Quantitative Changes in Microtubule Distribution Correlate with Guard Cell Function in Arabidopsis 被引量：4

Quantitative Changes in Microtubule Distribution Correlate with Guard Cell Function in Arabidopsis

导出

摘要 Radially arranged cortical microtubules are a prominent feature of guard cells. We observed guard cells expressing GFP-tubulin （GFP-TUA6） with confocal microscopy and found recognizable changes in the appearance of micro- tubules when stomata open or close （Eisinger et al., 2012）. In the present study, analysis of fluorescence distribution showed a dramatic increase in peak intensities of microtubule bundles within guard cells as stomata open. This increase was correlated with an increase in the total fluorescence that could be attributed to polymerized tubulin, Adjacent pave- ment cells did not show similar changes in peak intensities or integrated fluorescence when stomatal apertures changed. Imaging of RFP-tagged end binding protein 1 （EB1） and YFP-tagged ^-tubulin expressed in the same cell revealed that the number of microtubules with growing ends remained constant, although the total amount of polymerized tubulin was higher in open than in closed guard cells. Taken together, these results indicate that the changes in microtubule array organization that are correlated with and required for normal guard cell function are characterized by changes in micro- tubule clustering or bundling. Radially arranged cortical microtubules are a prominent feature of guard cells. We observed guard cells expressing GFP-tubulin （GFP-TUA6） with confocal microscopy and found recognizable changes in the appearance of micro- tubules when stomata open or close （Eisinger et al., 2012）. In the present study, analysis of fluorescence distribution showed a dramatic increase in peak intensities of microtubule bundles within guard cells as stomata open. This increase was correlated with an increase in the total fluorescence that could be attributed to polymerized tubulin, Adjacent pave- ment cells did not show similar changes in peak intensities or integrated fluorescence when stomatal apertures changed. Imaging of RFP-tagged end binding protein 1 （EB1） and YFP-tagged ^-tubulin expressed in the same cell revealed that the number of microtubules with growing ends remained constant, although the total amount of polymerized tubulin was higher in open than in closed guard cells. Taken together, these results indicate that the changes in microtubule array organization that are correlated with and required for normal guard cell function are characterized by changes in micro- tubule clustering or bundling.

作者 William R. Eisinger Viktor Kirik Charlotte Lewis David W. Ehrhardt Winslow R. Briggs

机构地区 Department of Biology Department of Plant Biology School of Biological Sciences

出处《Molecular Plant》 SCIE CAS CSCD 2012年第3期716-725,共10页 分子植物（英文版）

关键词 cell differentiation/specialization CYTOSKELETON fluorescence imaging organelle biogenesis/function Ara- bidopsis cell differentiation/specialization cytoskeleton fluorescence imaging organelle biogenesis/function Ara- bidopsis

分类号 Q959.117 [生物学—动物学] Q51 [生物学—生物化学]

引文网络
相关文献

参考文献2

1William Eisinger,David Ehrhardt,Winslow Briggs.Microtubules Are Essential for Guard-Cell Function in Vicia and Arabidopsis[J].Molecular Plant,2012,5(3):601-610. 被引量：9
2ZHANG YongMei,WU ZhongYi,WANG XueChen,YU Rong.Rearrangements of microtubule cytoskeleton in stomatal closure of Arabidopsis induced by nitric oxide[J].Chinese Science Bulletin,2008,53(6):848-852. 被引量：4

二级参考文献12

1R. Yu,R.-F. Huang,X.-C. Wang,M. Yuan.Microtubule dynamics are involved in stomatal movement ofVicia faba L.[J].Protoplasma (-).2001(1-2)
2Huang R F,Wang X C.Role of microtubules in stomatal movement[].Acta Botanica Sinica.1997
3Sokolovski S,Blatt M R.Nitric oxide block of outward-rectifying K+ channels indicates direct control by protein nitrosylation in guard cells[].Plant Physiology.2004
4Carlos G M,,Lorenzo L.Abscisic acid, nitric oxide and stomatal closure——Is nitrate reductase one of the missing links?[].Trends in Plant Science.2003
5Delledonne M,Xia Y J,Dixon R A, et al.Nitric oxide functions as a signal in plant disease resistance[].Nature.1998
6Clarke A,Desikan R,Hurst R D, et al.NO way back: Nitric oxide and programmed cell death in Arabidopsis thaliana suspension cultures[].Plant Journal The.2000
7Zeidler D,Zahringer U,Gerber I, et al.Innate immunity in Arabi- dopsis thaliana: Lipopolysaccharides activate nitric oxide synthase (NOS) and induce defense genes[].Proceedings of the National Academy of Sciences of the United States of America.2004
8Maeli M,William U,Jessica K, et al.Plant stomata function in innate immunity against bacterial invasion[].Cell.2006
9Carlos G M,Lorenzo L.Nitric oxide induces stomatal closure and enhances the adaptive plant responses against drought stress[].Plant Physiology.2001
10Desikan R,Griffiths R,Hancock J, et al.A new role for an old enzyme: Nitrate reductase-mediated nitric oxide generation is required for abscisic acid-induced stomatal closure in Arabidopsis thaliana[].Proceedings of the National Academy of Sciences of the United States of America.2002

共引文献8

1Winslow R. Briggs,Chen-Tao Lin.Photomorphogenesis——from One Photoreceptor to 14：40 Years of Progress[J].Molecular Plant,2012,5(3):531-532. 被引量：1
2苑召虎,吴炳义.星形胶质细胞主要细胞骨架研究的最新进展[J].中华神经医学杂志,2012,11(9):962-965. 被引量：1
3叶子,黄聪聪,于荣.保卫细胞微管骨架参与蛋白丝氨酸/苏氨酸磷酸化调节的气孔运动[J].中国农业科学,2012,45(21):4351-4360. 被引量：4
4熊丽君,安玉艳,汪良驹.微管骨架和PP1/PP2A蛋白磷酸酶在ALA-ABA调控苹果叶片气孔运动中的作用[J].园艺学报,2018,45(11):2073-2088. 被引量：4
5席小慧,王攀,王朝阳,于荣.拟南芥微管结合蛋白WDL3参与ABA诱导的气孔关闭过程[J].科学通报,2019,64(1):95-106. 被引量：1
6王未,赵思爽,王攀,席小慧,于荣.微管骨架与异三聚体G蛋白协同参与ABA诱导的气孔运动[J].科学通报,2017,62(32):3757-3767. 被引量：1
7罗莹,张建国,刘晓霞,饶国栋,陆海.杨树微管功能研究植物表达载体构建及验证[J].林业科学研究,2020,33(1):92-98.
8Hai Liu,Shaowu Xue.Interplay between hydrogen sulfide and other signaling molecules in the regulation of guard cell signaling and abiotic/biotic stress response[J].Plant Communications,2021,2(3):11-26. 被引量：3

同被引文献25

1ZHANG YongMei,WU ZhongYi,WANG XueChen,YU Rong.Rearrangements of microtubule cytoskeleton in stomatal closure of Arabidopsis induced by nitric oxide[J].Chinese Science Bulletin,2008,53(6):848-852. 被引量：4
2马鲜歌,贺军民.异三聚体G蛋白在UV-B诱导拟南芥气孔关闭中的作用[J].中国农业科学,2012,45(5):848-853. 被引量：5
3John M. Christie,Jayde Gawthorne,Gillian Young,Niall J. Fraser^c,and Andrew J. Roe.LOV to BLUF： Flavoprotein Contributions to the Optogenetic Toolkit[J].Molecular Plant,2012,5(3):533-544. 被引量：2
4Manuel Adrian Troncoso-Ponce and Paloma Mas.Newly Described Components and Regulatory Mechanisms of Circadian Clock Function in Arabidopsis thaliana[J].Molecular Plant,2012,5(3):545-553. 被引量：4
5Eva Herrero,Seth J. Davis.Time for a Nuclear Meeting： Protein Trafficking and Chromatin Dynamics Intersect in the Plant Circadian System[J].Molecular Plant,2012,5(3):554-565. 被引量：6
6Chen Chen Yu-Guo Xiao Xin Li in Ni.Light-Regulated Stomatal Aperture in Arabidopsis[J].Molecular Plant,2012,5(3):566-572. 被引量：6
7Martijn van Zanten,Federico Tessadori,Anton J.M. Peeters,Paul Fransz.Shedding Light on Large-Scale Chromatin Reorganization in Arabidopsis thaliana[J].Molecular Plant,2012,5(3):583-590. 被引量：3
8Xi-Ying Fan,Yu Sun,Dong-Mei Cao,Ming-Yi Bal,Xiao-Min Luo,Hong-Juan Yang,Chuang-Qi Wei,Sheng-Wei Zhu,Ying Sun,Kang Chonga,Zhi-Yong Wang.BZS1, a B-box Protein, Promotes Photomorphogenesis Downstream of Both Brassinosteroid and Light Signaling Pathways[J].Molecular Plant,2012,5(3):591-600. 被引量：16
9William Eisinger,David Ehrhardt,Winslow Briggs.Microtubules Are Essential for Guard-Cell Function in Vicia and Arabidopsis[J].Molecular Plant,2012,5(3):601-610. 被引量：9
10Hidenori Tsuboi,Sachihiko Nakamura,Eberhard Schaifer,Masamitsu Wadaa.Red Light-Induced Phytochrome Relocation into the Nucleus in Adiantum capillus-veneris[J].Molecular Plant,2012,5(3):611-618. 被引量：4

引证文献4

1Winslow R. Briggs,Chen-Tao Lin.Photomorphogenesis——from One Photoreceptor to 14：40 Years of Progress[J].Molecular Plant,2012,5(3):531-532. 被引量：1
2William Eisinger,David Ehrhardt,Winslow Briggs.Microtubules Are Essential for Guard-Cell Function in Vicia and Arabidopsis[J].Molecular Plant,2012,5(3):601-610. 被引量：9
3席小慧,王攀,王朝阳,于荣.拟南芥微管结合蛋白WDL3参与ABA诱导的气孔关闭过程[J].科学通报,2019,64(1):95-106. 被引量：1
4王未,赵思爽,王攀,席小慧,于荣.微管骨架与异三聚体G蛋白协同参与ABA诱导的气孔运动[J].科学通报,2017,62(32):3757-3767. 被引量：1

二级引证文献11

1Winslow R. Briggs,Chen-Tao Lin.Photomorphogenesis——from One Photoreceptor to 14：40 Years of Progress[J].Molecular Plant,2012,5(3):531-532. 被引量：1
2William R. Eisinger,Viktor Kirik,Charlotte Lewis,David W. Ehrhardt,Winslow R. Briggs.Quantitative Changes in Microtubule Distribution Correlate with Guard Cell Function in Arabidopsis[J].Molecular Plant,2012,5(3):716-725. 被引量：4
3苑召虎,吴炳义.星形胶质细胞主要细胞骨架研究的最新进展[J].中华神经医学杂志,2012,11(9):962-965. 被引量：1
4叶子,黄聪聪,于荣.保卫细胞微管骨架参与蛋白丝氨酸/苏氨酸磷酸化调节的气孔运动[J].中国农业科学,2012,45(21):4351-4360. 被引量：4
5熊丽君,安玉艳,汪良驹.微管骨架和PP1/PP2A蛋白磷酸酶在ALA-ABA调控苹果叶片气孔运动中的作用[J].园艺学报,2018,45(11):2073-2088. 被引量：4
6席小慧,王攀,王朝阳,于荣.拟南芥微管结合蛋白WDL3参与ABA诱导的气孔关闭过程[J].科学通报,2019,64(1):95-106. 被引量：1
7王未,赵思爽,王攀,席小慧,于荣.微管骨架与异三聚体G蛋白协同参与ABA诱导的气孔运动[J].科学通报,2017,62(32):3757-3767. 被引量：1
8In Memory of Winslow Briggs, a Luminary Who Shed Light on Plants and Enlightened People[J].Molecular Plant,2019,12(4):461-463.
9罗莹,张建国,刘晓霞,饶国栋,陆海.杨树微管功能研究植物表达载体构建及验证[J].林业科学研究,2020,33(1):92-98.
10Hai Liu,Shaowu Xue.Interplay between hydrogen sulfide and other signaling molecules in the regulation of guard cell signaling and abiotic/biotic stress response[J].Plant Communications,2021,2(3):11-26. 被引量：3

1Yunqing Yu,Sarah M. Assmann.Metabolite Transporter Regulation of ABA Function and Guard Cell Response[J].Molecular Plant,2014,7(10):1505-1507. 被引量：1
2如果你长得和昆虫一样大会怎样？[J].少年发明与创造（小学版）,2012(3):26-26.
3Xiaoming Wei,Yulin Gao,Xiaodong Jing,Songbai Deng,Jianlin Du,Yajie Liu,Qiang She.Biological characteristics of embryonic epicardial cells in vitro correlate with embryonic day[J].Acta Biochimica et Biophysica Sinica,2017,49(1):14-24.
4王兰香,马晓艳,车永梅,侯丽霞,刘新,张伟.Extracellular ATP mediates H_2S-regulated stomatal movements and guard cell K^+ current in a H_2O_2-dependent manner in Arabidopsis[J].Science Bulletin,2015,60(4):419-427. 被引量：6
5Yanli Wang,Chunmei Hu,Zailiang Wang,Hui Kong,Weiping Xie,Hong Wang.Serum IL-1β and IL-18 correlate with ESR and CRP in multidrug-resistant tuberculosis patients[J].The Journal of Biomedical Research,2015,29(5):426-428. 被引量：9
6Sonke Scherzer,Tobias Maierhofer,Khaled A.S. Al-Rasheid,Dietmar Geiger,Rainer Hedrich.Multiple Calcium-Dependent Kinases Modulate ABA-Activated Guard Cell Anion Channels[J].Molecular Plant,2012,5(6):1409-1412. 被引量：10
7Chen YG.Specific tau phosphorylation impairment of step-down sites in hippocampus correlate with inhibitory avoidance task in rats.[J].中国生物学文摘,2006,20(9):15-15.
8ZHAO Qing-yan,YU Sheng-bo,HUANG He,CUI Hong-ying,QIN Mu,HUANG Ting,HUANG Cong-xin.Serum uric acid levels correlate with atrial fibrillation in patients with chronic systolic heart failure[J].Chinese Medical Journal,2012(10):1708-1712. 被引量：20
9Rui Chen,Fu-Kang Luo,Ya-Li Wang,Jin-Liang Tang,You-Sheng Liu.LBP and CD14 polymorphisms correlate with increased colorectal carcinoma risk in Han Chinese[J].World Journal of Gastroenterology,2011,17(18):2326-2331. 被引量：8
10Chun-Long Li Mei Wang Xiao-Yan Ma Wei Zhang.NRGA1, a Putative Mitochondrial Pyruvate Carrier, Mediates ABA Regulation of Guard Cell Ion Channels and Drought Stress Responses in Arabidopsis[J].Molecular Plant,2014,7(10):1508-1521. 被引量：7

Molecular Plant

2012年第3期

浏览历史

内容加载中请稍等...