葡萄浆果发育的分子表型尺度。

IF 7.6 Q1 GENETICS & HEREDITY
园艺研究(英文) Pub Date : 2023-03-15 eCollection Date: 2023-05-01 DOI:10.1093/hr/uhad048
Giovanni Battista Tornielli, Marco Sandri, Marianna Fasoli, Alessandra Amato, Mario Pezzotti, Paola Zuccolotto, Sara Zenoni
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引用次数: 0

摘要

水果的生长和发育由一个动态响应环境线索的遗传程序驱动的连续的物理、生化和生理变化组成。在整个水果寿命中建立可识别的阶段是研究和水果作物种植的基本要求。这在葡萄(Vitis vinifera L.)等多年生作物中尤其重要,可以在不同基因型和生长条件下扩大果实的发育。在这项工作中,利用来自几个葡萄浆果转录组数据集的基于分子的信息来构建分子表型量表(MPhS),并绘制果实的个体发育图。所提出的统计管道由无监督学习过程组成,产生了半参数、平滑和降维工具的创新组合。通过MPhS精确量化了水果样品之间的转录组距离,这也使得能够通过计算MPhS阶段随时间的变化率来突出转录程序在浆果发育过程中的复杂动力学。与经典的基于时间或表型的方法相比,MPhS允许对时间序列水果样本进行比对,这被证明是一种更详细地绘制葡萄浆果发育过程的补充方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A molecular phenology scale of grape berry development.

A molecular phenology scale of grape berry development.

A molecular phenology scale of grape berry development.

A molecular phenology scale of grape berry development.

Fruit growth and development consist of a continuous succession of physical, biochemical, and physiological changes driven by a genetic program that dynamically responds to environmental cues. Establishing recognizable stages over the whole fruit lifetime represents a fundamental requirement for research and fruit crop cultivation. This is especially relevant in perennial crops like grapevine (Vitis vinifera L.) to scale the development of its fruit across genotypes and growing conditions. In this work, molecular-based information from several grape berry transcriptomic datasets was exploited to build a molecular phenology scale (MPhS) and to map the ontogenic development of the fruit. The proposed statistical pipeline consisted of an unsupervised learning procedure yielding an innovative combination of semiparametric, smoothing, and dimensionality reduction tools. The transcriptomic distance between fruit samples was precisely quantified by means of the MPhS that also enabled to highlight the complex dynamics of the transcriptional program over berry development through the calculation of the rate of variation of MPhS stages by time. The MPhS allowed the alignment of time-series fruit samples proving to be a complementary method for mapping the progression of grape berry development with higher detail compared to classic time- or phenotype-based approaches.

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CiteScore
12.90
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