Literature DB >> 19375375

Homing in on iron homeostasis in plants.

Jeeyon Jeong1, Mary Lou Guerinot.   

Abstract

Iron is essential for plants but is not readily accessible and is also potentially toxic. As plants are a major dietary source of iron worldwide, understanding plant iron homeostasis is pivotal for improving not only crop yields but also human nutrition. Although iron acquisition from the environment is well characterized, the transporters and reductases involved in plant organellar iron transport and some of the transcription factors that regulate iron uptake have only recently been discovered. Here, we discuss newly characterized molecular players, focusing on Arabidopsis. Localization of iron to the right compartment and accessibility of iron stores are proving crucial for maintaining proper iron homeostasis and will need to be considered in biofortification efforts currently underway.

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Year:  2009        PMID: 19375375     DOI: 10.1016/j.tplants.2009.02.006

Source DB:  PubMed          Journal:  Trends Plant Sci        ISSN: 1360-1385            Impact factor:   18.313


  66 in total

1.  IRT1 degradation factor1, a ring E3 ubiquitin ligase, regulates the degradation of iron-regulated transporter1 in Arabidopsis.

Authors:  Lung-Jiun Shin; Jing-Chi Lo; Guan-Hong Chen; Judy Callis; Hongyong Fu; Kuo-Chen Yeh
Journal:  Plant Cell       Date:  2013-08-30       Impact factor: 11.277

2.  Identification and characterization of the major mitochondrial Fe transporter in rice.

Authors:  Khurram Bashir; Yasuhiro Ishimaru; Naoko K Nishizawa
Journal:  Plant Signal Behav       Date:  2011-10-01

3.  A basic set of homeostatic controller motifs.

Authors:  T Drengstig; I W Jolma; X Y Ni; K Thorsen; X M Xu; P Ruoff
Journal:  Biophys J       Date:  2012-11-07       Impact factor: 4.033

4.  Pumping iron: conserved iron deficiency responses in the plant lineage.

Authors:  Nancy A Eckardt
Journal:  Plant Cell       Date:  2012-10-05       Impact factor: 11.277

Review 5.  Cytochromes b561: ascorbate-mediated trans-membrane electron transport.

Authors:  Han Asard; Raffaella Barbaro; Paolo Trost; Alajos Bérczi
Journal:  Antioxid Redox Signal       Date:  2013-02-04       Impact factor: 8.401

6.  Phloem small RNAs, nutrient stress responses, and systemic mobility.

Authors:  Anja Buhtz; Janin Pieritz; Franziska Springer; Julia Kehr
Journal:  BMC Plant Biol       Date:  2010-04-13       Impact factor: 4.215

7.  Arabidopsis copper transport protein COPT2 participates in the cross talk between iron deficiency responses and low-phosphate signaling.

Authors:  Ana Perea-García; Antoni Garcia-Molina; Nuria Andrés-Colás; Francisco Vera-Sirera; Miguel A Pérez-Amador; Sergi Puig; Lola Peñarrubia
Journal:  Plant Physiol       Date:  2013-03-13       Impact factor: 8.340

8.  Heterologous functional analysis of the Malus xiaojinensis MxIRT1 gene and the His-box motif by expression in yeast.

Authors:  Xue-Ning Zhang; Zhen-Hai Han; Li-Li Yin; Jin Kong; Xue-Feng Xu; Xin-Zhong Zhang; Yi Wang
Journal:  Mol Biol Rep       Date:  2012-10-19       Impact factor: 2.316

9.  Post-Transcriptional Coordination of the Arabidopsis Iron Deficiency Response is Partially Dependent on the E3 Ligases RING DOMAIN LIGASE1 (RGLG1) and RING DOMAIN LIGASE2 (RGLG2).

Authors:  I-Chun Pan; Huei-Hsuan Tsai; Ya-Tan Cheng; Tuan-Nan Wen; Thomas J Buckhout; Wolfgang Schmidt
Journal:  Mol Cell Proteomics       Date:  2015-08-07       Impact factor: 5.911

10.  Transcriptional coordination between leaf cell differentiation and chloroplast development established by TCP20 and the subgroup Ib bHLH transcription factors.

Authors:  Megan E Andriankaja; Selahattin Danisman; Lorin F Mignolet-Spruyt; Hannes Claeys; Irina Kochanke; Mattias Vermeersch; Liesbeth De Milde; Stefanie De Bodt; Veronique Storme; Aleksandra Skirycz; Felix Maurer; Petra Bauer; Per Mühlenbock; Frank Van Breusegem; Gerco C Angenent; Richard G H Immink; Dirk Inzé
Journal:  Plant Mol Biol       Date:  2014-02-19       Impact factor: 4.076
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