SEARCH

SEARCH BY CITATION

References

  • Banerjee R, Batschauer A. 2005. Plant blue-light receptors. Planta 220: 498502.
  • Barrero JM, Jacobsen J, Gubler F. 2010. Seed dormancy: approaches for finding new genes in cereals. In: Pua EC, Davey MR, eds. Plant developmental biology – biotechnological perspectives. Berlin, Germany: Springer, 361381.
  • Barrero JM, Talbot MJ, White RG, Jacobsen JV, Gubler F. 2009. Anatomical and transcriptomic studies of the coleorhiza reveal the importance of this tissue in regulating dormancy in barley. Plant Physiology 150: 10061021.
  • Bliss D, Smith H. 1985. Penetration of light into soil and its role in the control of seed-germination. Plant, Cell & Environment 8: 475483.
  • Brown WV. 1959. The epiblast and coleoptile of the grass embryo. Bulletin of the Torrey Botanical Club 86: 1316.
  • Brown HT, Morris GH. 1890. Researches on the germination of some of the Gramineae. Journal of the Chemical Society of London (Transactions) 57: 458528.
  • Chang S, Puryear J, Cairney K. 1993. A simple and efficient method for isolating RNA from pine trees. Plant Molecular Biology Reporter 11: 113116.
  • Chaussat R, Zoppolo J. 1983. Lumière et germination de l’orge. Bios 14: 3032.
  • Cumming BG, Hay JR. 1958. Light and dormancy in Wild Oats (Avena fatua L). Nature 182: 609610.
  • Draper J, Mur LAJ, Jenkins G, Ghosh-Biswas GC, Bablak P, Hasterok R, Routledge APM. 2001. Brachypodium distachyon. A new model system for functional genomics in grasses. Plant Physiology 127: 15391555.
  • Finch-Savage WE, Leubner-Metzger G. 2006. Seed dormancy and the control of germination. New Phytologist 171: 501523.
  • Foard DE, Haber AH. 1962. Use of growth characteristics in studies of morphologic relations. 1. Similarities between epiblast and coleorhiza. American Journal of Botany 49: 520523.
  • Franklin KA, Quail PH. 2010. Phytochrome functions in Arabidopsis development. Journal of Experimental Botany 61: 1124.
  • Garvin DF, Gu YQ, Hasterok R, Hazen SP, Jenkins G, Mockler TC, Mur LAJ, Vogel JP. 2008. Development of genetic and genomic research resources for Brachypodium distachyon, a new model system for grass crop research. Crop Science 48: S69S84.
  • Goggin DE, Steadman KJ, Powles SB. 2008. Green and blue light photoreceptors are involved in maintenance of dormancy in imbibed annual ryegrass (Lolium rigidum) seeds. New Phytologist 148: 8189.
  • Gu X-Y, Liu T, Feng J, Suttle JC, Gibbons J. 2010. The qSD12 undrlying gene promotes abscisic acid accumulation in early developing seeds to induce primary dormancy in rice. Plant Molecular Biology 73: 97104.
  • Gubler F, Hughes T, Waterhouse P, Jacobsen J. 2008. Regulation of dormancy in barley by blue light and after-ripening: effects on abscisic acid and gibberellin metabolism. Plant Physiology 147: 886896.
  • Gubler F, Millar AA, Jacobsen JV. 2005. Dormancy release, ABA and pre-harvest sprouting. Current Opinion in Plant Biology 8: 183187.
  • Hallam ND, Roberts BE, Osborne DJ. 1972. Embryogenesis and germination in rye (Secale cereale L.) 2. Biochemical and fine-structural changes during germination. Planta 105: 293309.
  • Harlan JR. 1975. Crops and Man. Madison, WI, USA: American Society of Agronomy.
  • Higgins JA, Bailey PC, Laurie DA. 2010. Comparative genomics of flowering time pathways using Brachypodium distachyon as a model for the temperate grasses. PLoS ONE 5: e10065.
  • Hilton JR, Bitterli CJ. 1983. The influence of light on the germination of Avena fatua L (wild oat) seed and its ecological significance. New Phytologist 95: 325333.
  • Hong SY, Seo PJ, Yang MS, Xiang F, Park CM. 2008. Exploring valid reference genes for gene expression studies in Brachypodium distachyon by real-time PCR. BMC Plant Biology 8: 112.
  • Hou JQ, Simpson GM. 1992. After-ripening and phytochrome action in seeds of dormant lines of wild oat (Avena fatua). Physiologia Plantarum 86: 427432.
  • Imtiaz M, Ogbonnaya FC, Oman J, van Ginkel M. 2008. Characterization of quantitative trait loci controlling genetic variation for preharvest sprouting in synthetic backcross-derived wheat lines. Genetics 178: 17251736.
  • Merry J. 1941. Studies on the embryo of Hordeum sativum L. The development of the embryo. Bulletin of the Torrey Botanical Club 68: 585598.
  • Millar AA, Jacobsen JV, Ross JJ, Helliwell CA, Poole AT, Scofield G, Reid JB, Gubler F. 2006. Seed dormancy and ABA metabolism in Arabidopsis and barley: the role of ABA 8-hydroxylase. Plant Journal 45: 942954.
  • Narayanaswami S. 1956. Structure and development of the caryopsis in some Indian millets. VI. Setaria italica. Botanical Gazette 118: 112122.
  • Noda A, Hayashi J. 1960. Studies on the coleorhiza of cereals. VII. On coleorhiza hairs in rice. Nihon Sakumotsugaku Kai Kiji (Proceedings of the Crop Science Society of Japan) 29: 6365.
  • Norstog K. 1974. Nucellus during early embryogeny in barley: fine structure. Botanical Gazette 135: 97103.
  • Opanowicz M, Hands P, Betts D, Parker ML, Toole GA, Mills ENC, Doonan JH, Drea S. 2011. Endosperm development in Brachypodium distachyon. Journal of Experimental Botany 62: 735748.
  • Ozias-Akins P, Vasil IK. 1983. Proliferation of and plant regeneration from the epiblast of Triticum aestivum (Wheat; Gramineae) embryos. American Journal of Botany 70: 10921097.
  • Raju MVS. 1985. Water uptake and splitting of wild oat caryopsis. Botanical Magazine Tokyo 98: 271281.
  • Sabelli PA, Larkins BA. 2009. The development of endosperm in grasses. Plant Physiology 149: 1426.
  • Sargent JA, Osborne DJ. 1980. A comparative study of the fine structure of coleorhiza and root cells during the early hours of germination of rye embryos. Protoplasma 104: 91103.
  • Simpson GM. 1990. Seed dormancy in grasses. Cambridge, UK: Cambridge University Press.
  • Suzuki K, Taniguchi T, Maeda E. 1991. Scanning electron microscope observation of the morphological change in ventral organ of rice embryo during embryogenesis and germination. Japanese Journal of Crop Science 60: 407412.
  • Takano M, Inagaki N, Xie X, Kiyota S, Baba-Kasai A, Tanabata T, Shinomura T. 2009. Phytochromes are the sole photoperceptors for perceiving red/far-red light in rice. Proceedings of the National Academy of Sciences, USA 106: 1470514710.
  • The International Brachypodium Initiative. 2010. Genome sequencing and analysis of the model grass Brachypodium distachyon. Nature 463: 763768.
  • Tillman-Sutela E, Kauppi A. 2000. Structures contributing to the completion of conifer seed germination. Trees 14: 191197.
  • Vogel JP, Garvin DF, Leong OM, Hayden DM. 2006. Agrobacterium-mediated transformation and inbred line development in the model grass Brachypodium distachyon. Plant Cell Tissue and Organ Culture 84: 199211.
  • Vogel JP, Hill T. 2008. High-efficiency Agrobacterium-mediated transformation of Brachypodium distachyon inbred line Bd21-3. Plant Cell Reports 27: 471478.
  • Vogel JP, Tuna M, Budak H, Huo NX, Gu YQ, Steinwand MA. 2009. Development of SSR markers and analysis of diversity in Turkish populations of Brachypodium distachyon. BMC Plant Biology 9: 88.
  • Xu P, Xiang Y, Zhu HL, Xu HB, Zhang ZZ, Zhang CQ, Zhang LX, Ma ZQ. 2009. Wheat cryptochromes: subcellular localization and involvement in photomorphogenesis and osmotic stress responses. Plant Physiology 149: 760774.
  • Yan J, Cheng J, Wang T, Gutterman Y, Nevo E. 2008. Dormancy and germination of Brachypodium distachyon caryopses derived from Israel. Journal of Tropical and Subtropical Botany 16: 104108.
  • Ye H, Foley ME, Gu X-Y. 2010. New seed dormancy loci detected from weedy rice-derived advanced populations with major QTLs alleles removed from the background. Plant Science 179: 612619.