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Differences between apo and three holo forms of the intestinal fatty acid binding protein seen by molecular dynamics computer calculations 下载免费PDF全文
It is commonly believed that binding affinity can be estimated by consideration of local changes of ligand and protein. This paper discusses a set of molecular dynamics simulations of intestinal fatty acid binding protein addressing the protein's response to presence or absence of different ligands. A 5-ns simulation was performed of the protein without a ligand, and three simulations (one 5-ns and two 2-ns) were performed with different fatty acids bound. The results indicate that, although the basic protein structure is unchanged by the presence of the ligand, other properties are significantly affected by ligand binding. For example, zero-time covariance patterns between protein, bound waters, and ligand vary between the different simulations. Moreover, the interaction energies between ligand and specific residues indicate that different ligands are stabilized in different ways. In sum, the results suggest that binding thermodynamics within this system will need to be calculated not from a subset of nearby protein:ligand interactions, but will depend on a knowledge of the motions coupling together water, protein, and ligand. 相似文献
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E. S. Kropotova R. A. Tychko O. L. Zinov’eva A. F. Zyryanova S. L. Khankin V. L. Cherkes V. A. Aliev S. F. Beresten N. Yu. Oparina T. D. Mashkova 《Molecular Biology》2010,44(2):216-222
Colorectal cancer is one of the most common cancers in the world. Changes in AKR1B1 and AKR1B10 expression levels, whose diagnostic value was previously shown for several other cancer types, were studied in colorectal tumors. These genes encode aldose reductases, members of the aldo-keto reductase superfamily, which comprises enzymes capable to reduce a range of aromatic and aliphatic aldehydes and ketones. They are also involved in retinoid metabolism and carcinogenesis. AKR1B1 and AKR1B10 mRNA levels were compared in paired specimens of normal and colorectal tumor tissues using RT-PCR and quantitative real-time PCR. For the first time, the downregulation of these genes was demonstrated in colorectal carcinoma. AKR1B10 expression was decreased in most tumor specimens (88%, 65/74) even at the early stages, and in more than 60% of cases mRNA levels were decreased more than 10-fold. AKR1B1 mRNA levels were decreased in 10% of specimens. Therefore, these two structurally similar genes show quite different mRNA expression patterns in colorectal cancer, suggestive of their different functional roles in the intestine. Significant downregulation of AKR1B10 expression can be considered a potential diagnostic marker of colorectal cancer. 相似文献
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Molecular dynamics computer simulations can provide a third leg which balances the contributions of both structural biology and binding studies performed on the lipid binding protein family. In this context, these calculations help to establish a dialogue between all three communities, by relating experimental observables with details of structure. Working towards this connection is important, since experience has shown the difficulty of inferring thermodynamic properties from a single static conformation. The challenge is exemplified by ongoing attempts to interpret the impact of mutagenesis on structure and function (i.e. binding). A detailed atomic-level understanding of this system could be achieved with the support of all three legs, paving the way towards rational design of proteins with novel specificities. This paper provides an outline of the connections possible between experiment and theory concerning lipid binding proteins. 相似文献
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