It will depend on how the DNA is altered.
If the introns are altered there should be no significant risk to the cell. If a single base is altered, but the codon still produces the same amino acid (silent mutation) - there will be no effect on cell function.
A major change to DNA (such as a frame-shift or nonsense mutation) may affect vital protein products and this could lead to cell death.
The genetic alteration of a cell's genome by the introduction of foreign DNA is called genetic engineering or genetic modification. This process allows scientists to insert specific genes into an organism's genome, giving it new traits or characteristics.
HPV can cause cancer by integrating its DNA into the host cell's DNA, leading to abnormal cell growth and potentially cancerous changes.
The radiation can modify the molecules and atoms in DNA strands. Changing DNA changes the way the cell(s) reproduce and can result in a mutation that is inherited, a mutation that is cancerous, or the par of the DNA is inactive and will not result in a noticeable change.
UV light can cause changes in DNA by creating mutations, which are alterations in the genetic code. These mutations can lead to various effects on genetic material, such as cell death, cell cycle arrest, or the development of cancer. UV light can also cause DNA damage, such as the formation of thymine dimers, which can disrupt the normal functioning of DNA and lead to genetic instability.
Enzymes that destroy cells' DNA and cytoskeleton, leading to rapid cell death, are known as caspases. These enzymes play a crucial role in the process of programmed cell death, or apoptosis.
The genetic alteration of a cell's genome by the introduction of foreign DNA is called genetic engineering or genetic modification. This process allows scientists to insert specific genes into an organism's genome, giving it new traits or characteristics.
Not directly. Radiation can cause mutations in DNA. Excess heat (as in the case of a fever) can denature (destroy) the DNA sequence as well as other proteins which will usually result in cell death.
DNA polymerase
An alteration in DNA refers to any change in the nucleotide sequence of the genetic material. This can include mutations, deletions, insertions, or rearrangements of DNA segments, which can occur naturally or be induced by environmental factors. Such alterations can affect gene function and expression, potentially leading to variations in traits or diseases. Depending on the nature and location of the alteration, it may have no effect, be beneficial, or cause harmful consequences to an organism.
HPV can cause cancer by integrating its DNA into the host cell's DNA, leading to abnormal cell growth and potentially cancerous changes.
A mutant cell is a cell that has undergone a genetic mutation, resulting in a change in its DNA sequence. This alteration can lead to changes in the cell's function, structure, or behavior, which may impact the individual's health or development.
If you mean in DNA transcription: 1. have no effect 2. produce a mutation 3. cause death of the cell in which this is happening
Viruses hijack the host cell's machinery to replicate their own genetic material, produce new virus particles, and eventually cause the host cell to burst, releasing the new viruses to infect other cells. This process ultimately leads to cell death and can cause harm to the larger organism.
The radiation can modify the molecules and atoms in DNA strands. Changing DNA changes the way the cell(s) reproduce and can result in a mutation that is inherited, a mutation that is cancerous, or the par of the DNA is inactive and will not result in a noticeable change.
UV light can cause changes in DNA by creating mutations, which are alterations in the genetic code. These mutations can lead to various effects on genetic material, such as cell death, cell cycle arrest, or the development of cancer. UV light can also cause DNA damage, such as the formation of thymine dimers, which can disrupt the normal functioning of DNA and lead to genetic instability.
dna in a cell needs protein and chromosomes.
dna in a cell needs protein and chromosomes.