metal ion binding sites
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2021 ◽  
Vol 2021 ◽  
pp. 1-11
Author(s):  
Jing Qu ◽  
Sheng S. Yin ◽  
Han Wang

The metal ion binding of transmembrane proteins (TMPs) plays a fundamental role in biological processes, pharmaceutics, and medicine, but it is hard to extract enough TMP structures in experimental techniques to discover their binding mechanism comprehensively. To predict the metal ion binding sites for TMPs on a large scale, we present a simple and effective two-stage prediction method TMP-MIBS, to identify the corresponding binding residues using TMP sequences. At present, there is no specific research on the metal ion binding prediction of TMPs. Thereby, we compared our model with the published tools which do not distinguish TMPs from water-soluble proteins. The results in the independent verification dataset show that TMP-MIBS has superior performance. This paper explores the interaction mechanism between TMPs and metal ions, which is helpful to understand the structure and function of TMPs and is of great significance to further construct transport mechanisms and identify potential drug targets.


2019 ◽  
Vol 1 (1) ◽  
pp. 025-036
Author(s):  
Zihan Tian ◽  
◽  
Cao Wei ◽  
Yutaka Moriwaki ◽  
Tohru Terada ◽  
...  

PLoS ONE ◽  
2017 ◽  
Vol 12 (8) ◽  
pp. e0183756 ◽  
Author(s):  
Xiaoyong Cao ◽  
Xiuzhen Hu ◽  
Xiaojin Zhang ◽  
Sujuan Gao ◽  
Changjiang Ding ◽  
...  

ChemInform ◽  
2015 ◽  
Vol 46 (30) ◽  
pp. no-no
Author(s):  
C. Pezzato ◽  
S. Maiti ◽  
J. L.-Y. Chen ◽  
A. Cazzolaro ◽  
C. Gobbo ◽  
...  

2015 ◽  
Vol 71 (2) ◽  
pp. 256-265 ◽  
Author(s):  
Takashi Kawamura ◽  
Tomoki Kobayashi ◽  
Nobuhisa Watanabe

In order to investigate the mechanism of the reaction catalyzed by HindIII, structures of HindIII–DNA complexes with varying durations of soaking time in cryoprotectant buffer containing manganese ions were determined by the freeze-trap method. In the crystal structures of the complexes obtained after soaking for a longer duration, two manganese ions, indicated by relatively higher electron density, are clearly observed at the two metal ion-binding sites in the active site of HindIII. The increase in the electron density of the two metal-ion peaks followed distinct pathways with increasing soaking times, suggesting variation in the binding rate constant for the two metal sites. DNA cleavage is observed when the second manganese ion appears, suggesting that HindIII uses the two-metal-ion mechanism, or alternatively that its reactivity is enhanced by the binding of the second metal ion. In addition, conformational change in a loop near the active site accompanies the catalytic reaction.


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