Publications by authors named "Tomoaki Kajiwara"
Sexual differentiation is a fundamental process in the life cycles of land plants, ensuring successful sexual reproduction and thereby contributing to species diversity and survival. In the dioicous liverwort Marchantia polymorpha, this process is governed by an autosomal sex-differentiation locus comprising FEMALE GAMETOPHYTE MYB (FGMYB), a female-promoting gene, and SUPPRESSOR OF FEMINIZATION (SUF), an antisense strand-encoded long non-coding RNA (lncRNA). SUF is specifically transcribed in male plants and suppresses the expression of FGMYB, leading to male differentiation.
View Article and Find Full Text PDFIn land plants, sexual dimorphism can develop in both diploid sporophytes and haploid gametophytes. While developmental processes of sexual dimorphism have been extensively studied in the sporophytic reproductive organs of model flowering plants such as stamens and carpels of Arabidopsis thaliana, those occurring in gametophyte generation are less well characterized due to the lack of amenable model systems. In this study, we performed three-dimensional morphological analyses of gametophytic sexual branch differentiation in the liverwort Marchantia polymorpha, using high-depth confocal imaging and a computational cell segmentation technique.
View Article and Find Full Text PDFP-MIRU, a Polarized Multispectral Imaging System, Reveals Reflection Information on the Biological Surface.
Plant Cell Physiol
December 2023
Article Synopsis
- Reflection light is crucial for understanding our environment, but our visual system has limitations that prevent us from fully utilizing the information contained in reflection light, known as the 'reflectome'.
- Despite advancements in imaging technologies, there is still a lack of an affordable and versatile system for analyzing biological surfaces.
- The P-MIRU system addresses this gap by providing an open-source, customizable, and user-friendly multispectral and polarization imaging solution that enhances our ability to visualize and analyze reflection light from biological samples.
Article Synopsis
- Sex determination in liverworts operates differently than in diploid organisms, featuring non-recombining sex chromosomes that maintain gene functions for both sexes during their haploid phase.
- Researchers identified the Feminizer gene on the U chromosome, linked to female differentiation, which regulates other key genes involved in the reproductive process.
- Phylogenetic studies suggest that the divergence of sex chromosomes occurred around 430 million years ago, highlighting that genes can retain ancestral functions even after evolving a dedicated sex determination mechanism.
Plant life cycles alternate between haploid gametophytes and diploid sporophytes. While regulatory factors determining male and female sexual morphologies have been identified for sporophytic reproductive organs, such as stamens and pistils of angiosperms, those regulating sex-specific traits in the haploid gametophytes that produce male and female gametes and hence are central to plant sexual reproduction are poorly understood. Here, we identified a MYB-type transcription factor, MpFGMYB, as a key regulator of female sexual differentiation in the haploid-dominant dioicous liverwort, MpFGMYB is specifically expressed in females and its loss resulted in female-to-male sex conversion.
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