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158. GNM Kumar, NR Knowles. Changes in lipid peroxidation and lipolytic and free-radical scavenging enzyme
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159. 
     


160. M Kar, P Streb, B Hertwig, J Feierabend. Sensitivity to photodamage increases during senescence in excised
     leaves. J Plant Physiol 141:538–544, 1993.


161. FR Tadeo, E Primo-Millo. Peroxidase activity changes and lignin deposition during the senescence process in
     Citrusstigmas and styles. Plant Sci 68:47–56, 1990.


162. R Keller, FS Renz, J Kossmann. Antisense inhibition of the GDP-mannose pyrophosphorylase reduces the
     ascorbate content in transgenic plants leading to developmental changes during senescence. Plant J
     19:131–141, 1999.


163. J Zhou, PB Goldsbrough. Functional homologs of fungal metallothionein genes from Arabidopsis. Plant Cell
     6:875–884, 1994.


164. JM Palma, M Garrido, MI Rodriguez-García, LA Del Rio. Peroxisome proliferation and oxidative stress
     mediated by activated oxygen species in plant peroxisomes. Arch Biochem Biophys 287:68–74, 1991.


165. LM Sandalio, VH Fernandez, FL Ruperez, LA Del Rio. Superoxide free radicals are produced in glyoxisomes.
     Plant Physiol 87:1–4, 1988.


166. G Paliyath, MJ Droillard. The mechanisms of membrane deterioration and disassembly during senescence.
     Plant Physiol Biochem 30:789–812, 1992.


167. MM Olsson, C Liljenberg. Effects of physiological and ontogenetical ageing on sterol levels and composition
     in pea leaves. Phytochemistry 29:765–768, 1990.


168. G Paliyath, JE Thompson. Evidence for early changes in membrane structure during postharvest development
     of cut carnation flowers. New Phytol 114:555–562, 1990.


169. K Lohner. Effects of small organic molecules on phospholipid phase transitions. Chem Phys Lipids
     57:341–362, 1991.


170. CL Duxbury, RL Legge, G Paliyath, RF Barber, JE Thompson. Alterations in membrane protein conformation
     in response to senescence-related changes in membrane fluidity and sterol concentration. Phytochemistry
     30:63–68, 1991.


171. A Carruthers, DL Melchior. How bilayer lipids affect membrane protein activity. Trends Biol Sci 11:331–335,


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173. S Yoshida, M Uemura, T Niki, A Sakai, LV Gusta. Partition of membrane particles in aqueous two-polymer
     phase system and its practical use for purification of plasma membranes from plants. Plant Physiol 72:105–114,


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175. EJ Pell, KL Steffen. Active oxygen/oxidative stress and plant metabolism. Current Topics in Plant Physiology.
     An American Society of Plant Physiologists Series. Vol 6. Rockville, MD, 1991.


176. KP Pauls, JE Thompson. Evidence for the accumulation of peroxidized lipids in membranes of senescing
     cotyledons. Plant Physiol 75:1152–1157, 1984.


177. MA Rouet-Mayer, JM Bureau, C Laurière. Identification and characterization of lipoxygenase isoforms in
     senescing carnations. Plant Physiol 98:971–978, 1992.


178. M Fukuchi-Mizutani, K Savin, E Cornish, Y Tanaka, T Ashikari, T Kusumi, N Murata. Senescence-induced
     expression of a homologue of delta 9 desaturase in rose petals. Plant Mol Biol 29:627–635, 1995.


179. F Cheour, J Arul, J Makhlouf, C Willemot. Delay of membrane lipid degradation by calcium treatment during
     cabbage leaf senescence. Plant Physiol 100:1656–1660, 1992.


180. DJ McCormac, JF Todd, G Paliyath, JE Thompson. Modulation of bilayer fluidity affects lipid catabolism in
     microsomal membranes of tomato fruit. Plant Physiol Biochem 31:1–8, 1993.


181. V Buchanan-Wollaston. The molecular biology of leaf senescence. J Exp Bot 48:181–199, 1997.


182. H Wang, HM Wu, AY Cheung. Pollination induces mRNA poly(A) tail-shortening and cell deterioration in
     flower transmitting tissue. Plant J 9:715–727, 1996.


183. CM Smart, SE Hosken, H Thomas, JA Greaves, BG Blair, W Schuch. The timing of maize leaf senescence and
     characterization of senescence-related cDNAs. Physiol Plant 93:673–682, 1995.


184. I John, R Hackett, W Cooper, R Drake, A Farrell, D Grierson. Cloning and characterization of tomato leaf
     senescence-related cDNAs. Plant Mol Biol 33:641–651, 1997.


185. SJ Crafts-Brandner, RR Klein, P Klein, R Holzer, U Feller. Coordination of protein and mRNA abundances of
     stromal enzymes and mRNA abundances of the Clp protease subunits during senescence of Phaseolus vulgaris
     (L.) leaves. Planta 200:312–318, 1996.


186. M Schaffer, R Fischer. Analysis of mRNAs that accumulate in response to low temperature identifies a thiol
     protease gene in tomato. Plant Physiol 87:431–417, 1988.


187. C Tournaire, S Kushnir, G Bauw, D Inze, B Teyssendier de la Serve, JP Renaudin. A thiol protease and anionic
     peroxidase are induced by lowering cytokinins during callus growth in Petunia. Plant Physiol 111:159–168,


188. 
     


189. C Guerrero, M de la Calle, MS Reid, V Valpuesta. Analysis of the expression of two thiolprotease genes from
     daylily (Hemerocallisspp.) during flower senescence. Plant Mol Biol 36:565–571, 1998.


190. P Genschik, A Durr, J Fleck. Differential expression of several E2-type ubiquitin carrier protein genes at
     different developmental stages in Arabidopsis thalianaandNicotiana sylvestris. Mol Gen Genet 244:548–556,


191. 
     

SENESCENCE IN PLANTS AND CROPS 201