ZmMYB31, a R2R3-MYB transcription factor in maize, positively regulates the expression of CBF genes and enhances resistance to chilling and oxidative stress
Maize ( Zea mays L.) is an important model plant with an important role in agriculture and national economies all over the world. The optimum growth temperature of maize is between 25 and 28 °C. At temperatures below 12 °C, maize is vulnerable to damage by chilling stress. MYB transcription factors...
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Published in | Molecular biology reports Vol. 46; no. 4; pp. 3937 - 3944 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
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01.08.2019
Springer Nature B.V |
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Abstract | Maize (
Zea mays
L.) is an important model plant with an important role in agriculture and national economies all over the world. The optimum growth temperature of maize is between 25 and 28 °C. At temperatures below 12 °C, maize is vulnerable to damage by chilling stress. MYB transcription factors play important roles in plants’ response to low temperature stress. Maize
ZmMYB31
encodes a R2R3-MYB transcription factor, ZmMYB31, which localized in the nucleus.
ZmMYB31
expression was induced by chilling stress and the highest expression level was detected with the 24 h chilling treatment.
ZmMYB31
expression also increased in overexpressing Arabidopsis lines. The minimal fluorescence (Fo) with all photosystem II reaction centers open increased in wild type (WT) and transgenic plants under chilling stress, with the highest increase in WT. The maximal photochemical efficiency of photosystem II (Fv/Fm) decreased more in WT than in transgenic plants during chilling stress. Furthermore, the
ZmMYB31
-overexpressing lines showed higher superoxide dismutase and ascorbate peroxidase activity and lower reactive oxygen species (ROS) content than the WT. The expression of genes related to chilling stress was higher in transgenic plants than in WT. These results suggest that
ZmMYB31
plays a positive regulatory role in chilling and peroxide stress by regulating the expression of chilling stress-related genes to reduce ion extravasation, ROS content, and low-temperature photoinhibition, thereby improving low temperature resistance. |
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AbstractList | Maize (Zea mays L.) is an important model plant with an important role in agriculture and national economies all over the world. The optimum growth temperature of maize is between 25 and 28 °C. At temperatures below 12 °C, maize is vulnerable to damage by chilling stress. MYB transcription factors play important roles in plants' response to low temperature stress. Maize ZmMYB31 encodes a R2R3-MYB transcription factor, ZmMYB31, which localized in the nucleus. ZmMYB31 expression was induced by chilling stress and the highest expression level was detected with the 24 h chilling treatment. ZmMYB31 expression also increased in overexpressing Arabidopsis lines. The minimal fluorescence (Fo) with all photosystem II reaction centers open increased in wild type (WT) and transgenic plants under chilling stress, with the highest increase in WT. The maximal photochemical efficiency of photosystem II (Fv/Fm) decreased more in WT than in transgenic plants during chilling stress. Furthermore, the ZmMYB31-overexpressing lines showed higher superoxide dismutase and ascorbate peroxidase activity and lower reactive oxygen species (ROS) content than the WT. The expression of genes related to chilling stress was higher in transgenic plants than in WT. These results suggest that ZmMYB31 plays a positive regulatory role in chilling and peroxide stress by regulating the expression of chilling stress-related genes to reduce ion extravasation, ROS content, and low-temperature photoinhibition, thereby improving low temperature resistance. Maize ( Zea mays L.) is an important model plant with an important role in agriculture and national economies all over the world. The optimum growth temperature of maize is between 25 and 28 °C. At temperatures below 12 °C, maize is vulnerable to damage by chilling stress. MYB transcription factors play important roles in plants’ response to low temperature stress. Maize ZmMYB31 encodes a R2R3-MYB transcription factor, ZmMYB31, which localized in the nucleus. ZmMYB31 expression was induced by chilling stress and the highest expression level was detected with the 24 h chilling treatment. ZmMYB31 expression also increased in overexpressing Arabidopsis lines. The minimal fluorescence (Fo) with all photosystem II reaction centers open increased in wild type (WT) and transgenic plants under chilling stress, with the highest increase in WT. The maximal photochemical efficiency of photosystem II (Fv/Fm) decreased more in WT than in transgenic plants during chilling stress. Furthermore, the ZmMYB31 -overexpressing lines showed higher superoxide dismutase and ascorbate peroxidase activity and lower reactive oxygen species (ROS) content than the WT. The expression of genes related to chilling stress was higher in transgenic plants than in WT. These results suggest that ZmMYB31 plays a positive regulatory role in chilling and peroxide stress by regulating the expression of chilling stress-related genes to reduce ion extravasation, ROS content, and low-temperature photoinhibition, thereby improving low temperature resistance. Maize (Zea mays L.) is an important model plant with an important role in agriculture and national economies all over the world. The optimum growth temperature of maize is between 25 and 28 °C. At temperatures below 12 °C, maize is vulnerable to damage by chilling stress. MYB transcription factors play important roles in plants’ response to low temperature stress. Maize ZmMYB31 encodes a R2R3-MYB transcription factor, ZmMYB31, which localized in the nucleus. ZmMYB31 expression was induced by chilling stress and the highest expression level was detected with the 24 h chilling treatment. ZmMYB31 expression also increased in overexpressing Arabidopsis lines. The minimal fluorescence (Fo) with all photosystem II reaction centers open increased in wild type (WT) and transgenic plants under chilling stress, with the highest increase in WT. The maximal photochemical efficiency of photosystem II (Fv/Fm) decreased more in WT than in transgenic plants during chilling stress. Furthermore, the ZmMYB31-overexpressing lines showed higher superoxide dismutase and ascorbate peroxidase activity and lower reactive oxygen species (ROS) content than the WT. The expression of genes related to chilling stress was higher in transgenic plants than in WT. These results suggest that ZmMYB31 plays a positive regulatory role in chilling and peroxide stress by regulating the expression of chilling stress-related genes to reduce ion extravasation, ROS content, and low-temperature photoinhibition, thereby improving low temperature resistance. |
Author | Lin, Lin Zhang, Yuanhu Li, Meng Sui, Na |
Author_xml | – sequence: 1 givenname: Meng surname: Li fullname: Li, Meng organization: Shandong Academy of Agricultural Sciences, State Key Laboratory of Crop Biology, College of Life Sciences, Shandong Agricultural University – sequence: 2 givenname: Lin surname: Lin fullname: Lin, Lin organization: Water Research Institute of Shandong Province – sequence: 3 givenname: Yuanhu surname: Zhang fullname: Zhang, Yuanhu email: yhzhang9@163.com organization: State Key Laboratory of Crop Biology, College of Life Sciences, Shandong Agricultural University – sequence: 4 givenname: Na surname: Sui fullname: Sui, Na email: suina800101@163.com organization: Shandong Provincial Key Laboratory of Plant Stress, College of Life Sciences, Shandong Normal University |
BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31037550$$D View this record in MEDLINE/PubMed |
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Keywords | Chilling stress Oxidative stress Maize ZmMYB31 |
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Snippet | Maize (
Zea mays
L.) is an important model plant with an important role in agriculture and national economies all over the world. The optimum growth... Maize (Zea mays L.) is an important model plant with an important role in agriculture and national economies all over the world. The optimum growth temperature... |
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SubjectTerms | Adaptation, Physiological - genetics Animal Anatomy Animal Biochemistry Arabidopsis - genetics Arabidopsis Proteins - genetics Arabidopsis Proteins - metabolism Ascorbic acid Biomedical and Life Sciences CBF protein Chilling Cold Temperature - adverse effects Cold-Shock Response - genetics Extravasation Gene Expression Regulation, Plant - genetics Genes, Plant Histology L-Ascorbate peroxidase Life Sciences Morphology Original Article Oxidation-Reduction Oxidative stress Oxidative Stress - physiology Peroxidase Peroxide Photoinhibition Photosystem II Plant Proteins - genetics Plants, Genetically Modified - genetics Reaction centers Reactive oxygen species Reactive Oxygen Species - metabolism Stress, Physiological - genetics Superoxide dismutase Temperature Temperature effects Transcription factors Transcription Factors - genetics Transcription Factors - metabolism Transgenic plants Zea mays Zea mays - genetics Zea mays - metabolism |
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Title | ZmMYB31, a R2R3-MYB transcription factor in maize, positively regulates the expression of CBF genes and enhances resistance to chilling and oxidative stress |
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