Abstract: Mitochondrial DNA deletions useful for the detection of cancers and sun exposure are provided. In particular, methods and kits for detecting mitochondrial DNA deletions for the early detection, diagnosis and progression of prostate cancer, sun exposure and non-melanoma skin cancer are provided.

Abstract: The present invention relates to methods for predicting, diagnosing and monitoring skin states and skin diseases. The methods combine the use of non-invasive skin collecting techniques with one or more assays for determining mitochondrial DNA (mtDNA) aberrations and Melanocortin 1 Receptor (MC1R) variants, thereby providing a comprehensive tool for identifying, predicting and/or monitoring photoageing, ultraviolet radiation (UVR) damage or skin disease. The methods of the invention may also be effective in screening for new therapeutic agents, skin care products and treatment regimes, and may also be useful for monitoring the response of a subject to a preventative or therapeutic treatment.

Abstract: The present invention provides novel mitochondrial fusion transcripts and the parent mutated mtDNA molecules that are useful for predicting, diagnosing and/or monitoring cancer. Hybridization probes complementary thereto for use in the methods of the invention are also provided.

Abstract: The present invention relates to methods for predicting, diagnosing and monitoring skin states and skin diseases. The methods combine the use of non-invasive skin collecting techniques with one or more assays for determining mitochondrial DNA (mtDNA) aberrations and Melanocortin 1 Receptor (MC1R) variants, thereby providing a comprehensive tool for identifying, predicting and/or monitoring photoageing, ultraviolet radiation (UVR) damage or skin disease. The methods of the invention may also be effective in screening for new therapeutic agents, skin care products and treatment regimes, and may also be useful for monitoring the response of a subject to a preventative or therapeutic treatment.

Abstract: The present invention relates to methods for predicting, diagnosing and monitoring cancer. The methods comprise obtaining biological samples, extracting mitochondrial DNA (mtDNA) from the samples, quantifying mitochondrial DNA mutation in the sample and comparing the level of mtDNA mutation with a reference value. The methods of the invention may also be effective in screening for new therapeutic agents and treatment regimes, and may also be useful for monitoring the response of a subject to a preventative or therapeutic treatment.

Abstract: Mitochondrial DNA deletions useful for the detection of cancers and sun exposure are provided. In particular, methods and kits for detecting mitochondrial DNA deletions for the early detection, diagnosis and progression of prostate cancer, sun exposure and non-melonoma skin cancer are provided.

Abstract: A cluster analysis of mutations in the mitochondrial genomes from malignant, adjacent benign and distant benign tissues from a sample of men having prostate cancer has determined that mutations in ND1, ND2, COX1 and CytB are indicative of prostate cancer. 97% (30/31) of the samples contained synonymous and non-synonymous mutations in these genes. 65% (20/31) of the samples contained non-synonymous mutations in these genes.

Abstract: The examination of mutations in the mitochondrial genome is used as a diagnostic system for diseases such as prostate cancer, and non melanoma skin cancer. Characteristic mutations and rearrangements including, point mutations (transitions, transversions), deletions, inversions, duplications, recombinations, insertions or combinations thereof in the mitochondrial genome are used as early indicators of prostate cancer, and non melanoma skin cancer. Moreover, the 4977 bp, or “common deletion” as well as other associated mutations and/or deletions are used as a measure of aging.