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Mechanisms used by plants to cope with DNA damage

Zhubing Hu (UGent) , Toon Cools (UGent) and Lieven De Veylder (UGent)
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Abstract
Because the genome stores all genetic information required for growth and development, it is of pivotal importance to maintain DNA integrity, especially during cell division, when the genome is prone to replication errors and damage. Although over the last two decades it has become evident that the basic cell cycle toolbox of plants shares several similarities with those of fungi and mammals, plants appear to have evolved a set of distinct checkpoint regulators in response to different types of DNA stress. This might be a consequence of plants' sessile lifestyle, which exposes them to a set of unique DNA damage-inducing conditions. In this review, we highlight the types of DNA stress that plants typically experience and describe the plant-specific molecular mechanisms that control cell division in response to these stresses.
Keywords
REPLICATION STRESS, GENOME INTEGRITY, DEPENDENT KINASES, TELOMERE MAINTENANCE, HOMOLOGOUS RECOMBINATION, STRAND BREAK REPAIR, ARABIDOPSIS-THALIANA, ROOT-GROWTH INHIBITION, development, SYSTEMIC ACQUIRED-RESISTANCE, CELL-CYCLE CHECKPOINT, cell cycle progression, DNA repair, DNA damage, DNA stress checkpoint

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Please use this url to cite or link to this publication:

Chicago
Hu, Zhubing, Toon Cools, and Lieven De Veylder. 2016. “Mechanisms Used by Plants to Cope with DNA Damage.” Ed. SS Merchant. Annual Review of Plant Biology 67: 439–462.
APA
Hu, Z., Cools, T., & De Veylder, L. (2016). Mechanisms used by plants to cope with DNA damage. (SS Merchant, Ed.)Annual Review of Plant Biology, 67, 439–462.
Vancouver
1.
Hu Z, Cools T, De Veylder L. Mechanisms used by plants to cope with DNA damage. Merchant S, editor. Annual Review of Plant Biology. Palo Alto, CA, USA: Annual Reviews; 2016;67:439–62.
MLA
Hu, Zhubing, Toon Cools, and Lieven De Veylder. “Mechanisms Used by Plants to Cope with DNA Damage.” Ed. SS Merchant. Annual Review of Plant Biology 67 (2016): 439–462. Print.
@article{7775242,
  abstract     = {Because the genome stores all genetic information required for growth and development, it is of pivotal importance to maintain DNA integrity, especially during cell division, when the genome is prone to replication errors and damage. Although over the last two decades it has become evident that the basic cell cycle toolbox of plants shares several similarities with those of fungi and mammals, plants appear to have evolved a set of distinct checkpoint regulators in response to different types of DNA stress. This might be a consequence of plants' sessile lifestyle, which exposes them to a set of unique DNA damage-inducing conditions. In this review, we highlight the types of DNA stress that plants typically experience and describe the plant-specific molecular mechanisms that control cell division in response to these stresses.},
  author       = {Hu, Zhubing and Cools, Toon and De Veylder, Lieven},
  editor       = {Merchant, SS},
  isbn         = {9780824306670},
  issn         = {1543-5008},
  journal      = {Annual Review of Plant Biology},
  keywords     = {REPLICATION STRESS,GENOME INTEGRITY,DEPENDENT KINASES,TELOMERE MAINTENANCE,HOMOLOGOUS RECOMBINATION,STRAND BREAK REPAIR,ARABIDOPSIS-THALIANA,ROOT-GROWTH INHIBITION,development,SYSTEMIC ACQUIRED-RESISTANCE,CELL-CYCLE CHECKPOINT,cell cycle progression,DNA repair,DNA damage,DNA stress checkpoint},
  language     = {eng},
  pages        = {439--462},
  publisher    = {Annual Reviews},
  title        = {Mechanisms used by plants to cope with DNA damage},
  url          = {http://dx.doi.org/10.1146/annurev-arplant-043015-111902},
  volume       = {67},
  year         = {2016},
}

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