Hiroyuki Koiwa scite author profile

To gain an overview of plant factors controlling nodule number and organogenesis, an extensive screening using model legume Lotus japonicus was carried out. This screening involved 40,000 M2 seeds, and 32 stable mutant lines were isolated. From these, 16 mutant lines maintaining the phenotypic variation were selected and genetically analyzed. With respect to nodule number, four loci were identified, Ljsym77, Ljsym78, slippery root (slp), and radial organization1 (rdo1). The former two mutants have an increased number of nodules, while the latter two have a decreased number. Ljsym78-1 and Ljsym78-2 are hypernodulating mutants with a branched root system and were found to be allelic to Ljsym16. The phenotype of the Ljsym77 mutant was highly pleiotropic, being deficient in light and gravity responses. The slp mutant was isolated as a low-nodulating mutant lacking root hairs. Concerning nodule organogenesis, nine symbiotic loci were identified, including the two loci alb1 and fen1. Mutants affecting the developmental process of nodule organogenesis were placed in three phenotypic categories: Nod- (Ljsym70 to Ljsym73), Hist- (alb1-1, alb1-2, and Ljsym79), and Fix- (fen1, Ljsym75, and Ljsym81).

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The Lotus japonicus Sen1 gene controls rhizobial differentiation into nitrogen-fixing bacteroids in nodules

Suganuma

Nakamura

Yamamoto

et al. 2003

Mol Gen Genomics

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A Lotus japonicus mutant, Ljsym75, which forms ineffective symbiotic nodules and defines a new locus involved in the process of nitrogen fixation, was characterized in detail in order to identify the stage of developmental arrest of the nodules. No nitrogen-fixing activity was detectable in Ljsym75 nodules at any stage during plant development, and plant growth was markedly retarded. Ljsym75 plants formed twice as many nodules as the wild-type Gifu, and this phenotype was not influenced by the application of low concentrations of nitrate. Although the ineffective nodules formed on Ljsym75 were anatomically similar to effective Gifu nodules, Ljsym75 nodules senesced prematurely. Microscopic examination revealed that bacteria endocytosed into Ljsym75 nodules failed to differentiate into bacteroids. Moreover, the bacteria contained no nitrogenase proteins, whereas leghemoglobin was detected in the cytosol of the nodules. These results indicate that Ljsym75 is required for bacterial differentiation into nitrogen-fixing bacteroids in nodules, and thus the Ljsym75 gene was renamed sen1 (for stationary endosymbiont nodule). Linkage analysis using DNA markers showed that Sen1 is located on chromosome 4.

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Two Ineffective-Nodulating Mutants of Lotus japonicus--Different Phenotypes Caused by the Blockage of Endocytotic Bacterial Release and Nodule Maturation

Imaizumi-Anraku

Kawaguchi

Koiwa

et al. 1997

Plant and Cell Physiology

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Pyruvate‐sensitive AOX exists as a non‐covalently associated dimer in the homeothermic spadix of the skunk cabbage, Symplocarpus renifolius

et al. 2007

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The cyanide-resistant alternative oxidase (AOX) is a homodimeric protein whose activity can be regulated by the oxidation/reduction state and by a-keto acids. To further clarify the role of AOX in the skunk cabbage, Symplocarpus renifolius, we have performed expression and functional analyses of the encoding gene. Among the various tissues in the skunk cabbage, SrAOX transcripts were found to be specifically expressed in the thermogenic spadix. Moreover, our data demonstrate that the SrAOX protein exists as a non-covalently associated dimer in the thermogenic spadix, and is more sensitive to pyruvate than to other carboxylic acids. Our results suggest that the pyruvatemediated modification of SrAOX activity plays a significant role in thermoregulation in the skunk cabbage.

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cDNAs for the synthesis of cyclic carotenoids in petals of Gentiana lutea and their regulation during flower development

Zhu

Yamamura

Nishihara

et al. 2003

Biochimica et Biophysica Acta (BBA) - Gene Structure and Expres

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Hiroyuki Koiwa

Root, Root Hair, and Symbiotic Mutants of the Model Legume Lotus japonicus

The Lotus japonicus Sen1 gene controls rhizobial differentiation into nitrogen-fixing bacteroids in nodules

Two Ineffective-Nodulating Mutants of Lotus japonicus--Different Phenotypes Caused by the Blockage of Endocytotic Bacterial Release and Nodule Maturation

Pyruvate‐sensitive AOX exists as a non‐covalently associated dimer in the homeothermic spadix of the skunk cabbage, Symplocarpus renifolius

cDNAs for the synthesis of cyclic carotenoids in petals of Gentiana lutea and their regulation during flower development

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