Mirai Mogi scite author profile

Mirai Mogi

3Publications

101Citation Statements Received

56Citation Statements Given

How they've been cited

106

How they cite others

110

Affiliations

The University of Tokyo, Meiji University, Tokyo Metropolitan University

Publications

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Distinct Gene Expression Profiles in Egg and Synergid Cells of Rice as Revealed by Cell Type-Specific Microarrays

Ohnishi

Takanashi

Mogi

et al. 2010

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Double fertilization in flowering plants refers to a process in which two sperm cells, carried by the pollen tube, fertilize both the egg and the central cell after their release into a synergid cell of the female gametophyte. The molecular processes by which the female gametophytic cells express their unique functions during fertilization are not well understood. Genes expressed in egg and synergid cells might be important for multiple stages of the plant reproductive process. Here, we profiled genomewide gene expression in egg and synergid cells in rice (Oryza sativa), a model monocot, using a nonenzymatic cell isolation technique. We found that the expression profiles of the egg and synergid cells were already specified at the micropylar end of the female gametophyte during the short developmental period that comprises the three consecutive mitotic nuclear divisions after megaspore generation. In addition, we identified a large number of genes expressed in the rice egg and synergid cells and characterized these genes using Gene Ontology analysis. The analysis suggested that epigenetic and posttranscriptional regulatory mechanisms are involved in the specification and/or maintenance of these cells. Comparisons between the rice profiles and reported Arabidopsis (Arabidopsis thaliana) profiles revealed that genes enriched in the egg/synergid cell of rice were distinct from those in Arabidopsis.

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Studies of mitochondrial morphology and DNA amount in the rice egg cell

et al. 2009

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In plant vegetative cells, mitochondria are usually small and grain-shaped. In contrast, unusually shaped giant mitochondria (large cup-shaped or long stretched-rod-shaped) appear in the egg cells of geranium, maize, Ipomoea nil, and bracken. In this study, to characterize egg cell mitochondria in rice, we used nonenzymatic manual dissection to isolate unfertilized egg cells of rice and observed the egg cell mitochondria and mitochondrial DNA (mtDNA) simultaneously. These observations showed that the mitochondria in the rice egg cell are small and grain-shaped, unlike the mitochondria in geranium, maize, I. nil, and bracken. Double staining of mitochondria by MitoTracker and mtDNA by SYBR Green I showed that mitochondria in the rice egg cell have a large amount of mtDNA compared with the rice root protoplast. We also used real-time PCR analysis to quantify the mtDNA amount in the rice egg cell. We quantified the copy numbers of four mitochondrial genes per single rice egg cell and rice leaf protoplast. Real-time PCR analysis revealed that the egg cell has more than ten times more copy numbers of all of four genes encoded in the mitochondrial genome compared with the leaf protoplast.

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miRNAs control HAM1 functions at the single-cell-layer level and are essential for normal embryogenesis in Arabidopsis

et al. 2018

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KEY MESSAGE: miR171a controls HAM1 functions within the protodermal cells of the embryo, and these controls are essential for normal embryogenesis in Arabidopsis. Arabidopsis thaliana miR171a is known to bind to and cleave mRNAs of three HAIRY MERISTEM (HAM) genes that encode members of the GRAS family transcriptional regulators. The molecular functions of the HAM genes are still being elucidated in Arabidopsis. However, detailed expression patterns of miR171a and the effects of the failure of miR171a to suppress HAM genes were unknown till now. Here, we show the detailed expression patterns of miR171a and HAM1 using green fluorescent protein and confocal scanning microscopy. Our observations revealed that miR171a was expressed in the surface cell layer of the embryo and shoot apical meristem, and it controlled HAM1 functions. To determine the impact of the failure of miR171a to suppress of HAM1, we introduced seven synonymous mutations into the miR171a target site of the HAM1 gene (modified HAM1, mHAM1) and generated transgenic plants that had mHAM1 driven by HAM1 native promoter. The mHAM1 transgenic plants showed organogenic defects. These results indicate that the control of HAM1 functions at the single-cell-layer level by miR171a is essential for proper organ formation in Arabidopsis.

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Mirai Mogi

Distinct Gene Expression Profiles in Egg and Synergid Cells of Rice as Revealed by Cell Type-Specific Microarrays

Studies of mitochondrial morphology and DNA amount in the rice egg cell

miRNAs control HAM1 functions at the single-cell-layer level and are essential for normal embryogenesis in Arabidopsis

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