Description

Book Synopsis
This book presents the latest research on DNA damage, which due to environmental factors and normal metabolic processes inside the cell, occurs at a rate of 1,000 to 1,000,000 molecular lesions per cell per day. While this constitutes only 0.000165% of the human genome''s approximately 6 billion bases (3 billion base pairs), unrepaired lesions in critical genes (such as tumour suppresser genes) can impede a cell''s ability to carry out its function and appreciably increase the likelihood of tumour formation. The vast majority of DNA damage affects the primary structure of the double helix; that is, the bases themselves are chemically modified. These modifications can in turn disrupt the molecules'' regular helical structure by introducing non-native chemical bonds or bulky adducts that do not fit in the standard double helix. Unlike proteins and RNA, DNA usually lacks tertiary structure and therefore damage or disturbance does not occur at that level. DNA is, however, supercoiled and wound around "packaging" proteins called histones (in eukaryotes), and both superstructures are vulnerable to the effects of DNA damage.

Progress in DNA Damage Research

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    A Hardback by Souta Miura, Shouta Nakano

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      Publisher: Nova Science Publishers Inc
      Publication Date: 01/10/2008
      ISBN13: 9781604565829, 978-1604565829
      ISBN10: 1604565829
      Also in:
      Science & Nature Computational biology / bioinformatics Genetics (non-medical)

      Description

      Book Synopsis
      This book presents the latest research on DNA damage, which due to environmental factors and normal metabolic processes inside the cell, occurs at a rate of 1,000 to 1,000,000 molecular lesions per cell per day. While this constitutes only 0.000165% of the human genome''s approximately 6 billion bases (3 billion base pairs), unrepaired lesions in critical genes (such as tumour suppresser genes) can impede a cell''s ability to carry out its function and appreciably increase the likelihood of tumour formation. The vast majority of DNA damage affects the primary structure of the double helix; that is, the bases themselves are chemically modified. These modifications can in turn disrupt the molecules'' regular helical structure by introducing non-native chemical bonds or bulky adducts that do not fit in the standard double helix. Unlike proteins and RNA, DNA usually lacks tertiary structure and therefore damage or disturbance does not occur at that level. DNA is, however, supercoiled and wound around "packaging" proteins called histones (in eukaryotes), and both superstructures are vulnerable to the effects of DNA damage.

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