus. Condensation helps the chromosomes become more manageable and facilitates their movement during processes such as mitosis and meiosis. After cell division is complete, the condensed chromosomes will decondense back into chromatin.
Chromatin is a complex of DNA and proteins in the nucleus of a cell, while chromosomes are condensed and visible structures of chromatin during cell division. Chromosomes are formed from condensed chromatin to allow for organized and efficient segregation of genetic material. Essentially, chromosomes are the condensed form of chromatin.
The two new sets of chromosomes revert back to two sets of chromatin, a new nuclear membrane forms around both new sets of chromatin, and a new cell membrane forms between the two new nuclei during cytokinesis.
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.
chromatin
During cell reproduction, chromosomes condense from the chromatin that is normally found in the nucleus. Condensation helps the chromosomes become more manageable and facilitates their movement during processes such as mitosis and meiosis. After cell division is complete, the condensed chromosomes will decondense back into chromatin.
During telophase, the nuclear membrane reforms around the separated chromosomes, the nucleoli reappear, and the chromosomes begin to decondense back into chromatin. This marks the end of mitosis in cell division.
Chromatin is a complex of DNA and proteins in the nucleus of a cell, while chromosomes are condensed and visible structures of chromatin during cell division. Chromosomes are formed from condensed chromatin to allow for organized and efficient segregation of genetic material. Essentially, chromosomes are the condensed form of chromatin.
Telophase takes place in the final stage of cell division, specifically in the nucleus of the cell. During telophase, the chromosomes reach the opposite poles of the cell, the nuclear envelope reforms around them, and the chromosomes begin to decondense back into chromatin.
The two new sets of chromosomes revert back to two sets of chromatin, a new nuclear membrane forms around both new sets of chromatin, and a new cell membrane forms between the two new nuclei during cytokinesis.
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.
Prophase and telophase have opposite characteristics. In prophase, the chromatin condenses into visible chromosomes and the nuclear membrane disintegrates, while in telophase, the chromosomes decondense, the nuclear envelope reforms, and the cell begins to divide.
Chromatid
chromatin
Chromatin
Chromatin condenses into chromosomes during cell division to ensure that the genetic material can be accurately divided and distributed to daughter cells. This condensation allows for easier separation and movement of the genetic material during processes like mitosis and meiosis.
Answer:chromatin not chromosomes. :DIt Is Chromosomes Not Chromatin:]