Natural variation of TBR confers plant zinc toxicity tolerance through root cell wall pectin methylesterification

被引:6
作者
Zhong, Kaizhen [1 ,2 ,3 ]
Zhang, Peng [1 ]
Wei, Xiangjin [1 ]
Platre, Matthieu Pierre [2 ]
He, Wenrong [2 ]
Zhang, Ling [2 ]
Malolepszy, Anna [2 ]
Cao, Min [2 ]
Hu, Shikai [1 ]
Tang, Shaoqing [1 ]
Li, Baohai [2 ,4 ]
Hu, Peisong [1 ,3 ]
Busch, Wolfgang [2 ]
机构
[1] China Natl Rice Res Inst, State Key Lab Rice Biol & Breeding, Hangzhou, Zhejiang, Peoples R China
[2] Salk Inst Biol Studies, Plant Mol & Cellular Biol Lab, La Jolla, CA 92037 USA
[3] Jiangxi Agr Univ, Sch Agr Sci, Nanchang, Jiangxi, Peoples R China
[4] Zhejiang Univ, Coll Environm & Resource Sci, MOE Key Lab Environm Remediat & Ecol Hlth, Hangzhou, Zhejiang, Peoples R China
来源
NATURE COMMUNICATIONS | 2024年 / 15卷 / 01期
基金
中国国家自然科学基金;
关键词
TRICHOME-BIREFRINGENCE; ARABIDOPSIS; IRON; DETOXIFICATION; BIOSYNTHESIS; CITRATE; MUTANT; SIZE; FRD3; ZN;
D O I
10.1038/s41467-024-50106-5
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
Zinc (Zn) is an essential micronutrient but can be cytotoxic when present in excess. Plants have evolved mechanisms to tolerate Zn toxicity. To identify genetic loci responsible for natural variation of plant tolerance to Zn toxicity, we conduct genome-wide association studies for root growth responses to high Zn and identify 21 significant associated loci. Among these loci, we identify Trichome Birefringence (TBR) allelic variation determining root growth variation in high Zn conditions. Natural alleles of TBR determine TBR transcript and protein levels which affect pectin methylesterification in root cell walls. Together with previously published data showing that pectin methylesterification increase goes along with decreased Zn binding to cell walls in TBR mutants, our findings lead to a model in which TBR allelic variation enables Zn tolerance through modulating root cell wall pectin methylesterification. The role of TBR in Zn tolerance is conserved across dicot and monocot plant species.
引用
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页数:14
相关论文
共 58 条
[1]   1,135 Genomes Reveal the Global Pattern of Polymorphism in Arabidopsis thaliana [J].
Alonso-Blanco, Carlos ;
Andrade, Jorge ;
Becker, Claude ;
Bemm, Felix ;
Bergelson, Joy ;
Borgwardt, Karsten M. ;
Cao, Jun ;
Chae, Eunyoung ;
Dezwaan, Todd M. ;
Ding, Wei ;
Ecker, Joseph R. ;
Exposito-Alonso, Moises ;
Farlow, Ashley ;
Fitz, Joffrey ;
Gan, Xiangchao ;
Grimm, Dominik G. ;
Hancock, Angela M. ;
Henz, Stefan R. ;
Holm, Svante ;
Horton, Matthew ;
Jarsulic, Mike ;
Kerstetter, Randall A. ;
Korte, Arthur ;
Korte, Pamela ;
Lanz, Christa ;
Lee, Cheng-Ruei ;
Meng, Dazhe ;
Michael, Todd P. ;
Mott, Richard ;
Muliyati, Ni Wayan ;
Nagele, Thomas ;
Nagler, Matthias ;
Nizhynska, Viktoria ;
Nordborg, Magnus ;
Novikova, Polina Yu. ;
Pico, F. Xavier ;
Platzer, Alexander ;
Rabanal, Fernando A. ;
Rodriguez, Alex ;
Rowan, Beth A. ;
Salome, Patrice A. ;
Schmid, Karl J. ;
Schmitz, Robert J. ;
Seren, Umit ;
Sperone, Felice Gianluca ;
Sudkamp, Mitchell ;
Svardal, Hannes ;
Tanzer, Matt M. ;
Todd, Donald ;
Volchenboum, Samuel L. .
CELL, 2016, 166 (02) :481-491
[2]   Comparison of three colorimetric reagents in the determination of methanol with alcohol oxidase. Application to the assay of pectin methylesterase [J].
Anthon, GE ;
Barrett, DM .
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY, 2004, 52 (12) :3749-3753
[3]   Combined enzymatic and colorimetric method for determining the uronic acid and methylester content of pectin: Application to tomato products [J].
Anthon, Gordon E. ;
Barrett, Diane M. .
FOOD CHEMISTRY, 2008, 110 (01) :239-247
[4]   A Coastal Cline in Sodium Accumulation in Arabidopsis thaliana Is Driven by Natural Variation of the Sodium Transporter AtHKT1;1 [J].
Baxter, Ivan ;
Brazelton, Jessica N. ;
Yu, Danni ;
Huang, Yu S. ;
Lahner, Brett ;
Yakubova, Elena ;
Li, Yan ;
Bergelson, Joy ;
Borevitz, Justin O. ;
Nordborg, Magnus ;
Vitek, Olga ;
Salt, David E. .
PLOS GENETICS, 2010, 6 (11)
[5]   Zn2+-induced changes at the root level account for the increased tolerance of acclimated tobacco plants [J].
Bazihizina, Nadia ;
Taiti, Cosimo ;
Marti, Lucia ;
Rodrigo-Moreno, Ana ;
Spinelli, Francesco ;
Giordano, Cristiana ;
Caparrotta, Stefania ;
Gori, Massimo ;
Azzarello, Elisa ;
Mancuso, Stefano .
JOURNAL OF EXPERIMENTAL BOTANY, 2014, 65 (17) :4931-4942
[6]   TRICHOME BIREFRINGENCE and Its Homolog AT5G01360 Encode Plant-Specific DUF231 Proteins Required for Cellulose Biosynthesis in Arabidopsis [J].
Bischoff, Volker ;
Nita, Silvia ;
Neumetzler, Lutz ;
Schindelasch, Dana ;
Urbain, Aurelie ;
Eshed, Ravit ;
Persson, Staffan ;
Delmer, Deborah ;
Scheible, Wolf-Ruediger .
PLANT PHYSIOLOGY, 2010, 153 (02) :590-602
[7]   NEW METHOD FOR QUANTITATIVE-DETERMINATION OF URONIC ACIDS [J].
BLUMENKR.N ;
ASBOEHAN.G .
ANALYTICAL BIOCHEMISTRY, 1973, 54 (02) :484-489
[8]   Zinc in plants [J].
Broadley, Martin R. ;
White, Philip J. ;
Hammond, John P. ;
Zelko, Ivan ;
Lux, Alexander .
NEW PHYTOLOGIST, 2007, 173 (04) :677-702
[9]  
Chaney RL., 1993, DEV PLANT SOIL SCI, P135, DOI DOI 10.1007/978-94-011-0878-2_10
[10]   PMR5, an acetylation protein at the intersection of pectin biosynthesis and defense against fungal pathogens [J].
Chiniquy, Dawn ;
Underwood, William ;
Corwin, Jason ;
Ryan, Andrew ;
Szemenyei, Heidi ;
Lim, Candice C. ;
Stonebloom, Solomon H. ;
Birdseye, Devon S. ;
Vogel, John ;
Kliebenstein, Daniel ;
Scheller, Henrik, V ;
Somerville, Shauna .
PLANT JOURNAL, 2019, 100 (05) :1022-1035
123456