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Response to Cacas and Diamond: Is the autophagy machinery an executioner of programmed cell death in plants?
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Love, Andrew J., Milner-Gulland, Joel J. and Sadanandom, Ari. (2009) Response to Cacas and Diamond: Is the autophagy machinery an executioner of programmed cell death in plants? Trends in Plant Science . ISSN 1360-1385
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Official URL: http://dx.doi.org/10.1016/j.tplants.2009.02.009 ...
| Item Type: | Journal Article |
|---|---|
| Subjects: | Q Science > QK Botany S Agriculture > SB Plant culture |
| Divisions: | Faculty of Science > Life Sciences (2010- ) > Warwick HRI (2004-2010) |
| Library of Congress Subject Headings (LCSH): | Cell death, Cell-mediated cytotoxicity, Plant genetics, Plants -- Aging -- Genetic aspects |
| Journal or Publication Title: | Trends in Plant Science |
| Publisher: | Elsevier Ltd. |
| ISSN: | 1360-1385 |
| Date: | 22 May 2009 |
| Identification Number: | 10.1016/j.tplants.2009.02.009 |
| Status: | Peer Reviewed |
| Access rights to Published version: | Open Access |
| Version or Related Resource: | Written in response to: Cacas, J.-L. and Diamond, M. (2009). Is the autophagy machinery an executioner of programmed cell death in plants? Trends Plant Science, 14. |
| References: | 1 A.J. Love et al., Timing is everything: regulatory overlap in plant cell death, Trends Plant Sci. 13 (2008), pp. 589–595. 2 J.-L. Cacas and M. Diamond, Is the autophagy machinery an executioner of programmed cell death in plants?, Trends Plant Sci. 14 (2009) doi:10.1016/j.tplants.2009.02.008. 3 J.J. Lum et al., Growth factor regulation of autophagy and cell survival in the absence of apoptosis, Cell 120 (2005), pp. 237–248. 4 A. Melendez et al., Autophagy genes are essential for dauer development and life-span extension in C. legans, Science 301 (2003), pp. 1387–1391. 5 A. Kosta et al., Autophagy gene disruption reveals a non-vacuolar cell death pathway in Dictyostelium, J. Biol. Chem. 279 (2004), pp. 48404–48409. 6 Y. Liu et al., Autophagy regulates programmed cell death during the plant innate immune response, Cell 121 (2005), pp. 567–577. 7 D.L. Berry and E.H. Baehrecke, Growth arrest and autophagy are required for salivary gland cell degradation in Drosophila, Cell 131 (2007), pp. 1137–1148. 8 C. Veneault-Fourrey et al., Autophagic fungal cell death is necessary for infection by the rice blast fungus, Science 312 (2006), pp. 580–583. 9 C. Samara et al., Autophagy is required for necrotic cell death in Caenorhabditis elegans, Cell Death Differ. 15 (2008), pp. 105–112. 10 J.O. Pyo et al., Essential roles of Atg5 and FADD in autophagic cell death – dissection of autophagic cell death into vacuole formation and cell death, J. Biol. Chem. 280 (2005), pp. 20722–20729. 11 E. Ullman et al., Autophagy promotes necrosis in apoptosis-deficient cells in response to ER stress, Cell Death Differ. 15 (2008), pp. 422–425. 12 L. Yu et al., Regulation of an ATG7-beclin 1 program of autophagic cell death by caspase-8, Science 304 (2004), pp. 1500–1502. 13 D.J. Klionsky et al., Guidelines for the use and interpretation of assays for monitoring autophagy in higher eukaryotes, Autophagy 4 (2008), pp. 151–175. |
| URI: | http://wrap.warwick.ac.uk/id/eprint/720 |
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