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2020ÄêµÚ24ÆÚ

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17-24

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2020-12-30

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Title:

Research progress of plant melatonin

×÷Õß:

³ÂÏ͹; 2; 3;  ÑîÓ²;  Áõ·ïȨ¹; 3

1.½­ËÕÊ¡Å©Òµ¿ÆѧԺֲÎï±£»¤Ñо¿Ëù£¬½­ËÕÄϾ© 210014£»2.Õã½­Ê¡Å©Òµ¿ÆѧԺ²¡¶¾Ñ§ÓëÉúÎï¼¼ÊõÑо¿Ëù£¬Õã½­º¼ÖÝ 310021£»3.½­ËÕʡʳƷÖÊÁ¿°²È«ÖصãʵÑéÊÒ-Ê¡²¿¹²½¨¹ú¼ÒÖصãʵÑéÊÒÅàÓý»ùµØ£¬½­ËÕÄϾ© 210014

Author(s):

Chen Xian; et al

¹Ø¼ü´Ê:

Ö²ÎïÍʺÚËØ; ·Ö×ӽṹ; »¯Ñ§ÐÔÖÊ; ÉúÀí¹¦ÄÜ; »·¾³Ð²ÆÈ

Keywords:

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·ÖÀàºÅ:

S184

DOI:

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ÎÄÏ×±êÖ¾Âë:

A

ÕªÒª:

ÍʺÚËØ(melatonin£¬¼ò³ÆMT)ÊÇÉúÎï½ø»¯ÖÐÒ»ÖÖ±£Êصİ·À༤ËØ£¬¹ã·º´æÔÚÓÚ¶¯Îï¡¢Ö²ÎＰ΢ÉúÎïÌåÄÚ¡£ÔÚÖ²ÎïÖУ¬ÍʺÚËØÔÚµ÷¿ØÖ²ÎïÉú³¤ºÍÌá¸ßÖ²ÎïÏìÓ¦»·¾³Ð²Æȵȷ½Ãæ·¢»ÓÖØÒªµÄ×÷Óᣱ¾ÎÄ´ÓÖ²ÎïÍʺÚËصķ¢ÏÖ¡¢·Ö×ӽṹ¼°»¯Ñ§ÐÔÖÊ¡¢Ö²ÎïÍʺÚËصĺϳÉÓë·Ö½â´úлµÈ·½Ãæ½øÐÐÁ˹éÄÉÓë×ܽᣬÖصã²ûÊöÁËÍʺÚËØÔÚÖ²ÎïÉú³¤Óë·¢ÓýÖеÄÉúÀí¹¦Äܼ°ÔÚÖ²ÎÄ濹²¡Öеĵ÷¿Ø×÷Ó㬲¢¶ÔδÀ´Ö²ÎïÍʺÚËصÄÑо¿·½Ïò½øÐÐÁËÕ¹Íû¡£

Abstract:

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²Î¿¼ÎÄÏ×/References:

£Û1£ÝDubbels R£¬Reiter R J£¬Klenke E£¬et al. Melatonin in edible plants identified by radioimmunoassay and by high performance liquid chromatography-mass spectrometry£ÛJ£Ý. Journal of Pineal Research£¬1995£¬18(1)£º28-31.
£Û2£ÝHattori A£¬Migitaka H£¬Iigo M£¬et al. Identification of melatonin in plants and its effects on plasma melatonin levels and binding to melatonin receptors in vertebrates£ÛJ£Ý. Biochemistry and Molecular Biology International£¬1995£¬35(3)£º627-34.
£Û3£ÝÕÔÑ࣬Íõ¶«»ª£¬ÕÔêØÑô. Ö²ÎïÖÐÍʺÚËصÄÑо¿½øÕ¹£ÛJ£Ý. Î÷±±Ö²Îïѧ±¨£¬2014£¬34(1)£º196-205.
£Û4£ÝWei J£¬Li D X£¬Zhang J R£¬et al. Phytomelatonin receptor PMTR1-mediated signaling regulates stomatal closure in Arabidopsis thaliana£ÛJ£Ý. Journal of Pineal Research£¬2018£¬65(2)£ºe12500.
£Û5£ÝViljoen F P£¬Preez J L D£¬Wessels J C£¬et al. An HPLC-DAD validated method for the detection and quantification of cortisol£¬corticosterone and melatonin in plasma samples of two different animal species£ÛJ£Ý. Pharmazie£¬2019£¬74(4)£º206-211.
£Û6£ÝChen X£¬Laborda P£¬Liu F. Exogenous melatonin enhances rice plant resistance against Xanthomonas oryzae pv. oryzae£ÛJ£Ý. Plant Disease£¬2020£¬104(6)£º1701-1708.
£Û7£ÝChen X£¬Sun C£¬Laborda P£¬et al. Melatonin treatment inhibits the growth of Xanthomonas oryzae pv. oryzae£ÛJ£Ý. Frontiers in Microbiology£¬2018£¬9£º2280.
£Û8£ÝMccord C P£¬Allen F P. Evidences associating pineal gland function with alterations in pigmentation£ÛJ£Ý. Journal of Experimental Zoology Part A Ecological Genetics & Physiology£¬1917£¬23(1)£º207-224.
£Û9£ÝLerner A B£¬Case J D£¬Takahashi Y£¬et al. Isolation of melatonin£¬the pineal gland factor that lightens melanocytes £ÛJ£Ý. Journal of the American Chemical Society£¬1958£¬80(10)£º2587-2587.
£Û10£ÝEmet M£¬Ozcan H£¬Ozel L£¬et al. A review of melatonin£¬its receptors and drugs£ÛJ£Ý. The Eurasian Journal of Medicine£¬2016£¬48(2)£º135-141.
£Û11£ÝUdenfriend S£¬Lovenberg W£¬Sjoerdsma A. Physiologically active amines in common fruits and vegetables£ÛJ£Ý. Arch Biochem Biophys£¬1959£¬85£º487-90.
£Û12£ÝÁµÌïºÍ½ñ£¬ÈÊ/É­±¾£¬ºêÖÎ/˜ò±¾£¬¹ç¶þ/ºÓºÏ£¬Â‡/ÓîÒ°£¬ÎĶþ. Melatonin¤ÎtrifluoroacetylÕTŒ§Ìå¤ÎÉú³É™C˜‹¤Ëév¤¹¤ë¿¼²ì£ÛJ£Ý. The Annual Proceedings of Gifu College of Pharmacy£¬2001£¬50£º61-65.
£Û13£ÝHuo X£¬Wang C£¬Yu Z£¬et al. Human transporters£¬PEPT1/2£¬facilitate melatonin transportation into mitochondria of cancer cells£ºAn implication of the therapeutic potential£ÛJ£Ý. Journal of Pineal Research£¬2017£¬62(4)£ºe12390.
£Û14£ÝIan¢€ ÿðþ ‰D O£¬Olinescu R£¬B¨£descu I. Melatonin involvement in oxidative processes£ÛJ£Ý. Endocrinologie£¬1991£¬29(3-4)£º147-153.
£Û15£ÝPoeggeler B£¬Reiter R J£¬Tan D X£¬et al. Melatonin£¬hydroxyl radical-mediated oxidative damage£¬and aging£ºa hypothesis£ÛJ£Ý. Journal of Pineal Research£¬1993£¬14(4)£º151-68.
£Û16£ÝÍõ»³Ç壬ÁõÖ¾Ãñ. ÍʺÚËؼ°Æä´úлÎÑõ»¯×÷ÓÃÑо¿½øÕ¹£ÛJ£Ý. ¹ú¼ÊÄÚ·ÖÃÚ´úлÔÓÖ¾£¬2009£¬29(2)£º129-131.
£Û17£ÝTan D X£¬Hardeland R£¬Manchester L C£¬et al. Mechanistic and comparative studies of melatonin and classic antioxidants in terms of their interactions with the ABTS cation radical£ÛJ£Ý. Journal of Pineal Research£¬2003£¬34(4)£º249-59.
£Û18£ÝKhan A£¬Numan M£¬Khan A L£¬et al. Melatonin£ºAwakening the defense mechanisms during plant oxidative stress£ÛJ£Ý. Plants£¬2020£¬9(4)£º407.
£Û19£ÝFischer T W£¬Kleszczy¨½ski K£¬Hardkop L H£¬et al. Melatonin enhances antioxidative enzyme gene expression (CAT£¬GPx£¬SOD)£¬prevents their UVR-induced depletion£¬and protects against the formation of DNA damage (8-hydroxy-2¡ä-deoxyguanosine) in ex vivo human skin£ÛJ£Ý. Journal of Pineal Research£¬2013£¬54(3)£º303-314.
£Û20£ÝRodriguez C£¬Mayo J C£¬Sainz R M£¬et al. Regulation of antioxidant enzymes£ºa significant role for melatonin£ÛJ£Ý. Journal of Pineal Research£¬2004£¬36(1)£º1-9.
£Û21£ÝTekbas O F£¬Ogur R£¬Korkmaz A£¬et al. Melatonin as an antibiotic£ºnew insights into the actions of this ubiquitous molecule£ÛJ£Ý. Journal of Pineal Research£¬2008£¬44(2)£º222-226.
£Û22£ÝAtroshi F£¬Rizzo A£¬Westermarck T£¬et al. Effects of tamoxifen£¬melatonin£¬coenzyme Q(10)£¬and L-carnitine supplementation on bacterial growth in the presence of mycotoxins£ÛJ£Ý. Pharmacological Research£¬1998£¬38(4)£º289-295.
£Û23£ÝKarakas F£¬Karakas A£¬Turker A£¬et al. Antibacterial and antitumor activities of melatonin hormone£ÛJ£Ý. Spatula Dd Peer Reviewed Journal on Complementary Medicine & Drug Discovery£¬2013£¬3(2)£º1-7.
£Û24£ÝChen X£¬Sun C£¬Laborda P£¬et al. Melatonin treatments reduce the pathogenicity and inhibit the growth of Xanthomonas oryzae pv. oryzicola£ÛJ£Ý. Plant Pathology£¬2019£¬68(2)£º288-296.
£Û25£ÝLimson J£¬Nyokong T£¬Daya S. The interaction of melatonin and its precursors with aluminium£¬cadmium£¬copper£¬iron£¬lead£¬and zinc£ºAn adsorptive voltammetric study£ÛJ£Ý. Journal of Pineal Research£¬1998£¬24(1)£º15-21.
£Û26£ÝBlask D E£¬Dauchy R T£¬Sauer L A. Putting cancer to sleep at night-The neuroendocrine/circadian melatonin signal£ÛJ£Ý. Endocrine£¬2005£¬27(2)£º179-188.
£Û27£ÝZhao D£¬Yu Y£¬Shen Y£¬et al. Melatonin synthesis and function£ºevolutionary history in animals and plants£ÛJ£Ý. Front Endocrinol£¬2019£¬10£º249.
£Û28£ÝBack K£¬Tan D X£¬Reiter R J. Melatonin biosynthesis in plants£ºmultiple pathways catalyze tryptophan to melatonin in the cytoplasm or chloroplasts£ÛJ£Ý. Journal of Pineal Research£¬2016£¬61(4)£º426-437.
£Û29£ÝArnao M B£¬Hernandez-Ruiz J. Functions of melatonin in plants£ºa review£ÛJ£Ý. Journal of Pineal Research£¬2015£¬59(2)£º133-50.
£Û30£ÝZhao D£¬Wang R£¬Liu D£¬et al. Melatonin and expression of tryptophan decarboxylase Gene (TDC) in herbaceous peony (Paeonia lactiflora Pall.) flowers£ÛJ£Ý. Molecules£¬2018£¬23(5)£º1164.
£Û31£ÝMurch S J£¬Krishnaraj S£¬Saxena P K. Tryptophan is a precursor for melatonin and serotonin biosynthesis in in vitro regenerated St. John¬ðs wort (Hypericum perforatum L. cv. Anthos) plants£ÛJ£Ý. Plant Cell Reports£¬2000£¬19(7)£º698-704.
£Û32£ÝMiao W£¬Qiu-Rong L£¬Fiore S D£¬et al. Expression of recombinant tryptophan decarboxylase in different subcellular compartments in tobacco plant£ÛJ£Ý. Acta Botanica Sinica£¬2002£¬44(3)£º314-317.
£Û33£ÝKang K£¬Kim Y S£¬Park S£¬et al. Senescence-induced serotonin biosynthesis and its role in delaying senescence in rice leaves£ÛJ£Ý. Plant Physiology£¬2009£¬150(3)£º1380-1393.
£Û34£ÝByeon Y£¬Back K. Melatonin synthesis in rice seedlings in vivo is enhanced at high temperatures and under dark conditions due to increased serotonin N-acetyltransferase and N-acetylserotonin methyltransferase activities£ÛJ£Ý. Journal of Pineal Research£¬2014£¬56(2)£º189-195.
£Û35£ÝPark S£¬Kang K£¬Lee K£¬et al. Induction of serotonin biosynthesis is uncoupled from the coordinated induction of tryptophan biosynthesis in pepper fruits (Capsicum annuum) upon pathogen infection£ÛJ£Ý. Planta£¬2009£¬230(6)£º1197-1206.
£Û36£ÝKang S£¬Kang K£¬Lee K£¬et al. Characterization of tryptamine 5-hydroxylase and serotonin synthesis in rice plants£ÛJ£Ý. Plant Cell Reports£¬2007£¬26(11)£º2009-2015.
£Û37£ÝKang K£¬Kang S£¬Lee K£¬et al. Enzymatic features of serotonin biosynthetic enzymes and serotonin biosynthesis in plants£ÛJ£Ý. Plant Signaling & Behavior£¬2008£¬3(6)£º389-390.
£Û38£ÝLee H Y£¬Back K. Cadmium disrupts subcellular organelles£¬including chloroplasts£¬resulting in melatonin induction in plants£ÛJ£Ý. Molecules£¬2017£¬22(10)£º1791.
£Û39£ÝKang K£¬Lee K£¬Park S£¬et al. Enhanced production of melatonin by ectopic overexpression of human serotonin N-acetyltransferase plays a role in cold resistance in transgenic rice seedlings£ÛJ£Ý. Journal of Pineal Research£¬2010£¬49(2)£º176-182.
£Û40£ÝWei Y£¬Zeng H£¬Hu W£¬et al. Comparative transcriptional profiling of melatonin synthesis and catabolic genes indicates the possible role of melatonin in developmental and stress responses in rice£ÛJ£Ý. Frontiers in Plant Science£¬2016£¬7£º676.
£Û41£ÝFujiwara T£¬Maisonneuve S£¬Isshiki M£¬et al. Sekiguchi lesion gene encodes a cytochrome P450 monooxygenase that catalyzes conversion of tryptamine to serotonin in rice£ÛJ£Ý. Journal of Biological Chemistry£¬2010£¬285(15)£º11308-11313.
£Û42£ÝByeon Y£¬Lee H Y£¬Lee K£¬et al. Cellular localization and kinetics of the rice melatonin biosynthetic enzymes SNAT and ASMT£ÛJ£Ý. Journal of Pineal Research£¬2014£¬56(1)£º107-14.
£Û43£ÝLee K£¬Hwang O J£¬Reiter R J£¬et al. Flavonoids inhibit both rice and sheep serotonin N-acetyltransferases and reduce melatonin levels in plants£ÛJ£Ý. Journal of Pineal Research£¬2018£¬65(3)£ºe12512.
£Û44£ÝYu Y£¬Bian L£¬Jiao Z£¬et al. Molecular cloning and characterization of a grapevine (Vitis vinifera L.) serotonin N-acetyltransferase (VvSNAT2) gene involved in plant defense£ÛJ£Ý. BMC Genomics£¬2019£¬20(1)£º880.
£Û45£ÝPan L£¬Zheng J£¬Liu J£¬et al. Analysis of the ASMT gene family in pepper (Capsicum annuum L.)£ºidentification£¬phylogeny£¬and expression profiles£ÛJ£Ý. International Journal of Genomics£¬2019£¬2019£º7241096.
£Û46£ÝCen H£¬Wang T£¬Liu H£¬et al. Overexpression of MsASMT1 promotes plant growth and decreases flavonoids biosynthesis in transgenic alfalfa (Medicago sativa L.)£ÛJ£Ý. Frontiers in Plant Science£¬2020£º489.
£Û47£ÝTan D X£¬Hardeland R£¬Back K£¬et al. On the significance of an alternate pathway of melatonin synthesis via 5-methoxytryptamine£ºcomparisons across species£ÛJ£Ý. Journal of Pineal Research£¬2016£¬61(1)£º27-40.
£Û48£ÝÁõÕÜÓËïï£. ÍʺÚËØ´úлģʽµÄÑо¿½øÕ¹£ÛJ£Ý. ÉúÃü¿Æѧ£¬2017£¬29(2)£º209-214.
£Û49£ÝChoi G H£¬Back K. Suppression of melatonin 2-hydroxylase increases melatonin production leading to the enhanced abiotic stress tolerance against cadmium£¬senescence£¬salt£¬and tunicamycin in rice plants£ÛJ£Ý. Biomolecules£¬2019£¬9(10)£º589.
£Û50£ÝByeon Y£¬Park S£¬Lee H Y£¬et al. Elevated production of melatonin in transgenic rice seeds expressing rice tryptophan decarboxylase£ÛJ£Ý. Journal of Pineal Research£¬2014£¬56(3)£º275-282.
£Û51£ÝByeon Y£¬Tan D X£¬Reiter R J£¬et al. Predominance of 2-hydroxymelatonin over melatonin in plants£ÛJ£Ý. Journal of Pineal Research£¬2015£¬59(4)£º448-454.
£Û52£ÝTan D X£¬Manchester L C£¬Esteban-Zubero E£¬et al. Melatonin as a potent and inducible endogenous antioxidant£ºsynthesis and metabolism£ÛJ£Ý. Molecules£¬2015£¬20(10)£º18886-906.
£Û53£ÝXiao S£¬Liu L£¬Wang H£¬et al. Exogenous melatonin accelerates seed germination in cotton (Gossypium hirsutum L.)£ÛJ£Ý. PLoS One£¬2019£¬14(6)£ºe0216575.
£Û54£ÝXia H£¬Ni Z£¬Hu R£¬et al. Melatonin alleviates drought stress by a Non-Enzymatic and enzymatic antioxidative system in kiwifruit seedlings£ÛJ£Ý. International Journal of Molecular Sciences£¬2020£¬21(3)£º852.
£Û55£ÝDeng B£¬Yang K£¬Zhang Y£¬et al. Can antioxidant¬ðs reactive oxygen species (ROS) scavenging capacity contribute to aged seed recovery£¿ Contrasting effect of melatonin£¬ascorbate and glutathione on germination ability of aged maize seeds£ÛJ£Ý. Free Radical Research£¬2017£¬51(9/10)£º765-771.
£Û56£ÝLi J£¬Zhao C£¬Zhang M£¬et al. Exogenous melatonin improves seed germination in Limonium bicolor under salt stress£ÛJ£Ý. Plant Signaling & Behavior£¬2019£¬14(11)£º1659705.
£Û57£ÝZhang H J£¬Zhang N£¬Yang R C£¬et al. Melatonin promotes seed germination under high salinity by regulating antioxidant systems£¬ABA and GA₄ interaction in cucumber (Cucumis sativus L.)£ÛJ£Ý. Journal of Pineal Research£¬2014£¬57(3)£º269-279.
£Û58£ÝZhang N£¬Zhang H J£¬Sun Q Q£¬et al. Proteomic analysis reveals a role of melatonin in promoting cucumber seed germination under high salinity by regulating energy production£ÛJ£Ý. Scientific Reports£¬2017£¬7(1)£º503.
£Û59£ÝEl-Awadi M E£¬Dawood M G£¬Abdel-Baky Y R£¬et al. Physiological effect of melatonin£¬IAA and their precursor on quality and quantity of chickpea plants grown under sandy soil conditions£ÛJ£Ý. CIGR Journal£¬2017(Sp)£º35-44.
£Û60£ÝFazal H£¬Abbasi B H£¬Ahmad N£¬et al. Exogenous melatonin trigger biomass accumulation and production of stress enzymes during callogenesis in medicinally important Prunella vulgaris L. (Selfheal)£ÛJ£Ý. Physiology and Molecular Biology of Plants£¬2018£¬24(6)£º1307-1315.
£Û61£ÝChen Q£¬Qi W B£¬Reiter R J£¬et al. Exogenously applied melatonin stimulates root growth and raises endogenous indoleacetic acid in roots of etiolated seedlings of Brassica juncea£ÛJ£Ý. Journal of Plant Physiology£¬2009£¬166(3)£º324-328.
£Û62£ÝPelagio-Flores R£¬Munoz-Parra E£¬Ortiz-Castro R£¬et al. Melatonin regulates Arabidopsis root system architecture likely acting independently of auxin signaling£ÛJ£Ý. Journal of Pineal Research£¬2012£¬53(3)£º279-288.
£Û63£ÝLiang C Z£¬Li A F£¬Yu H£¬et al. Melatonin regulates root architecture by modulating auxin response in rice£ÛJ£Ý. Frontiers in Plant Science£¬2017£¬8£º134.
£Û64£ÝPark S£¬Back K. Melatonin promotes seminal root elongation and root growth in transgenic rice after germination£ÛJ£Ý. Journal of Pineal Research£¬2012£¬53(4)£º385-389.
£Û65£ÝChen Z£¬Gu Q£¬Yu X£¬et al. Hydrogen peroxide acts downstream of melatonin to induce lateral root formation£ÛJ£Ý. Annals of Botany£¬2018£¬121(6)£º1127-1136.
£Û66£ÝLuo F£¬Cai J H£¬Zhang X£¬et al. Effects of methyl jasmonate and melatonin treatments on the sensory quality and bioactive compounds of harvested broccoli£ÛJ£Ý. Rsc Advances£¬2018£¬8(72)£º41422-41431.
£Û67£ÝCao S F£¬Song C B£¬Shao J R£¬et al. Exogenous melatonin treatment increases chilling tolerance and induces defense response in harvested peach fruit during cold storage£ÛJ£Ý. Journal of Agricultural and Food Chemistry£¬2016£¬64(25)£º5215-5222.
£Û68£ÝShi H T£¬Qian Y Q£¬Tan D X£¬et al. Melatonin induces the transcripts of CBF/DREB1s and their involvement in both abiotic and biotic stresses in Arabidopsis£ÛJ£Ý. Journal of Pineal Research£¬2015£¬59(3)£º334-342.
£Û69£ÝKaur H£¬Mukherjee S£¬Baluska F£¬et al. Regulatory roles of serotonin and melatonin in abiotic stress tolerance in plants£ÛJ£Ý. Plant Signaling & Behavior£¬2015£¬10(11)£ºe1049788.
£Û70£ÝHernandez-Ruiz J£¬Arnao M B. Relationship of melatonin and salicylic acid in biotic/abiotic plant stress responses£ÛJ£Ý. Agronomy£¬2018£¬8(4)£º33.
£Û71£ÝZhang N£¬Sun Q Q£¬Zhang H J£¬et al. Roles of melatonin in abiotic stress resistance in plants£ÛJ£Ý. Journal of Experimental Botany£¬2015£¬66(3)£º647-656.
£Û72£ÝZhang N£¬Zhao B£¬Zhang H J£¬et al. Melatonin promotes water-stress tolerance£¬lateral root formation£¬and seed germination in cucumber (Cucumis sativus L.)£ÛJ£Ý. Journal of Pineal Research£¬2013£¬54(1)£º15-23.
£Û73£ÝÐìÏò¶«£¬ËïÑÞ£¬Ëﲨ£¬µÈ. ¸ßÎÂвÆÈÏÂÍâÔ´ÍʺÚËضԻƹÏÓ×Ãç»îÐÔÑõ´úлµÄÓ°Ïì£ÛJ£Ý. Ó¦ÓÃÉú̬ѧ±¨£¬2010£¬21(5)£º1295-1300.
£Û74£ÝLei X Y£¬Zhu R Y£¬Zhang G Y£¬et al. Attenuation of cold-induced apoptosis by exogenous melatonin in carrot suspension cells£ºthe possible involvement of polyamines£ÛJ£Ý. Journal of Pineal Research£¬2004£¬36(2)£º126-31.
£Û75£ÝTan D X£¬Manchester L C£¬Helton P£¬et al. Phytoremediative capacity of plants enriched with melatonin£ÛJ£Ý. Plant Signaling & Behavior£¬2007£¬2(6)£º514-520.
£Û76£ÝZhang N£¬Zhang H£¬Yang R£¬et al. Advances in melatonin and its functions in plants£ÛJ£Ý. Agricultural Science and Technology£¬2012£¬13(9)£º1833-1837.
£Û77£ÝÀîÑŽ࣬ÕÅÆä°²£¬Â½ÏþÃñ. ²»Í¬ÍâÔ´ÎïÖʶԵÍÎÂÈõ¹â´ÎÉúÑÎ×Õ»¯¸´ºÏÄ澳ϻƹÏÓ×ÃçÉú³¤¡¢¿¹Ñõ»¯ÏµÍ³¼°¹âºÏ×÷ÓõÄÓ°Ïì£ÛJ£Ý. ½­ËÕũҵѧ±¨£¬2018£¬34(2)£º404-410.
£Û78£ÝLu R F£¬Liu Z Y£¬Shao Y D£¬et al. Melatonin is responsible for rice resistance to rice stripe virus infection through a nitric oxide-dependent pathway£ÛJ£Ý. Virology Journal£¬2019£¬16(1)£º141.
£Û79£ÝÐíÇïâù£¬³ÂÕ×êÍ£¬¼¾¸»Ñ磬µÈ. ÍʺÚËØÔöÇ¿Ñκ¦Ìõ¼þÏÂË®µ¾Ó×Ãç¶Ôµ¾ÎÁ²¡µÄ¿¹²¡ÄÜÁ¦£ÛJ£Ý. °²»ÕÅ©Òµ¿Æѧ£¬2018£¬46(9)£º126-128.
£Û80£ÝYin L H£¬Wang P£¬Li M J£¬et al. Exogenous melatonin improves Malus resistance to Marssonina apple blotch£ÛJ£Ý. Journal of Pineal Research£¬2013£¬54(4)£º426-434.
£Û81£ÝShi H T£¬Chen Y H£¬Tan D X£¬et al. Melatonin induces nitric oxide and the potential mechanisms relate to innate immunity against bacterial pathogen infection in Arabidopsis£ÛJ£Ý. Journal of Pineal Research£¬2015£¬59(1)£º102-108.
£Û82£ÝLee H Y£¬Back K. Melatonin is required for H₂O₂-and NO-mediated defense signaling through MAPKKK3 and OXI1 in Arabidopsis thaliana£ÛJ£Ý. Journal of Pineal Research£¬2017£¬62(2)£ºe12379.
£Û83£ÝMeng X Z£¬Zhang S Q. MAPK cascades in plant disease resistance signaling£ÛJ£Ý. Annual Review of Phytopathology£¬2013£¬51£º245-266.

ÏàËÆÎÄÏ×/References:

[1]Âíê¿Óð,Ç¿¿¡,ÐìÅÜ,µÈ.Ó²Ö¬õ£¸¨Ã¸AÈ¥±¥ºÍø»ùÒò½á¹¹¹¦ÄÜ¡¢µ÷¿ØÒò×Ó¼°ÔÚÓãÀàÉϵÄÑо¿½øÕ¹[J].½­ËÕÅ©Òµ¿Æѧ,2015,43(12):9.
¡¡Ma Xinyu,et al.Research progress on structure£¬function£¬ regulatory factor of stearoyl-CoA desaturase gene[J].Jiangsu Agricultural Sciences,2015,43(24):9.

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