| Literature DB >> 23891721 |
Zheng Shi1, Zi-jie Wang, Huai-long Xu, Yang Tian, Xin Li, Jin-ku Bao, Su-rong Sun, Bi-song Yue.
Abstract
Non-specific lipid transfer proteins (ns-LTPs), ubiquitously found in various types of plants, have been well-known to transfer amphiphilic lipids and promote the lipid exchange between mitochondria and microbody. In this study, an in silico analysis was proposed to study ns-LTP in Peganum harmala L., which may belong to ns-LTP1 family, aiming at constructing its three-dimensional structure. Moreover, we adopted MEGA to analyze ns-LTPs and other species phylogenetically, which brought out an initial sequence alignment of ns-LTPs. In addition, we used molecular docking and molecular dynamics simulations to further investigate the affinities and stabilities of ns-LTP with several ligands complexes. Taken together, our results about ns-LTPs and their ligand-binding activities can provide a better understanding of the lipid-protein interactions, indicating some future applications of ns-LTP-mediated transport.Entities:
Keywords: Ala; C; Cys; Docking; Glu; Leu; MD; MEGA; Molecular Evolutionary Genetics Analysis; Molecular dynamics simulations; NMR; Non-specific transfer protein; PHL-nsLTP; Peganum harmala L.; Peganum harmala L. non-specific lipid transfer protein; RMSD; RMSF; Ser; Structure; Thr; alanine; carbon; cysteine; glutamic acid; isoelectric point; leucine; molecular dynamics; non-specific lipid transfer protein; nsLTP; nuclear magnetic resonance; pI; root-mean-square deviation; root-mean-square fluctuation; serine; threonine
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Year: 2013 PMID: 23891721 DOI: 10.1016/j.compbiolchem.2013.07.001
Source DB: PubMed Journal: Comput Biol Chem ISSN: 1476-9271 Impact factor: 2.877