2012
DOI: 10.1371/journal.pone.0039252
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Prediction of Metal Ion–Binding Sites in Proteins Using the Fragment Transformation Method

Abstract: The structure of a protein determines its function and its interactions with other factors. Regions of proteins that interact with ligands, substrates, and/or other proteins, tend to be conserved both in sequence and structure, and the residues involved are usually in close spatial proximity. More than 70,000 protein structures are currently found in the Protein Data Bank, and approximately one-third contain metal ions essential for function. Identifying and characterizing metal ion–binding sites experimentall… Show more

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Cited by 121 publications
(114 citation statements)
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“…His-rich sequences can be found in diverse families of metal transporters (59). Additionally, histidines tend to be enriched in binding sites for iron (60). We generated three mutant constructions-a 3-His (H445A, H450A, H452A), a 4-His (H460A, H462A, H465A, H466A), and a composite 7-His mutant-by site-specific mutagenesis (Fig.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…His-rich sequences can be found in diverse families of metal transporters (59). Additionally, histidines tend to be enriched in binding sites for iron (60). We generated three mutant constructions-a 3-His (H445A, H450A, H452A), a 4-His (H460A, H462A, H465A, H466A), and a composite 7-His mutant-by site-specific mutagenesis (Fig.…”
Section: Resultsmentioning
confidence: 99%
“…S5B). Given the identification of essential amino acids in loop 7, we created two additional mutant constructs that alter regions rich in Glu and Asp residues in this loop, as acidic side chains are often involved in metal binding (60) (Fig. 6B, EXXE-4b and EXXE-5b).…”
Section: Resultsmentioning
confidence: 99%
“…In 2006, Deng et al (2006) developed the graphtheory-based and geometry-based approach to detect calciumbinding sites, and got a sensitivity of about 90% for 123 calcium binding proteins. Lu et al (2012) predicted the metal ion-binding site in proteins by the fragment transformation method. By using the method, they compared 273 known calcium binding proteins with 407 binding templates and achieved 94.1% accuracy with 48.9% true positive rate (Lu et al, 2012).…”
Section: +mentioning
confidence: 99%
“…Lu et al (2012) predicted the metal ion-binding site in proteins by the fragment transformation method. By using the method, they compared 273 known calcium binding proteins with 407 binding templates and achieved 94.1% accuracy with 48.9% true positive rate (Lu et al, 2012). Roy and Zhang (2012) recognized protein-ligand binding site by global structural alignment and local geometry refinement using low-resolution protein structural models, which obtained a good result in the blind test in CASP9 (Schmidt et al, 2011).…”
Section: +mentioning
confidence: 99%
“…For instance, it was thought that, the more G+C rich genomes in thermophilic bacteria is a result of the selection pressure acting on them, as they are more thermostable (Lu, Lin, Lin & Yu, 2012). In our study, although the optimal codon is highly conserved among C. eutropha H16, C.eutropha JMP134, C.taiwanensis, C.necatar N-1 and C.metallidurans ( Figure 5), yet there are small but notable differences in their codon usage.…”
Section: Comparison Among the Five Genomes Under Studymentioning
confidence: 55%