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References

  • Akiyama K. 2007. Chemical identification and functional analysis of apocarotenoids involved in the development of arbuscular mycorrhizal symbiosis. Bioscience, Biotechnology, and Biochemistry 71: 14051414.
  • Akiyama K, Matsuzaki K, Hayashi H. 2005. Plant sesquiterpenes induce hyphal branching in arbuscular mycorrhizal fungi. Nature 435: 824827.
  • Awad AA, Sato D, Kusumoto D, Kamioka H, Takeuchi Y, Yoneyama K. 2006. Characterization of strigolactones, germination stimulants for the root parasitic plants Striga and Orobanche, produced by maize, millet and sorghum. Plant Growth Regulation 48: 221227.
  • Besserer A, Puech-Pages V, Kiefer P, Gomez-Roldan V, Jauneau A, Roy S, Portais JC, Roux C, Bacard G, Sejalon-Delmas N. 2006. Strigolactones stimulate arbuscular mycorrhizal fungi by activating mitochondria. PloS Biology 4: 12391247.
  • Bouwmeester HJ, Roux C, Lopez-Raez JA, Bécard G. 2007. Rhizosphere communication of plants, parasitic plants and AM fungi. Trends in Plant Science 12: 224230.
  • Cook CE, Whichard LP, Turner B, Wall ME, Egley GH. 1966. Germination of witchweed (Striga lutea Lour.): isolation and properties of a potent stimulant. Science 154: 11891190.
  • Cook CE, Whichard LP, Wall ME, Egley GH, Coggon P, Luhan PA, McPhail AT. 1972. Germination stimulants. II. The structure of strigol – a potent seed germination stimulant for witchweed (Striga lutea Lour.). Journal of the American Chemical Society 94: 61986199.
  • Fontenla S, Garcia-Romera I, Ocampo AJ. 1999. Negative influence of nonhost plants on the colonization of Pisum sativum by the arbuscular mycorrhizal fungus Glomus mosseae. Soil Biology and Biochemistry 31: 15911597.
  • Giovannetti M, Sbrana C, Avio L, Citternesi AS, Logi C. 1993. Differential hyphal morphogenesis in arbuscular mycorrhizal fungi during pre-infection stages. New Phytologist 125: 587593.
  • Goldwasser Y, Yoneyama K, Xie X, Yoneyama K. 2008. Production of strigolactones by Arabidopsis thaliana responsible for Orobanche aegyptiaca seed germination. Plant Growth Regulation 55: 2128.
  • Harrison MJ. 2005. Signaling in the arbuscular mycorrhizal symbiosis. Annual Review of Microbiology 59: 1942.
  • Hauck C, Müller S, Schildknecht H. 1992. A germination stimulant for parasitic flowering plants from Sorghum bicolor, a genuine host plant. Journal of Plant Physiology 139: 474478.
  • Joel DM, Hershenhorn J, Eizenberg H, Aly R, Ejeta G, Rich PJ, Ransom JK, Sauerborn J, Rubiales D. 2007. Biology and management of weedy root parasites. In: JanickJ, ed. Horticultural reviews. New York, NY, USA: John Wiley, 267350.
  • Lanfranco L, Novero M, Bonfante P. 2005. The mycorrhizal fungus Gigaspora margarita possesses a CuZn superoxide dismutase that is up-regulated during symbiosis with legume hosts. Plant Physiology 137: 13191330.
  • Marschner H. 1993. Mineral nutrition of higher plants. London, UK: Academic Press.
  • Matusova R, Rani K, Verstappen FWA, Franssen MCR, Beale MH, Bouwmeester HJ. 2005. The strigolactone germination stimulants of the plant-parasitic Striga and Orobanche spp. are derived from the carotenoid pathway. Plant Physiology 139: 920934.
  • Müller S, Hauck C, Schildknecht H. 1992. Germination stimulants produced by Vigna unguiculata Walp cv Saunders Upright. Journal of Plant Growth Regulation 11: 7784.
  • Parker C. 1986. Scope of the agronomic problems caused by Orobanche species. In: Ter BorgSJ, ed. Proceedings of a workshop on biology and control of Orobanche. Wageningen, the Netherlands: LH/VPO, 1117.
  • Parker C, Riches CR. 1993. Parasitic weeds of the world: biology and control. Wallingford, UK: CAB International.
  • Rani K, Zwanenburg B, Sugimoto Y, Yoneyama K, Bouwmeester HJ. (in press). Biosynthetic considerations could assist the structure elucidation of host plant produced rhizosphere signaling compounds (strigolactones) for arbuscular mycorrhizal fungi and parasitic plants. Plant Physiology and Biochemistry.
  • Sato D, Awad AA, Chae SH, Yokota T, Sugimoto Y, Takeuchi Y, Yoneyama K. 2003. Analysis of strigolactones, germination stimulants for Striga and Orobanche, by high-performance liquid chromatography/tandem mass spectrometry. Journal of Agricultural and Food Chemistry 51: 11621168.
  • Sato D, Awad AA, Takeuchi Y, Yoneyama K. 2005. Confirmation and quantification of strigolactones, germination stimulants for root parasitic plants Striga and Orobanche, produced by cotton. Bioscience, Biotechnology, and Biochemistry 69: 98102.
  • Sbrana C, Giovannetti M. 2005. Chemotropism in the arbuscular mycorrhizal fungus Glomus mosseae. Mycorrhiza 15: 539545.
  • Schreiner PR, Koide TR. 1993. Mustards, mustard oils and mycorrhizas. New Phytologist 123: 107113.
  • Siame BP, Weerasuriya Y, Wood K, Ejeta G, Butler LG. 1993. Isolation of strigol, a germination stimulant for Striga asiatica, from host plants. Journal of Agricultural and Food Chemistry 41: 14861491.
  • Sprent JI, James EK. 2007. Legume evolution: where do nodules and mycorrhizas fit in? Plant Physiology 144: 575581.
  • Tadano T, Tanaka A. 1980. [The effect of low phosphate concentrations in culture medium on early growth of several crop plants]. Japanese Journal of Soil Science and Plant Nutrition 51: 399404 (in Japanese, translated by the authors).
  • Xie X, Kusumoto D, Takeuchi Y, Yoneyama K, Yamada Y, Yoneyama K. 2007. 2′-Epi-orobanchol and solanacol, two unique strigolactones, germination stimulants for root parasitic weeds, produced by tobacco. Journal of Agricultural and Food Chemistry 55: 80678072.
  • Xie X, Yoneyama K, Kusumoto D, Yamada Y, Takeuchi Y, Sugimoto Y, Yoneyama K. 2008b. Sorgomol, germination stimulant for root parasitic plants, produced by Sorghum bicolor. Tetrahedron Letters 49: 20662068.
  • Xie X, Yoneyama K, Kusumoto D, Yamada Y, Yokota T, Takeuchi Y, Yoneyama K. 2008a. Isolation and identification of alectrol as (+)-orobanchyl acetate, a novel germination stimulant for root parasitic plants. Phytochemistry 69: 427431.
  • 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: 19671973.
  • Yoneyama K, Takeuchi Y, Yokota T. 2001. Production of clover broomrape seed germination stimulants by red clover root require nitrate but is inhibited by phosphate and ammonium. Physiologia Plantarum 112: 2530.
  • Yoneyama K, Xie X, Kusumoto D, Sekimoto H, Sugimoto Y, Takeuchi Y, Yoneyama K. 2007b. Nitrogen deficiency as well as phosphorus deficiency in sorghum promotes the production and exudation of 5-deoxystrigol, the host recognition signal for arbuscular mycorrhizal fungi and root parasites. Planta 227: 125132.
  • Yoneyama K, Yoneyama K, Takeuchi Y, Sekimoto H. 2007a. Phosphorus deficiency in red clover promotes exudation of orobanchol, the signal for mycorrhizal symbionts and germination stimulant for root parasites. Planta 225: 10311038.