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Variants of inherited genes may predispose individuals to cancer. In addition, environmental factors such as carcinogens and radiation cause mutations that may contribute to the development of cancer. Finally random mistakes in normal DNA replication may result in cancer-causing mutations. [6]
They can affect the transcription and replication of the DNA, which in severe cases can lead to cell death. The mutagen produces mutations in the DNA, and deleterious mutation can result in aberrant, impaired or loss of function for a particular gene, and accumulation of mutations may lead to cancer. Mutagens may therefore be also carcinogens.
The altered DNA base can cause errors during DNA replication that have mutagenic and carcinogenic potential. Thus H. pylori -induced ROS appear to be the major carcinogens in stomach cancer because they cause oxidative DNA damage leading to carcinogenic mutations.
In molecular genetics, a DNA adduct is a segment of DNA bound to a cancer-causing chemical. This process could lead to the development of cancerous cells, or carcinogenesis. DNA adducts in scientific experiments are used as biomarkers of exposure. They are especially useful in quantifying an organism's exposure to a carcinogen. [1]
As this is necessary in DNA replication, the cells can no longer divide. These drugs act nonspecifically. Electrophilic alkylating agents such as nitrogen mustards, methanesulfonates, and cisplatins tend to act in this manner to produce a variety of DNA damage products such as mono- and dialkylation, inter- and intrastrand crosslinks, and DNA ...
The main mechanism of cancer development involves increased exposure to acetaldehyde, a carcinogen and breakdown product of ethanol. [41] Acetaldehyde induces DNA interstrand crosslinks, a form of DNA damage. These can be repaired by an inaccurate replication-coupled DNA repair pathway. [42]
mismatch of bases, due to errors in DNA replication, in which the wrong DNA base is stitched into place in a newly forming DNA strand, or a DNA base is skipped over or mistakenly inserted. Monoadduct damage cause by change in single nitrogenous base of DNA; Di adduct damage; Damage caused by exogenous agents comes in many forms. Some examples are:
interfere with DNA replication and transcription by modifying DNA bases. Busulfan, Carmustine, Mechlorethamine: Intercalating agents: interfere with DNA replication and transcription by wedging themselves into the spaces in between DNA's nucleotides: Daunorubicin, Doxorubicin, Epirubicin: Enzyme inhibitors: inhibit enzymes that are crucial to ...