Topological dynamics of holins in programmed bacterial lysis. Academic Article

abstract

• The fate of phage-infected bacteria is determined by the holin, a small membrane protein that triggers to disrupt the membrane at a programmed time, allowing a lysozyme to attack the cell wall. S(21)68, the holin of phage 21, has two transmembrane domains (TMDs) with a predicted N-in, C-in topology. Surprisingly, TMD1 of S(21)68 was found to be dispensable for function, to behave as a SAR ("signal-anchor-release") domain in exiting the membrane to the periplasm, and to engage in homotypic interactions in the soluble phase. The departure of TMD1 from the bilayer coincides with the lethal triggering of the holin and is accelerated by membrane depolarization. Basic residues added at the N terminus of S(21)68 prevent the escape of TMD1 to the periplasm and block hole formation by TMD2. Lysis thus depends on dynamic topology, in that removal of the inhibitory TMD1 from the bilayer frees TMD2 for programmed formation of lethal membrane lesions.

authors

• Young, Ryland

published proceedings

• Proc Natl Acad Sci U S A

altmetric score

• 6

author list (cited authors)

• Park, T., Struck, D. K., Deaton, J. F., & Young, R. y.

citation count

• 89

complete list of authors

• Park, Taehyun||Struck, Douglas K||Deaton, John F||Young, Ry

publication date

• December 2006

publisher

• Proceedings of the National Academy of Sciences  Publisher

published in

• Proceedings of the National Academy of Sciences of the United States of America  Journal

keywords

• Amino Acid Sequence
• Bacteriolysis
• Bacteriophages
• Base Sequence
• Cell Membrane
• Escherichia Coli
• Molecular Sequence Data
• Multigene Family
• Viral Proteins

PubMed Central ID

• 17172454

Digital Object Identifier (DOI)

• 10.1073/pnas.0600943103

URI

• https://hdl.handle.net/1969.1/180647

start page

• 19713

end page

• 19718

volume

• 103

issue

• 52

URL

• http://dx.doi.org/10.1073/pnas.0600943103