Reference :1
Afreen, F., Zobayed,SMA., Kozai, T., 2006. Melatonin in Glycyrrhizauralensis: response of plant roots to spectral quality of light and UV-B radiation. Journal of PinealResearch 41, 108–115.
Almassi, F., Ghisalberti, E.L., Narbey, M.J., Sivasthamparam, K., 1991. New antibiotics from strains of Trichoderma harzianum. Journal of Natural Products 54, 396–402.
Arnao, M.B., Hernandez-Ruiz, J., 2007. Melatonin promotes adventitious- andlateral root regeneration in etiolated hypocotyls of Lupinus albusL. Journal of Pineal Research 42, 147–152.
Arnao, M.B., Hernandez-Ruiz, J., 2006. The physiological function of melatoninin plants. Plant Signal Behav 1, 89–95.
Arnao, M.B., Herna´ndez-Ruiz, J., 2009. Protective effect of melatonin against chlorophyll degradation during the senescence of barley leaves. Journal of Pineal Research 46, 58–63.
Arnao, M.B.,Herna´ndez-Ruiz, J., 2009. Chemical stress by different agents affects the melatonin content of barley roots. Journal of Pineal Research 46, 295–299.
Arnao, MB.,Herna´ndez-Ruiz, J., 2013. Growth conditions influence the melatonin content of tomato plants. Food Chemistry 138, 1212–1214.
Arnao, M.B.,Herna´ndez-Ruiz, J., 2013. Growth conditions determine different melatonin levels in Lupinus albusL. Journal of Pineal Research 55, 149–155.
Avent, A.G., Hanson, J.R., Trunch, A., 1992. The biosynthesis of Harzianolide by Trichoderma harzianum. Phytochemistry 31, 3, 791–793.
Boccalandro, H.E., Gonzalez, C.V., Wunderlin, D.A., Silva, M.F., 2011. Melatonin levels, determined by LC-ESI-MS/MS, fluctuate during the day/night cycle in Vitis viniferacv Malbec: evidence of its antioxidant role in fruits. Journal of Pineal Research 51, 226–231.
Byeon, Y., Park, S., Kim, Y.S, Back, K., 2013. Microarray analysis of genes differentially expressed in melatonin-rich transgenic rice expressing a sheep serotonin N-acetyltransferase. Journal of Pineal Research 55, 357–363.
Byeon, Y., Park, S., Kim, Y.S., Park, D.H., Lee, S., 2012. Light-regulated melatonin biosynthesis in rice during the senescence process in detached leaves. Journal of Pineal Research 53, 107–111.
Cai, F., Yu, G., Wang, P., Wei, Z., Fu, L., Shen, Q., Chen, W., 2013. Harzianolide, a novel plant growth regulator and systemic resistance elicitor from Trichoderma harzianum. http://dx.doi.org/10.1016/j.plaphy.2013.08.011.
Calo, L., Garcia, I., Gotar, C., Romero, L.C., 2006. Leaf hairs influence phytopathogenic fungus infection and conferred an increased resistance expressing a Trichoderma1, 3- glucanone. Journal of Experimental Botany 50, 3911–3920.
Chen, Q., Qi, W., Reite,r R., Wei, W., Wang, B., 2009. Exogenously applied melatonin stimulates root growth and raises endogenous IAA in roots of etiolated seedling of Brassica juncea. J Plant Physiol 166, 324–328.
Claydon, N., James, R.H., Trunch, A., Avent, A.G., 1991. Harzianolide, A butenolide metabolite from cultures of Trichoderma harzianum. Phytochemistry 30, 11, 3803–3805.
Cook, C.E., Whichard, L.P., Turner, B., Wall, M.E., Egley, G.H., 1966. Germination of witchweed (Striga lutea Lour.): isolation and properties of a potent stimulant. Science 154, 1189–1190.
Dana, M., Pintor-Toro, J.A., Cubero, B., 2006. Transgenic tobacco plants overexpresingchitinases of fungal origin show enhanced resistance to biotic and abiotic stress agents. Plant Physiology 142, 722–730.
Drewes, F., Smith, M., van Staden, J., 1995. The effect of a plant- derived smoke extract on the germination of light sensitive lettuce seed. Plant Growth Regulator 16, 205–109.
Erland, L.A.E., 2016. Serotonin: An ancient molecule and an important regulator of plant processes, BiotechnolAdvhttp://dx.doi.org/10.1016/j.biotechadv.2016.10.002.
Flematti, G.R., Ghisalberti, E.L., Dixon, K.W., Trengove, R.D., 2004. A compound from smoke that promotes seed germination.Science 305, 977. Doi: 10.1126/science, 1099944.
Flematti, , G.R., Ghisalberti, E.L., Dixon, K.W., Trengove, R.D., 2009. Identification of alkyl substituted 2 H- Furo [2,3- c] pyran-2-ones as germination stimulants present in smoke. Journal of Agricultural and Food Chemistry. 57. 9475-9480. doi: 10.1021/jf9028128.
Flematti, G.R., Dixon, K.W., Smith, S.M., 2015. What are Karrikins and how were they ‘discovered’ by plants? BMC Biology. 13:1.doi:10.1186/s12915-015-0219-0.
Gilkerson, J., Kelley, D.R., Tam, R., Estelle, M., Callis, J., 2015. Lysine residues are not required for proteoasome- mediated proteolysis of the Auxin/ indole acetic acid protein IAA1. Plant Physiology. 168: 708-720. doi:10.1104/pp.15.00402.
Hauck, C., Muller, S., Schildknecht, H., 1992. A germination stimulant for parasitic flowering plants from Sorghum bicolor, a genuine host plant. Journal of Plant Physiology 139, 474–478.
Herna´ndez-Ruiz, J., Arnao, M.B., Cano, A., 2004. Melatonin: growth-stimulating compound present in lupin tissues. Planta 220, 140–144.
Herna´ndez-Ruiz, J., Cano, A., Arnao, M.B., 2005. Melatonin acts as a growth-stimulating compound in some monocot species. Journal of Pineal Research 39, 137–142.
Hernandez-Ruiz, J., Arnao, M.B., 2008. Melatonin stimulates the expansion of etiolated lupin cotyledons. Plant Growth Regulation 55, 29–34.
Hernandez-Ruiz, J., Arnao, M.B., 2008. Distribution of melatonin in different zones of lupin and barley plants at different ages in the presence and absence of light.Joirnal of Agriculture and Food Chemistry 56, 10567–10573.
Jain, N., Kulkarni, M.G., van Staden, J., 2006. A butenolide isolated from smoke, can overcome the detrimental effects of extreme temperatutres during tomato seed germination. Plant Growth Regulators 49, 263–267.
Kang, K., Lee, K., Park, S., Kim, Y.S., Back, K., 2010. Enhanced production ofmelatonin by ectopic overexpression of human serotonin N-acetyltransferase plays a role in cold resistance in transgenic rice seedlings. Journal of Pineal Research 49, 176–182.
Kolar, J., Machackova, I., Eder, J., Prinsen, E., VanDongen, W., et al., 1997. Melatonin: occurrence and daily rhythm in Chenopodium rubrum. Phytochemistry 44, 1407–1413.
Kolar, J., Johnson, C.H., Macha´c kova, I., 2003. Exogenously applied melatonin affects flowering of the short-day plant Chenopodium rubrum. Journal of Pineal Research 118, 605–612.
Koltai, H., 2015. Cellular events of strigolactonesignalling and their crosstalk with auxin in roots. Journal of experimental botany 66, 4855–4861. doi:10.1093/jxb/erv178.
Lei, X.Y., Zhu, R.Y., Zhang, G.Y., Dai, Y.R., 2004. Attenuation of cold-inducedapoptosis by exogenous melatonin in carrot suspension cells: the possibleinvolvement of polyamines. Journal of Pineal Research 36, 126–131.
Li, C., Wang, P., Wei, Z., Liang, D., Liu, C., 2012. The mitigation effects of exogenous melatonin on salinity-induced stress in Malus hupehensis. Journal of Pineal Research 53, 298–306.
Long, R.L., Stevans, J.C., Griffith, E.M., Adamek, M., Gorechi, M.J., Powles, S.B., Merrit, D.J., 2011. Seeds of Brassicaceae weeds have an inherent or inducible reponse to the germination stimulant Karrikinolide. Annals of Botany 108, 933–944.
Mark, T., Waters., 2017. From little things big things grow: Karrikins and new directions in plant development. Functional Plant Biology 44. 373–385. http;//dx.doi.org/10.1071/FPH6405.
Meng, Y., Chen, F., Shnai, H., Luo, X., Ding, J, Tang, S., 2016. Karrikins delay soybean seed germination by mediating abscisic acid and gibberellins biogenesis under shaded conditions. Scientific Reports, 6, 22073. Doi: 10.1038/srep22703.
Merrit, D., Turner, S., Clarke, S., Dixon, K., 2007. Seed dormancy and germination stimulation syndrome for Australian temperate species.Australian Journal of Botany 55, 336–344.
Morffy, M., Faure, L., Nelson, D.C., 2016. Smoke and hormone mirrors: action and evolution of karrikin and strigolactone signaling. Trends in Genetics 32, 176–188. Doi: 10.1016/j.tig.2016.01.002.
Muller, S., Hauck, C., Schildknecht, H., 1992. Germination stimulants produced by Vigna unguiculataWalpcv Saunders Upright. Journal of Plant Growth Regulator 11, 77–84.
Murch, S.J., KrishnaRaj, S., Saxena, P.K., 2000. Tryptophan is a precursor formelatonin and serotonin biosynthesis in in vitro regenerated St John’s wort (Hypericum perforatumL. cv. Anthos) plants. Plant Cell Reports 19, 698–704.
Murch, S., Saxena, P., 2002. Mammalian neurohormones: potential significance in reproductive physiology of St. John’s wort (Hypericum perforatumL.). Naturwissenschaften 89, 555–560.
Nelson, D.C., Scaffidi, N., Dun, E.A., Waters, M.T., Flematti, G.R., Dixon, K.W., 2011. F-box protein MAX2 has dual roles in Karrikin and Strigolactone signaling in Araidopsis thaliana. Prac. National Academy of Sciences, USA 108, 8897–8902.
Nelson, D.C., Flemati, G.R., Riseborogh, J.A., Ghisalberti, E.L., Dixon, K.W., Smith, S.M., 2010. Karrikins enhance light responses during germination and seedling development in Arabidopsis thaliana. Proccedings of National Science, USA. 107, 7095–7100.
Nelson, D.C., Flematti, G.R., Ghisalberti, E.L., Dixon, K.W., Smith, S.M., 2012. Regulation of seed germination and seedling growth by chemical signals from burning vegetation.Annual review of Plant Biology 63 107–130.
Nelson, D.C., Riseborogh, J.A., Flematti, G.R., Stevens, J., Ghisalberti, E.C., 2009. Karrikins discovered in smoke trigger Arabidopsis seed germination by a mechanism regulating gibberellic acid synthesis and light. Plant Physiology 149, 863–873.
Ordentlich, A., Wiesman, Z., Gottleib, H.E., Lojocaru, M., Chef, J., 1992. Inhibitory furanone produced by the biocontrol agent Trichoderma harzianum. Phytochemistry 32, 485–486.
Paredes, S.D., Korkmaz, A., Manchester, L.C., Tan, D.X., Reiter, R.J., 2009. Phytomelatonin: a review. Journal of Experimental Boanyt 60, 57–69.
Park, S., Le, T.N.N., Byeon, Y., Kim, Y.S., Back, K., 2013.Transient induction of melatonin biosynthesis in rice (Oryza sativaL.) during the reproductive stage. Journal of Pineal Research 55, 40–45.
Park, S., Lee, D.E., Jang, H., Byeon, Y., Kim, Y.S., 2013. Melatonin-rich transgenic rice plants exhibit resistance to herbicide-induced oxidative stress. Journal of Pineal Research 54, 258–263.
Park, S., Back, K., 2012. Melatonin promotes seminal root elongation and rootgrowth in transgenic rice after germination. Journal of Pineal Research 53, 385–389.
Park, W.J., 2011. Melatonin as an endogenous plant regulatory signal: debatesand perspectives. Journal of Plant Biology 54, 143–149.
Rana, I.A., Lorez, H., Schaefer, W., Becker, D., 2012.Overexpression of chitinase and chitosanase genes from Trichoderma harzianum under constitutive and inducible promoters in order to increase disease resistance in wheat (Triticum aestivumL.). Molecular Plant Breeding 3, 37–49.
Samolski, I., Rineon, A.M., PinZon, L.M., Viterbo, A. Monte, E., 2012. The qid74 gene from Trichoderma harzianum has a role in root architecture and plant biofertilization. Microbiology 158, 129–138.
Sarropoulou, V., Dimassi-Theriou, K., Therios, I., Koukourikou-Petridou M., 2012. Melatonin enhances root regeneration, photosynthetic pigments, biomass, total carbohydrates and proline content in the cherry rootstock PHL-C (Prunusavium×Prunuscerasus). Plant PhysiolBiochem 61, 162–168.
Siame, B.P., Weerasuriya, Y., Wood, K., Ejeta, G., Butler, L.G., 1993. Isolation ofstrigol, a germination stimulant for Strigaasiatica, from host plants. Journal of Agriculture and Food Chemistry 41, 1486–1491.
Tan, D., Chen, L., Poeggeler, B., Manchester, L., Reiter, R., 1993. Melatonin: apotent, endogenous hydroxyl radical scavenger. Endocrine Journal 1, 57–60.
Tan, D., Mancheste, R.L., Terron, M., Flores, L., Reiter, R., 2007. One molecule, many derivates: A never-ending interaction of melatonin with reactive oxygen and nitrogen species? Journal of Pineal Research 42, 28–42.
Tan, D.X., Manchester, L.C., Di Mascio, P., Martinez, G.R., Prado, F.M., 2007. Novel rhythms of N-1-acetyl-N-2-formyl-5-methoxykynuramine and its precursor melatonin in water hyacinth: importance for phytoremediation. FASEB Journal 21, 1724–1729.
Tan, D.X., Reiter, R.J., Manchester, L.C., Yan, M.T., El-Sawi, M., 2002. Chemical and physical properties and potential mechanisms: melatonin as a broad spectrum antioxidant and free radical scavenger. Current Topics in Medicinal Chemistry 2, 181–197.
Tan, D.X., Manchester, L.C., Helton, P., Reiter, R.J., 2007. Phytoremediative capacity of plants enriched with melatonin. Plant Signaling and Behavior 2, 514–516.
Tsuchiya, Y., Vidaurre, D., Toh, S., Hanada, A., Nambara, A., Kamiya, Y., 2010. A small molecule screen identifies new functions for the plant hormone strigolactone. Nature Chemical Biology DOI: 10.1038/NCHEMBIO, 435–597.
Van Tassel, D.L., Roberts, N., Lewy, A., O’Neill, S.D., 2001. Melatonin in plant organs. Journal of Pineal Research 31, 8–15.
Vinale, F., Marra, R., Scala, F., Ghisalberti, E.L., Lorito, M., 2006. Major secondary metabolites produced by two commercial Trichodermastrains active against different phytopathogens. Lett. Appl. Microbiol 43, 143–148.
Vinale, F., Sivasthamparam, K., Ghisalberti, E.L., 2008. A novel role for Trichoderma secondary metabolites in the interaction with plants. Physiological and Molecular plant pathology 72, 80–86.
Vishnevetsky, J., Hwite, T.L., Palmateer, A.J., Flashman, M., 2011. Improved tolerance towards fungal diseases in transgenic Cavendish banana (Musaspp. AAA) cv. Grand Nain. Transgenic Research 20, 61–72.
Wang, P., Sun, X., Li, C., Wei, Z.W., Liang, D., 2013. Long-term exogenous application of melatonin delays drought-induced leaf senescence in apple. Journal of Pineal Research 54, 292–302.
Wang, P., Yin, L., Liang, D., Li, C., Ma, FW., 2012. Delayed senescence of apple leaves by exogenous melatonin treatment: toward regulating the ascorbate-glutathione cycle. Journal of Pineal Research 53, 11-20–23.
Waters, M.T., Smith, S.M., 2013. KAI2 and MAX2 madiated responses to Karrikins and Strigolactones are largely independent of HY5 in Arabidopsis seedlings. Mol. Plant. 6, 63–75. Doi: 10.1093/mp/sss127.
Yang, X., Lc, S., Su, J.H., Dharmasiri, S., Dharmasiri, H., 2004. The IAA1 protein is encoded by AXR5 and is a substrate of SCFTIR1. Plant J. 40:772-782.
Yin, L., Wang, P., Li, M., Ke, X.W., Li, C.Y., 2013. Exogenous melatonin improves Malus resistance to Marssonina apple blotch. Journal of Pineal Research 54, 426–434.
Yokota, T., Sakai, H., Okuno, K., Yoneyama, K., Takeuchi, Y., 1998. Alectrol and orobanchol, germination stimulants for Orobanche minor, from its host red clover. Phytochemistry 49, 1967–1973.
Yoneyama, K., Xie, X., Yoneyama, K., Takeuchi, Y., 2009. Strigolactones:structures and biological activities. Pest Management Science DOI 10.1002/ps.1726
Zhao, Y., Tan, DX., Lei, Q., Chen, H., Wang, L., 2012. Melatonin and its potential biological functions in the fruits of sweet cherry. Journal of Pineal Research 55, 79–88.
Zhang, L., Jia, J., Xu, Y., Wang, Y., Hao, J., 2012. Production of transgenic Nicotianasylvestris plants expressing melatonin synthetase genes and their effect on UV-B-induced DNA damage. In vitrocellular & developmental biology. Plant 48, 275–282.
Zhang, N., Zhao, B., Zhang, H. J., Weeda, S., Yang, C., 2013. Melatonin promotes water-stress tolerance, lateral root formation, and seed germination in cucumber (Cucumis sativus L.). Journal of Pineal Research 54, 15
Zhang, L., Jia, J., Xu, Y., Wang, Y., Hao, J., 2012. Production of transgenicNicotianasylvestris plants expressing melatonin synthetase genes and their effecton UV-B-induced DNA damage. In vitro cellular & developmental biology.Plant 48, 275–282.