Exploiting topological constraints to reveal buried sequence motifs in the membrane-bound N-linked oligosaccharyl transferases

Author(s)

Imperiali, Barbara; Jaffee, Marcie Beth

Abstract

The central enzyme in N-linked glycosylation is the oligosaccharyl transferase (OTase), which catalyzes glycan transfer from a polyprenyldiphosphate-linked carrier to select asparagines within acceptor proteins. PglB from Campylobacter jejuni is a single-subunit OTase with homology to the Stt3 subunit of the complex multimeric yeast OTase. Sequence identity between PglB and Stt3 is low (17.9%); however, both have a similar predicted architecture and contain the conserved WWDxG motif. To investigate the relationship between PglB and other Stt3 proteins, sequence analysis was performed using 28 homologues from evolutionarily distant organisms. Since detection of small conserved motifs within large membrane-associated proteins is complicated by divergent sequences surrounding the motifs, we developed a program to parse sequences according to predicted topology and then analyze topologically related regions. This approach identified three conserved motifs that served as the basis for subsequent mutagenesis and functional studies. This work reveals that several inter-transmembrane loop regions of PglB/Stt3 contain strictly conserved motifs that are essential for PglB function. The recent publication of a 3.4 Å resolution structure of full-length C. lari OTase provides clear structural evidence that these loops play a fundamental role in catalysis [Lizak, C.; (2011) Nature474, 350−355]. The current study provides biochemical support for the role of the inter-transmembrane domain loops in OTase catalysis and demonstrates the utility of combining topology prediction and sequence analysis for exposing buried pockets of homology in large membrane proteins. The described approach allowed detection of the catalytic motifs prior to availability of structural data and reveals additional catalytically relevant residues that are not predicted by structural data alone.

Date issued

2011-08

URI

http://hdl.handle.net/1721.1/73497

Department

Massachusetts Institute of Technology. Department of Biology
Massachusetts Institute of Technology. Department of Chemistry

Journal

Biochemistry

Publisher

American Chemical Society (ACS)

Citation

Jaffee, Marcie B., and Barbara Imperiali. “Exploiting Topological Constraints To Reveal Buried Sequence Motifs in the Membrane-Bound N-Linked Oligosaccharyl Transferases.” Biochemistry 50.35 (2011): 7557–7567. © 2011 American Chemical Society

Version: Author's final manuscript

ISSN

0006-2960

1520-4995