红树根菜DNA甲基化差异的遗传研究

IF 2.6 3区 生物学 Q2 DEVELOPMENTAL BIOLOGY
Jeannie Mounger, M. Teresa Boquete, Marc W. Schmid, Renan Granado, Marta H. Robertson, Sandy A. Voors, Kristen L. Langanke, Mariano Alvarez, Cornelis A. M. Wagemaker, Aaron W. Schrey, Gordon A. Fox, David B. Lewis, Catarina Fonseca Lira, Christina L. Richards
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引用次数: 16

摘要

对环境挑战作出反应的能力最终依赖于表型变异,表型变异在发育过程中表现为遗传和非遗传机制的复杂相互作用。虽然我们对许多具有重要保护意义的物种的遗传变异和结构有所了解,但我们对变异的非遗传贡献知之甚少。根霉(Rhizophora mangle)是一种基础物种,分布在整个新热带地区的沿海河口栖息地,在那里它提供了关键的生态系统功能,并受到人为环境变化的潜在威胁。一些研究已经记录了该物种的遗传变异的景观水平模式,但我们对非遗传变异的遗传几乎一无所知。为了评估一种类型的非遗传变异,我们检测了来自佛罗里达海湾沿岸的R. mangle自然种群的母系植物和后代的DNA序列和DNA甲基化模式。我们使用了一种减少代表性的亚硫酸盐测序方法(通过测序进行表观基因分型;(a) mangle自然种群的遗传和表观遗传多样性水平如何?(b)种群内部和种群之间的遗传变异和表观遗传变异是如何构成的?(c)表观遗传变异的遗传忠实度如何?田间母本自然居群遗传多样性低,表观遗传多样性高。此外,在普通园林中生长的后代表观遗传差异中,有很大一部分(高达25%)是由母系造成的。因此,表观遗传变异可能是这一基础物种对具有挑战性的环境作出反应的重要来源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Inheritance of DNA methylation differences in the mangrove Rhizophora mangle

Inheritance of DNA methylation differences in the mangrove Rhizophora mangle

The capacity to respond to environmental challenges ultimately relies on phenotypic variation which manifests from complex interactions of genetic and nongenetic mechanisms through development. While we know something about genetic variation and structure of many species of conservation importance, we know very little about the nongenetic contributions to variation. Rhizophora mangle is a foundation species that occurs in coastal estuarine habitats throughout the neotropics where it provides critical ecosystem functions and is potentially threatened by anthropogenic environmental changes. Several studies have documented landscape-level patterns of genetic variation in this species, but we know virtually nothing about the inheritance of nongenetic variation. To assess one type of nongenetic variation, we examined the patterns of DNA sequence and DNA methylation in maternal plants and offspring from natural populations of R. mangle from the Gulf Coast of Florida. We used a reduced representation bisulfite sequencing approach (epi-genotyping by sequencing; epiGBS) to address the following questions: (a) What are the levels of genetic and epigenetic diversity in natural populations of R. mangle? (b) How are genetic and epigenetic variation structured within and among populations? (c) How faithfully is epigenetic variation inherited? We found low genetic diversity but high epigenetic diversity from natural populations of maternal plants in the field. In addition, a large portion (up to ~25%) of epigenetic differences among offspring grown in common garden was explained by maternal family. Therefore, epigenetic variation could be an important source of response to challenging environments in the genetically depauperate populations of this foundation species.

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来源期刊
Evolution & Development
Evolution & Development 生物-发育生物学
CiteScore
6.30
自引率
3.40%
发文量
26
审稿时长
>12 weeks
期刊介绍: Evolution & Development serves as a voice for the rapidly growing research community at the interface of evolutionary and developmental biology. The exciting re-integration of these two fields, after almost a century''s separation, holds much promise as the focus of a broader synthesis of biological thought. Evolution & Development publishes works that address the evolution/development interface from a diversity of angles. The journal welcomes papers from paleontologists, population biologists, developmental biologists, and molecular biologists, but also encourages submissions from professionals in other fields where relevant research is being carried out, from mathematics to the history and philosophy of science.
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