Cyclic-di-AMP signalling in lactic acid bacteria
Cyclic dimeric adenosine monophosphate (cyclic-di-AMP) is a nucleotide second messenger present in Gram-positive bacteria, Gram-negative bacteria and some Archaea. The intracellular concentration of cyclic-di-AMP is adjusted in response to environmental and cellular cues, primarily through the activ...
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sg-ntu-dr.10356-1722202023-12-04T15:32:09Z Cyclic-di-AMP signalling in lactic acid bacteria Turner, Mark S. Xiang, Yuwei Liang, Zhao-Xun Marcellin, Esteban Pham, Huong Thi School of Biological Sciences Science::Biological sciences Lactic Acid Bacteria Osmotic Stress Cyclic dimeric adenosine monophosphate (cyclic-di-AMP) is a nucleotide second messenger present in Gram-positive bacteria, Gram-negative bacteria and some Archaea. The intracellular concentration of cyclic-di-AMP is adjusted in response to environmental and cellular cues, primarily through the activities of synthesis and degradation enzymes. It performs its role by binding to protein and riboswitch receptors, many of which contribute to osmoregulation. Imbalances in cyclic-di-AMP can lead to pleiotropic phenotypes, affecting aspects such as growth, biofilm formation, virulence, and resistance to osmotic, acid, and antibiotic stressors. This review focuses on cyclic-di-AMP signalling in lactic acid bacteria (LAB) incorporating recent experimental discoveries and presenting a genomic analysis of signalling components from a variety of LAB, including those found in food, and commensal, probiotic, and pathogenic species. All LAB possess enzymes for the synthesis and degradation of cyclic-di-AMP, but are highly variable with regards to the receptors they possess. Studies in Lactococcus and Streptococcus have revealed a conserved function for cyclic-di-AMP in inhibiting the transport of potassium and glycine betaine, either through direct binding to transporters or to a transcriptional regulator. Structural analysis of several cyclic-di-AMP receptors from LAB has also provided insights into how this nucleotide exerts its influence. Published version Research funding for our work on c-di-AMP awarded to M.S.T., E.M., and Z-X.L. is from the Australian Research Council (grant DP190100827). Elements of this research used equipment from the Queensland node of Metabolomics Australia funded by Bioplatforms Australia, an NCRIS funded initiative. 2023-11-29T07:12:46Z 2023-11-29T07:12:46Z 2023 Journal Article Turner, M. S., Xiang, Y., Liang, Z., Marcellin, E. & Pham, H. T. (2023). Cyclic-di-AMP signalling in lactic acid bacteria. FEMS Microbiology Reviews, 47(3), 1-16. https://dx.doi.org/10.1093/femsre/fuad025 0168-6445 https://hdl.handle.net/10356/172220 10.1093/femsre/fuad025 37222477 2-s2.0-85162002486 3 47 1 16 en FEMS Microbiology Reviews © The Author(s) 2023. Published by Oxford University Press on behalf of FEMS. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Science::Biological sciences Lactic Acid Bacteria Osmotic Stress |
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Science::Biological sciences Lactic Acid Bacteria Osmotic Stress Turner, Mark S. Xiang, Yuwei Liang, Zhao-Xun Marcellin, Esteban Pham, Huong Thi Cyclic-di-AMP signalling in lactic acid bacteria |
| description |
Cyclic dimeric adenosine monophosphate (cyclic-di-AMP) is a nucleotide second messenger present in Gram-positive bacteria, Gram-negative bacteria and some Archaea. The intracellular concentration of cyclic-di-AMP is adjusted in response to environmental and cellular cues, primarily through the activities of synthesis and degradation enzymes. It performs its role by binding to protein and riboswitch receptors, many of which contribute to osmoregulation. Imbalances in cyclic-di-AMP can lead to pleiotropic phenotypes, affecting aspects such as growth, biofilm formation, virulence, and resistance to osmotic, acid, and antibiotic stressors. This review focuses on cyclic-di-AMP signalling in lactic acid bacteria (LAB) incorporating recent experimental discoveries and presenting a genomic analysis of signalling components from a variety of LAB, including those found in food, and commensal, probiotic, and pathogenic species. All LAB possess enzymes for the synthesis and degradation of cyclic-di-AMP, but are highly variable with regards to the receptors they possess. Studies in Lactococcus and Streptococcus have revealed a conserved function for cyclic-di-AMP in inhibiting the transport of potassium and glycine betaine, either through direct binding to transporters or to a transcriptional regulator. Structural analysis of several cyclic-di-AMP receptors from LAB has also provided insights into how this nucleotide exerts its influence. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Turner, Mark S. Xiang, Yuwei Liang, Zhao-Xun Marcellin, Esteban Pham, Huong Thi |
| format |
Article |
| author |
Turner, Mark S. Xiang, Yuwei Liang, Zhao-Xun Marcellin, Esteban Pham, Huong Thi |
| author_sort |
Turner, Mark S. |
| title |
Cyclic-di-AMP signalling in lactic acid bacteria |
| title_short |
Cyclic-di-AMP signalling in lactic acid bacteria |
| title_full |
Cyclic-di-AMP signalling in lactic acid bacteria |
| title_fullStr |
Cyclic-di-AMP signalling in lactic acid bacteria |
| title_full_unstemmed |
Cyclic-di-AMP signalling in lactic acid bacteria |
| title_sort |
cyclic-di-amp signalling in lactic acid bacteria |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172220 |
| _version_ |
1784855581803151360 |