对樱草叶的比较蛋白质组学分析揭示了白脉形成的新奥秘

IF 3.1 3区 农林科学 Q1 HORTICULTURE
Q. Dou, Da-Jun Xie, T. Deng, Mo-Fang Chen, Zheng-Min Qian, Shuang-Shuang Wang, Ren-Bo Zhang
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引用次数: 0

摘要

樱草(Primulina serrulata)是一种珍贵的观赏草本植物,具有莲座状叶片和鲜艳的花朵。该物种的一些叶子沿着上部叶脉呈现出明亮而明显的白色,提高了其观赏价值,而另一些叶子则不那么白或完全是绿色的。在自然栖息地的成叶和实验室培育的幼苗的嫩叶中都能观察到这种变化。我们利用 TMT 标记的蛋白质组学技术研究了白脉(WV)P. serrulata 叶子的蛋白质级生物发生。我们的目标是为 WV 植物的育种提供新的见解。WV组的叶绿素(Chl)含量明显低于对照组。在鉴定出的 6261 个蛋白质中,经过严格筛选,仅有 69 个符合差异表达蛋白质(DEPs)的标准,以便进行后续分析。在这些差异表达蛋白中,有 44 个蛋白在 WV 植物中出现下调,25 个蛋白出现上调。一些与叶绿体和叶绿素生物合成相关的 DEPs 被下调,导致植物没有绿色。同时,基因本体富集分析进一步强调了镁的不足,而镁是叶绿体生物合成的关键元素。许多与非生物或生物胁迫相关的 DEPs 被下调,这表明在某些补偿机制的作用下,抗胁迫能力整体减弱。同样,许多与修饰生物大分子有关的 DEPs 也出现了下调,这可能是受参与光合作用和抗逆性的蛋白质减少的影响。一些含铁的 DEP 上调,这表明铁主要用于合成血红素和铁蛋白,而不是 Chl。此外,一些与硫或硫酸盐有关的 DEPs 上调,表明呼吸作用加强。Expansin-A4和果胶酶的上调与叶片白色区域出现粗糙和明亮的表面相吻合,表明细胞壁的伸长和凝胶化过程。这些发现为今后探索 WV 叶片颜色形成机制的研究提供了新的视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative Proteomics Analysis of Primulina serrulata Leaves Reveals New Insight into the Formation of White Veins
Primulina serrulata is a valuable ornamental herb with rosette leaves and vibrant flowers. Some leaves of this species exhibit a bright and distinct white color along the upper veins, enhancing their ornamental value, while others are less white or entirely green. This variation is observed in adult leaves from natural habitats and among young leaves from seedlings grown in the laboratory. TMT-labeled proteomics technology was used to study the protein-level biogenesis of white-veined (WV) P. serrulata leaves. Our objective was to offer novel insight into the breeding of WV plants. Chlorophyll (Chl) content was significantly lower in the WV group than in the control group. Out of 6261 proteins identified, a mere 69 met the criteria for differentially expressed proteins (DEPs) after stringent screening for subsequent analyses. Among these DEPs, there were 44 proteins that exhibited downregulation and 25 that were upregulated in the WV plants. Some DEPs associated with chloroplasts and Chl biosynthesis were downregulated, leading to the absence of green coloration. Concurrently, Gene Ontology enrichment analysis further emphasized an insufficiency of magnesium, the key element in Chl biosynthesis. Many DEPs associated with abiotic or biotic stressors were downregulated, suggesting an overall weakening of stress resistance with certain compensatory mechanisms. Similarly, many DEPs related to modifying biomacromolecules were downregulated, possibly affected by the decrease in proteins involved in photosynthesis and stress resistance. Some DEPs containing iron were upregulated, indicating that iron is mainly used to synthesize heme and ferritin rather than Chl. Additionally, several DEPs related to sulfur or sulfate were upregulated, suggesting strengthened respiration. Expansin-A4 and pectinesterase were upregulated, coinciding with the emergence of a rough and bright surface in the white area of leaves, indicative of the elongation and gelation processes in the cell walls. These findings provide new insight for future studies to explore the mechanism of color formation in WV leaves.
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来源期刊
Horticulturae
Horticulturae HORTICULTURE-
CiteScore
3.50
自引率
19.40%
发文量
998
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