The chromosomes coil up and condense during prophase
During mitosis, chromosomes are in their most condensed form during metaphase
The cell's chromatin condenses into chromosomes during prophase. In contrast, telophase is where the chromosomes loosen to form chromatins.
The chromosomes in a cell's nucleus are only visible during the part of the cell cycle known as prophase. Prophase is the stage of mitosis in which chromatin condensation occurs.
Chromosomes condense during the prophase stage of cell division, specifically during mitosis and meiosis. Condensation allows for more efficient movement and separation of genetic material during cell division.
During prophase, chromosomes condense and become more visible because they coil tightly to form shorter and thicker structures. This condensation helps prevent tangling and facilitates the movement of chromosomes during cell division. Additionally, the condensation of chromosomes helps ensure that each daughter cell will receive the correct number and type of chromosomes.
The phase of mitosis where the chromatin fibers duplicate and condense into visible chromosomes is Interphase. Interphase is the first stage of the cell cycle.
The chromatin fibers condense and shorten into visible chromosomes during the prophase stage of mitosis. This condensation allows for easier segregation of genetic material into daughter cells during cell division.
Chromosomes condense and form during the prophase stage of mitosis. This is when the chromatin fibers in the nucleus tighten and become visible as distinct structures through a microscope.
During mitosis, chromosomes are in their most condensed form during metaphase
Synthesis occurs during Interphase. During Interphase, the genetic material is present as chromatin, a loosely bundled coil in the nucleus. The chromatin does not condense into chromosomes until Prophase. Thus, you would not see chromosomes during synthesis.
Condensation and shortening of chromosomes occur during the prophase stage of mitosis. In prophase, the chromatin fibers condense and coil tightly to form distinct, visible chromosomes.
The cell's chromatin condenses into chromosomes during prophase. In contrast, telophase is where the chromosomes loosen to form chromatins.
The chromosomes in a cell's nucleus are only visible during the part of the cell cycle known as prophase. Prophase is the stage of mitosis in which chromatin condensation occurs.
DNA condenses into chromosomes during the prophase stage of cell division.
Chromosomes condense during the prophase stage of cell division, specifically during mitosis and meiosis. Condensation allows for more efficient movement and separation of genetic material during cell division.
DNA condenses into chromosomes during the prophase stage of the cell cycle.
DNA is duplicated in s(ynthesis)-phase, and chromatin structure begins to tighten post-replication and on through G2, if there even is a G2 in whatever particular cell you're looking at (G2 is not a necessary part of the cell cycle and is left out in many different scenarios). Chromosomes (the most compact chromatin structure) begin to condense further during prophase of mitosis with the help of some of the condensin and cohesin complexes.So I would say the answer to your question as written is S-phase.