Post-Diapause DNA Replication during Oogenesis in a Capital-Breeding Copepod.

IF 2.2 4区 生物学 Q2 BIOLOGY Integrative Organismal Biology Pub Date : 2023-01-01 DOI:10.1093/iob/obad020
K J Monell, V Roncalli, R R Hopcroft, D K Hartline, P H Lenz
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引用次数: 1

Abstract

In high-latitude environments where seasonal changes include periods of harsh conditions, many arthropods enter diapause, a period of dormancy that is hormonally regulated. Diapause is characterized by very low metabolism, resistance to environmental stress, and developmental arrest. It allows an organism to optimize the timing of reproduction by synchronizing offspring growth and development with periods of high food availability. In species that enter dormancy as pre-adults or adults, termination of diapause is marked by the resumption of physiological processes, an increase in metabolic rates and once transitioned into adulthood for females, the initiation of oogenesis. In many cases, individuals start feeding again and newly acquired resources become available to fuel egg production. However, in the subarctic capital-breeding copepod Neocalanus flemingeri, feeding is decoupled from oogenesis. Thus, optimizing reproduction limited by fixed resources such that all eggs are of high quality and fully-provisioned, requires regulation of the number of oocytes. However, it is unknown if and how this copepod limits oocyte formation. In this study, the phase in oocyte production by post-diapause females that involved DNA replication in the ovary and oviducts was examined using incubation in 5-Ethynyl-2'-deoxyuridine (EdU). Both oogonia and oocytes incorporated EdU, with the number of EdU-labeled cells peaking at 72 hours following diapause termination. Cell labeling with EdU remained high for two weeks, decreasing thereafter with no labeling detected by four weeks post diapause, and three to four weeks before spawning of the first clutch of eggs. The results suggest that oogenesis is sequential in N. flemingeri with formation of new oocytes starting within 24 hours of diapause termination and limited to the first few weeks. Lipid consumption during diapause was minimal and relatively modest initially. This early phase in the reproductive program precedes mid-oogenesis and vitellogenesis 2, when oocytes increase in size and accumulate yolk and lipid reserves. By limiting DNA replication to the initial phase, the females effectively separate oocyte production from oocyte provisioning. A sequential oogenesis is unlike the income-breeder strategy of most copepods in which oocytes at all stages of maturation are found concurrently in the reproductive structures.

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资本繁殖桡足动物卵发生过程中的滞育后DNA复制。
在高纬度环境中,季节变化包括条件恶劣的时期,许多节肢动物进入滞育,这是一段由激素调节的休眠时期。滞育的特点是代谢非常低,对环境胁迫有抵抗力,发育停滞。它允许生物体通过将后代的生长和发育与高食物供应时期同步来优化繁殖时间。在作为前成虫或成虫进入休眠的物种中,滞育结束的标志是生理过程的恢复,代谢率的增加,一旦雌性过渡到成年期,卵发生的开始。在许多情况下,个体开始再次进食,新获得的资源可以用于促进产卵。然而,在亚北极地区的资本繁殖桡足动物中,摄食与产卵是分离的。因此,在固定资源的限制下优化生殖,使所有卵子都是高质量和充足的,需要调节卵母细胞的数量。然而,尚不清楚这种桡足动物是否以及如何限制卵母细胞的形成。在这项研究中,通过在5-乙基-2'-脱氧尿苷(EdU)中孵育,研究了滞育后雌性卵母细胞产生过程中涉及卵巢和输卵管DNA复制的阶段。卵原细胞和卵母细胞均含有EdU,在滞育结束后72小时,EdU标记的细胞数量达到峰值。在滞育后4周和第一批卵产卵前3 ~ 4周,EdU标记细胞保持高水平,随后逐渐降低,未检测到EdU标记。结果表明,金翅草的卵发生是顺序的,在滞育结束后24小时内开始形成新的卵母细胞,并限制在最初的几周内。滞育期间的脂质消耗很少,最初相对适度。这一生殖程序的早期阶段先于中期卵发生和卵黄发生2,此时卵母细胞增大,并积累卵黄和脂质储备。通过将DNA复制限制在初始阶段,雌性有效地将卵母细胞生产与卵母细胞供应分开。顺序卵发生不同于大多数桡足动物的收益繁殖策略,在这些策略中,所有成熟阶段的卵母细胞都同时存在于生殖结构中。
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来源期刊
CiteScore
3.70
自引率
6.70%
发文量
48
审稿时长
20 weeks
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