Literature DB >> 17071645

A sodium transporter (HKT7) is a candidate for Nax1, a gene for salt tolerance in durum wheat.

Shaobai Huang1, Wolfgang Spielmeyer, Evans S Lagudah, Richard A James, J Damien Platten, Elizabeth S Dennis, Rana Munns.   

Abstract

Durum wheat (Triticum turgidum subsp. durum) is more salt sensitive than bread wheat (Triticum aestivum). A novel source of Na(+) exclusion conferring salt tolerance to durum wheat is present in the durum wheat Line 149 derived from Triticum monococcum C68-101, and a quantitative trait locus contributing to low Na(+) concentration in leaf blades, Nax1, mapped to chromosome 2AL. In this study, we used the rice (Oryza sativa) genome sequence and data from the wheat expressed sequence tag deletion bin mapping project to identify markers and construct a high-resolution map of the Nax1 region. Genes on wheat chromosome 2AL and rice chromosome 4L had good overall colinearity, but there was an inversion of a chromosomal segment that includes the Nax1 locus. Two putative sodium transporter genes (TmHKT7) related to OsHKT7 were mapped to chromosome 2AL. One TmHKT7 member (TmHKT7-A1) was polymorphic between the salt-tolerant and -sensitive lines, and cosegregated with Nax1 in the high-resolution mapping family. The other TmHKT7 member (TmHKT7-A2) was located within the same bacterial artificial chromosome contig of approximately 145 kb as TmHKT7-A1. TmHKT7-A1 and -A2 showed 83% amino acid identity. TmHKT7-A2, but not TmHKT7-A1, was expressed in roots and leaf sheaths of the salt-tolerant durum wheat Line 149. The expression pattern of TmHKT7-A2 was consistent with the physiological role of Nax1 in reducing Na(+) concentration in leaf blades by retaining Na(+) in the sheaths. TmHKT7-A2 could control Na(+) unloading from xylem in roots and sheaths.

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Year:  2006        PMID: 17071645      PMCID: PMC1676039          DOI: 10.1104/pp.106.088864

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  30 in total

1.  Construction and characterization of a bacterial artificial chromosome (BAC) library for the A genome of wheat.

Authors:  D Lijavetzky; G Muzzi; T Wicker; B Keller; R Wing; J Dubcovsky
Journal:  Genome       Date:  1999-12       Impact factor: 2.166

2.  Functional analysis of AtHKT1 in Arabidopsis shows that Na(+) recirculation by the phloem is crucial for salt tolerance.

Authors:  Pierre Berthomieu; Geneviève Conéjéro; Aurélie Nublat; William J Brackenbury; Cécile Lambert; Cristina Savio; Nobuyuki Uozumi; Shigetoshi Oiki; Katsuyuki Yamada; Françoise Cellier; Françoise Gosti; Thierry Simonneau; Pauline A Essah; Mark Tester; Anne-Aliénor Véry; Hervé Sentenac; Francine Casse
Journal:  EMBO J       Date:  2003-05-01       Impact factor: 11.598

3.  In silico comparative analysis reveals a mosaic conservation of genes within a novel colinear region in wheat chromosome 1AS and rice chromosome 5S.

Authors:  Romain Guyot; Nabila Yahiaoui; Catherine Feuillet; Beat Keller
Journal:  Funct Integr Genomics       Date:  2004-02-06       Impact factor: 3.410

4.  A rice quantitative trait locus for salt tolerance encodes a sodium transporter.

Authors:  Zhong-Hai Ren; Ji-Ping Gao; Le-Gong Li; Xiu-Ling Cai; Wei Huang; Dai-Yin Chao; Mei-Zhen Zhu; Zong-Yang Wang; Sheng Luan; Hong-Xuan Lin
Journal:  Nat Genet       Date:  2005-09-11       Impact factor: 38.330

Review 5.  Genes and salt tolerance: bringing them together.

Authors:  Rana Munns
Journal:  New Phytol       Date:  2005-09       Impact factor: 10.151

6.  Control of sodium transport in durum wheat.

Authors:  Romola Davenport; Richard A James; Anna Zakrisson-Plogander; Mark Tester; Rana Munns
Journal:  Plant Physiol       Date:  2005-02-25       Impact factor: 8.340

7.  The Arabidopsis HKT1 gene homolog mediates inward Na(+) currents in xenopus laevis oocytes and Na(+) uptake in Saccharomyces cerevisiae.

Authors:  N Uozumi; E J Kim; F Rubio; T Yamaguchi; S Muto; A Tsuboi; E P Bakker; T Nakamura; J I Schroeder
Journal:  Plant Physiol       Date:  2000-04       Impact factor: 8.340

8.  A draft sequence of the rice genome (Oryza sativa L. ssp. indica).

Authors:  Jun Yu; Songnian Hu; Jun Wang; Gane Ka-Shu Wong; Songgang Li; Bin Liu; Yajun Deng; Li Dai; Yan Zhou; Xiuqing Zhang; Mengliang Cao; Jing Liu; Jiandong Sun; Jiabin Tang; Yanjiong Chen; Xiaobing Huang; Wei Lin; Chen Ye; Wei Tong; Lijuan Cong; Jianing Geng; Yujun Han; Lin Li; Wei Li; Guangqiang Hu; Xiangang Huang; Wenjie Li; Jian Li; Zhanwei Liu; Long Li; Jianping Liu; Qiuhui Qi; Jinsong Liu; Li Li; Tao Li; Xuegang Wang; Hong Lu; Tingting Wu; Miao Zhu; Peixiang Ni; Hua Han; Wei Dong; Xiaoyu Ren; Xiaoli Feng; Peng Cui; Xianran Li; Hao Wang; Xin Xu; Wenxue Zhai; Zhao Xu; Jinsong Zhang; Sijie He; Jianguo Zhang; Jichen Xu; Kunlin Zhang; Xianwu Zheng; Jianhai Dong; Wanyong Zeng; Lin Tao; Jia Ye; Jun Tan; Xide Ren; Xuewei Chen; Jun He; Daofeng Liu; Wei Tian; Chaoguang Tian; Hongai Xia; Qiyu Bao; Gang Li; Hui Gao; Ting Cao; Juan Wang; Wenming Zhao; Ping Li; Wei Chen; Xudong Wang; Yong Zhang; Jianfei Hu; Jing Wang; Song Liu; Jian Yang; Guangyu Zhang; Yuqing Xiong; Zhijie Li; Long Mao; Chengshu Zhou; Zhen Zhu; Runsheng Chen; Bailin Hao; Weimou Zheng; Shouyi Chen; Wei Guo; Guojie Li; Siqi Liu; Ming Tao; Jian Wang; Lihuang Zhu; Longping Yuan; Huanming Yang
Journal:  Science       Date:  2002-04-05       Impact factor: 47.728

9.  A 2600-locus chromosome bin map of wheat homoeologous group 2 reveals interstitial gene-rich islands and colinearity with rice.

Authors:  E J Conley; V Nduati; J L Gonzalez-Hernandez; A Mesfin; M Trudeau-Spanjers; S Chao; G R Lazo; D D Hummel; O D Anderson; L L Qi; B S Gill; B Echalier; A M Linkiewicz; J Dubcovsky; E D Akhunov; J Dvorák; J H Peng; N L V Lapitan; M S Pathan; H T Nguyen; X-F Ma; J P Gustafson; R A Greene; M E Sorrells; K G Hossain; V Kalavacharla; S F Kianian; D Sidhu; M Dilbirligi; K S Gill; D W Choi; R D Fenton; T J Close; P E McGuire; C O Qualset; J A Anderson
Journal:  Genetics       Date:  2004-10       Impact factor: 4.562

10.  A chromosome bin map of 16,000 expressed sequence tag loci and distribution of genes among the three genomes of polyploid wheat.

Authors:  L L Qi; B Echalier; S Chao; G R Lazo; G E Butler; O D Anderson; E D Akhunov; J Dvorák; A M Linkiewicz; A Ratnasiri; J Dubcovsky; C E Bermudez-Kandianis; R A Greene; R Kantety; C M La Rota; J D Munkvold; S F Sorrells; M E Sorrells; M Dilbirligi; D Sidhu; M Erayman; H S Randhawa; D Sandhu; S N Bondareva; K S Gill; A A Mahmoud; X-F Ma; J P Gustafson; E J Conley; V Nduati; J L Gonzalez-Hernandez; J A Anderson; J H Peng; N L V Lapitan; K G Hossain; V Kalavacharla; S F Kianian; M S Pathan; D S Zhang; H T Nguyen; D-W Choi; R D Fenton; T J Close; P E McGuire; C O Qualset; B S Gill
Journal:  Genetics       Date:  2004-10       Impact factor: 4.562
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  68 in total

Review 1.  Molecular characterization and functional analysis of elite genes in wheat and its related species.

Authors:  Jirui Wang; Pengfei Qi; Yuming Wei; Dengcai Liu; George Fedak; Youliang Zheng
Journal:  J Genet       Date:  2010-12       Impact factor: 1.166

Review 2.  Potassium and sodium transport in non-animal cells: the Trk/Ktr/HKT transporter family.

Authors:  C Corratgé-Faillie; M Jabnoune; S Zimmermann; A-A Véry; C Fizames; H Sentenac
Journal:  Cell Mol Life Sci       Date:  2010-03-24       Impact factor: 9.261

3.  The rice monovalent cation transporter OsHKT2;4: revisited ionic selectivity.

Authors:  Ali Sassi; Delphine Mieulet; Imran Khan; Bertrand Moreau; Isabelle Gaillard; Hervé Sentenac; Anne-Aliénor Véry
Journal:  Plant Physiol       Date:  2012-07-06       Impact factor: 8.340

4.  Quantitative trait loci and crop performance under abiotic stress: where do we stand?

Authors:  Nicholas C Collins; François Tardieu; Roberto Tuberosa
Journal:  Plant Physiol       Date:  2008-06       Impact factor: 8.340

5.  Structure-function analysis of the barley genome: the gene-rich region of chromosome 2HL.

Authors:  Andrew Chen; Anita Brûlé-Babel; Ute Baumann; Nicholas C Collins
Journal:  Funct Integr Genomics       Date:  2008-10-29       Impact factor: 3.410

6.  Sodium exclusion QTL associated with improved seedling growth in bread wheat under salinity stress.

Authors:  Y Genc; K Oldach; A P Verbyla; G Lott; M Hassan; M Tester; H Wallwork; G K McDonald
Journal:  Theor Appl Genet       Date:  2010-05-19       Impact factor: 5.699

7.  Low-affinity Na+ uptake in the halophyte Suaeda maritima.

Authors:  Suo-Min Wang; Jin-Lin Zhang; Timothy J Flowers
Journal:  Plant Physiol       Date:  2007-08-31       Impact factor: 8.340

8.  A DNA Methylation Reader-Chaperone Regulator-Transcription Factor Complex Activates OsHKT1;5 Expression during Salinity Stress.

Authors:  Jie Wang; Nan Nan; Ning Li; Yutong Liu; Tian-Jing Wang; Inhwan Hwang; Bao Liu; Zheng-Yi Xu
Journal:  Plant Cell       Date:  2020-09-15       Impact factor: 11.277

Review 9.  Physiological and molecular mechanisms of plant salt tolerance.

Authors:  Jin-Lin Zhang; Huazhong Shi
Journal:  Photosynth Res       Date:  2013-03-29       Impact factor: 3.573

10.  OsHKT2;2/1-mediated Na(+) influx over K(+) uptake in roots potentially increases toxic Na(+) accumulation in a salt-tolerant landrace of rice Nona Bokra upon salinity stress.

Authors:  Kei Suzuki; Alex Costa; Hideki Nakayama; Maki Katsuhara; Atsuhiko Shinmyo; Tomoaki Horie
Journal:  J Plant Res       Date:  2015-11-17       Impact factor: 2.629
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