Metabolic changes during wheat microspore embryogenesis induction using the highly responsive cultivar Svilena

IF 4 3区 生物学 Q1 PLANT SCIENCES
Teresa Perez-Piñar , Anja Hartmann , Sandra Bössow , Heike Gnad , Hans-Peter Mock
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引用次数: 0

Abstract

Androgenetically-derived haploids can be obtained by inducing embryogenesis in microspores. Thus, full homozygosity is achieved in a single generation, oppositely to conventional plant breeding programs. Here, the metabolite profile of embryogenic microspores of Triticum aestivum was acquired and integrated with transcriptomic existing data from the same samples in an effort to identify the key metabolic processes occurring during the early stages of microspore embryogenesis. Primary metabolites and transcription profiles were identified at three time points: prior to and immediately following a low temperature pre-treatment given to uninuclear microspores, and after the first nuclear division. This is the first time an integrative -omics analysis is reported in microspore embryogenesis in T. aestivum. The key findings were that the energy produced during the pre-treatment was obtained from the tricarboxylic acid (TCA) cycle and from starch degradation, while starch storage resumed after the first nuclear division. Intermediates of the TCA cycle were highly demanded from a very active amino acid metabolism. The transcription profiles of genes encoding enzymes involved in amino acid synthesis differed from the metabolite profiles. The abundance of glutamine synthetase was correlated with that of glutamine. Cytosolic glutamine synthetase isoform 1 was found predominantly after the nuclear division. Overall, energy production was shown to represent a major component of the de-differentiation process induced by the pre-treatment, supporting a highly active amino acid metabolism.

利用高响应性栽培品种 Svilena 诱导小麦小孢子胚胎发生过程中的代谢变化
通过诱导小孢子的胚胎发生,可以获得雄性激素衍生的单倍体。因此,与传统的植物育种计划相反,单代就能实现完全同源。在此,研究人员获取了小孢子胚胎发生的代谢物图谱,并将其与来自相同样本的现有转录组数据进行整合,以确定小孢子胚胎发生早期阶段的关键代谢过程。在三个时间点确定了主要代谢物和转录特征:对无核小孢子进行低温预处理之前和之后,以及第一次核分裂之后。这是首次报道有关小孢子胚胎发生的综合组学分析。主要发现是,预处理期间产生的能量来自三羧酸(TCA)循环和淀粉降解,而淀粉储存在第一次核分裂后恢复。非常活跃的氨基酸代谢对 TCA 循环的中间产物需求量很大。参与氨基酸合成的酶编码基因的转录谱与代谢物谱不同。谷氨酰胺合成酶的丰度与谷氨酰胺的丰度相关。细胞质谷氨酰胺合成酶同工酶 1 主要出现在核分裂之后。总体而言,能量生产是前处理诱导的去分化过程的主要组成部分,支持高度活跃的氨基酸代谢。
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来源期刊
Journal of plant physiology
Journal of plant physiology 生物-植物科学
CiteScore
7.20
自引率
4.70%
发文量
196
审稿时长
32 days
期刊介绍: The Journal of Plant Physiology is a broad-spectrum journal that welcomes high-quality submissions in all major areas of plant physiology, including plant biochemistry, functional biotechnology, computational and synthetic plant biology, growth and development, photosynthesis and respiration, transport and translocation, plant-microbe interactions, biotic and abiotic stress. Studies are welcome at all levels of integration ranging from molecules and cells to organisms and their environments and are expected to use state-of-the-art methodologies. Pure gene expression studies are not within the focus of our journal. To be considered for publication, papers must significantly contribute to the mechanistic understanding of physiological processes, and not be merely descriptive, or confirmatory of previous results. We encourage the submission of papers that explore the physiology of non-model as well as accepted model species and those that bridge basic and applied research. For instance, studies on agricultural plants that show new physiological mechanisms to improve agricultural efficiency are welcome. Studies performed under uncontrolled situations (e.g. field conditions) not providing mechanistic insight will not be considered for publication. The Journal of Plant Physiology publishes several types of articles: Original Research Articles, Reviews, Perspectives Articles, and Short Communications. Reviews and Perspectives will be solicited by the Editors; unsolicited reviews are also welcome but only from authors with a strong track record in the field of the review. Original research papers comprise the majority of published contributions.
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