Karadag Nature Reserve of the National Academy of Sciences, p/o Kurortnoe, Feodosiya, 98188, Ukraine.
Protist. 2012 May;163(3):480-94. doi: 10.1016/j.protis.2011.09.002. Epub 2011 Nov 21.
During sexual reproduction, araphid pennate diatoms of the genus Tabularia (Kützing) D. M. Williams and Round released male gametes directly into the medium, sometimes at a considerable distance from the female gametes. This raised the question of how male gametes, suspended in water, manage to reach female ones, given that no locomotive organelles have been described in gametes of pennate diatoms. Optical microscopic investigation revealed cytoplasmic projections produced by male gametes of Tabularia tabulata (C. A. Agardh) Snoeijs and T. fasciculata (C. A. Agardh) D. M. Williams and Round. Morphology and behavior of these projections is consistent with pseudopodia, however, which specific type of pseudopodia they may be, remains inconclusive. The growth and retraction of the pseudopodia coincided with gamete motility and so we postulate that it explains the otherwise apparent random movement of male gametes. Spinning, shuffling and chaotic patterns of motility were documented. In theory, gamete mobility increases the probability of gamete encounter thus enhancing the probability of syngamy. This is the first known case where cytoplasmic projections have been described in diatom gametes, and possibly in mature gametes in general.
在有性生殖过程中,板状 Tabularia (Kützing) D. M. Williams 和轮形 Round 属的无隔藻释放出的雄性配子直接进入培养基中,有时与雌性配子的距离相当远。这就提出了一个问题,即悬浮在水中的雄性配子如何能够到达雌性配子,因为在Pennate 硅藻的配子中没有描述任何运动细胞器。光学显微镜研究揭示了 Tabularia tabulata (C. A. Agardh) Snoeijs 和 T. fasciculata (C. A. Agardh) D. M. Williams 和 Round 的雄性配子产生的细胞质突起。这些突起的形态和行为与伪足一致,但它们可能是哪种类型的伪足,仍然没有定论。伪足的生长和收缩与配子的运动相一致,因此我们假设这解释了雄性配子明显的随机运动。记录了旋转、洗牌和混乱的运动模式。从理论上讲,配子的流动性增加了配子相遇的概率,从而提高了合子形成的概率。这是首次在硅藻配子中描述细胞质突起的情况,也可能是在成熟配子中首次描述。
