Stress and defense responses in plant secondary metabolites production

Isah, Tasiu

doi:10.1186/s40659-019-0246-3

Cited by 926 publications

(634 citation statements)

References 343 publications

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“…As shown in several studies, the application of MeJA increased the resistance of the Norway spruce (Picea abies) to the root pathogen Pythium ultimum Trow [166], induced the expression of the 14-3-3 gene in the spruce plant [Picea glauca (Muench) Voss] [167], and accumulated a high amount of paclitaxel in several Taxus species [168]. The accumulation of JA in response to wounding is a common physiological feedback among all vascular plant species [1]. Therefore, JA has evolved as a plant hormone for stress adaptation, beginning with the emergence of vascular plants.…”

Section: Roles Of Jasmonic Acid In Plant Species Other Than Angiospermsmentioning

confidence: 96%

“…Plants grow in environments that impose a variety of biotic and abiotic stresses. The primary abiotic stresses that influence plant growth include light, temperature, salt, carbon dioxide, water, ozone, and soil nutrient content and availability [1], where the fluctuation of any of these can hamper the normal physiological processes. Being static organisms, plants are unable to avoid abiotic stresses simply by moving to a suitable environment.…”

Section: Introductionmentioning

confidence: 99%

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Jasmonic Acid Signaling Pathway in Response to Abiotic Stresses in Plants

Ali

Baek

2020

IJMS

281

156

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Plants as immovable organisms sense the stressors in their environment and respond to them by means of dedicated stress response pathways. In response to stress, jasmonates (jasmonic acid, its precursors and derivatives), a class of polyunsaturated fatty acid-derived phytohormones, play crucial roles in several biotic and abiotic stresses. As the major immunity hormone, jasmonates participate in numerous signal transduction pathways, including those of gene networks, regulatory proteins, signaling intermediates, and proteins, enzymes, and molecules that act to protect cells from the toxic effects of abiotic stresses. As cellular hubs for integrating informational cues from the environment, jasmonates play significant roles in alleviating salt stress, drought stress, heavy metal toxicity, micronutrient toxicity, freezing stress, ozone stress, CO 2 stress, and light stress. Besides these, jasmonates are involved in several developmental and physiological processes throughout the plant life. In this review, we discuss the biosynthesis and signal transduction pathways of the JAs and the roles of these molecules in the plant responses to abiotic stresses.

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Section: Roles Of Jasmonic Acid In Plant Species Other Than Angiospermsmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

Jasmonic Acid Signaling Pathway in Response to Abiotic Stresses in Plants

Ali

Baek

2020

IJMS

281

156

View full text Add to dashboard Cite

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“…The electrical conductivity of the water in the soil was measured and showed a relatively high NaCl content at Agronomy 2020, 10, 410 9 of 12 about 0.95% to 1.12% ( Figure S3), which indicated that SR86 has a high salt tolerance compared with other rice varieties. The different performance of SR86 between soil and hydroponic conditions might be attributed to the complex soil environment, such as the soil microorganisms, root exudates, and interaction between the plants and soil microenvironment [30,31].…”

Section: Discussionmentioning

confidence: 99%

Identification and Validation a Major QTL from “Sea Rice 86” Seedlings Conferred Salt Tolerance

Yang

et al. 2020

Agronomy

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Saline stress severely affects rice (Oryza sativa L.) growth and development and reduces crop yield. Therefore, developing salt-tolerant and high-yielding rice using quantitative trait loci (QTLs) and linkage markers is a priority for molecular breeding. Here, the indica rice Sea Rice 86 (SR86) seedlings showed higher tolerance than ordinary rice varieties in saline soil, and a dominant effect on salinity sensitivity was demonstrated by genetic analysis. We constructed bulked segregant analysis pools using F 2 populations from parents Dianjingyou 1 as the recipient and SR86 as the donor. We identified a 2.78 Mb region on chromosome 1 as the candidate region. Using simple sequence repeat markers and substitution analysis, we mapped the target region within 5.49 cM in the vicinity of markers RM8904-RM493. We speculated that this QTL, named qST1.1, might contribute significantly to the salt tolerance of SR86. The high salt tolerance of introgression lines obtained by marker assistant selection (MAS) confirmed that the qST1.1 region was associated with salinity tolerance. This newly-discovered QTL will be helpful for the analysis of the salt-tolerant mechanism of rice and breeding high-quality rice varieties using MAS.

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“…They are known to be able to tolerate extreme weather conditions. It is known that the plant extracts synthesized by plants are affected by environmental factors, such as the temperature and the availability of water [17,18]. Therefore, the extracts from plants obtained from the Middle Eastern region may provide an array of different compounds with greater variety of bioactivities due to the environmental conditions surrounding these plants.…”

Section: Introductionmentioning

confidence: 99%

Middle Eastern Plant Extracts: An Alternative to Modern Medicine Problems

et al. 2020

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Middle Eastern countries are primarily known for their dry sand deserts; however, they have a wider physiographic range which includes upland plateau and mountain ranges. The Middle East is home to various types of plants, such as Phoenix dactylifera (date palm tree), Scrophularia striata (herbaceous plants), and Opuntia ficus-indica (cactus). These plants have been found to have various types of bioactivities, such as antimicrobial activities against both bacteria and fungi, in addition to exhibiting anti-inflammatory effects and anti-cancer characteristics which can be utilized in the clinical setting for treatment. Due to limited reviews focusing on plant extracts from the Middle East, we aim to provide a discourse on plants from this region which have various bioactivities and to provide information on the compounds that can be identified from these plants. This is to enhance our understanding to improve modern medicine problems such as antimicrobial resistance and to find an alternative cure for cancer. It is hoped that the collation of information from this review will enable an assessment of the direct role of Middle Eastern plants in providing therapeutic options to address the predicaments in the medical field.

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Stress and defense responses in plant secondary metabolites production

Cited by 926 publications

References 343 publications

Jasmonic Acid Signaling Pathway in Response to Abiotic Stresses in Plants

Jasmonic Acid Signaling Pathway in Response to Abiotic Stresses in Plants

Identification and Validation a Major QTL from “Sea Rice 86” Seedlings Conferred Salt Tolerance

Middle Eastern Plant Extracts: An Alternative to Modern Medicine Problems

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