Your search keyword '"Komatsuda, Takao"' showing total 361 results

1. Accumulation of mutations in the AP2 homoeologs causes suppression of anther extrusion with altered spike and culm development in hexaploid wheat

Author

Nanape, Agetha Bigie, Komatsuda, Takao, and Kakeda, Katsuyuki

Published

2024

2. Most Tibetan weedy barleys originated via recombination between Btr1 and Btr2 in domesticated barley

Author

Gao, Guangqi, Yan, Luxi, Cai, Yu, Guo, Yu, Jiang, Congcong, He, Qiang, Tasnim, Sarah, Feng, Zongyun, Liu, Jun, Zhang, Jing, Komatsuda, Takao, Mascher, Martin, and Yang, Ping

Published

2024

3. Identification of Barley yellow mosaic virus Isolates Breaking rym3 Resistance in Japan

Author

Zhu, Hongjing, primary, Okiyama, Takeshi, additional, Mishina, Kohei, additional, Kikuchi, Shinji, additional, Sassa, Hidenori, additional, Komatsuda, Takao, additional, Kato, Tsuneo, additional, and Oono, Youko, additional

Published

2024

4. Evolution and Domestication of Rye

Author

Schreiber, Mona, Özkan, Hakan, Komatsuda, Takao, Mascher, Martin, Kole, Chittaranjan, Series Editor, Rabanus-Wallace, M. Timothy, editor, and Stein, Nils, editor

Published

2021

5. PmAm, a broad-spectrum powdery mildew resistance source located on Amblyopyrum muticum chromosome 6T is transferred to common wheat

Author

Xu, Wenjing, primary, Ma, Pengtao, additional, He, Huagang, additional, Yang, Zujun, additional, Han, Ran, additional, Xu, Xiaoyi, additional, Liu, Aifeng, additional, Cao, Xinyou, additional, Li, Haosheng, additional, Liu, Jianjun, additional, Komatsuda, Takao, additional, and Liu, Cheng, additional

Published

2024

6. HOMEOBOX2, the paralog of SIX-ROWED SPIKE1/HOMEOBOX1, is dispensable for barley spikelet development

Author

Thirulogachandar, Venkatasubbu, primary, Govind, Geetha, additional, Hensel, Götz, additional, Kale, Sandip M, additional, Kuhlmann, Markus, additional, Eschen-Lippold, Lennart, additional, Rutten, Twan, additional, Koppolu, Ravi, additional, Rajaraman, Jeyaraman, additional, Palakolanu, Sudhakar Reddy, additional, Seiler, Christiane, additional, Sakuma, Shun, additional, Jayakodi, Murukarthick, additional, Lee, Justin, additional, Kumlehn, Jochen, additional, Komatsuda, Takao, additional, Schnurbusch, Thorsten, additional, and Sreenivasulu, Nese, additional

Published

2024

7. A novel mutant allele at the Cleistogamy 1 locus in barley

Author

Wang, Ning, Kakeda, Katsuyuki, Tomokazu, Masahiro, Liu, Cheng, Yoshida, Megumi, Kawada, Naoyuki, and Komatsuda, Takao

Published

2021

8. Series of resistance genes in barley (Hordeum vulgare L.) that control Barley yellow mosaic virus multiplication and the root-to-leaf systemic movement

Author

Mishina, Kohei, primary, Kai, Hiroomi, additional, Hamada, Michio, additional, Haraguchi, Yuhi, additional, Oono, Youko, additional, Ordon, Frank, additional, and Komatsuda, Takao, additional

Published

2024

9. The latest on study and research abroad during mid- and post-COVID-19 periods

Author

Kakui, Hiroyuki, primary, Minamikawa, Mai, additional, Okada, Moeko, additional, Sakuma, Shun, additional, Okada, Mashiro, additional, Masuda, Kanae, additional, and Komatsuda, Takao, additional

Published

2024

10. Unleashing floret fertility in wheat through the mutation of a homeobox gene

Author

Sakuma, Shun, Golan, Guy, Guo, Zifeng, Ogawa, Taiichi, Tagiri, Akemi, Sugimoto, Kazuhiko, Bernhardt, Nadine, Brassac, Jonathan, Mascher, Martin, Hensel, Goetz, Ohnishi, Shizen, Jinno, Hironobu, Yamashita, Yoko, Ayalon, Idan, Peleg, Zvi, Schnurbusch, Thorsten, and Komatsuda, Takao

Published

2019

11. Crop genetics research in Asia: improving food security and nutrition

Author

Zhang, Qifa, Xu, Mingliang, Xia, Xianchun, Komatsuda, Takao, Varshney, Rajeev K., and Shi, Kai

Published

2020

12. Molecular Mapping and Cloning of Genes and QTLs

Author

Hansson, Mats, Komatsuda, Takao, Stein, Nils, Muehlbauer, Gary J., Kole, Chittaranjan, Series Editor, Stein, Nils, editor, and Muehlbauer, Gary J., editor

Published

2018

13. Organ‐enriched gene expression during floral morphogenesis in wild barley

Author

Chen, Gang, primary, Mishina, Kohei, additional, Wang, Qi, additional, Zhu, Hongjing, additional, Tagiri, Akemi, additional, Kikuchi, Shinji, additional, Sassa, Hidenori, additional, Oono, Youko, additional, and Komatsuda, Takao, additional

Published

2023

14. miR172 downregulates the translation of cleistogamy 1 in barley

Author

Anwar, Nadia, Ohta, Masaru, Yazawa, Takayuki, Sato, Yutaka, Li, Chao, Tagiri, Akemi, Sakuma, Mari, Nussbaumer, Thomas, Bregitzer, Phil, Pourkheirandish, Mohammad, Wu, Jianzhong, and Komatsuda, Takao

Published

2018

15. Extreme Suppression of Lateral Floret Development by a Single Amino Acid Change in the VRS1 Transcription Factor

Author

Sakuma, Shun, Lundqvist, Udda, Kakei, Yusuke, Thirulogachandar, Venkatasubbu, Suzuki, Takako, Hori, Kiyosumi, Wu, Jianzhong, Tagiri, Akemi, Rutten, Twan, Koppolu, Ravi, Shimada, Yukihisa, Houston, Kelly, Thomas, William T.B., Waugh, Robbie, Schnurbusch, Thorsten, and Komatsuda, Takao

Published

2017

16. Wild emmer genome architecture and diversity elucidate wheat evolution and domestication

Author

Avni, Raz, Nave, Moran, Barad, Omer, Baruch, Kobi, Twardziok, Sven O., Gundlach, Heidrun, Hale, Iago, Mascher, Martin, Spannagl, Manuel, Wiebe, Krystalee, Jordan, Katherine W., Golan, Guy, Deek, Jasline, Ben-Zvi, Batsheva, Ben-Zvi, Gil, Himmelbach, Axel, MacLachlan, Ron P., Sharpe, Andrew G., Fritz, Allan, Ben-David, Roi, Budak, Hikmet, Fahima, Tzion, Korol, Abraham, Faris, Justin D., Hernandez, Alvaro, Mikel, Mark A., Levy, Avraham A., Steffenson, Brian, Maccaferri, Marco, Tuberosa, Roberto, Cattivelli, Luigi, Faccioli, Primetta, Ceriotti, Aldo, Kashkush, Khalil, Pourkheirandish, Mohammad, Komatsuda, Takao, Eilam, Tamar, Sela, Hanan, Sharon, Amir, Ohad, Nir, Chamovitz, Daniel A., Mayer, Klaus F.X., Stein, Nils, Ronen, Gil, Peleg, Zvi, Pozniak, Curtis J., Akhunov, Eduard D., and Distelfeld, Assaf

Published

2017

17. Genetic resistance in barley against Japanese soil-borne wheat mosaic virus functions in the roots

Author

Okada, Kaori, primary, Xu, Wenjing, additional, Mishina, Kohei, additional, Oono, Youko, additional, Kato, Tsuneo, additional, Namai, Kiyoshi, additional, and Komatsuda, Takao, additional

Published

2023

18. Wheat Ym2 originated from Aegilops sharonensis and confers resistance to soil-borne Wheat yellow mosaic virus infection to the roots

Author

Mishina, Kohei, primary, Suzuki, Takako, additional, Oono, Youko, additional, Yamashita, Yoko, additional, Zhu, Hongjing, additional, Ogawa, Taiichi, additional, Ohta, Masaru, additional, Doman, Kohei, additional, Xu, Wenjing, additional, Takahashi, Daichi, additional, Miyazaki, Taiga, additional, Tagiri, Akemi, additional, Soma, Chihiro, additional, Horita, Harukuni, additional, Nasuda, Shuhei, additional, De Oliveira, Romain, additional, Paux, Etienne, additional, Chen, Guoxiong, additional, Pourkheirandish, Mohammad, additional, Wu, Jianzhong, additional, Liu, Cheng, additional, and Komatsuda, Takao, additional

Published

2023

19. Integrated transcriptome and metabolome analysis reveals that flavonoids function in wheat resistance to powdery mildew

Author

Xu, Wenjing, primary, Xu, Xiaoyi, additional, Han, Ran, additional, Wang, Xiaolu, additional, Wang, Kai, additional, Qi, Guang, additional, Ma, Pengtao, additional, Komatsuda, Takao, additional, and Liu, Cheng, additional

Published

2023

20. Domestication

Author

Komatsuda, Takao, Widholm, Jack M., Series editor, Kumlehn, Jochen, Series editor, Nagata, Toshiyuki, Series editor, and Stein, Nils, editor

Published

2014

21. Genome-Wide Analysis of Snf2 Gene Family Reveals Potential Role in Regulation of Spike Development in Barley

Author

Chen, Gang, primary, Mishina, Kohei, additional, Zhu, Hongjing, additional, Kikuchi, Shinji, additional, Sassa, Hidenori, additional, Oono, Youko, additional, and Komatsuda, Takao, additional

Published

2022

22. Characterization and genetic mapping of the β-diketone deficient eceriferum-b barley mutant

Author

Zhou, Qin, Li, Chao, Mishina, Kohei, Zhao, Jiecai, Zhang, Jiwei, Duan, Ruijun, Ma, Xiaoying, Wang, Aidong, Meng, Qianxiang, Komatsuda, Takao, and Chen, Guoxiong

Published

2017

23. Resequencing theVrs1 gene in Spanish barley landraces revealed reversion of six-rowed to two-rowed spike

Author

Casas, Ana M., Contreras-Moreira, Bruno, Cantalapiedra, Carlos P., Sakuma, Shun, Gracia, María Pilar, Moralejo, Marian, Molina-Cano, José Luis, Komatsuda, Takao, and Igartua, Ernesto

Published

2018

24. Wheat yellow mosaic virus resistance in wheat cultivar Madsen acts in roots but not in leaves

Author

Liu, Cheng, Suzuki, Takako, Mishina, Kohei, Habekuss, Antje, Ziegler, Angelika, Li, Chao, Sakuma, Shun, Chen, Guoxiong, Pourkheirandish, Mohammad, and Komatsuda, Takao

Published

2016

25. Wheat Elongator Subunit 4 Negatively Regulates Freezing Tolerance by Regulating Ethylene Accumulation

Author

Wang, Kai, primary, Zhai, Mingjuan, additional, Han, Ran, additional, Wang, Xiaolu, additional, Xu, Wenjing, additional, Zeng, Xiaoxue, additional, Qi, Guang, additional, Komatsuda, Takao, additional, and Liu, Cheng, additional

Published

2022

26. Grain Disarticulation in Wild Wheat and Barley

Author

Pourkheirandish, Mohammad, primary and Komatsuda, Takao, additional

Published

2022

27. Six-rowed spike4 (Vrs4) controls spikelet determinacy and row-type in barley

Author

Koppolu, Ravi, Anwar, Nadia, Sakuma, Shun, Tagiri, Akemi, Lundqvist, Udda, Pourkheirandish, Mohammad, Rutten, Twan, Seiler, Christiane, Himmelbach, Axel, Ariyadasa, Ruvini, Youssef, Helmy Mohamad, Stein, Nils, Sreenivasulu, Nese, Komatsuda, Takao, and Schnurbusch, Thorsten

Published

2013

28. Resistance to wheat yellow mosaic virus in Madsen wheat is controlled by two major complementary QTLs

Author

Suzuki, Takako, Murai, Miyuki-Nitta, Hayashi, Takeshi, Nasuda, Shuhei, Yoshimura, Yasuhiro, and Komatsuda, Takao

Published

2015

29. High-resolution genetic mapping and physical map construction for the fertility restorer Rfm1 locus in barley

Author

Ui, Hajime, Sameri, Mohammad, Pourkheirandish, Mohammad, Chang, Men-Chi, Shimada, Hiroaki, Stein, Nils, Komatsuda, Takao, and Handa, Hirokazu

Published

2015

30. An ATP-binding cassette subfamily G full transporter is essential for the retention of leaf water in both wild barley and rice

Author

Chen, Guoxiong, Komatsuda, Takao, Ma, Jian Feng, Nawrath, Christiane, Pourkheirandish, Mohammad, Tagiri, Akemi, Hu, Yin-Gang, Sameri, Mohammad, Li, Xinrong, Zhao, Xin, Liu, Yubing, Li, Chao, Ma, Xiaoying, Wang, Aidong, Nair, Sudha, Wang, Ning, Miyao, Akio, Sakuma, Shun, Yamaji, Naoki, Zheng, Xiuting, and Nevo, Eviatar

Published

2011

31. Cleistogamous Flowering in Barley Arises from the Suppression of MicroRNA-Guided HvAP2 mRNA Cleavage

Author

Nair, Sudha K., Wang, Ning, Turuspekov, Yerlan, Pourkheirandish, Mohammad, Sinsuwongwat, Suphawat, Chen, Guoxiong, Sameri, Mohammad, Tagiri, Akemi, Honda, Ichiro, Watanabe, Yoshiaki, Kanamori, Hiroyuki, Wicker, Thomas, Stein, Nils, Nagamura, Yoshiaki, Matsumoto, Takashi, Komatsuda, Takao, and Phillips, Ronald L.

Published

2010

32. Molecular evolution and phylogeny of the RPB2 gene in the genus Hordeum

Author

Sun, Genlou, Pourkheirandish, Mohammad, and Komatsuda, Takao

Published

2009

33. Analysis of Intraspecies Diversity in Wheat and Barley Genomes Identifies Breakpoints of Ancient Haplotypes and Provides Insight into the Structure of Diploid and Hexaploid Triticeae Gene Pools

Author

Wicker, Thomas, Krattinger, Simon G., Lagudah, Evans S., Komatsuda, Takao, Pourkheirandish, Mohammad, Matsumoto, Takashi, Cloutier, Sylvie, Reiser, Laurenz, Kanamori, Hiroyuki, Sato, Kazuhiro, Perovic, Dragan, Stein, Nils, and Keller, Beat

Published

2009

34. The Importance of Barley Genetics and Domestication in a Global Perspective

Author

POURKHEIRANDISH, MOHAMMAD and KOMATSUDA, TAKAO

Published

2007

35. A Phylogenetic Analysis Based on Nucleotide Sequence of a Marker Linked to the Brittle Rachis Locus Indicates a Diphyletic Origin of Barley

Author

AZHAGUVEL, PERUMAL and KOMATSUDA, TAKAO

Published

2007

36. Six-Rowed Barley Originated from a Mutation in a Homeodomain-Leucine Zipper I-Class Homeobox Gene

Author

Komatsuda, Takao, Pourkheirandish, Mohammad, He, Congfen, Azhaguvel, Perumal, Kanamori, Hiroyuki, Perovic, Dragan, Stein, Nils, Graner, Andreas, Wicker, Thomas, Tagiri, Akemi, Lundqvist, Udda, Fujimura, Tatsuhito, Matsuoka, Makoto, Matsumoto, Takashi, and Yano, Masahiro

Published

2007

37. Wheat yellow mosaic virus resistant line, ‘Kitami-94’, developed by introgression of two resistance genes from the cultivar ‘Madsen’

Author

Suzuki, Takako, primary, Yoshimura, Yasuhiro, additional, Ohnishi, Shizen, additional, Jinno, Hironobu, additional, Sonoda, Tatsuya, additional, Kasuya, Masashi, additional, Souma, Chihiro, additional, Inoue, Tetsuya, additional, Kurushima, Masatomo, additional, Sugawara, Akira, additional, Maeno, Shinji, additional, and Komatsuda, Takao, additional

Published

2022

38. Two dominant genes in barley (Hordeum vulgare L.) complementarily encode perfect resistance to Japanese soil-borne wheat mosaic virus

Author

Okada, Kaori, primary, Tanaka, Tsuyoshi, additional, Fukuoka, Shuichi, additional, Oono, Youko, additional, Mishina, Kohei, additional, Oikawa, Tetsuo, additional, Sato, Kazuhiro, additional, Kato, Tsuneo, additional, Komatsuda, Takao, additional, and Namai, Kiyoshi, additional

Published

2022

39. Dosage of duplicated and antifunctionalized homeobox proteins influences spikelet development in barley

Author

Thirulogachandar, Venkatasubbu, primary, Govind, Geetha, additional, Hensel, Goetz, additional, Kale, Sandip, additional, Kuhlmann, Markus, additional, Eschen-Lippold, Lennart, additional, Rutten, Twan, additional, Koppolu, Ravi, additional, Rajaraman, Jeyaraman, additional, Reddy, Palakolanu Sudhakar, additional, Seiler, Christiane, additional, Sakuma, Shun, additional, Jayakodi, Murukarthick, additional, Lee, Justin, additional, Kumlehn, Jochen, additional, Komatsuda, Takao, additional, Schnurbusch, Thorsten, additional, and Sreenivasulu, Nese, additional

Published

2021

40. Transcriptome analysis of barley identifies heat shock and HD-Zip I transcription factors up-regulated in response to multiple abiotic stresses

Author

Matsumoto, Takashi, Morishige, Hiromi, Tanaka, Tsuyoshi, Kanamori, Hiroyuki, Komatsuda, Takao, Sato, Kazuhiro, Itoh, Takeshi, Wu, Jianzhong, and Nakamura, Shingo

Published

2014

41. Genome-Wide Analysis of Snf2 Gene Family Reveals Potential Role in Regulation of Spike Development in Barley.

Author

Chen, Gang, Mishina, Kohei, Zhu, Hongjing, Kikuchi, Shinji, Sassa, Hidenori, Oono, Youko, and Komatsuda, Takao

Subjects

BARLEY, RECOMBINANT DNA, DNA replication, GENETIC transcription regulation, FLOWER development, GENE families

Abstract

Sucrose nonfermenting 2 (Snf2) family proteins, as the catalytic core of ATP-dependent chromatin remodeling complexes, play important roles in nuclear processes as diverse as DNA replication, transcriptional regulation, and DNA repair and recombination. The Snf2 gene family has been characterized in several plant species; some of its members regulate flower development in Arabidopsis. However, little is known about the members of the family in barley (Hordeum vulgare). Here, 38 Snf2 genes unevenly distributed among seven chromosomes were identified from the barley (cv. Morex) genome. Phylogenetic analysis categorized them into 18 subfamilies. They contained combinations of 21 domains and consisted of 3 to 34 exons. Evolution analysis revealed that segmental duplication contributed predominantly to the expansion of the family in barley, and the duplicated gene pairs have undergone purifying selection. About eight hundred Snf2 family genes were identified from 20 barley accessions, ranging from 38 to 41 genes in each. Most of these genes were subjected to purification selection during barley domestication. Most were expressed abundantly during spike development. This study provides a comprehensive characterization of barley Snf2 family members, which should help to improve our understanding of their potential regulatory roles in barley spike development. [ABSTRACT FROM AUTHOR]

Published

2023

42. An alternative mechanism for cleistogamy in barley

Author

Wang, Ning, Ning, Shunzong, Pourkheirandish, Mohammad, Honda, Ichiro, and Komatsuda, Takao

Published

2013

43. The genetics of inflorescence architecture in Hordeum

Author

KOMATSUDA, Takao

Published

2014

44. Structure, transcription and post-transcriptional regulation of the bread wheat orthologs of the barley cleistogamy gene Cly1

Author

Ning, Shunzong, Wang, Ning, Sakuma, Shun, Pourkheirandish, Mohammad, Wu, Jianzhong, Matsumoto, Takashi, Koba, Takato, and Komatsuda, Takao

Published

2013

45. An eceriferum locus, cer-zv, is associated with a defect in cutin responsible for water retention in barley (Hordeum vulgare) leaves

Author

Li, Chao, Wang, Aidong, Ma, Xiaoying, Pourkheirandish, Mohammad, Sakuma, Shun, Wang, Ning, Ning, Shunzong, Nevo, Eviatar, Nawrath, Christiane, Komatsuda, Takao, and Chen, Guoxiong

Published

2013

46. Domestication

Author

Komatsuda, Takao, primary

Published

2014

47. Unleashing floret fertility in wheat through the mutation of a homeobox gene

Author

Sakuma, Shun, Golan, Guy, Guo, Zifeng, Ogawa, Taiichi, Tagiri, Akemi, Sugimoto, Kazuhiko, Bernhardt, Nadine, Brassac, Jonathan, Mascher, Martin, Hensel, Goetz, Ohnishi, Shizen, Jinno, Hironobu, Yamashita, Yoko, Ayalon, Idan, Peleg, Zvi, Schnurbusch, Thorsten, Komatsuda, Takao, Sakuma, Shun, Golan, Guy, Guo, Zifeng, Ogawa, Taiichi, Tagiri, Akemi, Sugimoto, Kazuhiko, Bernhardt, Nadine, Brassac, Jonathan, Mascher, Martin, Hensel, Goetz, Ohnishi, Shizen, Jinno, Hironobu, Yamashita, Yoko, Ayalon, Idan, Peleg, Zvi, Schnurbusch, Thorsten, and Komatsuda, Takao

Abstract

Floret fertility is a key determinant of the number of grains per inflorescence in cereals. During the evolution of wheat (Triticum sp.), floret fertility has increased, such that current bread wheat (Triticum aestivum) cultivars set three to five grains per spikelet. However, little is known regarding the genetic basis of floret fertility. The locus Grain Number Increase 1 (GNI1) is shown here to be an important contributor to floret fertility. GNI1 evolved in the Triticeae through gene duplication. The gene, which encodes a homeodomain leucine zipper class I (HD-Zip I) transcription factor, was expressed most abundantly in the most apical floret primordia and in parts of the rachilla, suggesting that it acts to inhibit rachilla growth and development. The level of GNI1 expression has decreased over the course of wheat evolution under domestication, leading to the production of spikes bearing more fertile florets and setting more grains per spikelet. Genetic analysis has revealed that the reduced-function allele GNI-A1 contributes to the increased number of fertile florets per spikelet. The RNAi-based knockdown of GNI1 led to an increase in the number of both fertile florets and grains in hexaploid wheat. Mutants carrying an impaired GNI-A1 allele out-yielded WT allele carriers under field conditions. The data show that gene duplication generated evolutionary novelty affecting floret fertility while mutations favoring increased grain production have been under selection during wheat evolution under domestication.

Published

2021

48. Extreme Suppression of Lateral Floret Development by a Single Amino Acid Change in the VRS1 Transcription Factor

Author

Sakuma, Shun, Lundqvist, Udda, Kakei, Yusuke, Thirulogachandar, Venkatasubbu, Suzuki, Takako, Hori, Kiyosumi, Wu, Jianzhong, Tagiri, Akemi, Rutten, Twan, Koppolu, Ravi, Shimada, Yukihisa, Houston, Kelly, Thomas, William T. B., Waugh, Robbie, Schnurbusch, Thorsten, Komatsuda, Takao, Sakuma, Shun, Lundqvist, Udda, Kakei, Yusuke, Thirulogachandar, Venkatasubbu, Suzuki, Takako, Hori, Kiyosumi, Wu, Jianzhong, Tagiri, Akemi, Rutten, Twan, Koppolu, Ravi, Shimada, Yukihisa, Houston, Kelly, Thomas, William T. B., Waugh, Robbie, Schnurbusch, Thorsten, and Komatsuda, Takao

Abstract

Increasing grain yield is an endless challenge for cereal crop breeding. In barley (Hordeum vulgare), grain number is controlled mainly by Six-rowed spike 1 (Vrs1), which encodes a homeodomain leucine zipper class I transcription factor. However, little is known about the genetic basis of grain size. Here, we show that extreme suppression of lateral florets contributes to enlarged grains in deficiens barley. Through a combination of fine-mapping and resequencing of deficiens mutants, we have identified that a single amino acid substitution at a putative phosphorylation site in VRS1 is responsible for the deficiens phenotype. deficiens mutant alleles confer an increase in grain size, a reduction in plant height, and a significant increase in thousand grain weight in contemporary cultivated germplasm. Haplotype analysis revealed that barley carrying the deficiens allele (Vrs1.t1) originated from two-rowed types carrying the Vrs1.b2 allele, predominantly found in germplasm from northern Africa. In situ hybridization of histone H4, a marker for cell cycle or proliferation, showed weaker expression in the lateral spikelets compared with central spikelets in deficiens. Transcriptome analysis revealed that a number of histone superfamily genes were up-regulated in the deficiens mutant, suggesting that enhanced cell proliferation in the central spikelet may contribute to larger grains. Our data suggest that grain yield can be improved by suppressing the development of specific organs that are not positively involved in sink/source relationships.

Published

2021

49. Duplication of a well-conserved homeodomain-leucine zipper transcription factor gene in barley generates a copy with more specific functions

Author

Sakuma, Shun, Pourkheirandish, Mohammad, Matsumoto, Takashi, Koba, Takato, and Komatsuda, Takao

Published

2010

50. Identification of QTLs controlling somatic embryogenesis using RI population of cultivar × weedy soybean

Author

Choi, Pilson, Mano, Yoshiro, Ishikawa, Atsuko, Odashima, Masashi, Umezawa, Taishi, Fujimura, Tatsuhito, Takahata, Yoshihito, and Komatsuda, Takao

Published

2010