Immune system cells enter a resting phase after undergoing mitosis. When activated—for example, by an infection—they can reenter
the sequence of events in the cell cycle that leads to cell division. What would be the correct cell cycle sequence of events for these reactivated cells? View Available Hint(s) Immune system cells enter a resting phase after undergoing mitosis. When activated—for example, by an infection—they can reenter the sequence of events in the cell cycle that leads to cell division. What would be the correct cell cycle sequence of events for these reactivated cells? G1, S, G2, M S, G1, G2, M G1, M, G2, S, G1 G1, G2, S, M
After reactivation, these cells move from resting phase to G1 phase. In G1 phase, cell prepare for DNA replication and arrange all the enzymes and nucleotide which are necessary for DNA replication. After that cell enter into S phase, where DNA replication occurs. In every cell, DNA replication occur once and only once per cell cycle. Once complete, the cells move into G2 phase.
In G2-phase, cell make the final preparations for mitosis, and finally cell enter M-phase and then cell division occurs.
D. The body will be able to produce the antibodies and memory cells needed to fight disease and recover quickly. Exercise and vitamin C is what creates antibodies and white blood cells that fight diseases. Plus exercise can clear the lungs of any dangerous germs that can cause illness like a cold or flu. And sleeping well and resting would remove any kind of stress one would receive from exercising.