Transcriptome and proteome analyses of the molecular mechanisms underlying changes in oil storage under drought stress in <i>Brassica napus</i> L.

Li, Yangyang; Zhang, Linxue; Hu, Sheng; Zhang, Jinfeng; Wang, Lin; Ping, Xiaoke; Wang, Jia; Li, Jiana; Lu, Kun; Tang, Zhongjie; Liu, Liezhao

doi:10.1111/gcbb.12833

Cited by 18 publications

(12 citation statements)

References 94 publications

(101 reference statements)

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“…Moreover, SvGA20ox and SvGA2ox were upregulated, whereas SvGA3ox was downregulated. This result will inevitably lead to a decrease in the production and an increase in the inactivation of bioactive GAs, which affect the normal growth of weeds . The decrease in the contents of five gibberellin forms confirmed these results, including bioactive GAs (GA 1 and GA 7 ) (Figure ).…”

Section: Discussionsupporting

confidence: 55%

Weed Suppression and Molecular Mechanisms of Isochlorogenic Acid A Isolated from Artemisia argyi Extract via an Activity-Guided Method

Zhu

et al. 2022

J. Agric. Food Chem.

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Allelopathy is considered an environmentally friendly and resource-conserving approach to weed control because allelochemicals degrade easily and cause less pollution than traditional chemical herbicides. In this study, the allelopathic active constituents of Artemisia argyi were elucidated by activity-guided isolation and ultraperformance liquid chromatography−quadrupole time-of-flight mass spectrometry (UPLC−QTOF-MS). First, a crude extract prepared in water was fractionated using macroporous resin D101 to obtain three fractions (Fr.A−C). Combined with the allelopathic activity assay on Setaria viridis and Portulaca oleracea, Fr.C was determined to be the most active fraction. We identified 14 compounds in the active fraction (Fr.C) using UPLC−QTOF-MS, including 13 phenolic compounds. Accordingly, phenolic components have been suggested as the main allelochemicals in A. argyi. Thereafter, Fr.C was further isolated by octadecylsilyl (ODS) chromatography to obtain eight subfractions (Fr.C-1−Fr.C-8). Finally, isochlorogenic acid A (ICGAA) was purified from Fr.C-3 by semipreparative liquid chromatography, which was detected in the growth environment of A. argyi. Furthermore, we evaluated the allelopathic effects of ICGAA on six weeds from different families and genera for the first time. The results showed that ICGAA is a novel allelochemical with broad herbicidal activity. In addition, we analyzed the inhibitory effect and molecular mechanism of ICGAA on the growth of S. viridis seedlings. Optical microscopy and transmission electron microscopy (TEM) revealed the degradation of membrane structures and organelles after ICGAA treatment. Transcriptome and real-time polymerase chain reaction (RT-qPCR) analysis showed that ICGAA inhibited the growth of weeds mainly by inhibiting the diterpenoid biosynthesis pathway (especially gibberellins, GAs). The decrease of gibberellin (GA) contents after ICGAA treatment also confirmed these results. In brief, this study provides new material sources and theoretical support for developing biological herbicides for agroecosystems.

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Section: Discussionsupporting

confidence: 55%

Weed Suppression and Molecular Mechanisms of Isochlorogenic Acid A Isolated from Artemisia argyi Extract via an Activity-Guided Method

Zhu

et al. 2022

J. Agric. Food Chem.

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“…53 Recently, transcriptome and proteome analysis to dissect molecular mechanisms for oil content accumulation under drought conditions in developing siliques of B. napus revealed 112, 151, and 138 DAPs after 30, 40, and 50 days of pollination, respectively. 54 Proteins involved in fatty acid synthesis like LACS, FAD3, ACCase, ADH, etc. were found to be upregulated.…”

Section: Proteomics Of Seeds and Siliquesmentioning

confidence: 99%

Understanding the Proteomes of Plant Development and Stress Responses in Brassica Crops

et al. 2023

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Brassica crops have great economic value due to their rich nutritional content and are therefore grown worldwide as oilseeds, vegetables, and condiments. Deciphering the molecular mechanisms associated with the advantageous phenotype is the major objective of various Brassica improvement programs. As large technological advancements have been achieved in the past decade, the methods to understand molecular mechanisms underlying the traits of interest have also taken a sharp upturn in plant breeding practices. Proteomics has emerged as one of the preferred choices nowadays along with genomics and other molecular approaches, as proteins are the ultimate effector molecules responsible for phenotypic changes in living systems, and allow plants to resist variable environmental stresses. In the last two decades, rapid progress has been made in the field of proteomics research in Brassica crops, but a comprehensive review that collates the different studies is lacking. This review provides an inclusive summary of different proteomic studies undertaken in Brassica crops for cytoplasmic male sterility, oil content, and proteomics of floral organs and seeds, under different biotic and abiotic stresses including post-translational modifications of proteins. This comprehensive review will help in understanding the role of different proteins in controlling plant phenotypes, and provides information for initiating future studies on Brassica breeding and improvement programs.

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“…As a response to drought stress, gibberellic acid, and DELLA proteins are produced. Beyond their inhibition of ROS accumulation, 73 DELLA proteins also downregulated SFAR genes that reduce fatty acid storage in B. napus 74 . In terms of agricultural value, seed oil content (SOC) and fatty acid composition determine the quality and yield of rapeseed.…”

Section: The Brassica Genus (B Napus B Rapa B Juncea)mentioning

confidence: 99%

The functions and applications of GDSL esterase/lipase proteins in agriculture: A review

Aparato

Suh

2022

JSFA Reports

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GDSL esterase/lipase proteins (GELPs) compose a family of enzymes identified by a unique “GDSL” amino acid sequence motif. GELPs can accept a broad range of substrates and are functionally diverse. They are involved in various key physiological processes in plants such as cuticle development, seed oil storage, male fertility, and biotic and abiotic stress responses. Thus, genetic manipulation of GELPs has the potential to be beneficial in agriculture. As examples, the Seed Fatty Acid Reducer proteins in rapeseed (Brassica napus) function in seed oil degradation, and their down‐regulation (or knockout) may increase rapeseed oil yield. Xanthophyll acyltransferase in wheat (Triticum aestivum) catalyzes the esterification of lutein for storage, and enhancing its activity may produce wheat grains with higher carotenoid content. In this review, we aim to highlight various GELPs in globally important crops including maize, rice, wheat, soybean, and rapeseed, and discuss their potential as targets for genetic modification which will be useful in improving crop yield, quality, or both.

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Transcriptome and proteome analyses of the molecular mechanisms underlying changes in oil storage under drought stress in Brassica napus L.

Cited by 18 publications

References 94 publications

Weed Suppression and Molecular Mechanisms of Isochlorogenic Acid A Isolated from Artemisia argyi Extract via an Activity-Guided Method

Weed Suppression and Molecular Mechanisms of Isochlorogenic Acid A Isolated from Artemisia argyi Extract via an Activity-Guided Method

Understanding the Proteomes of Plant Development and Stress Responses in Brassica Crops

The functions and applications of GDSL esterase/lipase proteins in agriculture: A review

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