Механизмы регуляция процессов эмбриогенеза у растений в культуре клеток мужского гаметофита
Аннотация
В кратком обзоре рассмотрен эмбриогенез in vitro у растений – уникальный процесс, который может быть инициирован у целого ряда клеток отличных от зиготы и представляется важным инструментом исследования генетики и размножения растений. С точки зрения развития растений, андрогенез in vitro хорошая модель для изучения регуляции процессов образования зародыша из одной гаплоидной микроспоры. Механизм индукции андрогенеза in vitro обсуждается в связи с другими биологическими системами
Библиографические ссылки
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6 Bárány I, Testillano PS, Mitykó J, Risueno MC. 2001. The switch of the microspore program in Capsicum involves HSP70 expression and leads to the production of haploid plants. International Journal of Developmental Biology 45, 39–40
7 Hoekstra S, van Zijderveld MH, Louwerse JD, Heidekamp F, van der Mark F. 1992. Anther and microspore culture of Hordeum vulgare L. cv. Igri. Plant Science 86, 89–96.
8 Pechan M, Keller AW. 1989. Induction of microspore embryogenesis in Brassica napus by gamma irradiation and ethanol stress. In vitro 25, 1073–1074.
9 Knetsch ML, Wang M, Snaar-Jagalska BE, Heimovaara-Dijkstra S. 1996. Abscisic acid induced mitogen-activated protein kinase activation in barley aleurone protoplasts. The Plant Cell 8, 1061–1067.
10 Mordhorst AP, Toonen MAJ, de Vries SC. 1997. Plant embryogenesis. Critical Reviews in Plant Sciences 16, 535–576.
11 Zeevaart JAD, Creelman RA. 1988. Metabolism and physiology of abscisic acid. Annual Review of Plant Physiology and Plant Molecular Biology 39, 439–473.
12 Hoekstra S, van Bergen S, van Brouwershaven IR, Schilperoort RA, Heidekamp F. 1996. The interaction of 2,4-D application and mannitol pretreatment in anther and microspore culture of Hordeum vulgare L. cv. Igri. Journal of Plant Physiology 148, 696–700.
13 Kyo M, Miyatake H, Mamezuka K, Amagata K. 2000. Cloning of cDNA encoding NtPEc, a marker protein for the embryogenic differentiation of immature tobacco pollen grains cultured in vitro. Plant and Cell Physiology 41, 129–137
2 Goldberg RB, de Paiva G, Yadegari R. 1994. Plant embryogenesis: from zygote to seed. Science 266, 605–614
3 Musial K, Bohanec B, Przywara L. 2001. Embryological study on gynogenesis in onion (Allium cepa L.). Sexual Plant Reproduction 13, 335–341
4 Touraev A, Vicente O, Heberle-Bors E. 1997. Initiation of microspore embryogenesis by stress. Trends in Plant Science 2, 297–302
5 Magnard JL, Le Deunff E, Domenech J, Rogowsky PM, Testillano PS, Rougier M, Risueño MC, Vergne P, Dumas C. 2000. Genes normally expressed in the endosperm are expressed at early stages of microspore embryogenesis in maize. Plant Molecular Biology 44, 559–574.
6 Bárány I, Testillano PS, Mitykó J, Risueno MC. 2001. The switch of the microspore program in Capsicum involves HSP70 expression and leads to the production of haploid plants. International Journal of Developmental Biology 45, 39–40
7 Hoekstra S, van Zijderveld MH, Louwerse JD, Heidekamp F, van der Mark F. 1992. Anther and microspore culture of Hordeum vulgare L. cv. Igri. Plant Science 86, 89–96.
8 Pechan M, Keller AW. 1989. Induction of microspore embryogenesis in Brassica napus by gamma irradiation and ethanol stress. In vitro 25, 1073–1074.
9 Knetsch ML, Wang M, Snaar-Jagalska BE, Heimovaara-Dijkstra S. 1996. Abscisic acid induced mitogen-activated protein kinase activation in barley aleurone protoplasts. The Plant Cell 8, 1061–1067.
10 Mordhorst AP, Toonen MAJ, de Vries SC. 1997. Plant embryogenesis. Critical Reviews in Plant Sciences 16, 535–576.
11 Zeevaart JAD, Creelman RA. 1988. Metabolism and physiology of abscisic acid. Annual Review of Plant Physiology and Plant Molecular Biology 39, 439–473.
12 Hoekstra S, van Bergen S, van Brouwershaven IR, Schilperoort RA, Heidekamp F. 1996. The interaction of 2,4-D application and mannitol pretreatment in anther and microspore culture of Hordeum vulgare L. cv. Igri. Journal of Plant Physiology 148, 696–700.
13 Kyo M, Miyatake H, Mamezuka K, Amagata K. 2000. Cloning of cDNA encoding NtPEc, a marker protein for the embryogenic differentiation of immature tobacco pollen grains cultured in vitro. Plant and Cell Physiology 41, 129–137
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Как цитировать
Богуспаев, К. К. (2019). Механизмы регуляция процессов эмбриогенеза у растений в культуре клеток мужского гаметофита. Вестник КазНУ. Серия биологическая, 45(3), 38–40. извлечено от https://bb.kaznu.kz/index.php/biology/article/view/1372
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БИОТЕХНОЛОГИЯ