333 results about "DNA Damage Repair" patented technology

The invention relates to the improvement of endonuclease-based antimicrobials by blocking DNA repair of double-strand break(s) (DSB(s)) in prokaryotic cells. In this respect, the invention especially concerns a method involving blocking DNA repair after a nucleic acid has been submitted to DSB, in particular by a Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) associated programmable double-strand endonuclease. The invention particularly relates to the use of an exogenous molecule that inhibits DNA repair, preferably a protein that binds to the ends of the double-stranded break to block DSB repair. The invention also relates to vectors, particularly phagemids and plasmids, comprising nucleic acids encoding nucleases and Gam proteins, and a pharmaceutical composition and a product containing these vectors and their application.

The invention relates to the unexpected discovery of a system and methods for precise homology directed repair after CRISPR/Cas9 cleavage. The invention includes a DNA cleavage and repair system comprising a CRISPR/Cas9 system and an oligonucleotide 100% complementary to cleaved DNA to promote homology directed DNA repair. The invention further includes methods for inducing homology directed repair of cleaved DNA and repairing a CRISPR/Cas9 cleavage.

Methods for treating cancer using compounds that inhibit human DNA ligases. Methods for using compounds that inhibit human DNA ligases to provide insights into the reaction mechanisms of human DNA ligases, for example to identify the human DNA ligase involved in different DNA repair pathways. Screening methods for compounds that inhibit human DNA ligases.

A method and composition for extending the lifespan of an individual and delaying the onset of age-related disease is provided. The method includes the administration of an effective dose of oxaloacetate, wherein the oxaloacetate acts to mimic the cellular conditions obtained under caloric restriction to provide similar benefits. The invention further includes methods and compositions for reducing the incidence or treatment of cancer. Compositions and methods for reducing body fat by administering an effective amount of oxaloacetate are likewise provided. Compositions for DNA repair in UV damaged cells is provided are also provided. Similarly, a method for treating a hang-over comprising administering an effective amount of oxaloacetate is disclosed.

The present invention relates to a new composition comprising substances that promote DNA repair, reduce body fat levels and increase lean body mass and that decrease wrinkle appearance and/or improvement in skin surface. In some aspects, the composition of the present invention include resveratrol, forskohlin and astaxanthin. In another aspect the composition of the present invention further comprises carboxy alkyl ester. The present invention also relates to a method of promoting internal health and external appearance in a subject in need, said method comprising administering to the subject a composition that promotes DNA repair, reduces body fat levels and increases lean body mass and that decreases wrinkle appearance and/or improvement in skin surface.

The present invention is directed to a method of preparation and the composition of a water soluble extract of the plant species Uncaria. The present invention is also directed to the pharmaceutical use of the composition for the enhancement of the immune, anti-inflammatory, anti-tumor and DNA repair processes of warm blooded animals. The present preparation of the water soluble extract of the plant species Uncaria results in the depletion of many of the ingredients which lead to various toxic side effects associated with other extracts or compositions derived from Uncaria. Also, the present preparation leads to the depletion of many of the active ingredients commonly associated with other extracts and compositions of the plant species Uncaria. Therefore, the present invention teaches that the hot water extraction of the crude plant parts of Uncaria and the subsequent dialysis of the solubilized products yields a low molecular weight composition which maintains a high degree of the anti-tumor, inflammatory and immune stimulatory activities associated with the crude plant parts.

Disclosed are methods for measuring the effects of environmental, physiological, or lifestyle variables on DNA damage and DNA repair activity as well as the use of measurements of DNA damage and DNA repair activity to predict increased risk for disease. Embodiments of the methods involve the use of a combination of assays to measure DNA damage and DNA repair activity in an individual and comparing these measurements to suitable controls using the selected assays for normal healthy individuals of varying ages. In other embodiments, the methods may comprise a comparison of DNA damage levels to DNA repair levels to obtain an apparent net measurement of DNA damage accumulation.

Business methods for the commercialization of antimicrobial and cytotoxic compounds, including antibiotics and chemotherapeutic agents, are disclosed. According to one embodiment of the invention, drugs that are found to be effective but unsafe at therapeutic dosages are rescued by way of the use of an inhibitor of DNA repair, recombination, or replication, which sensitized microorganisms and cells, thereby permitting their use at a lower and safe dosage. In another embodiment, drugs that are found to be effective but cost prohibitive are rescued by way of the use of an inhibitor of DNA repair, recombination, or replication, thereby permitting their use at lower dosages and costs. A biopharmaceutical company may then, commercialize or charge royalties on such drugs.

Method and apparatus for using computer controlled, fiber-coupled laser delivery of treatment specific wavelength, intensity and duration of UV irradiation to control bacterial, fungal, viral and mold infections in bodily cavities, fluids and external applications. The method of treatment is focused on DNA breakdown beyond repair by natural DNA repair mechanisms of the pathogen, with less than damaging doses to tissues being treated, thus avoiding mutagenicity and carcinogenicity. The minimal intensity and duration and exposure area of any given surface of tissue to be treated is to be pre-determined by tissue and pathogen testing to optimize the therapeutic ratio. External applications include specifically Trichophyton Rubrum (toenail fungus) through the nail and Pseudomonas Aeruginosa infections in burns and elsewhere.

The present invention provides methods of detecting triple negative breast cancer recurrence using biomarkers.

Inositol hexaphosphate (IP-6) is a polyphosphorylated carbohydrate with potent antioxidant activity to prevent active oxygen species-mediated mutagenesis, cell injury and carcinogenesis. IP-6 also activates DNA repair mechanisms. Sublethal radiation causes DNA damage through the formation of free radicals, reactive oxygen species, and pyrimidine crosslinks leading to cellular proliferation, cell cycle arrest and apoptosis. In the skin it results in the induction of skin cancer, premature skin aging, immuno-suppression, inflammation, and cell death. Likewise sublethal exposure to ionizing radiation as in nuclear blasts (war-time, accidental, terrorist-induced etc), cosmic radiation, etc. also causes the same spectrum of damage to the cells and the organisms with acute symptoms and eventual high risk of many cancers. IP-6 and/or inositol and their pharmaceutically acceptable salts and derivatives, including pyrophosphates and citrate derivatives, significantly counteract the harmful effects of radiation, affecting cell cycle progression in a protective manner (more cells in the protective GI phase) as well as decreasing apoptosis and caspase-3 activation. Various salts of IP-6 are used with comparable efficacy and the combination of IP-6+inositol affords the best protection against radiation-induced cell injury. Thus IP-6 and inositol are effective agents for protection against nuclear, solar and other radiation injuries.

The present invention relates to an anticancer medicine composition and belongs to the field of medicine technology. The anticancer medicine composition contains topomerase inhibitor and medicinal supplementary material. The topomerase inhibitorcan inhibit intracellular DNA repair function and reduce the tolerance one tumor cell on anticancer nitrosourea medicine; and the medicine supplementary material is mainly degradable biocompatible polymer. During the degrading and absorption process of the supplementary material, the anticancer medicine is released slowly to the tumor part, and this can lower the systemic toxic reaction while maintaining local effective medicine concentration. The anticancer medicine composition contains also anticancer nitrosourea medicine, and is set to the tumor part locally to enhance the treatment effect.

The invention discloses a lactoflavin engineering bacterium and a constructing method thereof, and the preservation number of the lactoflavin engineering bacterium is CGMCC NO.16132. Through a geneticengineering means, a lactoflavin auxotroph strain is constructed, then a chromosome integrates and expresses a lactoflavin operon demodulated by bacillus amyloliquefaciens, and the lactoflavin production capacity of the strain is restored; then an expression vector overexpresses the lactoflavin operon demodulated by the bacillus subtilis, so that the lactoflavin production capacity of the straincan be improved; in addition, through point mutation of a ribC gene, the catabolism of lactoflavin is diminished; and finally, a recA gene which is responsible for homologous recombination and DNA repair on the chromosome is inserted for inactivation, and a lactoflavin production chassis cell is constructed. Based on the lactoflavin production chassis cell, through combination of the characteristic that the lactoflavin is a natural flroresence substance, and a strain high in lactoflavin yield is screened out through liquid drop micro-fluidic control. The invention also discloses a method for producing the lactoflavin through fermentation with the bacillus subtilis, and an application of the strain high in lactoflavin yield to lactoflavin production and an application of the strain high inlactoflavin yield to medicines, foods and feeds.