The significant challenges to discover novel high-affinity inhibitors specifically targeting the cavity. In this study we put forth efforts to design such novel inhibitors. A combination of multiple theoretical methods, such as fragment library screening, molecular linking/building and molecular dynamics simulations were applied to construct and GW-610742 validate new inhibitors and their binding with NA. The modeled 09N1 structure with an open 150-loop was prepared as the receptor using Maestro. All crystal water molecules with a distance greater than 5 from the protein were deleted, hydrogen atoms were added, and bond orders were assigned. Grids were calculated before docking using the ��Receptor Grid Generation�� tool in Glide. The grid was built as a cubic box centered at the 150-cavity. The fragment library was composed of 8019 compounds provided by ChemBridge. Docking was performed using the extra precision mode of Glide. After docking, 30 fragment molecules were found to have glide scores of less than -6 kcal/mol. These fragments were chosen as the fragment candidates to be linked with the scaffold, ZMR drug molecule. The linked molecules were further filtered with a series of criteria: LogP, molecular weight, number of hydrogen bond donors/ receptors, and binding affinity pKd. LigBuilder v 1.2 was applied to construct novel inhibitors. In the linking stage, ZMR was used as the linking scaffold onto which the selected fragment candidates were added. The C-3 position on ZMR is the only position that can purchase 1252003-15-8 accommodate growth towards the 150-cavity with minimal distortion of other NA contact sites. In total, 19755 compounds were generated from the linking process, but the majority was filtered using the above criteria. Finally, four ligands were successfully linked. Explicit water MD simulations were performed on NAligands complex to verify the stability of the binding modes. Each of these systems was solvated with TIP3P water in an octahedral box. The minimum distance between the protein and the edge of the box was set to 1.0 nm. Sodium and chloride ions were added with a concentration of 100 mM into the system. Protonation states for histidine residues were determined by Chimera software. The GROMACS program suite version 4.5.4 and Amber99SB force field were us