Structural basis for activation of a diguanylate cyclase required for bacterial predation in Bdellovibrio
Structural basis for activation of a diguanylate cyclase required for bacterial predation in Bdellovibrio
The bacterial second messenger cyclic-di-GMP is a widespread, prominent effector of lifestyle change. An example of this occurs in the predatory bacterium Bdellovibrio bacteriovorus, which cycles between free-living and intraperiplasmic phases after entering (and killing) another bacterium. The initiation of prey invasion is governed by DgcB (GGDEF enzyme) that produces cyclic-di-GMP in response to an unknown stimulus. Here, we report the structure of DgcB, and demonstrate that the GGDEF and sensory forkhead-associated (FHA) domains form an asymmetric dimer. Our structures indicate that the FHA domain is a consensus phosphopeptide sensor, and that the ligand for activation is surprisingly derived from the N-terminal region of DgcB itself. We confirm this hypothesis by determining the structure of a FHA:phosphopeptide complex, from which we design a constitutively-active mutant (confirmed via enzyme assays). Our results provide an understanding of the stimulus driving DgcB-mediated prey invasion and detail a unique mechanism of GGDEF enzyme regulation.
Meek, Richard W.
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Cadby, Ian T.
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Moynihan, Patrick J
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Lovering, Andrew L.
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9 September 2019
Meek, Richard W.
5fdcf8d0-6b07-4d63-b719-8302fdd7a056
Cadby, Ian T.
799a2c66-3ce6-4494-a5d6-75dbf84bcc82
Moynihan, Patrick J
cc9b2f19-407e-4297-a804-67eba737266f
Lovering, Andrew L.
836e794a-429e-4af7-80d0-20d1631355d4
Meek, Richard W., Cadby, Ian T., Moynihan, Patrick J and Lovering, Andrew L.
(2019)
Structural basis for activation of a diguanylate cyclase required for bacterial predation in Bdellovibrio.
Nature Communications, 10, [4086].
(doi:10.1038/s41467-019-12051-6).
Abstract
The bacterial second messenger cyclic-di-GMP is a widespread, prominent effector of lifestyle change. An example of this occurs in the predatory bacterium Bdellovibrio bacteriovorus, which cycles between free-living and intraperiplasmic phases after entering (and killing) another bacterium. The initiation of prey invasion is governed by DgcB (GGDEF enzyme) that produces cyclic-di-GMP in response to an unknown stimulus. Here, we report the structure of DgcB, and demonstrate that the GGDEF and sensory forkhead-associated (FHA) domains form an asymmetric dimer. Our structures indicate that the FHA domain is a consensus phosphopeptide sensor, and that the ligand for activation is surprisingly derived from the N-terminal region of DgcB itself. We confirm this hypothesis by determining the structure of a FHA:phosphopeptide complex, from which we design a constitutively-active mutant (confirmed via enzyme assays). Our results provide an understanding of the stimulus driving DgcB-mediated prey invasion and detail a unique mechanism of GGDEF enzyme regulation.
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s41467-019-12051-6
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Published date: 9 September 2019
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Local EPrints ID: 476630
URI: http://eprints.soton.ac.uk/id/eprint/476630
ISSN: 2041-1723
PURE UUID: 5e3a7ccb-0efb-4352-bdbf-a1a3401fb9dd
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Date deposited: 10 May 2023 16:43
Last modified: 17 Mar 2024 04:19
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Author:
Richard W. Meek
Author:
Ian T. Cadby
Author:
Patrick J Moynihan
Author:
Andrew L. Lovering
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