The greatest radiation effects will occur in cells having the 1) least maturity 2) least specialization 3) most mitotic activity, and 4) longest mitotic phase.
...so
1. Maturity of the cell
2. Specialization of the cell
3. Mitotic activity of the cell
4. Mitotic phase of the cell
( I am a radiology student, all this information came from my text book :) )
Factors that affect cell division, that is if cells divide or not, can be categorized into internal factors, growth factors and external factors. For more information it is best to study literature on the subject.
An excess of cholesterol in the cell membrane can lead to decreased fluidity and flexibility of the membrane, potentially affecting the cell's ability to function properly.
Mutations in genes that control cell division, such as oncogenes or tumor suppressor genes, can lead to uncontrolled cell cycle progression. Environmental factors like radiation or chemicals can also disrupt cell cycle regulation. Additionally, viruses can integrate their DNA into the host cell's genome, affecting cell cycle control.
External factors that influence the cell cycle include growth factors, which promote cell division and proliferation, and environmental stressors, such as UV radiation or toxins, which can induce cell cycle arrest or apoptosis.
Yamanaka factors are a group of genes that can reprogram adult cells back into a stem cell-like state. These factors work by activating specific genes that are responsible for maintaining the cell's identity and function. By turning on these genes, the Yamanaka factors can reset the cell's developmental state, allowing it to become pluripotent and capable of developing into different cell types.
The factors that affect the cell potential (Ecell) of an electrochemical cell include the concentrations of reactants and products, the temperature, and the nature of the electrodes and electrolytes. Changes in these factors can alter the driving force and conditions for redox reactions, ultimately affecting the cell potential.
Several physical factors affect the capacity, including the quantity of active materials; the number, design, and the dimensions of the plates; and the electrolyte concentration. Operational factors affecting capacity include discharge rate, charging method, temperature, age, and conditions of the cell or battery.
Philip Martin Bradley has written: 'Factors affecting the development and maintenance of the purkinje cell dendritic tree'
The two limiting factors to cell growth are nutrient availability and waste accumulation. Cells require nutrients to grow and carry out their functions, and they produce waste that can build up and hinder growth if not removed efficiently. These factors can limit cell growth by affecting metabolism, energy production, and overall cellular function.
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Chia-ying Shen has written: 'Studies on dietary factors affecting plasma and red cell folate' -- subject(s): Folic acid in human nutrition
Factors that affect cell division, that is if cells divide or not, can be categorized into internal factors, growth factors and external factors. For more information it is best to study literature on the subject.
Chemical factors that determine traits include DNA, which encodes genetic information that determines an organism's characteristics, as well as hormones and other signaling molecules that regulate gene expression and cell function. Environmental factors can also influence trait expression by affecting how genes are activated or suppressed.
yes
yes
There are many factors that can stop cell growth. One of them is cancer. Also, an infection or a blood clot can stop cell growth.
An excess of cholesterol in the cell membrane can lead to decreased fluidity and flexibility of the membrane, potentially affecting the cell's ability to function properly.