[1]. Properties of INDETERMINATE DOMAIN Proteins from Physcomitrium patens: DNA-Binding, Interaction with GRAS Proteins, and Transcriptional Activity
Genes 14/6 1249;- (2023年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Khan, S.I, Yamada R., Shiroma, R., Abe, T.and Kozaki, A
[2]. Molecular Aspects of Seed Development Controlled by Gibberellins and Abscisic Acids
Int. J.Mol. Sci 23/3 1876- (2022年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Kozaki, A and Aoyanagi, T.
[3]. Nitrate Promotes Germination Under Inhibition by NaCl or High Concentration of Glucose
Plants 9/6 707- (2020年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Ikeya, S., Aoyanagi, T., Ishizuka, I., Takeuchi, A., and Kozaki, A.
[4]. Gene regulation via the combination of transcription factors in the INDETERMINATE DOMAIN and GRAS families
Genes 11/6 613- (2020年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Aoyanagi, T., Ikeya, S., Kobayashi, A., and Kozaki, A.
[5]. The activation mechanism of plant S6 kinase (S6K), a substrate of TOR kinase, is different from that of mammalian S6K.
FEBS letter / - (2019年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Yaguchi, M., Ikeya, S., and Kozaki, A.
[6]. Atypical Splicing Accompanied by Skipping Conserved Micro-Exons Produces Unique WRINKLED1, An AP2 Domain Transcription Factor in Rice Plants
Plants / - (2019年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Mano, F., Aoyanagi, T., Kozaki, A.
[7]. Design of a seed-specific chimeric promoter with a modified expression profile to improve seed oil content
Int. J.Mol. Sci (vol)/(num) (xxx) - (zzz) (2018年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Aoyagi, T, Kobayashi, M. and Kozaki, A
[8]. Plant S6 kinases do not require hydrophobic motif phosphorylation for activity in yeast lacking Ypk3
FEBS letter 592/(num) 610-620 (2018年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Yaguchi, M., Kozaki, A.
[9]. INDETERMINATE DOMAIN PROTEIN binding sequences in the 5'-untranslated region and promoter of the SCARECROW gene play crucial and distinct roles in regulating SCARECROW expression in roots and leaves
Plant Mol.Biol. 94/1-2 1-13 (2017年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Kobayashi, A., Miura, S. and Kozaki, A.
[10]. Evolutionary conservation of TORC1 components, TOR, Raptor, and LST8, between rice and yeast
Mol Genet Genomics. 290/5 2019-2030 (2015年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Maegawa, K., Takii, R., Ushimaru, T. and Kozaki, A.
[11]. Expression of the genes coding for plastidic acetyl-CoA carboxylase subunits is regulated by a location-sensitive transcription factor binding site.
Plant Mol.Biol 82/(num) 473-483 (2013年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Fukuda,N., Ikawa,Y., Aoyagi,T. and Kozaki,A.
[12]. Activity of transcription factor JACKDAW is essential for SHR/SCR-dependent activation of SCARECROW and MAGPIE and is modulated by reciprocal interactions with MAGPIE, SCARECROW and SHORT ROOT.
Plant Mol.Biol. 77/4-5 489-499 (2011年) [査読] 有 [国際共著論文] 該当する
[責任著者・共著者の別] 責任著者
[著者] Ogasawara, H, Kaimi, R, Colasanti, J. and Kozaki, A.
[13]. (2006) 富士山の冬を常緑で過ごすフジハタザオ.
科学 76/ 198-201 (2006年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] 増澤 武弘, 木嵜 暁子, 丑丸 敬史
[14]. The maize INDETERMINATE1 flowering time regulator defines a highly conserved zinc finger protein family in higher plants.
BMC Genomics 7/ 158-175 (2006年) [査読] 有 [国際共著論文] 該当する
[責任著者・共著者の別] 共著者
[著者] Colasanti J., Tremblay R., Wong AYM., Coneva V., Kozaki A. and Mable BK
[15]. The Maize ID1 Flowering Time Regulator is a Zinc Finger Protein with novel DNA binding properties
Nucleic Acids Res. 32/ 1710-1720 (2004年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Kozaki, A., Hake, S. and Colasanti, J.
[16]. Thiol-disulfide exchange between nuclear-encoded and chloroplast-encoded subunits of pea acetyl-CoA carboxylase
J. Biol. Chem. 276/ 39919-39925 (2001年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Kozaki, A., Mayumi, K. and Sasaki, Y.
[17]. Identification of novel potent inhibitors for ATP-phosphoribosyl transferasetusing three-dimensional structural database search technique
Quant.Struct.-Act. Relat. 20/ 143-147 (2001年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Gohda, K., Ohta, D., Kozaki, A., Fujimori, K., Mori, I. and Kikuchi, K.
[18]. Chloroplast RNA editing required for functional acetyl-CoA carboxylase in plants.
J. Biol. Chem. 276/6 3937-3940 (2000年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Sasaki,Y., Kozaki,A. Ohmori, A. Iguchi, H. and Nagano, Y.
[19]. Recombinant carboxyltransferase responsive to redox of pea plastidic acetyl-CoA carboxylase
J. Biol. Chem. 275/ 10702-10708 (2000年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Kozaki, A., Kamada, K., Nagano, Y., Iguchi, H. and Sasaki, Y.
[20]. Moleculat cloning and characterization of ATP phosphoribosyl transferase regulating the histidine biosynthesis in higher plants
Plant Physiol. 122/ 907-914 (2000年) [査読] 無 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Ohta, D., Fujimori K., Mizutani, M., Nakayama, Y., Kunpaisal-Hasimoto, R.,Münzer, M.and Kozaki, A.
[21]. 工業用植物油の効率的生産技術の開発
BIO INDUSTRY 2/ 34-41 (1999年) [査読] 無 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] 木嵜暁子
[22]. Light-dependent changes in redox status of the plastidic acetyl-CoA carboxylase and its regulatory component.
Biochem. J. 339/ 541-546 (1999年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Kozaki, A. and Sasaki, Y.
[23]. 植物の陸上化と光呼吸
遺伝 51/7 9-11 (1997年) [査読] 無 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] 木嵜 暁子、竹葉 剛
[24]. Link between light and fatty acid synthesis: thioredoxin-linked reductive activation of plastidic acetyl-CoA carboxylase.
Proc. Natl. Acad. Sci. USA 94/ 11096-11101 (1997年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Sasaki, Y., Kozaki, A., Hatano, M.
[25]. Photorespiration protects C3 plants from photooxidation.
Nature 384/ 557-560 (1996年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Kozaki, A., Takeba, G.
[26]. 葉緑体局在型グルタミン合成酵素は光傷害を回避する役割を担う(見えてきた光呼吸の意義)
化学と生物 31/ 770- (1993年) [査読] 無 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] 木嵜 暁子、竹葉 剛
[27]. ペプチドによる植物の花成誘導機構. 植物の化学調節
植物の化学調節 27/ 80-89 (1992年) [査読] 無 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] 竹葉 剛、木嵜 暁子、木戸 毅
[28]. The promoter of the gene for plastidic glutamine synthetase (GS2) from rice is developmentally regulated and exhibits substrate induced expression in transgenic tobacco plants.
Plant Cell Physiol. 33/ 233-238 (1992年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Kozaki, A., Sakamoto, A., Takeba, G.
[29]. The promoter of the gene for glutamine synthetase form rice show organ-specific and substrate-induced expression in transgenic tobacco plants.
Plant Cell Physiol 32/3 353-358 (1991年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Kozaki, A., Sakamoto, A., Tanaka, K., Takeba, G.
[30]. A Polypeptide that induces flowering in Lemna paucicostata at a very low concentration.
Plant Physiol. 95/ 1288-1290 (1991年) [査読] 無 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Kozaki, A., Tanaka, O., Takaba, G.
[31]. A flower-inducing substance of high molecular weight from higher plants.
Plant Physiol. 94/ 1677-1681 (1990年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Takeba, G., Nakajima, Y., Kozaki, A., Tanaka, O., Kasai, Z.
[32]. Flower-inducing activity of water extracts of various plant species, in particular pharbitis nil.
Plant Cell Physiol. 30/ 1023-1028 (1989年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Kaihara, S., Kozaki, A., Takimoto, A. |