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1. Impact of abiotic stress on the regulation of cell wall biosynthesis in Populus trichocarpa

Author

Hori, Chiaki, Yu, Xiang, Mortimer, Jenny C, Sano, Ryosuke, Matsumoto, Tomoko, Kikuchi, Jun, Demura, Taku, and Ohtani, Misato

Subjects
Plant Biology, Biological Sciences, Genetics, abiotic stress, monolignol biosynthesis, poplar, secondary cell wall, Biotechnology
Abstract

Growth of biomass for lignocellulosic biofuels and biomaterials may take place on land unsuitable for foods, meaning the biomass plants are exposed to increased abiotic stresses. Thus, the understanding how this affects biomass composition and quality is important for downstream bioprocessing. Here, we analyzed the effect of drought and salt stress on cell wall biosynthesis in young shoots and xylem tissues of Populus trichocarpa using transcriptomic and biochemical methods. Following exposure to abiotic stress, stem tissues reduced vessel sizes, and young shoots increased xylem formation. Compositional analyses revealed a reduction in the total amount of cell wall polysaccharides. In contrast, the total lignin amount was unchanged, while the ratio of S/G lignin was significantly decreased in young shoots. Consistent with these observations, transcriptome analyses show that the expression of a subset of cell wall-related genes is tightly regulated by drought and salt stresses. In particular, the expression of a part of genes encoding key enzymes for S-lignin biosynthesis, caffeic acid O-methyltransferase and ferulate 5-hydroxylase, was decreased, suggesting the lower S/G ratio could be partly attributed to the down-regulation of these genes. Together, our data identifies a transcriptional abiotic stress response strategy in poplar, which results in adaptive changes to the plant cell wall.

Published
2020

3. Insights into Land Plant Evolution Garnered from the Marchantia polymorpha Genome

Author

Bowman, John L, Kohchi, Takayuki, Yamato, Katsuyuki T, Jenkins, Jerry, Shu, Shengqiang, Ishizaki, Kimitsune, Yamaoka, Shohei, Nishihama, Ryuichi, Nakamura, Yasukazu, Berger, Frédéric, Adam, Catherine, Aki, Shiori Sugamata, Althoff, Felix, Araki, Takashi, Arteaga-Vazquez, Mario A, Balasubrmanian, Sureshkumar, Barry, Kerrie, Bauer, Diane, Boehm, Christian R, Briginshaw, Liam, Caballero-Perez, Juan, Catarino, Bruno, Chen, Feng, Chiyoda, Shota, Chovatia, Mansi, Davies, Kevin M, Delmans, Mihails, Demura, Taku, Dierschke, Tom, Dolan, Liam, Dorantes-Acosta, Ana E, Eklund, D Magnus, Florent, Stevie N, Flores-Sandoval, Eduardo, Fujiyama, Asao, Fukuzawa, Hideya, Galik, Bence, Grimanelli, Daniel, Grimwood, Jane, Grossniklaus, Ueli, Hamada, Takahiro, Haseloff, Jim, Hetherington, Alexander J, Higo, Asuka, Hirakawa, Yuki, Hundley, Hope N, Ikeda, Yoko, Inoue, Keisuke, Inoue, Shin-ichiro, Ishida, Sakiko, Jia, Qidong, Kakita, Mitsuru, Kanazawa, Takehiko, Kawai, Yosuke, Kawashima, Tomokazu, Kennedy, Megan, Kinose, Keita, Kinoshita, Toshinori, Kohara, Yuji, Koide, Eri, Komatsu, Kenji, Kopischke, Sarah, Kubo, Minoru, Kyozuka, Junko, Lagercrantz, Ulf, Lin, Shih-Shun, Lindquist, Erika, Lipzen, Anna M, Lu, Chia-Wei, De Luna, Efraín, Martienssen, Robert A, Minamino, Naoki, Mizutani, Masaharu, Mizutani, Miya, Mochizuki, Nobuyoshi, Monte, Isabel, Mosher, Rebecca, Nagasaki, Hideki, Nakagami, Hirofumi, Naramoto, Satoshi, Nishitani, Kazuhiko, Ohtani, Misato, Okamoto, Takashi, Okumura, Masaki, Phillips, Jeremy, Pollak, Bernardo, Reinders, Anke, Rövekamp, Moritz, Sano, Ryosuke, Sawa, Shinichiro, Schmid, Marc W, Shirakawa, Makoto, Solano, Roberto, Spunde, Alexander, Suetsugu, Noriyuki, Sugano, Sumio, Sugiyama, Akifumi, Sun, Rui, Suzuki, Yutaka, and Takenaka, Mizuki

Subjects
Biological Sciences, Genetics, Life on Land, Adaptation, Biological, Biological Evolution, Embryophyta, Gene Expression Regulation, Plant, Genome, Plant, Marchantia, Molecular Sequence Annotation, Signal Transduction, Transcription, Genetic, Marchantia polymorpha, auxin, charophycean algae, land plant evolution, sex chromosome, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

The evolution of land flora transformed the terrestrial environment. Land plants evolved from an ancestral charophycean alga from which they inherited developmental, biochemical, and cell biological attributes. Additional biochemical and physiological adaptations to land, and a life cycle with an alternation between multicellular haploid and diploid generations that facilitated efficient dispersal of desiccation tolerant spores, evolved in the ancestral land plant. We analyzed the genome of the liverwort Marchantia polymorpha, a member of a basal land plant lineage. Relative to charophycean algae, land plant genomes are characterized by genes encoding novel biochemical pathways, new phytohormone signaling pathways (notably auxin), expanded repertoires of signaling pathways, and increased diversity in some transcription factor families. Compared with other sequenced land plants, M. polymorpha exhibits low genetic redundancy in most regulatory pathways, with this portion of its genome resembling that predicted for the ancestral land plant. PAPERCLIP.

Published
2017

10. A leaf‐emanated signal orchestrates grain size and number in response to maternal resources

Author

Ta, Kim Nhung, primary, Shimizu‐Sato, Sae, additional, Agata, Ayumi, additional, Yoshida, Yuri, additional, Taoka, Ken‐ichiro, additional, Tsuji, Hiroyuki, additional, Akagi, Takashi, additional, Tanizawa, Yasuhiro, additional, Sano, Ryosuke, additional, Nosaka‐Takahashi, Misuzu, additional, Suzuki, Toshiya, additional, Demura, Taku, additional, Toyoda, Atsushi, additional, Nakamura, Yasukazu, additional, and Sato, Yutaka, additional

Published
2023
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11. Fern Phylogeny Based on rbcL Nucleotide Sequences

Author

Hasebe, Mitsuyasu, Wolf, Paul G, Pryer, Kathleen M, Ueda, Kunihiko, Ito, Motomi, Sano, Ryosuke, Gastony, Gerald J, Yokoyama, Jun, Manhart, James R, Murakami, Noriaki, Crane, Edmund H, Haufler, Christopher H, Hauk, Warren D, and BioStor

Published
1995

12. Deep evolutionary origin of gamete-directed zygote activation by KNOX/BELL transcription factors in green plants

Author

Hisanaga, Tetsuya, Fujimoto, Shota, Cui, Yihui, Sato, Katsutoshi, Sano, Ryosuke, Yamaoka, Shohei, Kohchi, Takayuki, Berger, Frédéric, Nakajima, Keiji, Hisanaga, Tetsuya, Fujimoto, Shota, Cui, Yihui, Sato, Katsutoshi, Sano, Ryosuke, Yamaoka, Shohei, Kohchi, Takayuki, Berger, Frédéric, and Nakajima, Keiji

Abstract

KNOX and BELL transcription factors regulate distinct steps of diploid development in plants. In the green alga Chlamydomonas reinhardtii, KNOX and BELL proteins are inherited by gametes of the opposite mating types and heterodimerize in zygotes to activate diploid development. By contrast, in land plants such as Physcomitrium patens and Arabidopsis thaliana, KNOX and BELL proteins function in meristem maintenance and organogenesis during the later stages of diploid development. However, whether the contrasting functions of KNOX and BELL were acquired independently in algae and land plants is currently unknown. Here, we show that in the basal land plant species Marchantia polymorpha, gamete-expressed KNOX and BELL are required to initiate zygotic development by promoting nuclear fusion in a manner strikingly similar to that in C. reinhardtii. Our results indicate that zygote activation is the ancestral role of KNOX/BELL transcription factors, which shifted toward meristem maintenance as land plants evolved.

Published
2023

14. Contribution of NAC Transcription Factors to Plant Adaptation to Land

Author

Xu, Bo, Ohtani, Misato, Yamaguchi, Masatoshi, Toyooka, Kiminori, Wakazaki, Mayumi, Sato, Mayuko, Kubo, Minoru, Nakano, Yoshimi, Sano, Ryosuke, Hiwatashi, Yuji, Murata, Takashi, Kurata, Tetsuya, Yoneda, Arata, Kato, Ko, Hasebe, Mitsuyasu, and Demura, Taku

Published
2014

23. Deep evolutionary origin of gamete-directed zygote activation by KNOX/BELL transcription factors in green plants

Author

Hisanaga, Tetsuya, Fujimoto, Shota, Cui, Yihui, Sato, Katsutoshi, Sano, Ryosuke, Yamaoka, Shohei, Kohchi, Takayuki, Berger, Frédéric, Nakajima, Keiji, Hisanaga, Tetsuya, Fujimoto, Shota, Cui, Yihui, Sato, Katsutoshi, Sano, Ryosuke, Yamaoka, Shohei, Kohchi, Takayuki, Berger, Frédéric, and Nakajima, Keiji

Abstract

KNOX and BELL transcription factors regulate distinct steps of diploid development in plants. In the green alga Chlamydomonas reinhardtii, KNOX and BELL proteins are inherited by gametes of the opposite mating types and heterodimerize in zygotes to activate diploid development. By contrast, in land plants such as Physcomitrium patens and Arabidopsis thaliana, KNOX and BELL proteins function in meristem maintenance and organogenesis during the later stages of diploid development. However, whether the contrasting functions of KNOX and BELL were acquired independently in algae and land plants is currently unknown. Here, we show that in the basal land plant species Marchantia polymorpha, gamete-expressed KNOX and BELL are required to initiate zygotic development by promoting nuclear fusion in a manner strikingly similar to that in C. reinhardtii. Our results indicate that zygote activation is the ancestral role of KNOX/BELL transcription factors, which shifted toward meristem maintenance as land plants evolved., identifier:2050-084X

Published
2021

30. KaPPA-View4: a metabolic pathway database for representation and analysis of correlation networks of gene co-expression and metabolite co-accumulation and omics data

Author

Sakurai, Nozomu, Ara, Takeshi, Ogata, Yoshiyuki, Sano, Ryosuke, Ohno, Takashi, Sugiyama, Kenjiro, Hiruta, Atsushi, Yamazaki, Kiyoshi, Yano, Kentaro, Aoki, Koh, Aharoni, Asaph, Hamada, Kazuki, Yokoyama, Koji, Kawamura, Shingo, Otsuka, Hirofumi, Tokimatsu, Toshiaki, Kanehisa, Minoru, Suzuki, Hideyuki, Saito, Kazuki, and Shibata, Daisuke

Published
2011
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35. Plant secondary cell wall proteome analysis with an inducible system for xylem vessel cell differentiation.

Author

Arae, Toshihiro, Nakakoji, Mai, Noguchi, Masahiro, Kamon, Eri, Sano, Ryosuke, Demura, Taku, and Ohtani, Misato

Subjects
PROTEOMICS, PLANT cell walls, BACTERIAL cell walls, CELLULOSE synthase, CELL differentiation, XYLEM, ARABIDOPSIS thaliana
Abstract

Plant cell walls are typically composed of polysaccharide polymers and cell wall proteins (CWPs). CWPs account for approximately 10% of the plant cell wall structure and perform a wide range of functions. Previous studies have identified approximately 1000 CWPs in the model plant Arabidopsis thaliana; however, the analyses mainly targeted primary cell walls, which are generated at cell division. In contrast, little is known about CWPs in secondary cell walls (SCWs), which are rigid and contain the phenolic polymer lignin. Here, we performed a cell wall proteome analysis to obtain novel insights into CWPs in SCWs. To this end, we tested multiple methods for cell wall extraction with cultured Arabidopsis cells carrying the VND7‐VP16‐GR system, with which cells can be transdifferentiated into xylem‐vessel‐like cells with lignified SCWs by dexamethasone treatment. We then subjected the protein samples to in‐gel trypsin digestion followed by LC‐MS/MS analysis. The different extraction methods resulted in the detection of different cell wall fraction proteins (CWFPs). In particular, centrifugation conditions had a strong impact on the extracted CWFP species, resulting in the increased number of identified CWFPs. We successfully identified 896 proteins as CWFPs in total, including proteases, expansins, purple phosphatase, well‐known lignin‐related enzymes (laccase and peroxidase), and 683 of 896 proteins were newly identified CWFPs. These results demonstrate the usefulness of our CWP analysis method. Further analyses of SCW‐related CWPs could be expected to produce information useful for understanding the roles of CWPs in plant cell functions. [ABSTRACT FROM AUTHOR]

Published
2022
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40. Transcription Factors VND1-VND3 Contribute to Cotyledon Xylem Vessel Formation1[OPEN]

Author

Tan, Tian Tian, Endo, Hitoshi, Sano, Ryosuke, Kurata, Tetsuya, Yamaguchi, Masatoshi, Ohtani, Misato, and Demura, Taku

Subjects
Light, Arabidopsis Proteins, Gene Expression Profiling, fungi, Arabidopsis, food and beverages, Articles, Genes, Plant, Models, Biological, Plant Roots, Gene Expression Regulation, Plant, Xylem, Mutation, cardiovascular system, Cluster Analysis, RNA, Messenger, Cotyledon, Transcription Factors
Abstract

VND1, VND2, and VND3 are required for xylem vessel element formation in the secondary veins of Arabidopsis cotyledons grown under continuous dark conditions.

Published
2017

42. Expression and protein localization analyses of Arabidopsis GLABRA3 (GL3) in tomato (Solanum lycopersicum) root epidermis

Author

Tominaga-Wada, Rumi, Ota, Kyosuke, Hayashi, Naoto, Yamada, Koh, Sano, Ryosuke, and Wada, Takuji

Subjects
integumentary system, fungi, food and beverages, Note
Abstract

The arrangement of root hair and non-hair cells in the root epidermis provides a useful model for understanding the cell fate determination system in plants. A network of related transcription factors, including GLABRA3 (GL3), influences the patterning of cell types in Arabidopsis. GL3 is expressed primarily in root hair cells and encodes a bHLH transcription factor, which inhibits root hair differentiation in Arabidopsis root epidermis. By transforming the GL3 promoter::GFP into tomato, we demonstrated that the Arabidopsis GL3 promoter can function in tomato root epidermis. GFP fluorescence was observed in almost all root epidermal cells in the GL3::GFP transgenic tomato plants, indicating that all root epidermal cells of tomato possess root hair cell identity similar to that of Arabidopsis root hair cells. This is consistent with the phenotype of the tomato root, in which all epidermal cells produce root hairs. Moreover, we observed the localization of a GL3:GFP fusion protein in GL3::GL3:GFP transgenic tomato; although GL3 is known to exclusively localize in non-hair cell nuclei in Arabidopsis root epidermis, GL3:GFP fluorescence was detected not in the nuclei but in the cytoplasm of transgenic tomato epidermal cells. These results suggest that the nuclear localization mechanism differs between tomato and Arabidopsis.

Published
2017

43. Involvement of VNS NAC-domain transcription factors in tracheid formation in Pinus taeda.

Author

Akiyoshi, Nobuhiro, Nakano, Yoshimi, Sano, Ryosuke, Kunigita, Yusuke, Ohtani, Misato, and Demura, Taku

Subjects
LOBLOLLY pine, NICOTIANA benthamiana, TRANSCRIPTION factors, CELLULOSE synthase, SHOOT apexes, APOPTOSIS
Abstract

Vascular plants have two types of water-conducting cells, xylem vessel cells (in angiosperms) and tracheid cells (in ferns and gymnosperms). These cells are commonly characterized by secondary cell wall (SCW) formation and programmed cell death (PCD), which increase the efficiency of water conduction. The differentiation of xylem vessel cells is regulated by a set of NAC (NAM, ATAF1/2 and CUC2) transcription factors, called the VASCULAR-RELATED NAC-DOMAIN (VND) family, in Arabidopsis thaliana Linne. The VNDs regulate the transcriptional induction of genes required for SCW formation and PCD. However, information on the transcriptional regulation of tracheid cell differentiation is still limited. Here, we performed functional analysis of loblolly pine (Pinus taeda Linne) VND homologs (PtaVNS, for VND, NST/SND, SMB-related protein). We identified five PtaVNS genes in the loblolly pine genome, and four of these PtaVNS genes were highly expressed in tissues with tracheid cells, such as shoot apices and developing xylem. Transient overexpression of PtaVNS genes induced xylem vessel cell-like patterning of SCW deposition in tobacco (Nicotiana benthamiana Domin) leaves, and up-regulated the promoter activities of loblolly pine genes homologous to SCW-related MYB transcription factor genes and cellulose synthase genes, as well as to cysteine protease genes for PCD. Collectively, our data indicated that PtaVNS proteins possess transcriptional activity to induce the molecular programs required for tracheid formation, i.e., SCW formation and PCD. Moreover, these findings suggest that the VNS–MYB-based transcriptional network regulating water-conducting cell differentiation in angiosperm and moss plants is conserved in gymnosperms. [ABSTRACT FROM AUTHOR]

Published
2020
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48. Root-Knot and Cyst Nematodes Activate Procambium-Associated Genes in Arabidopsis Roots

Author

Yamaguchi, Yasuka L., primary, Suzuki, Reira, additional, Cabrera, Javier, additional, Nakagami, Satoru, additional, Sagara, Tomomi, additional, Ejima, Chika, additional, Sano, Ryosuke, additional, Aoki, Yuichi, additional, Olmo, Rocio, additional, Kurata, Tetsuya, additional, Obayashi, Takeshi, additional, Demura, Taku, additional, Ishida, Takashi, additional, Escobar, Carolina, additional, and Sawa, Shinichiro, additional

Published
2017
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49. Chloroplastic ATP synthase builds up a proton motive force preventing production of reactive oxygen species in photosystem I

Author

Takagi, Daisuke, primary, Amako, Katsumi, additional, Hashiguchi, Masaki, additional, Fukaki, Hidehiro, additional, Ishizaki, Kimitsune, additional, Goh, Tatsuaki, additional, Fukao, Yoichiro, additional, Sano, Ryosuke, additional, Kurata, Tetsuya, additional, Demura, Taku, additional, Sawa, Shinichiro, additional, and Miyake, Chikahiro, additional

Published
2017
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