Studies on plant calmodulin and its interaction with antagonist W7 by Ln3+ luminescence probes

被引：0

作者：

Liu, DL

Yang, YS

Sun, DY

Wang, SB

Zhang, HJ

Gong, ML

机构：

[1] Zhongshan Univ, Dept Chem, Guangzhou 510275, Peoples R China

[2] Hebei Normal Univ, Dept Biol, Shijiazhuang 050016, Peoples R China

[3] Chinese Acad Sci, Changchun Inst Appl Chem, Lab Rare Earth Chem & Phys, Changchun 130022, Peoples R China

来源：

JOURNAL OF RARE EARTHS | 1998年 / 16卷 / 02期

关键词：

rare earths; calmodulin; luminescence probe; calmodulin antagonist;

D O I：

暂无

中图分类号：

O69 [应用化学];

学科分类号：

081704 ;

摘要：

Plant calmodulin (CaM) has been extracted from cauliflower, and the purified CaM has been identified with the activation of NAD kinase (NADK) and the inhibition effect of CaM antagonist W-7. CaM's intrinsic fluorescence and Tb3+ fluorescence showed that there was one tyrosine residue and four metal-binding sites in cauliflower CaM. Based on Forster-type nonradiative energy theory, the distances of Tyr --> site III, IV have been determined, and these are 1.23 nm (Tyr --> site III ) and 1.18 nm(Tyr --> site IV). The Eu3+ and Tb3+ fluorescence probes showed that the combination of CaM with W-7 resulted in significant change on CaM's conformation, but did not affect coordination environment of metal-binding sites.

引用

页码：134 / 138

页数：5

共 50 条

[21] STUDIES ON ROLES OF CALMODULIN IN FLAGELLAR MOVEMENT OF SEA-URCHIN SPERMATOZOA USING CALMODULIN ANTAGONIST (W-7)
IWASA, F
HASEGAWA, Y
ISHIJIMA, S
NIITSU, N
MOHRI, H
ZOOLOGICAL SCIENCE, 1984, 1 (06) : 865 - 865
[22] Luminescence and Energy Transfer of Li2Y4(MoO4)7: Ln3+ (Ln = Dy, Eu) Phosphors
Zhao, Bing
Chen, Feng
Ru, Jingjing
Guo, Feiyun
Chen, Jianzhong
ECS JOURNAL OF SOLID STATE SCIENCE AND TECHNOLOGY, 2021, 10 (05)
[23] Re-dispersion and film formation of GdVO4: Ln3+ (Ln3+ = Dy3+, Eu3+, Sm3+, Tm3+) nanoparticles: particle size and luminescence studies
Singh, N. Shanta
Ningthoujam, R. S.
Phaomei, Ganngam
Singh, S. Dorendrajit
Vinu, A.
Vatsa, R. K.
DALTON TRANSACTIONS, 2012, 41 (15) : 4404 - 4412
[24] Facile synthesis of re-dispersible YVO4:Ln3+ (Ln3+ = Dy3+, Eu3+, Sm3+) nanocrystals: Luminescence studies and sensing of Cu2+ ions
Wangkhem, Ranjoy
Singh, N. Shanta
Singh, N. Premananda
Singh, S. Dorendrajit
Singh, L. Robindro
JOURNAL OF LUMINESCENCE, 2018, 203 : 341 - 348
[25] Ln3+ doping in CaYAl3O7 and luminescence concentration quenching studied via a new computer modelling strategy
Bispo, Giordano F. da C.
Jackson, Robert A.
Macedo, Zelia Soares
Valerio, Mario E. G.
OPTICAL MATERIALS, 2019, 92 : 212 - 216
[26] Enhanced anti-Stokes luminescence in LaNbO4: Ln3+ (Ln3+ = Yb3+, Er3+/Ho3+/Tm3+) with abundant color (vol 7, pg 16777, 2017)
Huang, Huining
Zhou, Haifeng
Zhou, Juan
Wang, Tao
Huang, Dapeng
Wu, Yaqiang
Sun, Leilei
Zhou, Guangjun
Zhan, Jie
Hu, Jifan
RSC ADVANCES, 2017, 7 (31): : 19305 - 19305
[27] Dynamic secondary structural changes in Ca2+-saturated calmodulin upon interaction with the antagonist, W-7
Sasakura, Daisuke
Nunomura, Wataru
Takakuwa, Yuichi
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 2012, 423 (02) : 360 - 365
[28] The calmodulin antagonist W7 inhibits class c-type Ca2+ channels by a mechanism distinct to the Ca2+-induced inactivation process
Höfer, GF
Kepplinger, KJF
Kahr, H
Groschner, K
Pereverzev, A
Schneider, T
Klugbauer, N
Hofmann, F
Romanin, C
BIOPHYSICAL JOURNAL, 1999, 76 (01) : A93 - A93
[29] Rapid microwave reflux process for the synthesis of pure hexagonal NaYF4:Yb3+,Ln3+,Bi3+ (Ln3+ = Er3+, Tm3+, Ho3+) and its enhanced UC luminescence
Niu, Na
He, Fei
Gai, Shili
Li, Chunxia
Zhang, Xiao
Huang, Shaohua
Yang, Piaoping
JOURNAL OF MATERIALS CHEMISTRY, 2012, 22 (40) : 21613 - 21623
[30] Fabrication, microstructure and upconversion luminescence of Yb3+/Ln3+ (Ln=Ho, Er, Tm) co-doped Y2Ti2O7 ceramics
Guo, Yanyan
Wang, Dianyuan
Zhao, Xin
Wang, Fang
MATERIALS RESEARCH BULLETIN, 2016, 73 : 84 - 89

← 1 2 3 4 5 →