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Effect of various abiotic stressors on some biochemical indices of Lepidium sativum plants
In this study, the regulation of ascorbate peroxidase (APX) specific activity, anthocyanin, carotenoid, hydrogen peroxide, lipid peroxidation, and protein levels in cress leaves in response to different abiotic stresses were investigated. The total APX specific activity was significantly elevated af...
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| Published in: | Scientific reports 2020-12, Vol.10 (1), p.21131-21131, Article 21131 |
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| creator | Al-Sammarraie, Omar N Alsharafa, Khalid Y Al-Limoun, Muhamad O Khleifat, Khaled M Al-Sarayreh, Sameeh A Al-Shuneigat, Jehad M Kalaji, Hazem M |
| description | In this study, the regulation of ascorbate peroxidase (APX) specific activity, anthocyanin, carotenoid, hydrogen peroxide, lipid peroxidation, and protein levels in cress leaves in response to different abiotic stresses were investigated. The total APX specific activity was significantly elevated after 9 days of drought treatment, short-term (2 h) exposure to 10, 100 and 370 µE of light, long-term exposure (at least 6 days) to 100 mM NaCl versus the specific APX activity in the controls. Furthermore, a significant change in total APX activity was detected in response to treatment with different temperatures; this change was an early response to 4 °C and 30 °C for a maximum of 4 h, while short-term exposure to 35 °C did not change total APX activity. The results of the present study revealed that plants have a wide range of mechanisms to cope with different stresses that possibly involve morphological changes. The results indicated that Lepidium sativum plants launch common protective pathways only under drought, salinity and high light stresses, while other protective mechanisms/strategies could be responsible for increasing the plants tolerance towards temperature and low light. Future studies will investigate changes in the photosynthetic quantum yield and specific target metabolites, proteins, and nonenzymatic antioxidants. |
| doi_str_mv | 10.1038/s41598-020-78330-1 |
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The total APX specific activity was significantly elevated after 9 days of drought treatment, short-term (2 h) exposure to 10, 100 and 370 µE of light, long-term exposure (at least 6 days) to 100 mM NaCl versus the specific APX activity in the controls. Furthermore, a significant change in total APX activity was detected in response to treatment with different temperatures; this change was an early response to 4 °C and 30 °C for a maximum of 4 h, while short-term exposure to 35 °C did not change total APX activity. The results of the present study revealed that plants have a wide range of mechanisms to cope with different stresses that possibly involve morphological changes. The results indicated that Lepidium sativum plants launch common protective pathways only under drought, salinity and high light stresses, while other protective mechanisms/strategies could be responsible for increasing the plants tolerance towards temperature and low light. Future studies will investigate changes in the photosynthetic quantum yield and specific target metabolites, proteins, and nonenzymatic antioxidants.</description><identifier>ISSN: 2045-2322</identifier><identifier>EISSN: 2045-2322</identifier><identifier>DOI: 10.1038/s41598-020-78330-1</identifier><identifier>PMID: 33273699</identifier><language>eng</language><publisher>England: Nature Publishing Group</publisher><subject>Abiotic stress ; Anthocyanins ; Antioxidants ; Ascorbic acid ; Carotenoids ; Drought ; Enzymes ; Hydrogen peroxide ; L-Ascorbate peroxidase ; Lepidium sativum ; Lepidium sativum - metabolism ; Lepidium sativum - physiology ; Light ; Lipid Peroxidation ; Lipids ; Metabolites ; Molecular biology ; Photosynthesis ; Plant Leaves - metabolism ; Proteins ; Salinity ; Seeds ; Sodium chloride ; Stress, Physiological ; Temperature ; Temperature tolerance</subject><ispartof>Scientific reports, 2020-12, Vol.10 (1), p.21131-21131, Article 21131</ispartof><rights>The Author(s) 2020. This work is published under http://creativecommons.org/licenses/by/4.0/ (the “License”). 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The total APX specific activity was significantly elevated after 9 days of drought treatment, short-term (2 h) exposure to 10, 100 and 370 µE of light, long-term exposure (at least 6 days) to 100 mM NaCl versus the specific APX activity in the controls. Furthermore, a significant change in total APX activity was detected in response to treatment with different temperatures; this change was an early response to 4 °C and 30 °C for a maximum of 4 h, while short-term exposure to 35 °C did not change total APX activity. The results of the present study revealed that plants have a wide range of mechanisms to cope with different stresses that possibly involve morphological changes. The results indicated that Lepidium sativum plants launch common protective pathways only under drought, salinity and high light stresses, while other protective mechanisms/strategies could be responsible for increasing the plants tolerance towards temperature and low light. Future studies will investigate changes in the photosynthetic quantum yield and specific target metabolites, proteins, and nonenzymatic antioxidants.</description><subject>Abiotic stress</subject><subject>Anthocyanins</subject><subject>Antioxidants</subject><subject>Ascorbic acid</subject><subject>Carotenoids</subject><subject>Drought</subject><subject>Enzymes</subject><subject>Hydrogen peroxide</subject><subject>L-Ascorbate peroxidase</subject><subject>Lepidium sativum</subject><subject>Lepidium sativum - metabolism</subject><subject>Lepidium sativum - physiology</subject><subject>Light</subject><subject>Lipid Peroxidation</subject><subject>Lipids</subject><subject>Metabolites</subject><subject>Molecular biology</subject><subject>Photosynthesis</subject><subject>Plant Leaves - metabolism</subject><subject>Proteins</subject><subject>Salinity</subject><subject>Seeds</subject><subject>Sodium chloride</subject><subject>Stress, Physiological</subject><subject>Temperature</subject><subject>Temperature tolerance</subject><issn>2045-2322</issn><issn>2045-2322</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><sourceid>PIMPY</sourceid><recordid>eNpdUU1LJDEUDIuLyqx_wIMEvHhpzWencxFE_IIBL7uXvYR0Olkj3Z0xr3vAf29mZxQ1l_fgVRVVKYSOKTmnhDcXIKjUTUUYqVTDOanoD3TIiJAV44ztfdoP0BHAMylPMi2o3kcHnDPFa60P0d-bELybcAp4bXNMM2DbxjRFh2HKHiBlwGnEkAaPy8E9-SE62-M4dtF52BCXfhW7OA8Y7BTXZa56O07wC_0Mtgd_tJsL9Of25vf1fbV8vHu4vlpWTtRqqhxtvXBNIK6408opUUuiiQqNCFYTSXXbdaFhPEjGZC20bqmTXoSySuVqvkCXW93V3A6-c36csu3NKsfB5leTbDRfL2N8Mv_S2ihFOROqCJztBHJ6mT1MZojgfF9S-PIhhhWfNSNK8AI9_QZ9TnMeSzyzUWKaMCELim1RLieA7MOHGUrMpj2zbc-U9sz_9gwtpJPPMT4o713xN5S-lb8</recordid><startdate>20201203</startdate><enddate>20201203</enddate><creator>Al-Sammarraie, Omar N</creator><creator>Alsharafa, Khalid Y</creator><creator>Al-Limoun, Muhamad O</creator><creator>Khleifat, Khaled M</creator><creator>Al-Sarayreh, Sameeh A</creator><creator>Al-Shuneigat, Jehad M</creator><creator>Kalaji, Hazem M</creator><general>Nature Publishing Group</general><general>Nature Publishing Group UK</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>3V.</scope><scope>7X7</scope><scope>7XB</scope><scope>88A</scope><scope>88E</scope><scope>88I</scope><scope>8FE</scope><scope>8FH</scope><scope>8FI</scope><scope>8FJ</scope><scope>8FK</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BBNVY</scope><scope>BENPR</scope><scope>BHPHI</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>FYUFA</scope><scope>GHDGH</scope><scope>GNUQQ</scope><scope>HCIFZ</scope><scope>K9.</scope><scope>LK8</scope><scope>M0S</scope><scope>M1P</scope><scope>M2P</scope><scope>M7P</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>Q9U</scope><scope>7X8</scope><scope>5PM</scope><orcidid>https://orcid.org/0000-0002-1533-5001</orcidid></search><sort><creationdate>20201203</creationdate><title>Effect of various abiotic stressors on some biochemical indices of Lepidium sativum plants</title><author>Al-Sammarraie, Omar N ; Alsharafa, Khalid Y ; Al-Limoun, Muhamad O ; Khleifat, Khaled M ; Al-Sarayreh, Sameeh A ; Al-Shuneigat, Jehad M ; Kalaji, Hazem M</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c467t-c1be4c8f0c29497c74650907f84fa90519bddf823f52256499b1c5e4f64957c63</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2020</creationdate><topic>Abiotic stress</topic><topic>Anthocyanins</topic><topic>Antioxidants</topic><topic>Ascorbic acid</topic><topic>Carotenoids</topic><topic>Drought</topic><topic>Enzymes</topic><topic>Hydrogen peroxide</topic><topic>L-Ascorbate peroxidase</topic><topic>Lepidium sativum</topic><topic>Lepidium sativum - metabolism</topic><topic>Lepidium sativum - physiology</topic><topic>Light</topic><topic>Lipid Peroxidation</topic><topic>Lipids</topic><topic>Metabolites</topic><topic>Molecular biology</topic><topic>Photosynthesis</topic><topic>Plant Leaves - metabolism</topic><topic>Proteins</topic><topic>Salinity</topic><topic>Seeds</topic><topic>Sodium chloride</topic><topic>Stress, Physiological</topic><topic>Temperature</topic><topic>Temperature tolerance</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Al-Sammarraie, Omar N</creatorcontrib><creatorcontrib>Alsharafa, Khalid Y</creatorcontrib><creatorcontrib>Al-Limoun, Muhamad O</creatorcontrib><creatorcontrib>Khleifat, Khaled M</creatorcontrib><creatorcontrib>Al-Sarayreh, Sameeh A</creatorcontrib><creatorcontrib>Al-Shuneigat, Jehad M</creatorcontrib><creatorcontrib>Kalaji, Hazem M</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>ProQuest Central (Corporate)</collection><collection>Health & Medical Collection (Proquest)</collection><collection>ProQuest Central (purchase pre-March 2016)</collection><collection>Biology Database (Alumni Edition)</collection><collection>Medical Database (Alumni Edition)</collection><collection>Science Database (Alumni Edition)</collection><collection>ProQuest SciTech Collection</collection><collection>ProQuest Natural Science Collection</collection><collection>Hospital Premium Collection</collection><collection>Hospital Premium Collection (Alumni Edition)</collection><collection>ProQuest Central (Alumni) (purchase pre-March 2016)</collection><collection>ProQuest Central (Alumni)</collection><collection>ProQuest Central</collection><collection>ProQuest Central Essentials</collection><collection>Biological Science Collection</collection><collection>AUTh Library subscriptions: ProQuest Central</collection><collection>ProQuest Natural Science Collection</collection><collection>ProQuest One Community College</collection><collection>ProQuest Central Korea</collection><collection>Health Research Premium Collection</collection><collection>Health Research Premium Collection (Alumni)</collection><collection>ProQuest Central Student</collection><collection>SciTech Premium Collection (Proquest) (PQ_SDU_P3)</collection><collection>ProQuest Health & Medical Complete (Alumni)</collection><collection>Biological Sciences</collection><collection>Health & Medical Collection (Alumni Edition)</collection><collection>PML(ProQuest Medical Library)</collection><collection>Science Database (ProQuest)</collection><collection>Biological Science Database</collection><collection>Publicly Available Content Database</collection><collection>ProQuest One Academic Eastern Edition (DO NOT USE)</collection><collection>ProQuest One Academic</collection><collection>ProQuest One Academic UKI Edition</collection><collection>ProQuest Central China</collection><collection>ProQuest Central Basic</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Scientific reports</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Al-Sammarraie, Omar N</au><au>Alsharafa, Khalid Y</au><au>Al-Limoun, Muhamad O</au><au>Khleifat, Khaled M</au><au>Al-Sarayreh, Sameeh A</au><au>Al-Shuneigat, Jehad M</au><au>Kalaji, Hazem M</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Effect of various abiotic stressors on some biochemical indices of Lepidium sativum plants</atitle><jtitle>Scientific reports</jtitle><addtitle>Sci Rep</addtitle><date>2020-12-03</date><risdate>2020</risdate><volume>10</volume><issue>1</issue><spage>21131</spage><epage>21131</epage><pages>21131-21131</pages><artnum>21131</artnum><issn>2045-2322</issn><eissn>2045-2322</eissn><notes>ObjectType-Article-1</notes><notes>SourceType-Scholarly Journals-1</notes><notes>ObjectType-Feature-2</notes><notes>content type line 23</notes><abstract>In this study, the regulation of ascorbate peroxidase (APX) specific activity, anthocyanin, carotenoid, hydrogen peroxide, lipid peroxidation, and protein levels in cress leaves in response to different abiotic stresses were investigated. The total APX specific activity was significantly elevated after 9 days of drought treatment, short-term (2 h) exposure to 10, 100 and 370 µE of light, long-term exposure (at least 6 days) to 100 mM NaCl versus the specific APX activity in the controls. Furthermore, a significant change in total APX activity was detected in response to treatment with different temperatures; this change was an early response to 4 °C and 30 °C for a maximum of 4 h, while short-term exposure to 35 °C did not change total APX activity. The results of the present study revealed that plants have a wide range of mechanisms to cope with different stresses that possibly involve morphological changes. The results indicated that Lepidium sativum plants launch common protective pathways only under drought, salinity and high light stresses, while other protective mechanisms/strategies could be responsible for increasing the plants tolerance towards temperature and low light. Future studies will investigate changes in the photosynthetic quantum yield and specific target metabolites, proteins, and nonenzymatic antioxidants.</abstract><cop>England</cop><pub>Nature Publishing Group</pub><pmid>33273699</pmid><doi>10.1038/s41598-020-78330-1</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-1533-5001</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Abiotic stress Anthocyanins Antioxidants Ascorbic acid Carotenoids Drought Enzymes Hydrogen peroxide L-Ascorbate peroxidase Lepidium sativum Lepidium sativum - metabolism Lepidium sativum - physiology Light Lipid Peroxidation Lipids Metabolites Molecular biology Photosynthesis Plant Leaves - metabolism Proteins Salinity Seeds Sodium chloride Stress, Physiological Temperature Temperature tolerance |
| title | Effect of various abiotic stressors on some biochemical indices of Lepidium sativum plants |
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