G. P. Gayatri, K. G. Ajith Kumar, K. V. Baiju, J. B. Hyzil
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Phytohormonal dynamics in recalcitrant seeds, is a poorly investigated area and the present investigation was undertaken with a view to understand the hormonal changes during embryogeny and germination in this recalcitrant species. We have tested fifteen plant growth regulators simultaneously to get a better understanding about their role in embryogeny and germination. During April–July 2020, seeds were collected from their native habitats in the South Western-Ghats. From the randomly selected seeds, the embryonic tissues were chopped and frozen for LC–MS/MS hormonal profiling. The triplet hormonal interplay (between auxin, cytokinin and gibberellins) was found to be very crucial for the development of the embryo in <i>Vateria indica</i> L. In the present study, we can see a clear antagonism of cis Jasmonate with Brassinosteroid, cis Jasmonate declining during seed shed (14.44 ± 0.39 ng g-1fw) and germination phases, while Brassinosteroid increasing during these phases (32.24 ± 1.69 ng g-1fw). A clear hormonal interplay can also be seen between Auxin (Indole-3 Butyric acid—45.44 ± 0.3 ng g-1fw) and Brassinosteroid (24epi-Brassinolide—32.24 ± 1.69 ng g-1fw) at the time of seed germination. Phytohormone interplay and crosstalk provides an emerging knowledge about connections between phytohormones which are pivotal for growth and development and even stress responses in plants.</p><h3 data-test=\"abstract-sub-heading\">Graphical abstract</h3><p>Chromatogram of Phytohormones.</p><p>Chromatogram of Phytohormones -X axis represents time and Y axis represents absorbance A, B and C—In Negative mode (ES-): Salicylic acid, IAA, IBA, JA, Benzene Adenine, ABA, GA-7, GA-4, GA-3, Epibrassinolide. D, E and F—In Positive mode (ES +): ACC, Cis-Jasmonate, Zeatin, Methyl Jasmonate and Trans Zeatin Riboside.</p><p>Chromatogram of Phytohormones. X axis represents time and Y axis represents absorbance D and E—In Negative mode (ES-): Salicylic acid, IAA, IBA, JA, Benzene Adenine, ABA, GA-7, GA-4, GA-3, Epibrassinolide. I and J—In Positive mode (ES +): ACC, Cis-Jasmonate, Zeatin, Methyl Jasmonate and Trans Zeatin Riboside.</p><figure></figure>","PeriodicalId":1,"journal":{"name":"Accounts of Chemical Research","volume":null,"pages":null},"PeriodicalIF":16.4000,"publicationDate":"2024-03-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Exploring the phytohormonal crosstalk during embryonic journey and germination process of Vateria indica L. seeds utilizing LCMS/MS technology\",\"authors\":\"G. P. Gayatri, K. G. Ajith Kumar, K. V. Baiju, J. B. 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引用次数: 0
摘要
Vateria indica L. 是印度西高止山脉南部地区的一种濒危树种,具有极其重要的经济价值。该树种的自然再生过程受到许多因素的阻碍,其中包括种子的抗逆性,这是阻碍其自然再生的一个主要问题,因此对其种子贮藏和保护提出了巨大挑战。顽固种子在发育过程中与正统种子存在明显差异。不同阶段开始时,植物激素会出现明确的高峰和低谷,这种激素模式在正统种子和顽固种子中各不相同。对顽固种子的植物激素动态研究较少,本研究旨在了解这种顽固物种在胚胎发育和萌发过程中的激素变化。我们同时测试了 15 种植物生长调节剂,以更好地了解它们在胚胎形成和萌发过程中的作用。2020 年 4 月至 7 月期间,我们从南西高止山脉的原生栖息地采集了种子。从随机挑选的种子中切碎并冷冻胚胎组织,用于 LC-MS/MS 激素分析。在本研究中,我们可以看到顺式茉莉酸盐与芸苔素类固醇的明显拮抗作用,顺式茉莉酸盐在种子脱落期(14.44 ± 0.39 ng g-1fw)和萌芽期下降,而芸苔素类固醇在这些阶段上升(32.24 ± 1.69 ng g-1fw)。在种子萌发期,还可以看到菊粉(吲哚-3 丁酸-45.44 ± 0.3 ng g-1fw)和类芸苔素(24epi-Brassinolide-32.24 ± 1.69 ng g-1fw)之间明显的激素相互作用。植物激素的相互作用和相互影响提供了有关植物激素之间联系的新知识,而植物激素对植物的生长发育乃至胁迫反应至关重要:水杨酸、IAA、IBA、JA、苯腺嘌呤、ABA、GA-7、GA-4、GA-3、表紫苏内酯。D、E 和 F-阳性模式(ES +):植物激素色谱图。X 轴代表时间,Y 轴代表吸光度 D 和 E-负模式(ES-):水杨酸、IAA、IBA、JA、苯腺嘌呤、ABA、GA-7、GA-4、GA-3、表紫草素内酯。I 和 J-阳性模式(ES +):ACC、顺式茉莉酸盐、玉米素、甲基茉莉酸盐和反式玉米素核苷。
Exploring the phytohormonal crosstalk during embryonic journey and germination process of Vateria indica L. seeds utilizing LCMS/MS technology
Vateria indica L. is an endangered tree species indigenous to South Western-Ghats regions of India, which is of immense economic importance. The natural regeneration process of this species is hindered by many factors including seed recalcitrance, which is a major problem hindering its natural regeneration, thus posing a great challenge in its seed storage and conservation. Recalcitrant seeds show marked differences from orthodox seeds in development. The onset of different stages is marked by a definite peaking and lowering of phytohormones and this hormonal pattern varies in orthodox and recalcitrant seeds. Phytohormonal dynamics in recalcitrant seeds, is a poorly investigated area and the present investigation was undertaken with a view to understand the hormonal changes during embryogeny and germination in this recalcitrant species. We have tested fifteen plant growth regulators simultaneously to get a better understanding about their role in embryogeny and germination. During April–July 2020, seeds were collected from their native habitats in the South Western-Ghats. From the randomly selected seeds, the embryonic tissues were chopped and frozen for LC–MS/MS hormonal profiling. The triplet hormonal interplay (between auxin, cytokinin and gibberellins) was found to be very crucial for the development of the embryo in Vateria indica L. In the present study, we can see a clear antagonism of cis Jasmonate with Brassinosteroid, cis Jasmonate declining during seed shed (14.44 ± 0.39 ng g-1fw) and germination phases, while Brassinosteroid increasing during these phases (32.24 ± 1.69 ng g-1fw). A clear hormonal interplay can also be seen between Auxin (Indole-3 Butyric acid—45.44 ± 0.3 ng g-1fw) and Brassinosteroid (24epi-Brassinolide—32.24 ± 1.69 ng g-1fw) at the time of seed germination. Phytohormone interplay and crosstalk provides an emerging knowledge about connections between phytohormones which are pivotal for growth and development and even stress responses in plants.
Graphical abstract
Chromatogram of Phytohormones.
Chromatogram of Phytohormones -X axis represents time and Y axis represents absorbance A, B and C—In Negative mode (ES-): Salicylic acid, IAA, IBA, JA, Benzene Adenine, ABA, GA-7, GA-4, GA-3, Epibrassinolide. D, E and F—In Positive mode (ES +): ACC, Cis-Jasmonate, Zeatin, Methyl Jasmonate and Trans Zeatin Riboside.
Chromatogram of Phytohormones. X axis represents time and Y axis represents absorbance D and E—In Negative mode (ES-): Salicylic acid, IAA, IBA, JA, Benzene Adenine, ABA, GA-7, GA-4, GA-3, Epibrassinolide. I and J—In Positive mode (ES +): ACC, Cis-Jasmonate, Zeatin, Methyl Jasmonate and Trans Zeatin Riboside.
期刊介绍:
Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance.
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