APETALA2对拟南芥胚、胚乳和种皮发育的影响决定了种子的大小。

Sexual Plant Reproduction Pub Date : 2009-12-01 Epub Date: 2009-10-25 DOI:10.1007/s00497-009-0116-1
Masa-aki Ohto, Sandra K Floyd, Robert L Fischer, Robert B Goldberg, John J Harada
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引用次数: 184

摘要

拟南芥aptala2 (AP2)控制种子质量,AP2突变体比野生型产生更大的种子。在这里,我们发现AP2影响三个主要种子室的发育:胚胎、胚乳和种皮。AP2似乎对胚乳发育有显著影响。Ap2突变体种子发育早期胚乳快速生长期较野生型延长。ap2种子的早期扩张生长期与胚乳细胞化延迟和胚乳中央液泡过度生长有关。在ap2种子中,由于胚乳外围持续的细胞分裂,随后的胚乳中等生长时期也延长了。AP2对胚乳发育的影响机制与亲本来源对种子大小的影响机制不同。种皮发育受到影响;ap2突变体的被皮细胞比野生型更长。我们得出结论,胚乳过度生长和/或被皮细胞伸长产生了一个更大的受精后胚囊,ap2胚胎可以在其中生长。与野生型种子相比,ap2胚的形态发育最初延迟,但在弯曲子叶发育阶段ap2胚比野生型大。Ap2胚胎能够填满受精后增大的胚囊,因为它们经历了较长的细胞增殖和种子填充期。我们讨论了母体作用的AP2影响合子胚胎和胚乳发育以抑制种子大小的潜在机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effects of APETALA2 on embryo, endosperm, and seed coat development determine seed size in Arabidopsis.

Effects of APETALA2 on embryo, endosperm, and seed coat development determine seed size in Arabidopsis.

Effects of APETALA2 on embryo, endosperm, and seed coat development determine seed size in Arabidopsis.

Effects of APETALA2 on embryo, endosperm, and seed coat development determine seed size in Arabidopsis.

Arabidopsis APETALA2 (AP2) controls seed mass maternally, with ap2 mutants producing larger seeds than wild type. Here, we show that AP2 influences development of the three major seed compartments: embryo, endosperm, and seed coat. AP2 appears to have a significant effect on endosperm development. ap2 mutant seeds undergo an extended period of rapid endosperm growth early in development relative to wild type. This early expanded growth period in ap2 seeds is associated with delayed endosperm cellularization and overgrowth of the endosperm central vacuole. The subsequent period of moderate endosperm growth is also extended in ap2 seeds largely due to persistent cell divisions at the endosperm periphery. The effect of AP2 on endosperm development is mediated by different mechanisms than parent-of-origin effects on seed size observed in interploidy crosses. Seed coat development is affected; integument cells of ap2 mutants are more elongated than wild type. We conclude that endosperm overgrowth and/or integument cell elongation create a larger postfertilization embryo sac into which the ap2 embryo can grow. Morphological development of the embryo is initially delayed in ap2 compared with wild-type seeds, but ap2 embryos become larger than wild type after the bent-cotyledon stage of development. ap2 embryos are able to fill the enlarged postfertilization embryo sac, because they undergo extended periods of cell proliferation and seed filling. We discuss potential mechanisms by which maternally acting AP2 influences development of the zygotic embryo and endosperm to repress seed size.

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Sexual Plant Reproduction
Sexual Plant Reproduction 生物-生殖生物学
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