Androgenic development: a fascinating embryo formation process

• Autorzy: Goralski G. , Matthys-Rochon E. , Vergne P. , Przywara L.
• Języki publikacji: EN

Abstrakty

EN

The subject of this review is androgenesis as a process of embryo development from microspores and pollen. A number of factors govern androgenesis, but genotype, the stage of microspore development and in vitro culture conditions are the most important. We summarize some recent work employing a variety of experimental approaches to study this fascinating phenomenon of embryo formation.

Słowa kluczowe

EN

microspore culture; molecular analysis; Triticum aestivum; androgenic development; anther culture; androgenesis; cellular totipotency; Datura innoxia; embryo formation; sucrose; Brassica napus; pollen; wheat; sugar; gelling; embryogenesis; Hyoscyamus niger; Oryza sativa; Hordeum vulgare; Nicotiana tabacum; maize; rice

• Wydawca: -
• Czasopismo: Acta Biologica Cracoviensia. Series Botanica
• Rocznik: 1999
• Tom: 41
• Opis fizyczny: p.51-65,fig.

Twórcy

autor

Goralski G.

• Jagiellonian University, Grodzka 52, 31-044 Cracow, Poland

autor

Matthys-Rochon E.

autor

Vergne P.

autor

Przywara L.

Bibliografia

• Adkins SW, Shiraishi T, and Mccomb JA. 1990. Rice callus physiology identification of violate emissions and their effects on culture growth. Physiologia Plantarum 78: 526- 531.
• Alemazkoor S, Taji A, and Williams RR. 1996. Role of protein in temperature responses of eggplant anther culture. Plant Reproduction ’96, 14-th International Congress of Sexual Plant Reproduction, 18-23 February 1996, 106. Cumberland Resort, Lorne, Victoria, Australia.
• Barloy D, and Beckert M. 1993. Improvement of regeneration ability of androgenetic embryos by early anther transfer in maize. Plant Cell, Tissue and Organ Culture 33: 45-50.
• Barloy D, Denis L, and Beckert M. 1989. Comparison of the aptitude for anther culture in some androgenic doubled haploid maize lines. Maydica 34: 303-308.
• Barnabas B, Fransz PF, and Schel JHN. 1987. Ultrastructure studies on pollen embryogenesis in maize (Zea mays L.). Plant Cell Reports 6: 212-215.
• Binarova P, Straatman K, Hause B, Hause G, and Van Lammeren AAM. 1993. Nuclear DNA synthesis during the induction of embryogenesis in cultured microspores and pollen of Brassica napus L. Theoretical and Applied Genetics 87: 9-16.
• Bolik M, and Koop HU. 1991. Identification of embryogénie microspores of barley (Hordeum vulgare L.) by individual selection and culture and their potential for transformation by microinjection. Protoplasma 162: 61-68.
• Bruins MBM, and Snijders CHA. 1995. Inheritance of anther culture derived green plantlet regeneration in wheat (Triticum aestivum L.). Plant Cell, Tissue and Organ Culture 43: 13-19.
• Buter B, Pescitelli SM, Berger K, and Stamp P. 1993. Autoclaved and filter sterilized liquid media in maize anther culture: significance of activated charcoal. Plant Cell Reports 13: 79-82.
• Châtelet P, and Herve Y. 1998. Development and use of microspore culture applied to vegetable Brassica oleracea breeding. Anther and Pollen: from Biology to Biotechnology - Palais des Congres, 9-10 April 1998, 30. Université de Reims Champagne Ardenne Biologie et Physiologie Vegetales. Rheims, France.
• Cho MS, and Zapata FJ. 1988. Callus formation and plant regeneration in isolated pollen culture of rice (Oryza sativa L. cv. Taipei 309). Plant Science 58: 239-244
• Cho MS, and Zapata FJ. 1990. Plant regeneration from isolated microspore of indica rice. Plant Cell Physiology 31: 881-885.
• Cistué L, Ziauddin A, Simion E, and Kasha KJ. 1995. Effects of culture conditions on isolated microspore response of barley cultivar Igri. Plant Cell, Tissue and Organ Culture 42: 163-169.
• Cordewener JHG, Busink R, Traas JA, Custers JBM, Dons HJM, and Van Lookeren Campagne MM. 1994. Induction of microspore embryogenesis in Brassica napus L. is accompanied by specific changes in protein synthesis. Planta 195: 50-56.
• Cordewener JHG, Hause G, Görgen E, Busink R, Hause B, Dons HJM, Van Lammeren AAM, Van Lookeren Campagne MM, and Pechan P. 1995. Changes in synthesis and localisation of members of the 70-kDa class of heat-shock proteins accompany the induction of embryogenesis in Brassica napus L. microspores. Planta 196: 147-755.
• Coventry J, Kott L, and Beversdorf WD. 1988. Manual for microspore culture technique for Brassica napus. Department of Crop Science Technical Bulletin OAN, Publication 0489. University of Guelph.
• Custers JBM, Cordewener JHG, Nollen Y, Dons JM, and Van Lookeren Campagne MM. 1994. Temperature controls both gametophytic and sporophytic development in microspore cultures of Brassica napus. Plant Cell Reports 13: 267-271.
• Custers JBM, Snepvangers SHJ, and Van Lookeren Campagne MM. 1998. 35-CaMV promoter activity reports sporophytic development during microspore embryogenesis. Anther and Pollen: from Biology to Biotechnology - Palais des Congres, 9-10 April 1998, 36. Université de Reims Champagne Ardenne Biologie et Physiologie Vegetales, Rheims, France.
• Datta SK, and Wenzel G. 1987. Isolated microspore derived plant formation via embryogenesis in Triticum aestivum L. Plant Science 48: 49-54.
• De Vries SC. 1992. Secreted proteins as modulators of plant embryogenesis. In: Karssen CM, van Loon LC, and Vreudenhil D [eds .], Progress in plant growth regulation, 340-346. Kluwer Academie Publishers, Netherlands.
• Dieu P, and Beckert M. 1986. Further studies of androgenetic embryo production and plant regeneration from in vitro cultured anthers in maize (Zea mays L.). Maydica 31: 245- 259.
• Domenech J, Testillano PS, Vergne P, Magnard JL, and Risueno MC. 1998. Early microspore embryogenesis in maize: cellular features and in situ expression of embryogenesisspecific genes. Anther and Pollen: from Biology to Biotechnology-Palais des Congres, 9-10 April 1998,48. Université de Reims Champagne Ardenne Biologie et Physiologie Vegetales, Rheims, France.
• Ferrie AMR, Palmer CE, and Keller WA. 1995. In vitro embryogenesis in plants. In: Thorpe TA [ed.], Plant embryogenesis, 309-344. Kluwer Academie Publisher, Dordrecht.
• Finnie SJ, Powell W, and Dyer AF. 1989. The effect of carbohydrate composition and concentration on anther culture response in barley (Hordeum vulgare L.). Plant Breeding 103: 110-118.
• Fournier V, and Filloux D. 1998. Androgenesis by isolated microspore culture in rice (Oryza sativa L.). Anther and Pollen: from Biology to Biotechnology - Palais des Congres, 9-10 April 1998, 48. Université de Reims Champagne Ardenne Biologie et Physiologie Vegetales, Rheims, France.
• Gaillard A, Vergne P, and Beckert M. 1991. Optimisation of maize microspore isolation and culture conditions for reliable plant regeneration. Plant Cell Reports 10: 55-58.
• Genovesi AD. 1990. Maize (Zea mays L.): In vitro production of haploids. In: Bajaj YPS [ed.], Haploids in crop improvement, 176-203. Springer-Verlag, Berlin Heidelberg.
• Genovesi AD, and Collins GB. 1982. In vitro production of haploid plants of corn via anther culture. Crop Science 22: 1137-1144.
• Ghamemi M, Saffari A, and Alibert G. 1994. The effects of silver nitrate, colchicine, cupric sulfate and genotype on the production of embryoids from anthers of tetraploid wheat (Triticum turgidum). Plant Cell, Tissue and Organ Culture 36: 355-359.
• Góralski G, and Przywara L. 1998. In vitro culture of early globular stage embryos of Brassica napus L. Acta Biologica Cracoviensia Series Botanica 40: 53-60.
• Gorbunova VJ, and Kruglova NN. 1996. Genetical determination of cereal androgenesis in vitro: hormonal aspects. Plant Reproduction ’96, 14-th International Congress of Sexual Plant Reproduction, 18-23 February 1996, 146. Cumberland Resort, Lorne, Victoria, Australia.
• Guha S, and Maheshwari SC. 1964. In vitro production of embryos from anthers of Datura. Nature 204: 497
• Guha S, and Maheshwari SC. 1966. Cell division and differentiation of embryos in the pollen grains of Datura in vitro. Nature 212: 97-98.
• Guo Y-D, and Pulli S. 1995. In vitro pollen culture and the regeneration of Brassica campestris L. plants. Agricultural Science in Finland 4: 513-518
• Gustafson VD, Baenziger PS, Wright MS, Stroup WW, and Yen Y. 1995. Isolated wheat microspore culture. Plant Cell, Tissue and Organ Culture 42: 207-213.
• Hause B, Hause G, Pechan P, and Van Lammeren AAM. 1993. Cytoskeletal changes and induction of embryogenesis in microspore and pollen cultures of Brassica napus L. Cell Biology International 17: 153-168.
• Hause B, Veendendaal WLH, Hause G, and Van Lammeren AAM. 1994. Expression of polarity during early development of microspore-derived and zygotic embryos of Brassica napus L. cv. Topas. Botanica Acta 107: 407-415.
• Heberle-Bors E. 1985. In vitro haploid formation from pollen: a critical revue. Theoretical and Applied Genetics 71: 361- 374.
• Hoekstra S, Van Zijderveld MH, Heidekamp F, and Van Der Mark F. 1993. Microspore culture of Hordeum vulgare L.: the influence of density and osmolality. Plant Cell Reports 12: 661-665.
• Huang B. 1986. Ultrastructural aspects of pollen embryogenesis in Hordeum, Triticum and Paeonia. In: Hu H, and Yang H [eds.], Haploids of higher plants in vitro, 91-117. China Academic Publishers Beijing and Springer-Verlag, Berlin Heidelberg.
• Iglesias VA, Gisel A, Potrykus I, and Sautter C. 1994. In vitro germination of wheat proembryos to fertile plants. Plant Cell Reports 13: 377-380.
• Iqbal MCM, Mollers C, and Robbelen G. 1994. Increase embryogenesis after colchicine treatment of microspore cultures of Brassica napus L. Journal of Plant Physiology 143: 222-226.
• Jähne A, Becker D, Brettschneider R, and Lörz H. 1994. Regeneration of transgenic, microspore-derived, fertile barley. Theoretical and Applied Genetics 89: 525-533.
• Jähne A, and Lörz H. 1995. Review article - Cereal microspore culture. Plant Science 109: 1-12.
• Karsai I, Bedo Z, and Hayes PM. 1994. Effect of induction medium pH and maltose concentration on in vitro androgenesis of hexaploid winter triticale and wheat. Plant Cell Tissue and Organ Culture 39: 49-53.
• Kiviharju E, Puolimatka M, Taurlainen A, Saastamoinen M, Hovinen S, and Pehu E. 1998. Anther culture of oats (A. sativa, A. sterilis) and their crosses. Anther and Pollen: from Biology to Biotechnology - Palais des Congres, 9-10 April 1998, 31. Université de Reims Champagne Ardenne Biologie et Physiologie Vegetales, Rheims, France.
• Knudsen S, Due IK, and Andersen SB. 1989. Components of response in barley anther culture. Plant Breeding 103: 241-246.
• Köhler F, and Wenzel G. 1985. Regeneration of isolated barley microspores in conditioned media and trials to characterize the responsible factor. Journal of Plant Physiology 121: 181-191.
• Kott LS, Polsoni L, Ellis B, and Beversdorf WD. 1988. Autotoxicity in isolated microspore cultures of Brassica napus. Canadian Journal of Botany 66: 1665-1670.
• Kruglova NN, and Gorbunova VJ. 1996. Androgenesis in vitro and amphimixis: comparative analysis of the early stages in wheat. Plant Reproduction ’96, 14-th International Congress of Sexual Plant Reproduction, 18-23 February 1996, 146. Cumberland Resort, Lorne, Victoria, Australia.
• Kuginuki Y, Nakamura K, Hida K, Yosikawa H. 1997. Varietal differences in embryogenic and regenerative ability in microspore culture of Chinese cabbage (Brassica rapa L. ssp. pekinensis). Breeding Science 47: 341-346.
• Kumlehn J, and Lörz L. 1998. Monitoring sporophytic development of individual microspores of barley (Hordeum vulgare L.). Anther and Pollen: from Biology to Biotechnology - Palais des Congres, 9-10 April 1998, 26. Université de Reims Champagne Ardenne Biologie et Physiologie Vegetales, Rheims, France.
• Lentini Z, Reyes P, Martinez CP, and Roca WM. 1995. Androgenesis of highly recalcitrant rice genotypes with maltose and silver nitrate. Plant Science 110: 127-138.
• Lezin F, Sarrafi A, and Alibert G. 1996. The effect of genotype, ploidy level and cold pretreatment on barley anther culture responsiveness. Cereal Research Communications 241: 7-13.
• Lichter R. 1982. Induction of haploid plants from isolated pollen of Brassica napus. Zeitschrift für Pflanzenphysiologie 105: 211-221.
• Liu C, Xu Z, and Chua N. 1993. Proembryo culture: in vitro development of early globular-stage zygotic embryos from Brassica juncea. The Plant Journal 3: 291-300.
• Luckett DJ, and Smithard RA. 1995. Barley anther culture using membrane rafts. Plant Cell, Tissue and Organ Culture 42: 287-290.
• Maheshwari SC, Rashid A, and Tyagi AK 1982. Haploids from pollen grains: retrospect and prospect. American Journal of Botany 69: 865-879.
• Meir S, Philosoph-Hadas S, Epstein E, and Aharoni N. 1984. Role of sucrose in the metabolism of IAA-conjugates as related to ethylene production by tobacco leaf discs. In: Fuchs Y, and Chalutz E [eds.], Biochemical, physiological and applied aspects, 97-98. Junk Publishers, The Hague.
• Miao S-H, Kuo C-S, Kwei Y-J, Sun A-J, Ku S-Y, Lu W-L, Wang Y-Y, Chen M-L, Wu M-K, and Hong L. 1978. Induction of pollen plants of maize and observations on the progeny. In: Hu H [ed.], Proceedings of Symposium on Plant Tissue Culture, 23-33. Pitman Publ. Ltd., London.
• Mitchell JC, and Petolino JF. 1991. Plant regeneration from haploid suspension and protoplast cultures from isolated microspores of maize. Journal of Plant Physiology 137: 530-536.
• Monnier M. 1995. Culture of zygotic embryos. In: Thorpe TA [ed.], In vitro embryogenesis in plants, 117-153. Kluwer Academic Publishers.
• Mordhorst AP, and Lörz H. 1993. Embryogenesis and development of isolated barley (Hordeum vulgare L.) microspores are influenced by the amount and composition of nitrogen sources in culture media. Journal of Plant Physiology 142: 485-492.
• Mordhorst AP, Toonen AAJ, and de Vries SC. 1997. Plant embryogenesis. Critical Reviews in Plant Sciences 16: 535- 576.
• Navarro-Alvarez W, Baenziger PS, Eskridge KM, Shelton DR, Gustafson VD, and Hugo M. 1994. Effect of sugars in wheat anther culture media. Plant Breeding 112: 53-62.
• Nitsch C, and Norreel B. 1973. Effect d’un choc thermique sur le pouvoir embryogene du pollen de Datura innoxia culture dans l’anthere on isole de l’anthere. Comptes Rendus de l’Académie des Sciences de Paris 276D: 303-306.
• Nitta T, Takahata Y, and Kaizuma N. 1997. Scanning electron microscopy of microspore embryogenesis in Brassica spp. Plant Cell Reports 16: 406-410.
• Olsen FL. 1991. Isolation and cultivation of embryogenic microspores from barley (Hordeum vulgare L.). Hereditas 115: 255-266.
• Orlov PA. 1998. Green and albino plant regeneration in anther culture of alloplasmic wheat lines. Anther and Pollen: from Biology to Biotechnology - Palais des Congres, 9-10 April 1998, 28. Université de Reims Champagne Ardenne Biologie et Physiologie Vegetales, Rheims, France.
• Palmer CE, and Keller WA. 1997. Pollen embryos. In: Shivanna KR, and Sawhney VK [eds.], Pollen biotechnology for crop production and improvement, 392-422. Cambridge University Press.
• Pareddy DR, and Petolino JF. 1992. Maturation of maize pollen in vitro. Plant Cell Reports 11: 535-539.
• Pechan PM, and Keller WA. 1988. Identification of potentially embryogenic microspores in Brassica napus. Physiologia Plantarum 74: 377-384.
• Pechan PM, Bartels D, Brown DCW, and Schell J. 1991. Messenger-RNA and protein changes associated with induction of Brassica microspore embryogenesis. Planta 184: 161-165.
• Pescitelli SM, Johnson CD, and Petolino JF. 1990. Isolated microspore culture of maize: effect of isolation technique reduced temperature and sucrose level. Plant Cell Reports 8: 628-631.
• Pescitelli SM, and Petolino JF. 1988. Microspore development in cultured maize anthers. Plant Cell Reports 7: 441-444.
• Petolino JF, and Thompson SA. 1987. Genetic analysis of anther culture response in maize. Theoretical and Applied Genetics 74: 284-286.
• Petolino JF, Jones AM, and Thompson SA. 1988. Selection for increased anther culture response in maize. Theoretical and Applied Genetics 76: 157-159.
• Powell W. 1988. The influence of genotype and temperature pre-treatment on anther culture response in barley (Hordeum vulgare L.). Plant Cell, Tissue and Organ Culture 12: 291-297.
• Powell W. 1990. Environmental and genetical aspects of pollen embryogenesis. In: Bajaj YPS [ed.], Haploids in crop improvement, 45-65. Springer Verlag, Berlin Heidelberg.
• Raghavan V. 1976. Role of the generative cell in androgenesis in hebane. Science 191: 388-389
• Raghavan V. 1986. Embryogenesis in Angiosperms. Cambridge University Press, London.
• Raquin C. 1983. Utilisation of different sugars as carbon sources for in vitro anther culture of Petunia. Zeitschrift für Pflanzenphysiologie 453-457.
• Reynolds TL. 1990. Ultrastructure for pollen embryogenesis. In: Bajaj YPS [ed.], Biotechnology in agriculture and forestry; haploids in crop improvement 1, vol. 12, 66-82. Springer- Verlag, Berlin, Heidelberg.
• Reynolds TL. 1997. Pollen embryogenesis. Plant Molecular Biology 33: 1-10.
• Roberts-Oehlschlager S, and Dunwell SM. 1990. Barley anther culture: pretreatment on mannitol stimulates production of microspore-derived embryos. Plant Cell, Tissue and Organ Culture 20: 235-240.
• Sagi L, and Barnabas B. 1989. Evidence for cytoplasmic control of in vitro microspore embryogenesis in the anther culture of wheat (Triticum aestivum L.). Theoretical and Applied Genetics 78: 867-872.
• Salmenkallio-Marttila M, and Kauppinen V. 1995. Efficient regeneration of fertile plants from protoplasts isolated from microspore cultures of barley (Hordeum vulgare L.). Plant Cell Reports 14: 253-256.
• Salmenkallio-Marttila M, Kurten U, and Kauppinen V. 1995. Culture conditions for efficient induction of green plants from isolated microspores of barley. Plant Cell, Tissue and Organ Culture 43: 79-81.
• Schel JHN, Kieft H, and Van Lammeren AAM. 1984. Interactions between embryo and endosperm during early developmental stages of maize caryopses (Zea mays). Canadian Journal of Botany 62: 2842-2853.
• Scott P, and Lyne RL. 1994. The effect of different carbohydrate sources upon the initiation of embryogenesis from barley microspores. Plant Cell, Tissue and Organ Culture 36:129- 133.
• Sheng SH, Hunter CP, and Horner HT. 1996. Cytological studies of microspore-derived embryo development from maize anthers. Plant Reproduction ’96, 14-th International Congress of Sexual Plant Reproduction, 18-23 February 1996, 107. Cumberland Resort, Lorne, Victoria, Australia.
• Siebel J, and Pauls KP. 1989. A comparison of anther an microspore culture as a breeding tool in Brassica napus. Theoretical and Applied Genetics 78: 473-479.
• Simmonds J. 1989. Improved androgenesis of winter cultivars of Triticum aestivum L. in response to low temperature treatment of donor plant. Plant Science 65: 225-231.
• Sorvari S. 1986a. The effect of starch gelatinized nutrient media in barley anther cultures. Annales Agriculture Fenniae 25: 127-133.
• Sorvari S. 1986b. Comparison of anther cultures of barley cultivars in barley starch and agar gelatinized media. Annales Agriculture Fenniae 25: 249-254.
• Sorvari S, and Schieder O. 1987. Influence of sucrose and melibiose on barley anther cultures in starch media. Plant Breeding 99: 164-171.
• Sunderland N. 1973. Pollen and anther culture. In: Street HE [ed.], Plant Tissue and Cell Culture, 205-239. University of California Press, Berkeley.
• Sunderland N, Collins GB, and Dunwell JM. 1974. The role of nuclear fusion in pollen embryogenesis of Datura innoxia Mill. Planta 117: 227-241.
• Sunderland N, and Evans LJ. 1980. Multicellular pollen formation in cultured barley anthers. II. The A-pathway, B-pathway and C-pathway. Journal of Experimental Botany 31: 501-514.
• Sunderland N, and Roberts M. 1977. New approach to pollen culture. Nature 270: 236-238.
• Tanner GJ, Piccirilli M, Moore AE, Larkin PJ, and Arcioni S. 1990. Initiation of non-physiological division and manipulation of developmental pathway in cultured microspores of Medicago sp. Protoplasma 158: 165-175.
• Telmer TA, Newcomb W, and Simmonds DH. 1995. Cellular changes during heat shock induction and embryo development of cultured microspores of Brassica napus cv. Topas. Protoplasma 185: 106-112.
• Trottier MC, Collin J, and Comena A. 1993. Comparison of media for their aptitude in wheat anther culture. Plant Cell, Tissue and Organ Culture 35: 59-67.
• Tsay HS, Miao SH, and Widholm JM. 1986. Factors affecting haploid plant regeneration from maize anther culture. Journal of Plant Physiology 126: 33-40.
• Tuvesson IKD, and Öhlund RCV. 1993. Plant regeneration through culture of isolated microspores of Triticum aestivum L. Plant Cell, Tissue and Organ Culture 34: 163-167.
• Tykarska T. 1979. Rape embryogenesis. II. Development of embryo proper. Acta Societatis Botanicorum Poloniae 48: 391-421.
• Van Bergen S, Hoekstra S, and Wang M. 1998. Androgenesis in Hordeum vulgare L.: the role of lipooligosaccharides and ABA during anther pretreatment. Anther and Pollen: from Biology to Biotechnology - Palais des Congres, 9-10 April 1998, 27. Université de Reims Champagne Ardenne Biologie et Physiologie Vegetales, Rheims, France.
• Vasil IK. 1980. Androgenic haploids. International Revue of Cytology, Suppl. IIA: 195-223.
• Vergne P, Riccardi F, Beckert M, and Dumas C. 1993. Identification of a 32-kDa anther marker protein for androgenic response in maize, Zea mays L. Theoretical and Applied Genetics 83: 843-850.
• Vergne P, Magnard JL, Rogowsky P, Rougier M, and Dumas C. 1998. Patterns of gene expression reveals the relevance of maize microspore embryogenesis to normal reproductive development. Anther and Pollen: from Biology to Biotechnology-Palais des Congres, 9-10 April 1998, 32. Université de Reims Champagne Ardenne Biologie et Physiologie Vegetales, Rheims, France.
• Wan Y, and Widholm JM. 1992. Formation of multiple embryolike structures from single microspores during maize anther culture. Plant Cell Reports 11: 529-531.
• Wei ZM, Kyo M, and Harada H. 1986. Callus formation and plant regeneration through direct culture of isolated pollen of Hordeum vulgare cv. "Sabarlis." Theoretical and Applied Genetics 72: 252-255.
• Zaki MAM, and Dickinson HG. 1990. Structural changes during the first divisions of embryos resulting from anther and free microspore culture in Brassica napus. Protoplasma 156: 149-162.
• Zaki MAM, and Dickinson HG. 1991. Microspore-derived embryos in Brassica: the significance of division symmetry in pollen mitosis I to embryogenic development. Sexual Plant Reproduction 4: 48-55.
• Zhao J-P, Simmonds DH, and Newcomb W. 1996. Induction of embryogenesis with colchicine instead of heat in microspores of Brassica napus L. cv. Topas. Planta 198:433-439.