Ba Q S, Zhang G S, Che H X, Liu H Z, Ng T B, Zhang L,Wang J S, Sheng Y, Niu N, Ma S C, Wang J W. 2014a.Aliphatic metabolism during anther development interferedby chemical hybridizing agent in wheat. Crop Science, 54,1458-1467Ba Q S, Zhang G S, Wang J S, Che H X, Liu H Z, Niu N, MaS C, Wang J W. 2013. Relationship between metabolismof reactive oxygen species and chemically induced malesterility in wheat (Triticum aestivum L.). Canadian Journalof Plant Science, 93, 675-681Ba Q S, Zhang G S, Wang J S, Niu N, Ma S C, Wang J W.2014b. Gene expression and DNA methylation alterations inchemically induced male sterility anthers in wheat (Triticumaestivum L.). Acta Physiologiae Plantarum, 36, 503-512Baxter A, Mittler R, Suzuki N. 2014. ROS as key players inplant stress signalling. Journal of Experimental Botany,65, 1229-1240Beers E P. 1997. Programmed cell death during plant growthand development. Cell Death and Differentiation, 4,649-661Bethke P C, Jones R L. 2001. Cell death of barley aleuroneprotoplasts is mediated by reactive oxygen species. ThePlant Journal, 25, 19-29Bowler C, Fluhr R. 2000. The role of calcium and activatedoxygens as signals for controlling cross-tolerance. Trendsin Plant Science, 5, 241-246Buchanan-Wollaston V, Earl S, Harrison E, Mathas E,Navabpour S, Page T, Pink D. 2003. The molecularanalysis of leaf senescence - A genomics approach. PlantBiotechnology Journal, 1, 3-22Carlson G R. 1978. 1-Aryl-4-Pyridones. US Patent, ApplicationNo. 4,115,101, 1978-09-19.Chakraborty K, Devakumar C. 2005. Quantitative structureactivityrelationship analysis as a tool to evaluate the modeof action of chemical hybridizing agents for wheat (Triticumaestivum L.). Journal of Agricultural and Food Chemistry,53, 3468-3475Chakraborty K, Devakumar C, Tomar S M S, Kumar R. 2003.Synthesis and quantitative structure-activity relationshipsof oxanilates as chemical hybridizing agents for wheat(Triticum aestivum L.). Journal of Agricultural and FoodChemistry, 51, 992-998Cheng Y F, Wang Q, Li Z J, Cui J M, Hu S W, Zhao H X,Chen M S. 2013. Cytological and comparative proteomicanalyses on male sterility in Brassica napus L. inducedby the chemical hybridization agent monosulphuron estersodium. PLoS oNE, 8, e80191.Cooke M S, Evans M D, Dizdaroglu M, Lunec J. 2003. OxidativeDNA damage: Mechanisms, mutation, and disease. TheFASEB Journal, 17, 1195-1214Danon A, Gallois P. 1998. UV-C radiation induces apoptoticlikechanges in Arabidopsis thaliana. FEBS Letters, 437,131-136Darehshouri A, Affenzeller M, Lutz-Meindl U. 2008. Cell death upon H2O2 induction in the unicellular green algaMicrasterias. Plant Biology, 10, 732-745Deng L X, Chen F, Jiang L P, Lam H M, Xiao G Y. 2014. Ectopicexpression of GmPAP3 enhances salt tolerance in rice byalleviating oxidative damage. Plant Breeding, 133, 348-355Dorion S, Lalonde S, Saini H S. 1996. Induction of male sterilityin wheat by meiotic-stage water deficit is preceded by adecline in invertase activity and changes in carbohydratemetabolism in anthers. Plant Physiology, 111, 137-145Eckardt N A. 2006. Cytoplasmic male sterility and fertilityrestoration. The Plant Cell, 18, 515-517Fan T, Xing T. 2004. Heat shock induces programmed celldeath in wheat leaves. Biologia Plantarum, 48, 389-394Foyer C H, Noctor G. 2000. Oxygen processing in photosynthesis:regulation and signalling. New Phytologist, 146, 359-388Foyer C H, Noctor G. 2005a. Oxidant and antioxidant signallingin plants: A re-evaluation of the concept of oxidative stressin a physiological context. Plant Cell and Environment, 28,1056-1071Foyer C H, Noctor G. 2005b. Redox homeostasis andantioxidant signaling: A metabolic interface between stressperception and physiological responses. The Plant Cell,17, 1866-1875Guo J X, Chen E Y, Yin Y P, Wang P, Li Y, Chen X G, Wu GL, Wang Z L. 2013. Nitric oxide content in wheat leavesand its relation to programmed cell death of main stem andtillers under different nitrogen levels. Journal of IntegrativeAgriculture, 12, 239-250Hameed A, Goher M, Iqbal N. 2012. Heat stress-induced celldeath, changes in antioxidants, lipid peroxidation, andprotease activity in wheat leaves. Journal of Plant GrowthRegulation, 31, 283-291Hameed A, Goher M, Iqbal N. 2013. Drought inducedprogrammed cell death and associated changes inantioxidants, proteases, and lipid peroxidation in wheatleaves. Biologia Plantarum, 57, 370-374Hameed A, Iqbal N, Malik S A. 2014. Effect of D-mannose onantioxidant defense and oxidative processes in etiolatedwheat coleoptiles. Acta Physiologiae Plantarum, 36,161-167Jan C C, Rowell P L. 1981. Response of wheat tillers at differentgrowing stages to gametocide treatment. Euphytica, 30,501-504Jimenez A, Hernandez J A, del Rio L A, Sevilla F. 1997.Evidence for the presence of the ascorbate-glutathionecycle in mitochondria and peroxisomes of pea leaves. PlantPhysiology, 114, 275-284Kolodziejek I, Koziol-Lipinska J, Waleza M, Korczynski J,Mostowska A. 2007. Aspects of programmed cell deathduring early senescence of barley leaves: Possible role ofnitric oxide. Protoplasma, 232, 97-108Kraus T E, Mckersie B D, Fletcher R A. 1995. Paclobutrazolinducedtolerance of wheat leaves to paraquat may involveincreased antioxidant enzyme-activity. Journal of PlantPhysiology, 145, 570-576Lamb C, Dixon R A. 1997. The oxidative burst in plant diseaseresistance. Annual Review of Plant Physiology and PlantMolecular Biology, 48, 251-275Lee R H, Chen S C G. 2002. Programmed cell death duringrice leaf senescence is nonapoptotic. New Phytologist,155, 25-32Li G B, Liu Y D, Wang G H, Song L R. 2004. Reactive oxygenspecies and antioxidant enzymes activity of Anabaena spPCC 7120 (Cyanobacterium) under simulated microgravity.Acta Astronautica, 55, 953-957Maxwell D P, Nickels R, McIntosh L. 2002. Evidence ofmitochondrial involvement in the transduction of signalsrequired for the induction of genes associated with pathogenattack and senescence. Plant Journal, 29, 269-279Neill S J, Desikan R, Clarke A, Hurst R D, Hancock J T. 2002.Hydrogen peroxide and nitric oxide as signalling moleculesin plants. Journal of Experimental Botany, 53, 1237-1247Nesvadba Z, Vyhnánek T. 2001. Induction of hybrid wheatusing the gametocide Genesis® in the Czech Republic.Acta Universitatis Agriculturae et Silviculturae MendelianaeBrunensis, 49, 27-35Nesvadba Z, Vyhnánek T, Vendar J. 2001. The testing ofefficacy of CHA Genesis® for production of hybrid wheatand hybrid triticale. Acta Fytotechnica et Zootechnica, 4,266-268Noreen S, Ashraf M. 2008. Alleviation of adverse effects of saltstress on sunflower (Helianthus annuus L.) by exogenousapplication of salicylic acid: Growth and photosynthesis.Pakistan Journal of Botany, 40, 1657-1663Oliver S N, Van Dongen J T, Alfred S C, Mamun E A, Zhao XC, Saini H S, Fernandes S F, Blanchard C L, Sutton B G,Geigenberger P, Dennis E S, Dolferus R. 2005. Cold-inducedrepression of the rice anther-specific cell wall invertase geneoSINV4 is correlated with sucrose accumulation and pollensterility. Plant Cell and Environment, 28, 1534-1551Parodi P C, Gaju M D. 2009. Male sterility induced bythe chemical hybridizing agent clofencet on wheat,Triticum aestivum and T. turgidum var. durum. Ciencia eInvestigacion Agraria, 36, 267-276Pastori G M, Delrio L A. 1994a. An activated-oxygen-mediatedrole for peroxisomes in the mechanism of senescence ofPisum sativum L. leaves. Planta, 193, 385-391Pastori G M, Delrio L A. 1994b. Activated oxygen speciesand superoxide-dismutase activity in peroxisomes fromsenescent pea leaves. Proceedings of the Royal Society ofEdinburgh (Section B - Biological Sciences), 102, 505-509Pastori G M, Trippi V S. 1993. Antioxidative protection in adrought-resistant maize strain during leaf senescence.Physiologia Plantarum, 87, 227-231Pell E J, Sinn J P, Brendley B W, Samuelson L, Vinten-Johansen C, Tien M, Skillman J. 1999. Differential responseof four tree species to ozone-induced acceleration of foliarsenescence. Plant Cell and Environment, 22, 779-790Penfold C A, Buchanan-Wollaston V. 2014. Modellingtranscriptional networks in leaf senescence. Journal ofExperimental Botany, 65, 3859-3873Potschin M, Schlienger S, Bieker S, Zentgraf U. 2014. Senescence networking: WRKY18 is an upstream regulator,a downstream target gene, and a protein interactionpartner of WRKY53. Journal of Plant Growth Regulation,33, 106-118Quirino B F, Noh Y S, Himelblau E, Amasino R M. 2000.Molecular aspects of leaf senescence. Trends in PlantScience, 5, 278-282del Rio L A, Sandalio L M, Altomare D A, Zilinskas B A. 2003.Mitochondrial and peroxisomal manganese superoxidedismutase: differential expression during leaf senescence.Journal of Experimental Botany, 54, 923-933Ruberti C, Barizza E, Bodner M, La Rocca N, De MicheleR, Carimi F, Lo Schiavo F, Zottini M. 2014. Mitochondriachange dynamics and morphology during grapevine leafsenescence. PLoS oNE, 9, e102012.Sakamoto W, Takami T. 2014. Nucleases in higher plantsand their possible involvement in DNA degradation duringleaf senescence. Journal of Experimental Botany, 65,3835-3843Shepherd T, Griffiths D W. 2006. The effects of stress on plantcuticular waxes. New Phytologist, 171, 469-499Singh S K, Chatrath R, Mishra B. 2010. Perspective of hybridwheat research A review. Indian Journal of AgriculturalSciences, 80, 1013-1027Song Y L, Wang J W, Zhang P G, Zhang G S, Zhang L Y,Zhao X L, Niu N, Ma S C. 2014. Cytochemical investigationat different microsporogenesis phases of male sterility inwheat, as induced by the chemical hybridising agent SQ-1.Crop and Pasture Science, 65, 868-877Wang S P, Zhang G S, Song Q L, Zhang Y X, Li Z, Guo J L, NiuN, Ma S C, Wang J W. 2015a. Abnormal development oftapetum and microspores induced by chemical hybridizationagent SQ-1 in wheat. PLoS oNE, 10, e0119557.Wang S P, Zhang G S, Zhang Y X, Song Q L, Chen Z, Wang JS, Guo J L, Niu N, Wang J W, Ma S C. 2015b. Comparativestudies of mitochondrial proteomics reveal an intimateprotein network of male sterility in wheat (Triticum aestivumL.). Journal of Experimental Botany, 66, 6191-6203Wojtovich A P, Foster T H. 2014. Optogenetic control of ROSproduction. Redox Biology, 2, 368-376Xiong Y C, Xing G M, Gong C M, Li F M, Wang S M, Li Z X,Wang Y F. 2006. Dual role of abscisic acid on antioxidativedefense in grass pea seedling (Lathyrus sativus L.).Pakistan Journal of Botany, 38, 999-1014Ye J X, Wang S P, Zhang F J, Xie D Q, Yao Y H. 2013.Proteomic analysis of leaves of different wheat genotypessubjected to PEG 6000 stress and rewatering. Plant omics,6, 286-294Zhang L, Chen J B, Zhang H Y, Ren Z L, Luo P G. 2013. Effectsof paraquat-induced oxidative stress on antioxidants andchlorophyll fluorescence in stay-green wheat (Triticumaestivum L.) flag leaves. Bangladesh Journal of Botany,42, 239-245Zhang L Y, Zhang G S, Zhao X L, Yang S L. 2013. Screeningand analysis of proteins interacting with TaPDK fromphysiological male sterility induced by CHA in wheat.Journal of Integrative Agriculture, 12, 941-950Zhang Z B, Zhu J, Gao J F, Wang C, Li H, Li H, Zhang H Q,Zhang S, Wang D M, Wang Q X, Huang H, Xia H J, YangZ N. 2007. Transcription factor AtMYB103 is required foranther development by regulating tapetum development,callose dissolution and exine formation in Arabidopsis. PlantJournal, 52, 528-538Zhang Z Z, Wang W, Li W L. 2013. Genetic interactionsunderlying the biosynthesis and inhibition of beta-diketonesin wheat and their impact on glaucousness and cuticlepermeability. PLoS oNE, 8, e54129.Zhu Q D, Sang Q, Wang C P, Zhang G S, Chen Z, Zhao X L,Ma S C, Wang J W, Niu N. 2013. Determination of clofencetin wheat grain by high performance liquid chromatography.Chinese Journal of Analytical Chemistry, 41, 565-569 (inChinese)Zhu Q D, Zhang G S, Zhao X L, Zhang X B, Yang SL. 2012. Determination of clofencet in wheat usingultrasound-assisted extraction by high performance liquidchromatography. Chinese Journal of Analytical Chemistry,40, 462–465. (in Chinese) |