Kinetic Analysis of Bacteriophage Sf6 Binding to Outer Membrane Protein A Using Whole Virions

Abstract: For successful infection, viruses must recognize their respective host cells. A common mechanism of host recognition by viruses is to utilize a portion of the host cell as a receptor.Bacteriophage Sf6, which infects Shigella flexneri, uses lipopolysaccharide as a primary receptor and then requires interaction with a secondary receptor, a role that can be fulfilled by either outer membrane proteins (Omp) A or C. Our previous work showed that specific residues in the loops of OmpA mediate Sf6 infection. To bette… Show more

“…The molecular biology of viral absorption onto the surface of bacterial and animal cells has been the focus of much recent study (Dimitrov 2004, Grove and Marsh 2011, Yamauchi and Helenius 2013, Maginnis 2018, Koehler et al 2020, Huss et al 2021. The kinetics of virus binding to cell surface has also been investigated (Moldovan et al 2007, Hubbs et al 2019, Echeverría-Vega et al 2020, Koonjan et al 2022. These studies are consistent with the assumption that the binding sites for virus on the surface of a bacterium become saturated as the density of viral particles increase.…”

Lytic/Lysogenic Transition as a Life-History Switch

“…The molecular biology of viral absorption onto the surface of bacterial and animal cells has been the focus of much recent study (Dimitrov 2004, Grove and Marsh 2011, Yamauchi and Helenius 2013, Maginnis 2018, Koehler et al 2020, Huss et al 2021. The kinetics of virus binding to cell surface has also been investigated (Moldovan et al 2007, Hubbs et al 2019, Echeverría-Vega et al 2020, Koonjan et al 2022. These studies are consistent with the assumption that the binding sites for virus on the surface of a bacterium become saturated as the density of viral particles increase.…”

Lytic/Lysogenic Transition as a Life-History Switch

“…Antibodies have a binding constant, kD, in the range of 1 to 10 nM while bacteriophages have a binding constant closer to 10 to 50 nM. 51,52 PAFC presents a rapid way to detect microscopic particles under flow based on their ability to absorb laser light. These initial experiments demonstrate our ability to use readily available protein dyes on bacteriophages without affecting their ability to attach to target bacteria.…”

Bacteriophage-mediated identification of bacteria using photoacoustic flow cytometry