Search Results - "Masahiro, Kishii"

An Update of Recent Use of Aegilops Species in Wheat Breeding by Kishii, Masahiro

“…species have significantly contributed to wheat breeding despite the difficulties involved in the handling of wild species, such as crossability and…”
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Genetic Contribution of Synthetic Hexaploid Wheat to CIMMYT’s Spring Bread Wheat Breeding Germplasm by Rosyara, Umesh, Kishii, Masahiro, Payne, Thomas, Sansaloni, Carolina Paola, Singh, Ravi Prakash, Braun, Hans-Joachim, Dreisigacker, Susanne

“…Synthetic hexaploid (SH) wheat (AABBD’D’) is developed by artificially generating a fertile hybrid between tetraploid durum wheat ( Triticum turgidum , AABB)…”
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Enlisting wild grass genes to combat nitrification in wheat farming: A nature-based solution by Subbarao, Guntur V., Kishii, Masahiro, Bozal-Leorri, Adrian, Ortiz-Monasterio, Ivan, Gao, Xiang, Ibba, Maria Itria, Karwat, Hannes, Gonzalez-Moro, M. B., Gonzalez-Murua, Carmen, Yoshihashi, Tadashi, Tobita, Satoshi, Kommerell, Victor, Braun, Hans-Joachim, Iwanaga, Masa

“…Active nitrifiers and rapid nitrification are major contributing factors to nitrogen losses in global wheat production. Suppressing nitrifier activity is an…”
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Synthetic Hexaploid Wheat: Yesterday, Today, and Tomorrow by Li, Aili, Liu, Dengcai, Yang, Wuyun, Kishii, Masahiro, Mao, Long

“…In recent years, wheat yield per hectare appears to have reached a plateau, leading to concerns for future food security with an increasing world population…”
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Stripe rust resistance in wild wheat Aegilops tauschii Coss.: genetic structure and inheritance in synthetic allohexaploid Triticum wheat lines by Kishii, Masahiro, Huerta, Julio, Tsujimoto, Hisashi, Matsuoka, Yoshihiro

“…Studies on natural plant variability for biotic (e.g. disease) and abiotic (e.g. drought) stress resistance/tolerance may provide valuable insights into the…”
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An ex ante life cycle assessment of wheat with high biological nitrification inhibition capacity by Leon, Ai, Guntur V., Subbarao, Kishii, Masahiro, Matsumoto, Naruo, Kruseman, Gideon

“…It is essential to increase food production to meet the projected population increase while reducing environmental loads. Biological nitrification inhibition…”
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A breeding strategy targeting the secondary gene pool of bread wheat: introgression from a synthetic hexaploid wheat by Hao, Ming, Zhang, Lianquan, Zhao, Laibin, Dai, Shoufen, Li, Aili, Yang, Wuyun, Xie, Die, Li, Qingcheng, Ning, Shunzong, Yan, Zehong, Wu, Bihua, Lan, Xiujin, Yuan, Zhongwei, Huang, Lin, Wang, Jirui, Zheng, Ke, Chen, Wenshuai, Yu, Ma, Chen, Xuejiao, Chen, Mengping, Wei, Yuming, Zhang, Huaigang, Kishii, Masahiro, Hawkesford, Malcolm J., Mao, Long, Zheng, Youliang, Liu, Dengcai

“…Key message Introgressing one-eighth of synthetic hexaploid wheat genome through a double top-cross plus a two-phase selection is an effective strategy to…”
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Precise estimation of genomic regions controlling lodging resistance using a set of reciprocal chromosome segment substitution lines in rice by Ookawa, Taiichiro, Aoba, Ryo, Yamamoto, Toshio, Ueda, Tadamasa, Takai, Toshiyuki, Fukuoka, Shuichi, Ando, Tsuyu, Adachi, Shunsuke, Matsuoka, Makoto, Ebitani, Takeshi, Kato, Yoichiro, Mulsanti, Indria Wahyu, Kishii, Masahiro, Reynolds, Matthew, Piñera, Francisco, Kotake, Toshihisa, Kawasaki, Shinji, Motobayashi, Takashi, Hirasawa, Tadashi

“…Severe lodging has occurred in many improved rice varieties after the recent strong typhoons in East and Southeast Asian countries. The indica variety Takanari…”
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Biological nitrification inhibitor-trait enhances nitrogen uptake by suppressing nitrifier activity and improves ammonium assimilation in two elite wheat varieties by Bozal-Leorri, Adrián, Subbarao, Guntur V, Kishii, Masahiro, Urmeneta, Leyre, Kommerell, Víctor, Karwat, Hannes, Braun, Hans-Joachim, Aparicio-Tejo, Pedro Mª, Ortiz-Monasterio, Iván, González-Murua, Carmen, González-Moro, Mª Begoña

“…Synthetic nitrification inhibitors (SNI) and biological nitrification inhibitors (BNI) are promising tools to limit nitrogen (N) pollution derived from…”
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Novel molecular marker-assisted strategy for production of wheat–Leymus mollis chromosome addition lines by Edet, Offiong U., Gorafi, Yasir S. A., Cho, Seong-woo, Kishii, Masahiro, Tsujimoto, Hisashi

“…Developing wheat–alien chromosome introgression lines to improve bread wheat’s resistance to stresses, such as drought, salinity stress and diseases, requires…”
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Development and Characterization of Synthetic Hexaploid Wheat for Improving the Resistance of Common Wheat to Leaf Rust and Heat Stress by Truong, Hai An, Lee, Hyeri, Kishii, Masahiro, Hong, Suk Whan, Lee, Hojoung

“…Synthetic hexaploid wheat (SHW) is a valuable resource for breeding because it possesses more desirable traits, such as better yield and abiotic and biotic…”
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Genome-Wide Association Study for Resistance to Tan Spot in Synthetic Hexaploid Wheat by Lozano-Ramírez, Nerida, Dreisigacker, Susanne, Sansaloni, Carolina P, He, Xinyao, Islas, Sergio Sandoval, Pérez-Rodríguez, Paulino, Carballo, Aquiles Carballo, Nava-Díaz, Cristian, Kishii, Masahiro, Singh, Pawan K

“…Synthetic hexaploid wheat (SHW) has shown effective resistance to a diversity of diseases and insects, including tan spot, which is caused by , being an…”
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Leymus EST linkage maps identify 4NsL–5NsL reciprocal translocation, wheat-Leymus chromosome introgressions, and functionally important gene loci by Larson, Steven R., Kishii, Masahiro, Tsujimoto, Hisashi, Qi, Lili, Chen, Peidu, Lazo, Gerard R., Jensen, Kevin B., Wang, Richard R.-C.

“…Allotetraploid (2 n  = 4 x  = 28) Leymus triticoides and Leymus cinereus are divergent perennial grasses, which form fertile hybrids. Genetic maps with n  = 14…”
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Can biological nitrification inhibition (BNI) genes from perennial Leymus racemosus (Triticeae) combat nitrification in wheat farming by Subbarao, G. V, Tomohiro, Ban, Masahiro, Kishii, Osamu, Ito, Samejima, H, Wang, H. Y, Pearse, S. J, Gopalakrishnan, S, Nakahara, K, Zakir Hossain, A. K. M, Tsujimoto, H, Berry, W. L

“…Using a recombinant luminescent Nitrosomonas europaea assay to quantify biological nitrification inhibition (BNI), we found that a wild relative of wheat…”
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Comparison of genome-wide gene expression patterns in the seedlings of nascent allohexaploid wheats produced by two combinations of hybrids by Jung, Yeonju, Kawaura, Kanako, Kishii, Masahiro, Sakuma, Shun, Ogihara, Yasunari

“…Allopolyploidization in plants is an important event that enhances heterosis and environmental adaptation. Common wheat, Triticum aestivum (AABBDD), which is…”
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QTL analysis of genetic loci affecting domestication-related spike characters in common wheat by Katkout, Mazen, Kishii, Masahiro, Kawaura, Kanako, Mishina, Kouhei, Sakuma, Shun, Umeda, Kazuko, Takumi, Shigeo, Nitta, Miyuki, Nasuda, Shuhei, Ogihara, Yasunari

“…Domestication-related changes that govern a spike morphology suitable for seed harvesting in cereals have resulted from mutation and selection of the genes. A…”
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Production of wheat-Psathyrostachys huashanica chromosome addition lines by Kishii, Masahiro, Dou, Quanwen, Garg, Monika, Ito, Miyuki, Tanaka, Hiroyuki, Tsujimoto, Hisashi

“…Psathyrostachys huashanica Keng (2n = 14; NhNh) is an endangered wheat-related species, with a distribution in the Huashan region of central China. It has many…”
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Changes in genome-wide gene expression during allopolyploidization and genome stabilization in hexaploid wheat by Jung, Yeonju, Kawaura, Kanako, Mishina, Kohei, Sakuma, Shun, Kishii, Masahiro, Ogihara, Yasunari

“…Allopolyploidization is an important evolutionary event in plants, but its genome-wide effects are not fully understood. Common wheat, Triticum aestivum…”
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Production of wheat-Leymus racemosus chromosome addition lines by Kishii, M, Yamada, T, Sasakuma, T, Tsujimoto, H

“…We produced ten wheat-Leymus racemosus chromosome addition lines. Eight chromosomes (A, C, F, H, I, J, k, and l) were recovered as disomic additions and two (E…”
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Biological nitrification inhibition (BNI): Is there potential for genetic interventions in the Triticeae? by Subbarao, G.V., Japan International Research Center for Agricultural Sciences, Tsukuba, Ibaraki, Kishii, M, Nakahara, K, Ishikawa, T, Ban, T, Tsujimoto, H, George, T.S, Berry, W.L, Hash, C.T, Ito, O

“…The natural ability of plants to release chemical substances from their roots that have a suppressing effect on nitrifier activity and soil nitrification, is…”
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