SEARCH

SEARCH BY CITATION

References

  • Aarts MG, Keijzer CJ, Stickema WJ, Pereira A. 1995. Molecular characterization of the CER1 gene of Arabidopsis involved in epicuticular wax biosynthesis and pollen fertility. The Plant Cell 7: 21152127.
  • Arnold ML. 2006. Evolution through genetic exchange. Oxford, UK: Oxford University Press.
  • Atkinson A, Heath R, Simpson R, Clarke A, Anderson M. 1993. Proteinase inhibitors in Nicotiana alata stigmas are derived from a precursor protein which is processed into five homologous inhibitors. The Plant Cell 5: 203213.
  • Bateman AJ. 1955. Self-incompatibility systems in angiosperms III. Cruciferae. Heredity 9: 5268.
  • Baumann U, Juttner J, Bian X, Langridge P. 2000. Self-incompatibility in the grasses. Annals of Botany 85 (A): 203209.
  • Becker JD, Boavida LC, Carneiro J, Haury M, Feijo JA. 2003. Transcriptional profiling of Arabidopsis tissues reveals the unique characteristics of the pollen transcriptome. Plant Physiology 133: 713725.
  • Bosch M, Cheung AY, Hepler PK. 2005. Pectin methylesterase, a regulator of pollen tube growth. Plant Physiology 138: 13341346.
  • Bosch M, Franklin-Tong VE. 2007. Self-incompatibility in Papaver: signaling to trigger PCD in incompatible pollen. Journal of Experimental Botany 59: 481490.
  • Brachmann CB, Sherman JM, Devine SE, Cameron EE, Pillus L, Boeke JD. 1995. The SIR2 gene family, conserved from bacteria to humans, functions in silencing, cell cycle progression, and chromosome stability. Genes and Development 9: 28882902.
  • Camacho L, Malho R. 2003. Endo/exocytosis in the pollen tube apex is differentially regulated by Ca2+ and GTPases. Journal of Experimental Botany 54: 8392.
  • Cárdenas L, Lovy-Wheeler A, Kunkel LG, Hepler PK. 2008. Pollen tube growth oscillations and intracellular calcium levels are reversibly modulated by actin polymerization. Plant Physiology (in press).
  • Cárdenas L, Lovy-Wheeler A, Wilsen KL, Hepler PK. 2005. Actin polymerization promotes the reversal of streaming in the apex of pollen tubes. Cell Motility and the Cytoskeleton 61: 112127.
  • Cárdenas L, McKenna ST, Kunkel JG, Hepler PK. 2006. NAD(P)H oscillates in pollen tubes and is correlated with tip growth. Plant Physiology 142: 14601468.
  • Carter C, Thornburg RW. 2000. Tobacco nectarin I. Purification and characterization as a germin-like, manganese superoxide dismutase implicated in the defense of floral reproductive tissues. Journal of Biological Chemistry 275: 3672636733.
  • Carter C, Thornburg RW. 2004. Is the nectar redox cycle a floral defense against microbial attack? Trends in Plant Sciences 9: 320324.
  • Chae K, Zhang K, Zhang L, Morikos D, Kim ST, Mollet J-C, De La Rosa N, Tan K, Lord EM. 2007. Two SCA (Stigma/style Cysteine-rich Adhesin) isoforms show structural differences that correlate with their levels of in vitro pollen tube adhesion activity. Journal of Biological Chemistry 282: 3384533858.
  • Chen Y-F, Matsubayashi Y, Sakagami Y. 2000. Peptide growth factor phytosulphokine-α contributes to the pollen population effect. Planta 211: 752755.
  • Cheung AY, Chen CY, Glaven RH, De Graaf BHJ, Vidali L, Hepler PK, Wu H. 2002. Rab2 GTPase regulates vesicle trafficking between the endoplasmic reticulum and the golgi bodies and is important to pollen tube growth. The Plant Cell 14: 945962.
  • Cheung AY, Wang H, Wu H-M. 1995. A floral transmitting tissue specific glycoprotein attracts pollen tubes and stimulates their growth. Cell 82: 383393.
  • Church AH. 1919. Thalassiophyta and the subaerial migration. Oxford Botanical Memoirs No. 3. Oxford, UK: Clarendon Press.
  • Corner EJH. 1964. The life of plants. Chicago, IL, USA and London, UK: University of Chicago Press.
  • Crepet WL, Friis EM. 1987. The evolution of insect pollination in angiosperms. In: FriisEM, ChalonerWG, CranePR, eds. The origins of angiosperms and their biological consequences. Cambridge, UK: Cambridge University Press, 181201.
  • Cruz-Garcia F, Hancock NC, McClure BA. 2003. S-RNase complexes and pollen rejection. Journal of Experimental Botany 54: 123131.
  • Curtis MD, Rae AL, Rusu AG, Harrison SJ, Manners JM. 1997. A peroxidase gene promoter induced by phytopathogens and methyl jasmonate in transgenetic plants. Molecular Plant–Microbe Interactions 10: 326338.
  • Dafni A, Motte Maues M. 1998. A rapid and simple procedure to determine stigma receptivity. Sexual Plant Reproduction 11: 177180.
  • Dai S, Li L, Chen T, Chong K, Xue Y, Wang T. 2006. Proteomic analyses of Oryza sativa mature pollen reveal novel proteins associated with pollen germination and tube growth. Proteomics 6: 25042529.
  • Dearnaley JDW, Daggard GA. 2001. Expression of a polygalacturonase enzyme in germinating pollen of Brassica napus. Sexual Plant Reproduction 14: 2734.
  • Dickinson HG. 1995. Dry stigmas, water and self-incompatibility in Brassica. Sexual Plant Reproduction 8: 110.
  • Dickinson HG, Doughty J, Hiscock SJ, Elleman CJ, Stephenson AG. 1997. Pollen–stigma interactions in Brassica. In: GreenlandA, MeyerowitzE, SteerM, eds. Control of plant development: genes and signals. Society For Experimental Biology. Cambridge, UK: Company of Biologists Ltd, 5157.
  • Dickinson HG, Elleman CJ. 1995. Pollen hydrodynamics and self-incompatibility in Brassica oleracea. In: StephensonAG, KaoT-H, eds. Pollen−pistil interactions and pollen tube growth. American Society for Plant Physiology Symposium Series. Rockville, MD, USA: American Society of Plant Physiologists, 4561.
  • Dickinson HG, Lewis D. 1973. Cytochemical and ultrastructural differences between intraspecific pollinations in Raphanus. Proceedings of the Royal Society of London, Series B 183: 2138.
  • Dickinson HG, Lewis D. 1975. Interaction between the pollen grain coating and the stigmatic surface during compatible and incompatible interspecific pollinations in Raphanus. In: DuckettJC, RaceyPA, eds. The biology of the male gamete. Biological Journal of the Linnean Society Symposium series. Oxford, UK: Blackwell, 165175.
  • Dickinson HG, Roberts IN, Elleman CJ, Harrod G, Zuberi MI. 1985. Early events on the Brassica stigma following compatible and incompatible intraspecific crosses. In: WillemseMTM, Van WentJL, eds. Sexual reproduction in seed plants, ferns and mosses. Wageningen, the Netherlands: Pudoc, 105107.
  • Dong J, Kim ST, Lord EM. 2005. Plantacyanin plays a role in reproduction in Arabidopsis. Plant Physiology 138: 778789.
  • Doughty J, Dixon S, Hiscock SJ, Willis AC, Parkin IAP, Dickinson HG. 1998. PCP-A1, a defensin-like Brassica pollen coat protein that binds the S locus glycoprotein, is the product of gametophytic gene expression. The Plant Cell 10: 13331347.
  • Doughty J, Hedderson F, McCubbin A, Dickinson HG. 1993. Interaction between a coating-borne peptide of the Brassica pollen grain and stigmatic S(incompatibility)-locus-specific glycoproteins. Proceedings of the National Academy of Sciences, USA 90: 467471.
  • Dresselhaus T. 2006. Cell−cell communication during double fertilization. Current Opinion in Plant Biology 9: 4147.
  • Dumas C. 1977. Lipochemsitry of the progamic stage of a self-incompatible species: neutral lipids and fatty acids of the secretory stigma during its glandular activity, and of the solid style, the ovary and the anther in Forsythia intermedia Zab. (heterostylic species). Planta 137: 177184.
  • Dumas C, Gaude T. 1983. Stigma−pollen recognition and pollen hydration. Phytomorphology 31: 191201.
  • Dumas C, Knox RB, Gaude T. 1984. Pollen−pistil recognition: new concepts from electron microscopy and cytochemistry. International Review of Cytology 90: 239272.
  • Edlund AF, Swanson R, Preuss D. 2004. Pollen and stigma structure and function: the role of diversity in pollination. The Plant Cell 16 (Suppl.): S84S97.
  • Elleman CJ, Dickinson HG. 1986. Pollen−stigma interactions in Brassica. IV. Structural reorganisation in the pollen grains during hydration. Journal of Cell Science 80: 141157.
  • Elleman CJ, Dickinson HG. 1990. The role of the exine coating in pollen–stigma interactions in Brassica oleracea L. New Phytologist 114: 511518.
  • Elleman CJ, Franklin-Tong VE, Dickinson HG. 1992. Pollination in species with dry stigmas: the nature of the early stigmatic response and the pathway taken by pollen tubes. New Phytologist 121: 413424.
  • Elleman CJ, Sarker RH, Aivalakis G, Slade H, Dickinson HG. 1989. Molecular physiology of the pollen stigma interaction in Brassica. In: LordE, BernierG, eds. Plant reproduction, from floral induction to pollination. American Society for Plant Physiology Symposium Series. Rockville, MD, USA: American Society of Plant Physiologists, 136145.
  • Elleman CJ, Willson CE, Dickinson HG. 1987. Fixation of Brassica oleracea pollen during hydration: a comparative study. Pollen et Spores 29: 273290.
  • Elleman CJ, Willson CE, Sarker RH, Dickinson HG. 1988. Interaction between the pollen tube and stigmatic cell wall following pollination in Brassica oleracea. New Phytologist 109: 111117.
  • Espinosa-Soto C, Padilla-Longoria P, Alvarez-Buylla ER. 2004. A gene regulatory network model for cell-fate determination during Arabidopsis thaliana flower development that is robust and recovers experimental gene expression profiles. The Plant Cell 16: 29232939.
  • Feijo JA, Costa SS, Prado AM, Becker JD, Certal AC. 2004. Signalling by tips. Current Opinion in Plant Biology 7: 589598.
  • Fiebig A, Kimport R, Preuss D. 2004. Comparisons of pollen coat genes across Brassicaceae species reveal rapid evolution by repeat expansion and diversification. Proceedings of the National Academy of Sciences, USA 101: 32863291.
  • Fiebig A, Mayfield JA, Miley NL, Chau S, Fischer RL, Preuss D. 2000. Alterations in CER6, a gene identical to CUT1, differentially affect long-chain lipid content on the surface of pollen and stems. Plant Journal 12: 20012008.
  • Foreman J, Demidchik V, Bothwell JH, Mylona P, Miedema H, Torres MA, Linstead P, Costa S, Brownlee C, Jones JD et al . 2003. Reactive oxygen species produced by NADPH oxidase regulate plant cell growth. Nature 422: 442446.
  • Fu Y, Wu G, Yang Z. 2001. GTP-ase-dependent dynamics of tip localized F-actin controls tip growth in pollen tubes. Journal of Cell Biology 152: 10191032.
  • Gandhi TK, Zhong J, Mathivanan S, Karthick L, Chandrika KN, Mohan SS, Sharma S, Pinkert S, Nagaraju S, Periaswamy B et al . 2006. Analysis of the human protein interactome and comparison with yeast, worm and fly interaction datasets. Nature Genetics 38: 285293.
  • Garcia-Olmedo F, Molina A, Segura A, Moreno M. 1995. The defensive role of nonspecific lipid transfer proteins in plants. Trends in Microbiology 3: 7274.
  • Gaude T, Dumas C. 1987. Molecular and cellular events of self-incompatibility. International Review of Cytology 107: 333366.
  • Gaude T, Dumas C. 1984. A membrane-like structure on the pollen wall surface in Brassica. Annals of Botany 54: 821825.
  • Geisler-Lee J, O'Toole N, Ammar R, Provart NJ, Millar AH, Geisler M 2007. A predicted interactome for Arabidopsis. Plant Physiology 145: 317329.
  • Goldman MHS, Goldman RB, Mariani C. 1994. Female sterile tobacco plants are produced by stigma-specific cell ablation. EMBO Journal 13: 29762984.
  • Goodwillie C, Kalisz S, Eckert CG. 2005. The evolutionary enigma of mixed mating systems in plants: occurrence, theoretical explanations, and empirical evidence. Annual Review of Ecology Evolution and Systematics 36: 4779.
  • De Graaf BHJ, Knuiman BA, Derksen J, Mariani C. 2003. Characterization and localization of the transmitting tissue-specific PELPIII proteins of Nicotiana tabacum. Journal of Experimental Botany 54: 5563.
  • Grant V. 1981. Plant speciation. New York, NY, USA: Columbia University Press.
  • Gu YQ, Fu Y, Dowd P, Li S, Vernoud V, Gilroy S, Yang Z. 2005. A Rho family GTPase controls actin dynamics and tip growth via two counteracting downstream pathways in pollen tubes. Journal of Cell Biology 169: 127138.
  • Gu YQ, Li S, Lord EM, Yang Z. 2006. Members of a novel class of Arabidopsis Rho guanine nucleotide exchange factors control Rho GTPase-dependent polar growth. The Plant Cell 18: 366381.
  • Gu YQ, Vernoud V, Fu Y, Yang Z. 2003. ROP GTPase regulation of pollen tube growth through the dynamics of tip-localized F-actin. Journal of Experimental Botany 54: 93101.
  • Hancock CN, Kondo K, Beecher B, McClure B. 2003. The S-locus and unilateral incompatibility. Philosophical Transactions of the Royal Society of London, Series B 358: 11331140.
  • Hannoufa A, McNevin J, Lemieux B. 1993. Epicuticular waxes of eceriferum mutants of Arabidopsis thaliana. Phytochemistry 33: 851855.
  • Hannoufa A, Negruk V, Eisner G, Lemieux B. 1996. The CER3 gene of Arabidopsis thaliana is expressed in leaves, stems, roots, flowers and apical meristems. Plant Journal 10: 459467.
  • Hayman DL. 1956. The genetic control of incompatibility in Phalaris coerulescens DESF. Australian Journal of Biological Sciences 9: 321331.
  • Heazlewood JL, Verboom RE, Tonti-Filippini J, Small I, Millar AH. 2007. SUBA: the Arabidopsis subcellular database. Nucleic Acids Research 35: 2138.
  • Heizmann P, Luu DT, Dumas C. 2000a. Pollen–stigma adhesion in the Brassicaceae. Annals of Botany 85 (Suppl. A): 2327.
  • Heizmann P, Luu D-T, Dumas C. 2000b. The clues to species specificity of pollination among Brassicaceae. Sexual Plant Reproduction 13: 157161.
  • Hepler PK, Vidali L, Cheung AY. 2001. Polarized cell growth in higher plants. Annual Review of Cell and Developmental Biology 17: 159187.
  • Herrero M, Dickinson HG. 1979. Pollen−pistil incompatibility in Petunia hybrida: changes in the pistil following compatible and incompatible intraspecific crosses. Journal of Cell Science 36: 118.
  • Herrero M, Dickinson HG. 1981. Pollen tube development in Petunia hybrida following compatible and incompatible intraspecific matings. Journal of Cell Science 47: 365383.
  • Heslop-Harrison J. 1975. Incompatibility and the pollen–stigma interaction. Annual Review of Plant Physiology 26: 403425.
  • Heslop-Harrison J. 1976. A new look at pollination. Report of East Malling Research Station for 1975 L83: 141157.
  • Heslop-Harrison J. 1978. Recognition and response in the pollen–stigma interaction. In: CurtisA, ed. Cell−cell recognition. Society for Experimental Biology Symposium Series No. 32. Cambridge, UK: Company of Biologists Ltd, 121138.
  • Heslop-Harrison J. 1979a. An interpretation of the hydrodynamics of pollen. American Journal of Botany 66: 737743.
  • Heslop-Harrison J. 1979b. Aspects of the structure cytochemistry and germination of the pollen of rye (Secale cereale L.). Annals of Botany 44 (Suppl. 1): 147.
  • Heslop-Harrison J. 1982. Pollen–stigma interaction and cross-incompatibility in the grasses. Science 215, 13581364.
  • Heslop-Harrison J. 1987. Pollen germination and pollen tube growth. International Journal of Cytology 107: 178.
  • Heslop-Harrison J, Heslop-Harrison Y. 1975. Enzymic removal of the proteinaceous pellicle of the stigma papilla prevents pollen tube entry in the Caryophyllaceae. Annals of Botany 39: 163165.
  • Heslop-Harrison J, Heslop-Harrison Y. 1981. The pollen–stigma interaction in the grasses. 2. Pollen tube penetration and the stigma response in Secale. Acta Botanica Neerlandica 30: 289307.
  • Heslop-Harrison J, Heslop-Harrison Y. 1989. Conformation and movement of the vegetative nucleus of the angiosperm pollen tube: association with the actin cytoskeleton. Journal of Cell Science 93: 299308.
  • Heslop-Harrison J, Heslop-Harrison Y. 1992. Germination of monocolpate angiosperm pollen: evolution of the actin cytoskeleton and wall during hydration, activation and tube emergence. Annals of Botany 69: 385394.
  • Heslop-Harrison J, Heslop-Harrison Y, Barber J. 1975. The stigma surface in incompatibility responses. Proceedings of the Royal Society of London, Series B 188: 287297.
  • Heslop-Harrison Y. 1977. The pollen–stigma interaction: pollen tube penetration in Crocus. Annals of Botany 41: 913922.
  • Heslop-Harrison Y. 1981. Stigma characteristics and angiosperm taxonomy. Nordic Journal of Botany 1: 401420.
  • Heslop-Harrison Y. 2000. Control gates and micro-ecology: the pollen–stigma interaction in perspective. Annals of Botany: 85(A): 513.
  • Heslop-Harrison Y, Shivanna KR 1977. The receptive surface of the angiosperm stigma. Annals of Botany 41: 12331258.
  • Higashiyama T, Kuroiwa H, Kawano S, Kuroiwa T. 1998. Guidance in vitro of the pollen tube to the naked embryo sac of Torenia fournieri. The Plant Cell 10: 20192032.
  • Higashiyama T, Yabe S, Sasaki N, Nishimura Y, Miyagashima S, Kuroiwa H, Kuroiwa T. 2001. Pollen tube attraction by the synergid cell. Science 293: 14801483.
  • Hiscock SJ. 1993. The physiology and biochemistry of the pollen–stigma interaction in Brassica. PhD thesis. Oxford, UK; University of Oxford.
  • Hiscock SJ. 2004. Pollen−pistil interactions. Encyclopaedia of plant and crop science. New York, NY, USA: Marcel Dekker, 10351037.
  • Hiscock SJ, Bown D, Gurr SJ, Dickinson HG. 2002a. Serine esterases are required for pollen tube penetration of the stigma in Brassica. Sexual Plant Reproduction 15: 6574.
  • Hiscock SJ, Bright J, McInnis SM, Desikan R, Hancock, JT. 2007. Signalling on the stigma: potential new roles for ROS and NO in plant signalling. Plant Signaling and Behaviour 2: 2324.
  • Hiscock SJ, Coleman J, Dewey FM, Dickinson HG. 1994. Identification and localization of an active cutinase in the pollen of Brassica napus L. Planta 193: 377384.
  • Hiscock SJ, Dickinson HG. 1993. Unilateral incompatibility within the Brassicaceae – further evidence for an involvement of the self-incompatibility (S)-locus. Theoretical and Applied Genetics 86: 744753.
  • Hiscock SJ, Doughty J, Dickinson HG. 1995a. Synthesis and phosphorylation of pollen proteins during the pollen–stigma interaction in self-compatible Brassica napus L. and self-incompatible Brassica oleracea L. Sexual Plant Reproduction 8: 345353.
  • Hiscock SJ, Doughty J, Dickinson HG. 1998. Unilateral incompatibility and the S (self-incompatibility) locus. In: OwensSJ, RudallPJ, eds. Reproductive biology in systematics, conservation and economic botany. Kew, UK: Royal Botanic Gardens, 3146.
  • Hiscock SJ, Doughty J, Willis AC, Dickinson HG. 1995b. A 7-kDa pollen coating-borne peptide from Brassica napus interacts with S-locus glycoprotein and S-locus-related glycoprotein. Planta 196: 367374.
  • Hiscock SJ, Hoedemaekers K, Friedman WE, Dickinson HG. 2002b. The stigma surface and pollen–stigma interactions in Senecio squalidus L. (Asteraceae) following cross (compatible) and self (incompatible) pollinations. International Journal of Plant Sciences 163: 116.
  • Hiscock SJ, McInnis SM. 2003a. The diversity of self-incompatibility systems in flowering plants. Plant Biology 5: 2332.
  • Hiscock SJ, McInnis SM. 2003b. Pollen recognition and rejection during the sporophytic self-incompatibility response –Brassica and beyond. Trends in Plant Science 8: 606613.
  • Hiscock SJ, Tabah DA. 2003. The different mechanisms of sporophytic self-incompatibility. Philosophical Transactions of the Royal Society of London, Series B 358: 10371045.
  • Hogenboom NG. 1975. Incompatibility and incongruity: two different mechanisms for the nonfunctioning of intimate partner relationships. Proceedings of the Royal Society of London, Series B 188, 361375.
  • Holdaway-Clarke TL, Hepler PK. 2003. Control of pollen tube growth: role of ion gradients and fluxes. New Phytologist 159: 539563.
  • Honys D, Twell D. 2003. Comparative analysis of the Arabidopsis pollen transcriptome. Plant Physiology 132: 640652.
  • Honys D, Twell D. 2004. Transcriptome analysis of haploid male gametophytic development in Arabidopsis. Genome Biology 5: R85.
  • Hormazo JI, Herrero M. 1992. Pollen selection. Theoretical and Applied Genetics 83: 663672.
  • Hulskamp M, Kopczak SD, Horejsi TF, Kihl BK, Pruitt RE. 1995. Identification of genes required for pollen–stigma recognition in Arabidopsis thaliana. Plant Journal 8: 703714.
  • Hussey PJ, Ketelaar T, Deeks MJ. 2006. Control of the actin cytoskeleton in plant cell growth. Annual Review of Plant Biology 57: 109125.
  • Jenks MA, Tuttle HA, Eigenbrode SD, Feldmann KA. 1995. Leaf epicuticular waxes of the Eceriferum mutants in Arabidopsis. Plant Physiology 108: 369377.
  • Jiang L, Yang SL, Xie, LF, Puah CS, Zhang XQ, Yang WC, Sundaresan V, Ye D. 2005. VANGUARD1 encodes a pectin methylesterase that enhances pollen tube growth in the Arabidopsis style and transmitting tract. The Plant Cell 17: 584596.
  • Johnson MA, Preuss D. 2002. Plotting a course: multiple signals guide pollen tubes to their targets. Developmental Cell 2: 273281.
  • Johnson MA, Preuss D. 2003. On your mark, get set, GROW! LePRK2-LAT52 interactions regulate pollen tube growth. Trends in Plant Science 8: 9799.
  • Kader, JG. 1997. Lipid transfer proteins: a puzzling family of plant proteins. Trends in Plant Science 2: 6670.
  • Kalisz S, Vogler D, Hanley KM. 2004. Context-dependent autonomous self-fertilization yields reproductive assurance and mixed mating. Nature 430: 884887.
  • Kaothien P, Ok SH, Shuai B, Wengier D, Cotter R, Kelly D, Kiriakopolos S, Muschietti J, McCormick S. 2005. Kinase partner protein interacts with the LePRK1 and LePRK2 receptor kinases and plays a role in polarized pollen tube growth. Plant Journal 42: 492503.
  • Kim HU, Chung TY, Kang SK. 1996. Characterization of anther-specific genes encoding a putative pectin esterase of Chinese cabbage. Molecular Cells 6: 334340.
  • Kim J, Shiu SH, Thoma S, Li WH, Patterson SE. 2006a. Patterns of expansion and expression divergence in the plant polygalacturonase gene family. Genome Biology 7: 87.
  • Kim ST, Mollet J-C, Dong J, Zhang K, Park S-Y, Lord EM. 2003. Chemocyanin, a small basic protein from the lily stigma, induces pollen tube chemotropism. Proceedings of the National Academy of Sciences, USA 100: 1612516130.
  • Kim ST, Zhang K, Dong J, Lord EM. 2006b. Exogenous free ubiquitin enhances lily pollen tube adhesion to an in vitro stylar matrix and may facilitate endocytosis of SCA. Plant Physiology 142: 13971411.
  • Knox RB, Clarke AE, Harrison S, Smith P, Marchalonis JJ. 1976. Cell recognition in plants: determinants of the stigma surface and their pollen interactions. Proceedings of the National Academy of Sciences, USA 73: 27882792.
  • Knox RB, Gaget M, Dumas C. 1987. Mentor pollen techniques. International Review of Cytology 107: 315332.
  • Kost B, Spielhofer P, Chua NH. 1998. A GFP-mouse talin fusion protein labals plant actin filaments in vivo and visualizes the actin cytoskeleton in growing pollen tubes. Plant Journal 16: 393401.
  • Kotake T, Li Y-Q, Takahashi M, Sakurai N. 2000. Characterization and function of wall-bound exo-β-glucanases of Lilium longiflorum pollen tubes. Sexual Plant Reproduction 13: 19.
  • Kuboyama T. 1998. A novel thaumatin-like protein of tobacco is specifically expressed in the transmitting tissue of stigma and style. Sexual Plant Reproduction 11: 251256.
  • Lalanne E, Twell D. 2002. Genetic control of male germ unit organization in Arabidopsis. Plant Physiology 129: 865875.
  • Laloi C, Apel K, Danon A. 2004. Reactive oxygen signalling: the latest news. Current Opinion on Plant Biology 7: 323328.
  • Lancelle SA, Hepler PK. 1992. Ultrastructure of freeze-substituted pollen tubes of Lilium longiflorum. Protoplasma 167: 215230.
  • Lawrence MJ. 1975. The genetics of self-incompatibility in Papaver rhoeas. Proceedings of the Royal Society, London, Series B 188: 275285.
  • Lee J-Y, Lee D-H. 2003. Use of serial analysis of gene expression technology to reveal changes in gene expression in Arabidopsis pollen undergoing cold stress. Plant Physiology 132: 517529.
  • Lewis D, Crowe LK. 1958. Unilateral interspecific incompatibility in flowering plants. Heredity 12: 233256.
  • Li M, Xu W, Yang W, Kong Z, Xue Y. 2007. Genome-wide gene expression profiling reveals conserved and novel molecular functions of the stigma of rice. Plant Physiology 144: 17971812.
  • Liedl BE, McCormick S, Mutschler MA. 1996. Unilateral incongruity in crosses involving Lycopersicon penellii and L. esculentum is distinct from self-incompatibility in expression, timing and location. Sexual Plant Reproduction 9: 299308.
  • Lind JL, Boenig I, Clarke AE, Anderson MA. 1996. A style-specific 120-kDA glycoprotein enters pollen tubes of Nicotiana alata in vivo. Sexual Plant Reproduction 9: 7586.
  • Lockhart DJ, Winzeler EA. 2000. Genomics, gene expression, and DNA arrays. Nature 405: 827836.
  • Lolle SJ, Cheung AY. 1993. Promiscuous germination and growth of wild-type pollen from Arabidopsis and related species on the shoot of the Arabidopsis mutant fiddlehead. Developmental Biology 155: 250258.
  • Lord EM. 2003. Adhesion and guidance in compatible pollination. Journal of Experimental Botany 54: 4754.
  • Lord EM, Russell SD. 2002. The mechanisms of pollination and fertilization in plants. Annual Review of Cell and Developmental Biology 18: 81105.
  • Lovy-Wheeler A, Cárdenas L, Kunkel JG, Hepler PK. 2007. Differential organelle movement on the actin cytoskeleton in lily pollen tubes. Cell Motility and the Cytoskeleton 64: 217232.
  • Lundquist A. 1956. Self-incompatibility in rye. I. Genetic control in the diploid. Hereditas 42: 293348.
  • Lush WM. 1999. Whither chemotropism and pollen tube guidance? Trends in Plant Sciences 4: 413418.
  • Lush WM, Grieser F, Wolters-Arts M. 1998. Directional growth of pollen tubes in vitro and on the stigma. Plant Physiology 118: 733741.
  • Lush WM, Spurck T, Joosten R. 2000. Pollen tube guidance by the pistil of a Solanaceous plant. Annals of Botany 85(A): 3947.
  • Luu D-T, Heizmann P, Dumas C. 1997a. Pollen–stigma adhesion in kale is not dependent on the self-(in)compatibility genotype. Plant Physiology 115: 12211230.
  • Luu D-T, Heizmann P, Dumas C, Trick M, Cappadocia M. 1997b. Involvement of SLR1 genes in pollen adhesion to the stigmatic surface in Brassicaceae. Sexual Plant Reproduction 10: 227235.
  • Luu DT, Marty-Mazars D, Trick M, Dumas C, Heizmann P. 1999. Pollen–stigma adhesion in Brassica spp. involves SLG and SLR1 glycoproteins. The Plant Cell 11: 251262.
  • Luu D-T, Qin X, Morse D, Cappadocia M. 2000. S-RNase uptake by compatible pollen tubes in gametophytic self-incompatibility. Nature 407: 649651.
  • Malho R, Liu Q, Monteiro D, Rato C, Camacho L, Dinis A. 2006. Signalling pathways in pollen germination and tube growth. Protoplasma 228: 2130.
  • Malho R, Trewavas AJ. 1996. Localized apical increases of cytosolic free calcium control pollen tube orientation. The Plant Cell 8: 19351949.
  • Mascarenhas JP. 1989. The male gametophyte of flowering plants. The Plant Cell 1: 657664.
  • Mascarenhas JP. 1993. Molecular mechanisms of pollen tube growth and differentiation. The Plant Cell 5: 13031314.
  • Mattsson O, Knox RB, Heslop-Harrison J, Heslop-Harrison Y. 1974. Protein pellicle of stigmatic papillae as a probable recognition site in incompatibility reactions. Nature 247: 298300.
  • Mayfield JA, Fiebig A, Johnstone SE, Preuss D. 2001. Gene families from the Arabidopsis thaliana pollen coat proteome. Science 292: 24822485.
  • Mayfield JA, Preuss D. 2000. Rapid initiation of Arabidopsis pollination requires the oleosin-domain protein GRP17. Nature Cell Biology 2: 128130.
  • McClure BM, Franklin-Tong VE. 2006. Gametophytic self-incompatibility: understanding the cellular mechanisms involved in ‘self’ pollen tube inhibition. Planta 224: 233245.
  • McInnis SM, Costa LM, Gutiérrez-Marcos JF, Henderson CA, Hiscock SJ. 2005. Isolation and characterization of a polymorphic stigma-specific class III peroxidase gene from Senecio squalidus L. (Asteraceae). Plant Molecular Biology 57: 659677
  • McInnis SM, Desikan R, Hancock JT, Hiscock SJ. 2006b. Production of reactive oxygen species and reactive nitrogen species by angiosperm stigmas and pollen: potential signalling crosstalk. New Phytolologist 172: 221228.
  • McInnis SM, Emery DC, Porter R, Desikan R, Hancock JT, Hiscock SJ. 2006a. The role of stigma peroxidases in flowering plants: insights from further characterization of a stigma-specific peroxidase (SSP) from Senecio squalidus (Asteraceae). Journal of Experimental Botany 57: 18351846.
  • Mewes HW, Heumann K, Kaps A, Mayer K, Pfeiffer F, Stocker S, Frishman D. 1999. MIPS: a database for genomes and protein sequences. Nucleic Acids Research 27: 4448.
  • Miller DD, Lancelle SA, Hepler PK. 1996. Actin microfilaments do not form a dense meshwork in Lilium longiflorum pollen tube tips. Protoplasma 195: 123132.
  • Mollet J-C, Park S-Y, Nothnagel EA, Lord EM. 2000. A lily stylar pectin is necessary for pollen tube adhesion to an in vitro stylar matrix. The Plant Cell 12: 17371749.
  • Mu JH, Stains JP, Kao T-h. 1994. Characterization of a pollen-expressed gene encoding a putative pectin esterase of Petunia inflata. Plant Molecular Biology 25: 539544.
  • Mulcahy DL. 1979. The rise of angiosperms: a genecolical factor. Science 206: 2023.
  • Murfett JM, Srabala TJ, Zurek DM, Mou B, Beecher B, McClure BA. 1996. S RNase and interspecific pollen rejection in the genus Nicotiana: multiple pollen rejection pathways contribute to unilateral incompatibility between self-incompatible and self-compatible species. The Plant Cell 8: 943958.
  • Murphy DJ. 2006. The extracellular pollen coat in members of the Brassicaceae: composition, biosynthesis and functions in pollination. Protoplasma 228: 3139.
  • Muschietti J, Eyal Y, McCormick S. 1998. Pollen tube localization implies a role in pollen−pistil interactions for the tomato receptor-like protein kinases LePRK1 and LePRK2. The Plant Cell 10: 319330.
  • Nasrallah JB. 2003. Recognition and rejection of self in plant reproduction. Science 296, 305308.
  • Nasrallah ME, Liu P, Nasrallah JB. 2002. Generation of self-incompatible Arabidopsis thaliana by transfer of two S locus genes from A. lyrata. Science 297: 247249.
  • Neill SJ, Desikan R, Hancock JT. 2002. Nitric oxide signalling in plants. New Phytologist 159: 1135.
  • De Nettancourt D. 1977. Incompatibility in angiosperms. Berlin, Germany: Springer-Verlag.
  • De Nettancourt D, Devreux M, Laneri U, Cresti M, Pacini E, Sarfatti G. 1974. Genetical and ultrastructural aspects of self and cross incompatibility in interspecific hybrids between self-compatible Lycopersicum esculentum and self-incompatible Lycopersicum peruvianum. Theoretical and Applied Genetics 44: 278288.
  • Nieuwland J. 2004. Cell wall loosening proteins of the stigma exudate. PhD thesis. Nijmegen, the Netherlands: Katholieke Universiteit Nijmegen.
  • Nieuwland J, Feron R, Huisman BAH, Fasolino A, Hilbers CW, Derksen J, Mariani C. 2005. Lipid transfer proteins enhance cell wall extension in tobacco. The Plant Cell 17: 20092019.
  • Niklas KJ. 1997. The evolutionary biology of plants. Chicago, IL, USA and London, UK: Chicago University Press.
  • Ottaviano E, Sari-Gorla M, Mulcahy DL. 1980. Pollen tube growth rates in Zea mays: implications for genetic improvement of crops. Science 210: 437438.
  • Palanivelu R, Brass L, Edlund AF, Preuss D. 2003. Pollen tube growth and guidance is regulated by POP2, an Arabidopsis gene that controls GABA levels. Cell 114: 4759.
  • Palanivelu R, Preuss D. 2006. Distinct short-range ovule signals attract or repel Arabidopsis pollen tubes in vitro. BMC Plant Biology 6: 7.
  • Park S-Y, Jauh G-Y, Mollet J-C, Eckard KJ, Nothnagel EA, Walling LL, Lord EM. 2000. A lipid transfer-like protein is necessary for lily pollen tube adhesion in an in vitro stylar matrix. The Plant Cell 12: 151164.
  • Park SY, Lord EM. 2003. Expression studies of SCA in lily and confirmation of its role in pollen tube adhesion. Plant Molecular Biology 51: 183189.
  • Pina C, Pinto F, Feijo JA, Becker JD. 2005. Gene family analysis of the Arabidopsis pollen transcriptome reveals biological implications for cell growth, division control, and gene expression regulation. Plant Physiology 138: 744756.
  • Popescu SC, Popescu GV, Bachan S, Zhang Z, Seay M, Gerstein M, Snyder M, Dinesh-Kumar SP. 2007. Differential binding of calmodulin-related proteins to their targets revealed through high-density Arabidopsis protein microarrays. Proceedings of the National Academy of Sciences, USA 104: 47304735.
  • Potocký M, Jones MA, Bezvoda R, Smirnoff N, Zarsky V. 2007. Reactive oxygen species produced by NADPH oxidase are involved in pollen tube growth. New Phytologist 174: 742751.
  • Prado AM, Porterfield DM, Feijo JA. 2004. Nitric oxide is involved in growth regulation and reorientation of pollen tubes. Development 131: 27072714.
  • Preuss D, Lemieux B, Yen G, Davis RW. 1993. A conditional sterile mutation eliminates surface components from Arabidopsis pollen and disrupts cell signalling during fertilization. Genes and Development 7: 974985.
  • Provart N, Zhu T. 2003. A browser-based functional classification superviewer for Arabidopsis genomics. Currents in Computational Molecular Biology 2003: 271272.
  • Pruitt RE, Vielle-Calzada JP, Ploense SE, Grossniklaus U, Lolle SJ. 2000. FIDDLEHEAD, a gene required to suppress epidermal cell interactions in Arabidopsis, encodes a putative lipid biosynthetic enzyme. Proceedings of the National Academy of Sciences, USA 97: 13111316.
  • Qiao H, Wang F, Zhao L, Zhou J, Lai Z, Zhang Y, Robbins TP, Xue Y. 2004. The F-box protein AhSLF-S2 controls the pollen function of S-RNase-based self-incompatibility. Plant Cell 16: 23072322.
  • Rahmann MH, Uchiyama M, Kuno M, Hirahima N, Suwabe K, Tsuchiya T, Kagaya Y, Kobayashi I, Kakeda K, Kowyama Y. 2007. Expression of stigma- and anther-specific genes located in the S locus region of Ipomoea trifida. Sexual Plant Reproduction 20: 7385.
  • Raudaskoski M, Astrom H, Laitiainen E. 2001. Pollen tube cytoskeleton: structure and function. Journal of Plant Growth Regulation 20: 113130.
  • Ravindran S, Kim S, Martin R, Lord EM, Ozkan CS. 2005. Quantum dots as bio-labels for the localization of a small plant adhesion protein. Nanotechnology 16: 14.
  • Ren H, Xiang Y. 2007. The function of actin-binding proteins in pollen tube growth. Protoplasma 230: 171182.
  • Rieseberg LH. 1997. Hybrid origins of plant species. Annual Review of Ecology and Systematics 28: 359389.
  • Roberts IN, Harrod G, Dickinson HG. 1984a. Pollen–stigma interactions in Brassica oleracea, I. Ultrastructure of the stigmatic papillar cells. Journal of Cell Science 66: 241253.
  • Roberts IN, Harrod G, Dickinson HG. 1984b. Pollen–stigma interactions in Brassica oleracea, II. The fate of stigma surface proteins following pollination and their role in the self-incompatibility response. Journal of Cell Science 66: 255264.
  • Roberts IN, Stead AD, Ockendon DJ, Dickinson HG. 1980. Pollen–stigma interactions in Brassica oleracea. Theoretical and Applied Genetics 58: 241246.
  • Samaj J, Muller J, Beck M, Bohm N, Menzel D. 2006. Vesicular trafficking, cytoskeleton and signalling in root hairs and pollen tubes. Trends in Plant Science 11: 594600.
  • Sanchez AM, Bosch M, Bots M, Nieuwland J, Feron R, Mariani C. 2004. Pistil factors controlling pollination. The Plant Cell 16: S98S106.
  • Sarker RH, Elleman CJ, Dickinson HG. 1988. Control of pollen hydration in Brassica requires continued protein synthesis, and glycosylation is necessary for intraspecific incompatibility. Proceedings of the National Academy of Sciences, USA 85: 43404344.
  • Schein M, Yang Z, Mitchell-Olds T, Schmid KJ. 2004. Rapid evolution of a pollen-specific oleosin-like gene family from Arabidopsis thaliana and closely related species. Molecular Biology and Evolution 21: 659669.
  • Scoccianti V, Ovidi E, Taddei AR, Tiezzi A, Crinelli R, Gentilini L, Speranza A. 2003. Involvement of the ubiquitin/proteasome pathway in the organization and polarized growth of kiwifruit pollen tubes. Sexual Plant Reproduction 16: 123133.
  • Sheng A, Hu Z, Lu H, Wang X, Baluska F, Samaj J, Lin J. 2006. Roles of ubiquitin/proteasome pathway in pollen tube growth with emphasis on MG132-induced alterations in ultrastructure, cytoskeleton, and cell wall components. Plant Physiology 141: 15781590.
  • Shivanna KR, Heslop-Harrison J, Heslop-Harrison Y. 1978. The pollen–stigma interaction: bud pollination in the Cruciferae. Acta Botanica Neerlandica 27: 107119.
  • Sijacic P, Wang X, Skirpan AL, Wang Y, Dowd PE, McCubbin AG, Huang S, Kao T-H. 2004. Identification of the pollen determinant of S-RNase-mediated self-incompatibility. Nature 429: 302305.
  • Sommer-Knudson J, Lush WM, Bacic A, Clarke AE. 1998. Re-evaluation of the role of a transmitting tract-specific glycoprotein on pollen tube growth. Plant Journal 13: 529535.
  • Speranza A, Scoccianti V, Crinelli R, Calzoni GL, Magnani M. 2001. Inhibition of proteasome activity strongly affects kiwifruit pollen germination: involvement of ubiquitin/proteasome pathway as a major regulator. Plant Physiology 126: 11501161.
  • Staiger CJ. 2000. Signaling to the actin cytoskeleton in plants. Annual Review of Plant Physiology and Molecular Biology 51: 257288.
  • Staiger CJ, Blanchoin L. 2006. Actin dynamics: old friends with new stories. Current Opinion in Plant Biology 9: 554562.
  • Stanley RG, Linskens HF. 1974. Pollen: biology, biochemistry and management. Berlin, Germany: Springer-Verlag.
  • Stead AD, Roberts IN, Dickinson HG. 1980. Pollen–stigma interaction in Brassica oleracea: the role of stigmatic proteins in pollen grain adhesion. Journal of Cell Science 42, 417423.
  • Stebbins GL. 1950. Variation and evolution in plants. Columbia, NY, USA: Columbia University Press.
  • Steer MW, Steer JM. 1989. Pollen tube tip growth. New Phytologist 111: 323358.
  • Stone SL, Anderson EM, Mullen RT, Goring DR. 2003. ARC1 is an E3 ubiquitin ligase and promotes the ubiquitination of proteins during the rejection of self-incompatible Brassica pollen. The Plant Cell 15: 885898.
  • Suen DF, Huang AHC. 2007. Maize pollen coat xylanase facilitates pollen tube penetration into silk during sexual reproduction. Journal of Biological Chemistry 282: 625636.
  • Suen DF, Wu SS, Chang HC, Dhugga KS, Huang AHC. 2003. Cell wall reactive proteins in the coat and wall of maize pollen: potential role in pollen tube growth on the stigma and through the style. Journal of Biological Chemistry 278: 4367243681.
  • Suzuki G, Kusaba M, Matsushita M, Okazaki K, Nishio T. 2000. Characterization of Brassica S-haplotypes lacking S-locus glycoprotein. FEBS Letters 482: 102108.
  • Swanson R, Clark T, Preuss D. 2005. Expression profiling of Arabidopsis stigma tissue identifies stigma-specific genes. Sexual Plant Reproduction 18: 163171.
  • Swanson R, Edlund AF, Preuss D. 2004. Species specificity in pollen−pistil interactions. Annual Review of Genetics 38: 793818.
  • Swanson WJ, Vacquier VD. 2002. Rapid evolution of reproductive proteins. Nature Reviews Genetics 3: 137144.
  • Takayama S, Isogai A. 2005. Self-incompatibility in plants. Annual Review of Plant Biology 56: 467489.
  • Takayama S, Shiba H, Iwano M, Asano K, Hara M, Che F-S, Watanabe M, Hinata K, Isogai A. 2000. Isolation and characterization of pollen coat proteins of Brassica campestris that interact with S locus-related glycoprotein 1 involved in pollen–stigma adhesion. Proceedings of the National Academy of Sciences, USA 97: 37653770.
  • Tang W, Ezcurra I, Muschietti J, McCormick S. 2002. A cysteine-rich extracellular protein LAT52, interacts with the extracellular domain of the pollen receptor kinase LePRK2. The Plant Cell 14: 22772287.
  • Tang W, Kelly D, Ezcurra I, Cotter R, McCormick S. 2004. LeSTIG1, an extracellular binding partner for the pollen receptor kinases LePRK1 and LePRK2, promotes pollen tube growth in vitro. Plant Journal 39: 343353.
  • Thiessen G, Melzer R. 2007. Molecular mechanisms underlying origin and diversification of the angiosperm flower. Annals of Botany 100: 603619.
  • Tian G-W, Chen M-H, Zaltsman A, Citovsky V. 2006. Pollen-specific pectin methylesterase involved in pollen tube growth. Developmental Biology 294: 8391.
  • Tung C-W, Dwyer KG, Nasrallah ME, Nasrallah JB. 2005. Genome-wide identification of genes expressed in Arabidopsis pistils specifically along the path of pollen tube growth. Plant Physiology 138: 977989.
  • Twell D, Wing R, Yamaguchi J, McCormick S. 1989. Isolation and expression of an anther-specific gene from tomato. Molecular and General Genetics 217: 240245.
  • Valério L, De Meyer M, Penel C, Dunand S. 2004. Expression analysis of the Arabidopsis peroxidase multigene family. Phytochemistry 65: 13311342.
  • Verhoeven T, Feron R, Wolters-Arts M, Edqvist J, Gerats T, Derksen J, Mariani C. 2005. STIG1 controls exudate secretion in the pistil of Petunia and tobacco. Plant Physiology 138: 153160.
  • Vernoud V, Horton AC, Yang ZB, Nielsen E. 2003. Analysis of the small GTPase gene superfamily of Arabidopsis. Plant Physiology 131: 11911208.
  • Vidali L, Hepler P. 2001. Actin and pollen tube growth. Protoplasma 215: 6476.
  • Wang H, Wu H-M, Cheung AY. 1993. Development and pollination regulated accumulation and glycosylation of a stylar transmitting tissue-specific proline-rich protein. The Plant Cell 5: 16391650.
  • Wengier D, Valsecchi I, Cabanas ML, Tang W-H, McCormick S, Muschietti J. 2003. The receptor kinases LePRK1 and LePRK2 associate in pollen and when expressed in yeast, but dissociate in the presence of style extract. Proceedings of the National Academy of Science, USA 100: 68606865.
  • Wheeler MJ, Franklin-Tong VE, Franklin FCH. 2001. The molecular and genetic basis of pollen−pistil interactions. New Phytologist 151: 565584.
  • Whitehouse HLK. 1950. Multiple allelomorph incompatibility of pollen and style in the evolution of angiosperms. Annals of Botany 14: 198216.
  • Wilsen KL, Hepler PK. 2007. Sperm delivery in flowering plants: the control of pollen tube growth. Bioscience 57: 835844.
  • Wolters-Arts M, Lush WM, Mariani C. 1998. Lipids are required for directional pollen tube growth. Nature 392: 818821.
  • Wolters-Arts M, Van der Weerd L, Van Aeist AC, Van der Weerd J, Van As H, Mariani C. 2002. Water conducting properties of lipids during pollen hydration. Plant, Cell & Environment 25: 513519.
  • Wu G, Gu Y, Li S, Yang Z. 2001. A genome-wide analysis of Arabidopsis Rop-interactive CRIB motif-containing proteins that act as Rop GTPase targets. The Plant Cell 13: 28412856.
  • Wu H-M, Wang H, Cheung AY. 1995. A pollen tube growth stimulatory glycoprotein is deglycosylated by pollen tubes and displays a glycosylation gradient in the flower. Cell 82: 395403.
  • Wu HM, Wong E, Ogdahl J, Cheung AY. 2000. A pollen tube growth-promoting arabinogalactan protein from Nicotiana alata is similar to the tobacco TTS protein. Plant Journal 22: 165176.
  • Wu YZ, Qiu X, Du S, Erikson L. 1996. PO149, a new member of the pectate lyase-like gene family in alfalfa. Plant Molecular Biology 32: 10371042.
  • Yi W, Law E, McCoy D, Wetzstein HY. 2006. Stigma development and receptivity in almond (Prunus dulcis). Annals of Botany 97: 5763.
  • Zinkl GM, Preuss D. 2000. Dissecting Arabidopsis pollen–stigma interactions reveals novel mechanisms that confer mating specificity. Annals of Botany 85(A): 1521.
  • Zinkl GM, Zweibel BI, Grier DG, Preuss D. 1999. Pollen–stigma adhesion in Arabidopsis: a species-specific interaction mediated by hydrophobic molecules in the pollen exine. Development 126: 54315440.