1 | | 3HZU-TA6V |
20191094, 20191134
|
NE3A
|
Discovery of α-l-Glucosidase Raises the Possibility of α-l-Glucosides in Nature
|
Shishiuchi, Rikako
|
英語 / English
|
ACS Omega
|
2022
|
7
|
47411
|
2 | | KSRS-WE28 |
2011G598, 2015G024
|
NE3A
|
Crystal structures of the ligand-binding domain of human peroxisome proliferator-activated receptor δ in complexes with phenylpropanoic acid derivatives and a pyridine carboxylic acid derivative
|
Takuji Oyama
|
英語 / English
|
Acta Crystallographica Section F
|
2022
|
78
|
81
|
3 | | WJ0U-3XZP |
2021G519; 2019G508; 2019G518; 2019G097
|
5A/ 5A; NE3A/NE3A; 1A/1A; 5A/ 5A; NE3A/NE3A; 5A/ 5A; NW12A/NW12A; 5A/ 5A; NW12A/NW12A
|
Enzymatic and structural characterization of β-fructofuranosidase from the honeybee gut bacterium Frischella perrara
|
窪田 有紗/Arisa KUBOTA; 川合 礼華/Reika KAWAI; LI DING/DING LI; 殿塚 隆史/Takashi TONOZUKA
|
英語 / English
|
Applied Microbiology and Biotechnology
|
2022
|
106
|
2455
|
4 | | B86X-0Y67 |
2015G625
|
5A/ 5A; NE3A/NE3A; NW12A/NW12A
|
The α- and β-Subunit Boundary at the Stem of the Mushroom-Like α3β3-Type Oxygenase Component of Rieske Non-Heme Iron Oxygenases Is the Rieske-Type Ferredoxin-Binding Site
|
Pi-Cheng Tsai; Joydeep Chakraborty; 水口 千穂/Chiho MINAKUCHI; 野尻 秀昭/Hideaki NOJIRI
|
英語 / English
|
Applied and Environmental Microbiology
|
2022
|
88
|
|
5 | | 48G1-UZH2 |
|
5A, NE3A
|
Structural Analysis and Construction of a Thermostable Antifungal Chitinase
|
Kozome, Dan
|
英語 / English
|
Applied and Environmental Microbiology
|
2022
|
88
|
|
6 | | 8EZ2-4N49 |
2018G025, 2020G124
|
5A, NE3A
|
Molecular action of larvicidal flavonoids on ecdysteroidogenic glutathione S-transferase Noppera-bo in Aedes aegypti
|
Inaba, Kazue
|
英語 / English
|
BMC Biology
|
2022
|
20
|
|
7 | | B523-UPR7 |
2015G019; 2015G020; 2016R-69; 2017G089; 2019G018; 2021PF-B026
|
5A/ 5A; NE3A/NE3A; NW12A/NW12A; 17A/17A; NE3A/NE3A; NW12A/NW12A; 1A/1A; 17A/17A; 1A/1A; NE3A/NE3A; NW12A/NW12A; 5A/ 5A; NE3A/NE3A; NW12A/NW12A; 15A2/15A2
|
Crystal structures of glycoside hydrolase family 136 lacto-N-biosidases from monkey gut- and human adult gut bacteria
|
山田 千早/Chihaya YAMADA; 伏信 進矢/Shinya FUSHINOBU
|
英語 / English
|
Bioscience Biotechnology and Biochemistry
|
2022
|
86
|
464
|
8 | | YASM-4NF4 |
2016G566; 2015G652; 2018G520; 2020G633
|
5A/ 5A; NW12A/NW12A; 5A/ 5A; NE3A/NE3A; 5A/ 5A
|
Conformational changes in the catalytic region are responsible for heat-induced activation of hyperthermophilic homoserine dehydrogenase
|
Tatsuya Kubota; Erika Kurihara; Kazuya Watanabe; 緒方 康平/Kouhei OGATA; 金子 亮介/Ryousuke KANEKO; 後藤 勝/Masaru GOTOU; Toshihisa Ohshima; Kazuaki Yoshimune
|
英語 / English
|
Communications Biology
|
2022
|
5
|
1
|
9 | | Z7FB-3T7D |
2017G712
|
1A/1A; NE3A/NE3A; NW12A/NW12A
|
Structural insights into apoptotic regulation of human Bfk as a novel Bcl-2 family member
|
JANG DONGMAN/DONGMAN JANG; HAN Byung Woo/Byung Woo HAN; HAHN Hyung Gu/Hyung Gu HAHN; OH EUN KYUNG/EUN KYUNG OH; KIM HYOUN SOOK / HYOUN SOOK KIM
|
英語 / English
|
Computational and Structural Biotechnology Journal
|
2022
|
20
|
745
|
10 | | M00Z-2HYH |
|
NE3A, 17A, NW12A
|
Structural insights reveal the second base catalyst of isomaltose glucohydrolase
|
Takayoshi Tagami
|
英語 / English
|
FEBS Journal
|
2022
|
289
|
1118
|
11 | | P5GF-SBUH |
2012G048; 2014G087; 2014R-40; 2015R-36; 2016G083; 2016R-69; 2019G017
|
17A/17A; NE3A/NE3A; NW12A/NW12A; 5A/ 5A; NE3A/NE3A; NW12A/NW12A; NW12A/NW12A; 1A/1A; NE3A/NE3A; 1A/1A; 5A/ 5A; NW12A/NW12A; 1A/1A; 17A/17A; 1A/1A; 5A/ 5A; NE3A/NE3A; NW12A/NW12A
|
Substrate complex structure, active site labeling and catalytic role of the zinc ion in cysteine glycosidase
|
丸山 瞬/Shun MARUYAMA; 澤野 孝太/Kouta SAWANO; 味木 智子/Satoko AMAKI; 荒川 孝俊/Takatoshi ARAKAWA; 山田 千早/Chihaya YAMADA; 伏信 進矢/Shinya FUSHINOBU
|
英語 / English
|
Glycobiology
|
2022
|
32
|
171
|
12 | | W7MY-UDPS |
2021G519; 2019G508; 2019G518; 2019G097
|
5A/ 5A; NE3A/NE3A; 1A/1A; 5A/ 5A; NE3A/NE3A; 5A/ 5A; NW12A/NW12A; 5A/ 5A; NW12A/NW12A
|
Structural basis for proteolytic processing of Aspergillus sojae α-glucosidase L with strong transglucosylation activity
|
丁 一夫/Yifu DING; 大八木 彩子/Ayako OYAGI; 宮坂 祐希/Yuki MIYASAKA; 西河 淳/Atsushi NISHIKAWA; 殿塚 隆史/Takashi TONOZUKA
|
英語 / English
|
Journal of Structural Biology
|
2022
|
214
|
1
|
13 | | UGD9-79K7 |
2017G574; 2019G548; 2021G672
|
5A/ 5A; NE3A/NE3A; NW12A/NW12A; 5A/ 5A; 17A/17A; NE3A/NE3A; 5A/ 5A; NE3A/NE3A
|
Molecular Basis for Enzymatic Aziridine Formation via Sulfate Elimination
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黒澤 菫/Sumire KUROSAWA; 吉田 彩子/Ayako YOSHIDA; 富田 武郎/Takeo TOMITA; 古園 さおり/Saori KOSONO; 西山 真/Makoto NISHIYAMA
|
英語 / English
|
Journal of the American Chemical Society
|
2022
|
144
|
16164
|
14 | | 1BUP-XHYB |
2022G083、2020G114、2018G060、2017G595、2018G048、2019G535
|
1A, NE3A
|
A marine sponge-derived lectin reveals hidden pathway for thrombopoietin receptor activation
|
Watari, Hiromi
|
英語 / English
|
Nature Communications
|
2022
|
13
|
|
15 | | 9W93-YY9J |
2016G648, 2018G618
|
NE3A
|
Brassinosteroid-induced gene repression requires specific and tight promoter binding of BIL1/BZR1 via DNA shape readout
|
Nosaki, Shohei
|
英語 / English
|
Nature Plants
|
2022
|
8
|
1440
|
16 | | 80MP-TFAX |
|
NE3A, 5A, 17A
|
Structural basis of transcription regulation by CNC family transcription factor, Nrf2
|
Sengoku, Toru
|
英語 / English
|
Nucleic Acids Research
|
2022
|
50
|
12543
|
17 | | 5Z5B-JBVW |
2017G167; 2019G027; 2021G031
|
5A/ 5A; NW12A/NW12A; NE3A/NE3A; 17A/17A
|
Visualization of mutagenic nucleotide processing by Escherichia coli MutT, a Nudix hydrolase
|
中村 照也/Teruya NAKAMURA; 山縣 ゆり子/Yuriko YAMAGATA
|
英語 / English
|
Proceedings of the National Academy of Sciences of the United States of America
|
2022
|
119
|
|
18 | | MNE0-0PSE |
2018G508; 2018G546; 2020G003
|
NE3A/NE3A; 6A/6A; 10C/10C
|
Magnetic field effects on the structure and molecular behavior of pigeon iron?sulfur protein
|
新井 栄揮/Shigeki ARAI; 清水 瑠美 / Rumi Shimizu; 安達 基泰/Motoyasu ADACHI; 平井 光博/Mitsuhiro HIRAI
|
英語 / English
|
Protein Science
|
2022
|
31
|
|
19 | | JHS4-GEAC |
2018G036
|
5A, NE3A, NW12A
|
Crystal structure of the AlbEF complex involved in subtilosin A biosynthesis
|
Ishida, Kohki
|
英語 / English
|
Structure
|
2022
|
30
|
1637
|