Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Research and Development of Repair Mechanisms of Damaged DNA in Human Physiology


Affiliations
1 Department of Food Technology, Hemnalini Memorial College of Engineering, India
     

   Subscribe/Renew Journal


DNA is the carrier of genetic information. Though it was believed that DNA is stable in our body; but later, scientists concluded that DNA is very fragile under human physiological conditions. Also,radiation and exogenous agents can cause DNA damage, this can be mutagenic. Scientistsdiscovered the existence ofdifferent molecular pathways to overcome the damages in DNA. Tomas Lindahl, Aziz Sancar, Paul Modrich jointly won the Chemistry Nobel Prize in 2015. They mapped different pathways to repair damaged DNA.

Keywords

Base excision repair, Nucleotide excision repair, Mismatch Excision Repair, DNA damage, Pathway.
User
Subscription Login to verify subscription
Notifications
Font Size

  • V Hernandez, The Hershey-Chase Experiments (1952) by Alfred Hershey and Martha Chase, https://embryo.asu.edu/, 2019.
  • A L Lehninger, D L Nelson, M M Cox, Lehninger Principles of Biochemistry, page 28-31, 2009.
  • A Travers, G Muskhelishvili, DNA structure and function, FEBS Journal, Vol 282, Issue 12, page 2279-2295, 2015.
  • R R S inden, C E Pearson, V N Potaman, D W Ussery, DNA: Structure and function, Advances in Genome Biology, Vol 5(C), page 1-141, 1998.
  • A P Wolffe, DNA structure and function, The FEBS Journal, Vol 20, Issue 8, page 330-331, 1995.
  • K Points, B R Korf, M B Irons,DNA Structure and Function, Human Genetics and Genomics, Wiley E-text, Vol 4, 2012.
  • A Herbert, A Rich, Left-Handed Z-DNA: Structure and Function, Genetica 1999, Vol 106, Issue 1-2, page 1-19, 1999.
  • A Rich, S Zhang, Z-DNA: the long road to biological function, Nature Reviews Genetics, Vol 4, Issue 7, page 566-572, 2003.
  • A Hollaender, J T Curtis, Effect of sublethal doses of monochromatic ultraviolet radiation on bacteria in liquid suspension, Proceedings of the Society for Experimental Biology and Medicine, Vol 33, Issue 3, page 61-62, 1935.
  • Bridges B, Correcting the Blueprint of Life. An Historical Account of the Discovery of DNA Repair Mechanisms, Journal of Medical Genetics, Vol 35, Issue 264, 1998.
  • S A Shrinivas, S H Shanta, B BPrajakta, DNA: Damage and Repair Mechanisms in Humans, Global Journal of Pharmacy & Pharmaceutical Sciences, Vol 3, Issue 2, page 555613, 2017.
  • TLindahl, The intrinsic fragility of DNA (Nobel Lecture), Angewandte Chemie International Edition, Vol 55, Issue 30, page 8528-8534, 2016.
  • PModrich, Mechanisms in E. coli and human mismatch repair (Nobel Lecture), Angewandte Chemie International Edition, Vol 55, Issue 30, page 8490-8501, 2016.
  • A Sancar, Mechanisms of DNA repair by photolyase and excision nuclease (Nobel Lecture), Angewandte Chemie International Edition, Vol 55, Issue 30 page 8502-8527, 2016.
  • K Baumann, The Nobel Prize 2015: The year of DNA repair, Nature Reviews Molecular Cell Biology, Vol 16, Issue 11, page 640-640, 2015.
  • T Lindahl, P Modrich, A Sancar, The 2015 Nobel Prize in Chemistry The Discovery of Essential Mechanisms that Repair DNA Damage, Journal of the Association of Genetic Technologists, Vol 42, Issue 1, page 37-41, 2016.
  • T Bocker, A Barusevicius, T Snowden, D Rasio, S Guerrette, D Robbins, R Fishel, hMSH5: a human MutS homologue that forms a novel heterodimer with hMSH4 and is expressed during spermatogenesis. Cancer research, Vol 59, Issue 4, page 816-822, 1999.
  • L A Lindsey-Boltz, V P Bermudez, J Hurwitz, A Sancar, Purification and characterization of human DNA damage checkpoint Rad complexes, Proceedings of the National Academy of Sciences,Vol98, Issue 20, page 11236-11241, 2001.
  • J H Choi, L A Lindsey-Boltz, M Kemp, A C Mason, M S Wold, A Sancar, Reconstitution of RPAcovered single-stranded DNA-activated ATR-Chk1 signaling. Proceedings of the National Academy of Sciences, Vol 107, Issue 31, page 13660-13665, 2010.
  • Y Kubota, R A Nash, A Klungland, P Schär, D E Barnes, T Lindahl, Reconstitution of DNA base excision-repair with purified human proteins: interaction between DNA polymerase beta and the XRCC1 protein. The European Molecular Biology Organization journal, Vol 15, Issue 23, page 66626670, 1996.
  • T Roldán-Arjona, Y F Wei, K C Carter, A Klungland, C Anselmino, R P Wang, T Lindahl, Molecular cloning and functional expression of a human cDNA encoding the antimutator enzyme 8-hydroxyguanine-DNA glycosylase, Proceedings of the National Academy of Sciences, Vol 94, Issue 15, 8016-8020, 1997.

Abstract Views: 333

PDF Views: 0




  • Research and Development of Repair Mechanisms of Damaged DNA in Human Physiology

Abstract Views: 333  |  PDF Views: 0

Authors

Mitrabrata Goswami
Department of Food Technology, Hemnalini Memorial College of Engineering, India

Abstract


DNA is the carrier of genetic information. Though it was believed that DNA is stable in our body; but later, scientists concluded that DNA is very fragile under human physiological conditions. Also,radiation and exogenous agents can cause DNA damage, this can be mutagenic. Scientistsdiscovered the existence ofdifferent molecular pathways to overcome the damages in DNA. Tomas Lindahl, Aziz Sancar, Paul Modrich jointly won the Chemistry Nobel Prize in 2015. They mapped different pathways to repair damaged DNA.

Keywords


Base excision repair, Nucleotide excision repair, Mismatch Excision Repair, DNA damage, Pathway.

References





DOI: https://doi.org/10.24906/isc%2F2021%2Fv35%2Fi1%2F208410