DNA damage refers to physical or chemical contamination in the environment that causes changes in the cellular DNA structure of the body. There are many kinds of chemical substances causing DNA damage. For example, nitrosamines are first metabolized and decomposed in the body to produce an alkylating agent, diazonium, which causes alkylation of DNA and causes irreparable changes in genetic information carriers. Carcinogenic. Another example is benzo(a)pyrene in polycyclic aromatic hydrocarbons (PAH), which, under the activation of mixed functional oxidases, forms an epoxide with an electrophilic structure. This epoxide combines with a nucleophilic group of a macromolecule such as intracellular DNA to cause DNA damage. When the damage cannot be repaired or repaired, it is possible to cause the cells to become cancerous. Some metals, such as nickel, strontium, chromium and other carcinogens, may also form a stable complex with ribonucleic acid residues, resulting in carcinogenic effects. [DNA damage repair] DNA damage repair refers to the recovery of the structure of DNA molecules in biological cells after damage, and is the result of the action of various enzymes in the body cells. In 1968, American scholar J. E. Clifford first discovered that autosomal recessive photochemical cancerous disease in humans is caused by a defect in the repairing kinetic energy of DNA damage caused by genetic mutation. This finding provides an important molecular biological evidence for the pathogenesis of malignant tumors, and has also led to the study of DNA damage repair in the medical field. DNA damage repair was listed as one of the important topics at the 14th International Conference on Genetics held in Moscow in 1979. Research on DNA damage repair has become an important research topic in genetics and oncology in molecular and genetic medicine. There are many types of ADN molecular damage. For example, the formation of thymine dimer is the main damage mode of UV to DNA molecules. After x-ray and r-ray irradiation, the hydrogen bond between DNA strands can be broken. Single-strand or double-strand breaks; mitomycin C can cause cross-linking between single strands of DNA molecules, and cross-linking of strands can cause cleavage of DNA molecules; DNA molecules can also undergo changes in individual bases or nucleotides. The methods of DNA damage repair include photoreactivation, cut repair, post-replication repair, adaptive repair, chain break repair, and chain cross-link repair. DNA damage repair studies can help to understand the mechanism of gene mutation, aging and cancer, and can also be applied to the detection of environmental carcinogens.
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Amino compound
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Oxy-containing amino compound
Cycloalkylamines, aromatic monoamines, aromatic polyamines and derivatives and salts thereof
Acyclic monoamines, polyamines and their derivatives and salts
Amide compound
Sulfonic acid amino compound
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Alcohols, phenols, phenolic compounds and derivatives
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2-cycloalcohol
Halogenated, sulfonated, nitrated or nitrosated derivatives of alcohols
Extremely halogenated, sulfonated, nitrated or nitrosated derivatives of phenols
Phenol and its halogenated, sulfonated, nitrated or nitrosated derivatives
Acyclic alcohol
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Nitrogen-containing compound
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Nitrile compound
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Organic derivative of hydrazine or hydrazine
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Terpenoid
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Ether compounds and their derivatives
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Ether, ether alcohol
Halogenation, sulfonation, nitration or nitrosation of ethers, ether alcohols, ether phenols
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Aldehyde
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Carboxylic compounds and derivatives
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Cyclic carboxylic acid
Halogenation, sulfonation, nitration or nitrosation of carboxylic acids
Halogenation, sulfonation, nitration or nitration of carboxylic anhydrides
Carboxylic acid halide
Carboxylic esters and their derivatives
Salt of carboxylic acid ester and its derivatives
Acyclic carboxylic acid
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Hydrocarbon compounds and their derivatives
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Aromatic hydrocarbon
Cyclic hydrocarbon
Hydrocarbon sulfonate
Hydrocarbon halide
Hydrocarbon nitrite
Acyclic hydrocarbon
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Ketone compound
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Alkyl ureas and their derivatives and salts
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Inorganic acid ester
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Heterocyclic compound
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Diazo, azo or azo compound
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Organosilicon compound
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Organometallic compound
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Organic palladium
Organic germanium, cobalt, strontium, barium, gallium, germanium, germanium, germanium, germanium, etc.
Organic calcium
Zirconium
Organic potassium
Organic
Organic lithium
Organic
Organic aluminum
Organotin
Organic manganese
Organic sodium
Organic nickel
Organic titanium
Organic iron
Organic copper
Organotin
Organic zinc
Organic
Organic
Organic germanium, mercury, silver, platinum, etc.
Organic germanium, antimony, bismuth, tungsten, antimony, bismuth, lead, vanadium, molybdenum, chromium, antimony, etc.
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Organic sulfur compound
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Organic phosphine compound
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Organometallic salt
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Organic fluorine compound
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Fluorobenzoic acid series
Fluorobenzonitrile series
Fluorobenzaldehyde series
Fluorobenzyl alcohol series
Fluoroanisole series
Fluoroaniline series
Fluorophenylacetic acid series
Fluorophenol series
Fluorobenzoic acid series
Fluoronitrobenzene series
Fluoropyridine series
Potassium fluoroborate series
Fluorobenzyl alcohol series
Fluorotoluene series
Fluorine red series
Fluoroethane series
Fluoropropane series