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Literature DB >> 16667528

Pleiotropic Effects of brz: A Mutation in Pisum sativum (L.) cv ;Sparkle' Conditioning Decreased Nodulation and Increased Iron Uptake and Leaf Necrosis.

B E Kneen¹, T A Larue, R M Welch, N F Weeden.

Abstract

Treatment of Pisum sativum (L.) cv ;Sparkle' with ethylmethane sulfonic acid produced a stable mutant, E107, which forms few nodules. The mutant allele exhibits other pleiotropic properties including bronze necrotic spots on the leaflets and high accumulation of iron in the shoot. The mutant phenotype is under monogenic recessive control. The gene, designated brz (bronze), is nonallelic with two other genes conditioning necrotic spots on leaves of other mutants of P. sativum. The brz allele was located on chromosome 4 by linkage with wax production controlled by alleles at the was locus.

Entities: Chemical Disease Species

Year: 1990 PMID： 16667528 PMCID： PMC1062575 DOI： 10.1104/pp.93.2.717

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

2 in total

1. Physiological Characteristics of Fe Accumulation in the ;Bronze' Mutant of Pisum sativum L., cv ;Sparkle' E107 (brz brz).

Authors: R M Welch; T A Larue
Journal: Plant Physiol Date: 1990-06 Impact factor: 8.340

2. Mechanism of iron uptake by peanut plants : I. Fe reduction, chelate splitting, and release of phenolics.

Authors: V Römheld; H Marschner
Journal: Plant Physiol Date: 1983-04 Impact factor: 8.340

2 in total

19 in total

1. Dual regulation of the Arabidopsis high-affinity root iron uptake system by local and long-distance signals.

Authors: Grégory A Vert; Jean-François Briat; Catherine Curie
Journal: Plant Physiol Date: 2003-04-10 Impact factor: 8.340

2. Direct Measurement of 59Fe-Labeled Fe2+ Influx in Roots of Pea Using a Chelator Buffer System to Control Free Fe2+ in Solution.

Authors: T. C. Fox; J. E. Shaff; M. A. Grusak; W. A. Norvell; Y. Chen; R. L. Chaney; L. V. Kochian
Journal: Plant Physiol Date: 1996-05 Impact factor: 8.340

3. OPT3 Is a Phloem-Specific Iron Transporter That Is Essential for Systemic Iron Signaling and Redistribution of Iron and Cadmium in Arabidopsis.

Authors: Zhiyang Zhai; Sheena R Gayomba; Ha-Il Jung; Nanditha K Vimalakumari; Miguel Piñeros; Eric Craft; Michael A Rutzke; John Danku; Brett Lahner; Tracy Punshon; Mary Lou Guerinot; David E Salt; Leon V Kochian; Olena K Vatamaniuk
Journal: Plant Cell Date: 2014-05-27 Impact factor: 11.277

4. Iron stress-induced changes in root epidermal cell fate are regulated independently from physiological responses to low iron availability.

Authors: A Schikora; W Schmidt
Journal: Plant Physiol Date: 2001-04 Impact factor: 8.340

5. The bHLH transcription factor bHLH104 interacts with IAA-LEUCINE RESISTANT3 and modulates iron homeostasis in Arabidopsis.

Authors: Jie Zhang; Bing Liu; Mengshu Li; Dongru Feng; Honglei Jin; Peng Wang; Jun Liu; Feng Xiong; Jinfa Wang; Hong-Bin Wang
Journal: Plant Cell Date: 2015-03-20 Impact factor: 11.277

6. Iron Transport to Developing Ovules of Pisum sativum (I. Seed Import Characteristics and Phloem Iron-Loading Capacity of Source Regions).

Authors: M. A. Grusak
Journal: Plant Physiol Date: 1994-02 Impact factor: 8.340

Pleiotropic Effects of brz: A Mutation in Pisum sativum (L.) cv ;Sparkle' Conditioning Decreased Nodulation and Increased Iron Uptake and Leaf Necrosis.

1. Physiological Characteristics of Fe Accumulation in the ;Bronze' Mutant of Pisum sativum L., cv ;Sparkle' E107 (brz brz).

2. Mechanism of iron uptake by peanut plants : I. Fe reduction, chelate splitting, and release of phenolics.

1. Dual regulation of the Arabidopsis high-affinity root iron uptake system by local and long-distance signals.

2. Direct Measurement of 59Fe-Labeled Fe2+ Influx in Roots of Pea Using a Chelator Buffer System to Control Free Fe2+ in Solution.

3. OPT3 Is a Phloem-Specific Iron Transporter That Is Essential for Systemic Iron Signaling and Redistribution of Iron and Cadmium in Arabidopsis.

4. Iron stress-induced changes in root epidermal cell fate are regulated independently from physiological responses to low iron availability.

5. The bHLH transcription factor bHLH104 interacts with IAA-LEUCINE RESISTANT3 and modulates iron homeostasis in Arabidopsis.

6. Iron Transport to Developing Ovules of Pisum sativum (I. Seed Import Characteristics and Phloem Iron-Loading Capacity of Source Regions).

7. FRD3, a member of the multidrug and toxin efflux family, controls iron deficiency responses in Arabidopsis.

8. Shoot-to-Root Signal Transmission Regulates Root Fe(III) Reductase Activity in the dgl Mutant of Pea.

9. Effects of Iron Excess on Nicotiana plumbaginifolia Plants (Implications to Oxidative Stress).

10. Shoot to root communication is necessary to control the expression of iron-acquisition genes in Strategy I plants.