SIGNAL FUNCTIONS OF HORMONES AND RESPONSE TO POLLEN EMBRYOGENESIS INDUCTION STRESSORS
Main Article Content
Authors
S.S. Bekkuzhina
S. Seifullin Kazah Agro Technical University,62Victory Square, Astana, 010011, Kazakhstan
S.N. Borovikov
S. Seifullin Kazah Agro Technical University,62Victory Square, Astana, 010011, Kazakhstan
I. Rahimbaev
Institute of Plant Biology and Biotechnology, 42 Timiryazevst., Аlmaty, 050040, Kazakhstan
Abstract
The Article presents the world publications review on theoretical and applied aspects of haploid technologies, in particular the ways to increase pollen embryogenesis efficiency. The analytical review discusses in details the issues of donor plants hormonal pretreatment role in induction of microspore sporophytic development pattern.
Phytohormone balance is one of the key mechanisms of microspores shifting from gametophytic to sporophytic development pattern. In addition, the Article specifies the impact of various stressors on microspore reprogramming from gametophytic to sporophytic development pattern. In discussing this issue all plant pretreatments being in use are distributed into new and old pretreatment methods before in vitro introduction.The result of our experimental research is to create an effective biological system , that allows switching development of microspores from the gametophytic type to the sporophytic development type based on pretreatment of cut plants hormone of auxin cut type as - IAA, and 2,4-D with contents of endogenous IAA in plants. The developed method improves the efficiency of pollen embryogenesis to 8%. Conventional methods of pretreatment are that hormonal induction factor is added to the environment, and plants cut were subjected while pre-treatment in our experiments.
Keywords
embryogenesis, androgynies, haploid, dihaploids pollen, gormon regulation, stress, microspores, sporophyt, gametophyte, selection
Article Details
References
Forster B.P., Heberle-Bors E, Kasha K.J, Touraev A The resurgence of haploids in higher plants. Trends Plant Sci., 2007, Aug., no. 12(8), pp. 368-375. PMID: 17629539.
Xu L., Najeeb U.Haploid and Doubled Haploid Technology.Advances in Botanical Research,2007, vol. 45,pp.181-216.
Germana M.A. Gametic embryogenesis and haploid technology as valuable support to plant breeding. Plant Cell Rep., 2011, vol.30, no.5, pp.839-57. PMID:21431908.
Ribarits A. Combination of reversible male sterility and doubled haploid production by targeted inactivation of cytoplasmic glutamine synthetase in developing anthers and pollen.Plant Biotechnol. J., 2007, vol. 5, pp. 483-494.
COST action 851 website.
Konzak C.F., Zhou H. Anther culture methods for double haploid production in wheat. Cereal Res. Comm,1991, no. 19, pp. 147-164.
Data S., Potrykus I. Embryogenesis and plant regeneration from microspores of both “Indica” and “Japonica” rice (Orisa s.).Plant Sciense, 1990, no. 67, pp.83-88.
Hu H. In vitro induced haploids in wheat. In: Jain S.M., Sopory S.K., Veilleux R.E. (eds) In vitro haploid production in higher plants, Kluwer, Dordrecht, 1997,pp.73-97.
Supena J., Winarto B., Riksen T., Dubas E., A. van Lammeren, Offringa R., Boutilier K., Custers J. Regeneration of zygotic-like microspore-derived embryos suggests an important role for the suspensor in early embryo patterning. J. of Experimental Botany, 2008, no. 59(4), pp. 803. doi:10.1093/jxb/erm358.
Segui-Simaro J.M., Nuez F. How transform into haploid embryos: changes associated with embryogenesis induction and microspores-derived embryogenesis. Physiol Plant,2008,vol.134, no. 1, pp. 1-12. doi:org/ 10.1111/j.1399-3054.2008.01113.x.
Kulaeva O.N., Kusnetsov V.V. Analiticheskii obzor: novejshie dostizhenija i perspektivy izuchenija mehanizma dejstvija fitogormonov v signalnyh sistemah celogo rastenija [Analytical review: the latest achievements and prospects of studying the mechanism of plant hormones action and their participation in the signaling systems in the plant]. Vestnik RFFI- Bulletin of RFFI, 2004, no. 2, pp. 12-26.
Butenko R.G. Indukcija morfogeneza v culture tkanej rastenij Gormonalnaja reguljacija ontogeneza rastenij. [Induction of morphogenesis in the plant tissue culture]. Hormonal regulation of plant ontogenesis, 1984, pp. 42-54.
Batygina T.B., Kruglova N.N.Metodicheskie rekomendacii po issledovaniju morfogeneticheskogo potenciala pylnikajarovojmjagkojpshenicy[Methodological recommendations on research morphogenetic potential anther spring wheat].IB UNC RAN. Ufa, 2001, 39 р.
Gorbunova V.IU.,Krugulova N.N., Abramov S.N. Indukzijaandrogeneza in vitro u ijaravoimijagkoipshenizy; balansendogennyhiekzogennyhfitogormonov[Induction ofin vitro androgenesisofspring wheat: the balance of endogenous and exogenousphytohormones]. Izv. RAN, ser. biol. I. RAN Ser. Biol., 2001, no. 1, pp. 31-36.
Gorbunova V.IU. Androgenezin vitro u ijaravoimijagkoipshenizy;Diss.dokt. biol. nauk[In vitro androgenesisofspring wheat. Dr. biol.sci. diss.].Мoscow, 2000, 378 p.
Chen Y., Dribnenki P.Effect of genotype and medium composition on flax linumusitatissimum L. anther culture.Plant Cell Rep., 2002, vol. 21, pp. 204-207.doi:10.1007/s00299-002-0500-x.
AssaniА.,Bakry F., Kerbellec F., Haicour R. et al. Production of haploids from anther culture of banana [Musa balbisiana {BB}].Plant Cell Rep., 2003, no. 21, pp. 511-516.
Moieni A., Sarrafi A. The effects of gibberllic acid phenyletthula mine, 2,4-D and genotypes with on androgenesis in hexaploid wheat (Trticumaestivum) Cereal res. Common., 1996, vol. 24, no. 2, pp.139-145.
Konieczny R., Czaplicki A.Z., Golczyk H., Przywara L.Two pathways of plant regeneration in wheat anther culture.Plant Cell Tissue Organ Cult, 2003, no. 73, pp. 177-187. doi: 10.1023/A:1022877807237.
Leyser O. Molecular Genetic of Auxin SignalingAnnu. Rev. Plant Biol, 2002, vol. 53, pp. 377-398.PMID:12221981.
Imamura J., Harada H. Stimulatory effect of reduced atmospheric pressure on pollen embryogenesis.Naturwissenschaften, 1980, no. 67, pp. 357358.doi: 10.1007/BF01106594.
Bekkuzhina S.S., Kalashnikova E.A.Rol' IAA v prozesseandrogenezain vitro ijaravoimijagkoipshenizy[The role ofIAAin thein vitroandrogenesisof spring wheat].Nature and Engineering Sciences, 2010, no. 5, рp.158-162.
LabbaniZ., Richard N., J. De Buyser, Picard E.Chlorophyllian durum wheat plants obtained by isolated microspores culture: importance of the pretreatment.CR Biol., 2005, no. 328, pp. 713-723.doi:10.1016j.crvi.2005.05.009.
Marciniak K., Kaczmarek T. Adamski, Surma M. The anther-culture response of triticale line tester progenies.Cell MolBiolLett, 2003,no. 8, pp. 343-351.PMID:12813569.
Germanàa M.A., Chiancone B. Improvement in Citrus clementinaort.Ex Tan. microspore derived embryoids induction and regeneration. Plant Cell Rep, 2003, no. 22, pp. 181-187.PMID:12879259.
Duncan E.J., Heberle E. Effect of temperature shock on nuclear phenomena in microspores of Nicotianatabacum and consequently on plant let production.Protoplasma, 1976, no. 90, pp. 173-177. doi:org/ 10.1007/BF01276486.
Sunderland N., Roberts M. Cold-pretreatment of excised flower buds in float culture of tobacco anthers.Ann Bot, 1979, no. 43, pp. 405–414.
Amssa M., De Buyser J., Henry Y. Origin of diploid plants obtained by in vitro culture of anthers of young wheat (Triticumaestivum L.).Cr AcadSci D Nat., 1980, no. 290, pp. 1095-1097.
Touraev A.A.,IlhamO., VicenteE.Heberle-BorsStress induced microspore embryogenesis from tobacco microspores: an optimized system for molecular studies. Plant Cell Rep., 1996, no. 15, pp. 561-565.doi.org/ 10.1007/BF00232453.
Ogawa T., Fukuoka H., Ohkawa Y. Induction of cell division of isolated pollen grains by sugar starvation in rice.Breed Sci., 1994,no. 44, pp. 75-77.
Sabehat A.,Lurie S., Weiss D. Expression of small heat-shock proteins at low temperatures: a possible role in protecting against chilling injuries. Plant Physiology, 1998, no. 117, pp. 651-658.doi.org/10.1104/pp.117.2.651.
Islam S.M., Tuteja N. Enhancement of androgenesis by abiotic stress and other pretreatments in major crop species. Plant Sci., 2012, no. 182, pp. 134-144.
Germanàa M.А., Benedetta C.,Padovana D., Bárány I. et. al. Firststages ofmicrospore reprogramming toembryogenesis through anther culture in Prunus armeniaca.L. Plant Sci,2012, no. 182, pp.134-44.
Zhou W.J., Hagbery P., Tang G.X. Increasing embryogenesis and doubling efficiency by immediate colchicines treatment of isolated microspores in spring. Brassica napusEuphytica, 2002, no. 128, pp. 27-34.doi.org/ 10.1023/A:1020687517888.
Kasha K.J., Palmer C.E., Keller W.A., Kasha K.J. (eds) Chromosome doubling and recovery of doubled haploid plants.Biotechnology in Agriculture and Forestry, 2005,vol. 56. Springer-Verlag, Berlin, Heidelberg, pp. 123-152. doi.org/ 10.1007/3-540-26889-8_7.
Zhao J.P.,Simmonds D.H., Newcomb W. Induction of embryogenesis with colchicines instead of heat in microspores of Brassica napus L. cv.Topas.Topas Planta, 1996, no. 198, pp. 433-439.doi.org/ 10.1007/BF00620060.
Obert B.,Barnabas B. Colchicine induced embryogenesis in maize.Plant Cell Tiss Org Cult, 2004, no. 77, pp. 283-285.
Hansen N.J.P., Andersen S.B. In vitro chromosome doubling with colchicines during microspore culture in wheat (Triticumaestivum L.). Euphytica, 1998, no. 102, pp. 101-108.doi:org/10.1023/A:1018348816205.
Shtereva L.A.,Zagorska N.A., Dimitrov B.D., Kruleva M.M., Oanh H.K. Induced androgenesis in tomato (Lycopersiconesculentum Mill). II. Factors affecting induction of androgenesis. Plant Cell Rep.,1998, no. 18, pp. 312-317.doi:org/ 10.1007/s002990050578.
Zhao L., Liu L.,Wang J., Guo H.et.al.Development of a new wheat germplasm with high antherculture ability by using a combination of gamma-ray irradiation and anther culture.J Sci Food Agric., 2014, Apr 11. doi: 10.1002/jsfa.6691. [Epub ahead of print].
Wang J.J., Hu D.F., Wang H.M., Tang Y.L. Studies on increasing the induction frequency of pollen callus in wheat.Hereditas (Beiging), 1981, no. 13, pp. 28-29.
Supena E.D.,Suharsono S., Jacobsen E., Custers J.B.M. Successful development of ashed-microspore culture protocol for doubled haploid production in Indonesian hot pepper (Capsicum annuum L.). Plant Cell Rep., 2005, pp. 35-42.doi:org/101007/s00299-005-0028.
Heberle-Bors E. Induction of embryogenic pollen grains in situ and subsequentinvitropollensembryogenesisin Nicotianatabacum L.bytreatmentsofthepollendonorplantswithfeminizingagents.PhysiolPlant,1983, no. 59, pp. 67-72.doi:org/10.1111/j.1399-3054.1983.tb06572.x.
Bennett M.D., Hughes W.G. Additional mitosis in wheat pollen induced by ethrel. Nature,1972, no. 240, pp. 566-568.doi:org/10.1038/240566a0.
Bekkuzhina S.S. Gaploidnye tehnologii v uskorennom sozdanii ishodnyh form i linij jarovoj mjagkoj pshenicy, ustojchivyh k zasuhe i Septoria nodorum berk. Doct. Diss. Moscow, 2011, 134 p.
Barinova J., Clement C., Martin L., Baillieul F., Soukupova H., Heberle-Bors E., Touraev A. Regulation of developmental pathways in cultured microspores of tobacco and snap dragon by medium pH.Planta,2004, no. 219, pp. 141-146. doi:org/10.1007/s00425-003-1202-5.
Ikeda-Iwai M., Umehara M., Satoh S., Kamada H. Stress-induced somatic embryogenesis in vegetative tissues of Arabidopsis thaliana.The Plant J., 2003,no. 34, pp. 107-114.PMID:12662313.
Zheng M.Y., Liu W., Weng Y., Polle E., Konzak C.F. Culture of freshly isolated wheat (Triticumaestivum L.) microspores treated with inducer chemicals. Plant Cell Rep, 2001, no. 20, pp. 685-690.doi:org/ 10.1007/s00299-001-0393-0.
Polijakov A.V. Biotehnologija v selekziilna[Biotechnologyin breeding of flax]. Izdanievtoroe. Moscow, 2010, 202 p.
Mehran E. Shariatpanahi, UgarBal, Ervin-Heberli-Bors and AlisherToraev. Stresses applied for the re-programing of plant microspores towards in vitro embryogenesis. Physiology Plantarum,2006, pp. 1-16.doi:org/10.1111/j1399-3054.2006.00675x.
RobertaH.HaploPlantsfrom Anther CulturePlant Tissue Culture: Third Edition. Techniques and SmithExperiment,2013. doi:10.1016/B978-0--415920-4.00009-812.
Datta K., Sahoo G., Krishnan S., Ganguly M.DattaSKPLoS One. Genetic stability developed for β-carotene synthesis in BR29 rice line using dihaploidhomozygosity. PLoS One., 2014, no. 9(6).doi: 10.1371.
Perera P.I., Ordoñez C.A., Dedicova B., Ortega PE. Reprogramming of cassava (Manihotesculenta) microspores towards sporophyticdevelopment AoB Plants., 2014, no. 6. pii: plu022. doi: 10.1093/aobpla/plu022.