[Effects of LncRNA UNC5B-AS1 on adhesion, invasion and migration of lung cancer cells and its mechanism].

To investigate the effects of long-chain non-coding RNA (lncRNA) UNC5B-AS1 on the adhesion, invasion and migration of lung cancer cells by regulating the expression of miR-218-5p. Twenty specimens of lung cancer patients and corresponding paracancerous tissues were surgically removed and collected from the oncology department of Chongqing Three Gorges Central Hospital from June 2017 to June 2019. Real-time quantitative PCR (qRT-PCR) was used to detect the expressions of UNC5B-AS1 in human bronchial epithelial cells HBE and different lung cancer cells of A549, H1437, H1975, H1299 and H460.

A combinatorial scoring function for protein-RNA docking.

Protein-RNA docking is still an open question. One of the main challenges is to develop an effective scoring function that can discriminate near-native structures from the incorrect ones. To solve the problem, we have constructed a knowledge-based residue-nucleotide pairwise potential with secondary structure information considered for nonribosomal protein-RNA docking.

Allosteric transitions of ATP-binding cassette transporter MsbA studied by the adaptive anisotropic network model.

The transporter MsbA is a kind of multidrug resistance ATP-binding cassette transporter that can transport lipid A, lipopolysaccharides, and some amphipathic drugs from the cytoplasmic to the periplasmic side of the inner membrane. In this work, we explored the allosteric pathway of MsbA from the inward- to outward-facing states during the substrate transport process with the adaptive anisotropic network model. The results suggest that the allosteric transitions proceed in a coupled way.

Allosteric transitions of the maltose transporter studied by an elastic network model.

The maltose transporter from Escherichia coli is one of the ATP-binding cassette (ABC) transporters that utilize the energy from ATP hydrolysis to translocate substrates across cellular membranes. Until 2011, three crystal structures have been determined for maltose transporter at different states in the process of transportation. Here, based on these crystal structures, the allosteric pathway from the resting state (inward-facing) to the catalytic intermediate state (outward-facing) is studied by applying an adaptive anisotropic network model.

The current status and challenges in the development of fusion inhibitors as therapeutics for HIV-1 infection.

HIV-1 membrane fusion as a part of the process of viral entry in the target cells is facilitated by gp41 and gp120, which are encoded by Env gene of HIV-1. Based on the structure and the mechanism researches, new treatment options targeting HIV-1 entry process have been proposed. Enfuvirtide, which mimics amino acid sequences of viral envelope glycoprotein gp41, is the first HIV-1 fusion inhibitor approved by FDA.

Insight into the inhibitory mechanism and binding mode between D77 and HIV-1 integrase by molecular modeling methods.

Integrase is an essential enzyme in the life cycle of Human immunoficiency virus type 1 (HIV-1) and also an important target for designing integrase inhibitors. In this paper, the binding modes between the wild type integrase core domain (ICD) and the W131A mutant ICD with the benzoic acid derivative--D77 were investigated using the molecular docking combined with molecular dynamics (MD) simulations. The result of MD simulations showed that the W131A substitution affected the flexibility of the region 150-167 in both the monomer A and B of the mutant type ICD.

Computer-aided design, synthesis, and biological activity evaluation of potent fusion inhibitors targeting HIV-1 gp41.

This discovered and optimized several novel HIV-1 fusion inhibitors and further evaluated the inhibitory activities of these compounds in vitro. Here, we have reported the computer-aided design, synthesis, and biological evaluation of a series of small molecule fusion inhibitors targeting HIV-1 gp41. Based on the structure of inhibitor (NB2), we carried out de novo design and screened out a series of novel structure molecules by using Leapfrog and Autodock programs.

Design, synthesis and anti-HIV integrase evaluation of N-(5-chloro-8-hydroxy-2-styrylquinolin-7-yl)benzenesulfonamide derivatives.

Styrylquinoline derivatives are demonstrated to be HIV-1 integrase inhibitors. On the basis of our previous CoMFA analysis of a series of styrylquinoline derivatives, N-[(2-substituted-styryl)-5-chloro-8-hydroxyquinolin-7-yl]-benzenesulfonamide derivatives were designed and synthesized,and their possible HIV IN inhibitory activity was evaluated.

Study on the binding mode of the integrase with DNA via steered molecular dynamics simulation.

Human immunodeficiency virus type 1 (HIV-1) integrase (IN) is an essential enzyme in the lifecycle of this virus and also an important target for the study of anti-HIV drugs. In the current work, a model for the active site of IN and viral DNA was built by combining experimental data with the results of steered molecular dynamics simulation. The model was then taken into a series automatic molecular docking calculations with two groups of inhibitors.

Study on the inhibitory mechanism and binding mode of the hydroxycoumarin compound NSC158393 to HIV-1 integrase by molecular modeling.

Human immunodeficiency virus type 1 integrase (IN) is an essential enzyme in the life cycle of this virus and also an important target for the study of anti-HIV drugs. In this work, the binding modes of the wild type IN core domain and the two mutants, that is, W132G and C130S, with the 4-hydroxycoumarin compound NSC158393 were evaluated by using the "relaxed complex" molecular docking approach combined with molecular dynamics (MD) simulations. Based on the monomer MD simulations, both of the two substitutions affect not only the stability of the 128-136 peptides, but also the flexibility of the functional 140s loop.

Molecular dynamics simulations of the bacterial periplasmic heme binding proteins ShuT and PhuT.

ShuT and PhuT are two periplasmic heme binding proteins that shuttle heme between the outer and inner membranes of the Gram-negative bacteria. Periplasmic binding proteins (PBPs) generally exhibit considerable conformational changes during the ligand binding process, whereas ShuT and PhuT belong to a class of PBPs that do not show such behavior based on their apo and holo crystal structures. By employing a series of molecular dynamic simulations on the ShuT and the PhuT, the dynamics and functions of the two PBPs were investigated.

Prediction of the binding model of HIV-1 gp41 with small molecule inhibitors.

Despite the synthetic peptides inhibit HIV-1 entry; its application of this peptide therapy may be limited due to the high cost of the peptide production and lack of its oral availability. Thus, it is necessary to identify the small molecule inhibitors reacting with the same or overlapping target sites on gp41 recognizing the antiviral peptides. In this work, a small inhibitor (TP1) is docked into the hydrophobic grooves of gp41 by using AutoDock software, resulting in five alternative energetically favorable models.

Prediction of the binding mode between BMS-378806 and HIV-1 gp120 by docking and molecular dynamics simulation.

BMS-378806 is a newly discovered small molecule that effectively blocks the binding of CD4 with gp120. The binding mode of this kind of inhibitor remains unknown. In this paper, AutoDock 3.

Exploring binding mode for styrylquinoline HIV-1 integrase inhibitors using comparative molecular field analysis and docking studies.

Aim: To understand pharmacophore properties of styrylquinoline derivatives and to design inhibitors of HIV-1 integrase.

Methods: Comparative molecular field analysis (CoMFA) was performed to analyze three-dimensional quantitative structure-activity relationship (3D-QSAR) of styrylquinoline derivatives. Thirty-eight compounds were randomly divided into a training set of 28 compounds and a test set of 10 compounds.