Structural and Functional Studies of AlgK: A Protein Required for the Secretion of High-molecular Weight Alginate in Pseudomonas aeruginosa

Keiski, Carrie-Lynn

07 March 2011

Alginate is an exopolysaccharide secreted by Pseudomonas aeruginosa and is a major component of biofilms that infect the lungs of cystic fibrosis patients. Ten proteins have been implicated in alginate polymerization, modification and export, and are believed to assemble into a multi-protein complex that spans the cell envelope and coordinates the synthesis and secretion of alginate. AlgK is a protein encoded in the alginate biosynthetic operon, which is required for the secretion of high-molecular weight alginate. This study describes structural and functional studies of AlgK to improve our understanding of AlgK’s role in alginate biosynthesis. To shed light on the function of AlgK, C14-palmitic acid labeling and sucrose gradient fractionation studies confirmed that AlgK is an outer membrane lipoprotein. Cellular fractionation experiments also found that AlgK is involved in the proper localization of AlgE, the alginate secretion pore in the outer membrane. The structure of AlgK was determined to 2.5 Å resolution by X-ray crystallography and revealed that the protein folds into 22 alpha-helices that pack into a flexible right-handed solenoid. Closer examination of the amino acid sequence revealed that AlgK carries 9.5 tetratricopeptide repeat (TPR)-like elements. Given the role that TPR motifs generally play in protein-protein interaction and the assembly of multi-protein complexes, the presence of these motifs in AlgK suggests that it can bind to one or more proteins. Based on the results presented in this study, we propose that AlgK acts as a scaffold for the assembly of the alginate secretion complex. By mapping highly conserved residues onto the surface of our model, three putative sites of protein-protein interaction were identified. We hypothesize that the N-terminus of AlgK binds to AlgE in the outer membrane, and the C-terminus of AlgK binds to periplasmic and/or inner membrane Alg proteins, thereby acting as a linker between the inner and outer membrane components of the alginate biosynthetic complex. We further hypothesize that together AlgE and AlgK constitute a novel exopolysaccharide secretin. The alginate biosynthetic complex appears to be distinct from the canonical capsular polysaccharide systems currently described.

AlgK

x-ray crystallography

alginate

Pseudomonas aeruginosa

0487

Structural and Functional Studies of AlgK: A Protein Required for the Secretion of High-molecular Weight Alginate in Pseudomonas aeruginosa

Keiski, Carrie-Lynn

07 March 2011

Alginate is an exopolysaccharide secreted by Pseudomonas aeruginosa and is a major component of biofilms that infect the lungs of cystic fibrosis patients. Ten proteins have been implicated in alginate polymerization, modification and export, and are believed to assemble into a multi-protein complex that spans the cell envelope and coordinates the synthesis and secretion of alginate. AlgK is a protein encoded in the alginate biosynthetic operon, which is required for the secretion of high-molecular weight alginate. This study describes structural and functional studies of AlgK to improve our understanding of AlgK’s role in alginate biosynthesis. To shed light on the function of AlgK, C14-palmitic acid labeling and sucrose gradient fractionation studies confirmed that AlgK is an outer membrane lipoprotein. Cellular fractionation experiments also found that AlgK is involved in the proper localization of AlgE, the alginate secretion pore in the outer membrane. The structure of AlgK was determined to 2.5 Å resolution by X-ray crystallography and revealed that the protein folds into 22 alpha-helices that pack into a flexible right-handed solenoid. Closer examination of the amino acid sequence revealed that AlgK carries 9.5 tetratricopeptide repeat (TPR)-like elements. Given the role that TPR motifs generally play in protein-protein interaction and the assembly of multi-protein complexes, the presence of these motifs in AlgK suggests that it can bind to one or more proteins. Based on the results presented in this study, we propose that AlgK acts as a scaffold for the assembly of the alginate secretion complex. By mapping highly conserved residues onto the surface of our model, three putative sites of protein-protein interaction were identified. We hypothesize that the N-terminus of AlgK binds to AlgE in the outer membrane, and the C-terminus of AlgK binds to periplasmic and/or inner membrane Alg proteins, thereby acting as a linker between the inner and outer membrane components of the alginate biosynthetic complex. We further hypothesize that together AlgE and AlgK constitute a novel exopolysaccharide secretin. The alginate biosynthetic complex appears to be distinct from the canonical capsular polysaccharide systems currently described.

AlgK

x-ray crystallography

alginate

Pseudomonas aeruginosa

0487