Literature DB >> 23221721

Expression of plant genes for arbuscular mycorrhiza-inducible phosphate transporters and fungal vesicle formation in sorghum, barley, and wheat roots.

Thongkhoun Sisaphaithong1, Daisuke Kondo, Haruka Matsunaga, Yoshihiro Kobae, Shingo Hata.   

Abstract

Sorghum shows strong growth stimulation on arbuscular mycorrhizal (AM) symbiosis, while barley and wheat show growth depression. We identified the AM-inducible phosphate transporter genes of these cereals. Their protein products play major roles in phosphate absorption from arbuscules, intracellular fungal structures. Unexpectedly, barley and wheat expressed the AM-inducible genes at high levels. Hence the cause of their growth depression appears to be unrelated to the transcription of these genes. Notably, fungal vesicles were formed significantly more in barley and wheat than in sorghum. This study yielded new clues for investigation of the mechanism underlying these various responses.

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Year:  2012        PMID: 23221721     DOI: 10.1271/bbb.120782

Source DB:  PubMed          Journal:  Biosci Biotechnol Biochem        ISSN: 0916-8451            Impact factor:   2.043


  14 in total

1.  DELLA proteins regulate arbuscule formation in arbuscular mycorrhizal symbiosis.

Authors:  Daniela S Floss; Julien G Levy; Véronique Lévesque-Tremblay; Nathan Pumplin; Maria J Harrison
Journal:  Proc Natl Acad Sci U S A       Date:  2013-12-02       Impact factor: 11.205

2.  Arbuscular mycorrhizal growth responses are fungal specific but do not differ between soybean genotypes with different phosphate efficiency.

Authors:  Xiurong Wang; Shaopeng Zhao; Heike Bücking
Journal:  Ann Bot       Date:  2016-05-20       Impact factor: 4.357

3.  Transcriptome responses in wheat roots to colonization by the arbuscular mycorrhizal fungus Rhizophagus irregularis.

Authors:  Mengjiao Li; Runze Wang; Hui Tian; Yajun Gao
Journal:  Mycorrhiza       Date:  2018-09-24       Impact factor: 3.387

4.  Phosphate concentration and arbuscular mycorrhizal colonisation influence the growth, yield and expression of twelve PHT1 family phosphate transporters in foxtail millet (Setaria italica).

Authors:  S Antony Ceasar; Angela Hodge; Alison Baker; Stephen A Baldwin
Journal:  PLoS One       Date:  2014-09-24       Impact factor: 3.240

5.  Piriformospora indica Reprograms Gene Expression in Arabidopsis Phosphate Metabolism Mutants But Does Not Compensate for Phosphate Limitation.

Authors:  Madhunita Bakshi; Irena Sherameti; Doreen Meichsner; Johannes Thürich; Ajit Varma; Atul K Johri; Kai-Wun Yeh; Ralf Oelmüller
Journal:  Front Microbiol       Date:  2017-07-12       Impact factor: 5.640

Review 6.  Roles, Regulation, and Agricultural Application of Plant Phosphate Transporters.

Authors:  Duoliya Wang; Sulian Lv; Ping Jiang; Yinxin Li
Journal:  Front Plant Sci       Date:  2017-05-18       Impact factor: 5.753

7.  Genome-wide Identification, Characterization, and Expression Analysis of PHT1 Phosphate Transporters in Wheat.

Authors:  Wan Teng; Yan-Yan Zhao; Xue-Qiang Zhao; Xue He; Wen-Ying Ma; Yan Deng; Xin-Ping Chen; Yi-Ping Tong
Journal:  Front Plant Sci       Date:  2017-04-11       Impact factor: 5.753

8.  Identification and expression profiling of Pht1 phosphate transporters in wheat in controlled environments and in the field.

Authors:  A Grün; P Buchner; M R Broadley; M J Hawkesford
Journal:  Plant Biol (Stuttg)       Date:  2017-12-19       Impact factor: 3.081

9.  The enhanced phosphorus use efficiency in phosphate-deficient and mycorrhiza-inoculated barley seedlings involves activation of different sets of PHT1 transporters in roots.

Authors:  Rajat Srivastava; Parul Sirohi; Harsh Chauhan; Rahul Kumar
Journal:  Planta       Date:  2021-07-27       Impact factor: 4.116

Review 10.  Phosphate Uptake and Allocation - A Closer Look at Arabidopsis thaliana L. and Oryza sativa L.

Authors:  Ewa Młodzińska; Magdalena Zboińska
Journal:  Front Plant Sci       Date:  2016-08-15       Impact factor: 5.753
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