Your search keyword '"Townsend, J.P."' showing total 2 results

1. Structural Characterisation of Ligand-Binding Determinants in Human Lung Surfactant Protein D: Influence of Asp325

Author

Shrive, A.K., Martin, C., Burns, I., Paterson, J.M., Martin, J.D., Townsend, J.P., Waters, P., Clark, H.W., Kishore, U., Reid, K.B.M., and Greenhough, T.J.

Subjects

*MOLECULAR structure, *LIGAND binding (Biochemistry), *SURFACE active agents, *PROTEINS, *LUNGS, *CRYSTALS, *HEXYLENE glycol, *CARBOHYDRATES

Abstract

Abstract: The crystal structures of a biologically and therapeutically active recombinant homotrimeric fragment of human lung surfactant protein D with a series of bound ligands have been determined. While the structures reveal various different binding modes, all utilise a similarly positioned pair of mannose-type O3′ and O4′ hydroxyls with no direct interaction between any non-terminal sugar and protein. The orientation, position, and interactions of the bound terminal sugar depend on the sugar itself, the presence and form of glycosidic linkage, and the environment in the crystal, which, via Asp325, places stereochemical and electronic constraints, different for the three different subunits in the homotrimer, on the ligand-binding site. As a direct consequence of this influence, the other binding-pocket flanking residue, Arg343, exhibits variable conformation and variable interactions with bound ligand and leaves open to question which orientation of terminal mannobiose, and of other terminal disaccharides, may be present in extended physiological ligands. The combined structural evidence shows that there is significant flexibility in recognition; that Asp325, in addition to Arg343, is an important determinant of ligand selectivity, recognition, and binding; and that differences in crystal contact interfaces exert, through Asp325, significant influence on preferred binding modes. [Copyright &y& Elsevier]

Published

2009

2. Phase-specific gene expression underlying morphological adaptations of the dimorphic human pathogenic fungus, Coccidioides posadasii

Author

Johannesson, H., Kasuga, T., Schaller, R.A., Good, B., Gardner, M.J., Townsend, J.P., Cole, G.T., and Taylor, J.W.

Subjects

*GENES, *HEREDITY, *GENE expression, *PATHOGENIC fungi

Abstract

Abstract: Coccidioides posadasii is a dimorphic fungal pathogen that grows as a filamentous saprobe in the soil and as endosporulating spherules within the host. To identify genes specific to the pathogenic phase of Co. posadasii, we carried out a large-scale study of gene expression in two isolates of the species. From the sequenced Co. posadasii genome, we chose 1000 open reading frames to construct a 70-mer microarray. RNA was recovered from both isolates at three life-cycle phases: hyphae, presegmented spherules, and spherules releasing endospores. Comparative hybridizations were conducted in a circuit design, permitting comparison between both isolates at all three life-cycle phases, and among all life-cycle phases for each isolate. By using this approach, we identified 92 genes that were differentially expressed between pathogenic and saprobic phases in both fungal isolates, and 43 genes with consistent differential expression between the two parasitic developmental phases. Genes with elevated expression in the pathogenic phases of both isolates included a number of genes that were involved in the response to environmental stress as well as in the metabolism of lipids. The latter observation is in agreement with previous studies demonstrating that spherules contain a higher proportion of lipids than saprobic phase tissue. Intriguingly, we discovered statistically significant and divergent levels of gene expression between the two isolates profiled for 64 genes. The results suggest that incorporating more than one isolate in the experimental design offers a means of categorizing the large collection of candidate genes that transcriptional profiling typically identifies into those that are strain-specific and those that characterize the entire species. [Copyright &y& Elsevier]

Published

2006