Shoot the Message, Not the Messenger—Combating Pathogenic Virulence in Plants by Inhibiting Quorum Sensing Mediated Signaling Molecules

Alagarasan, Ganesh; Aswathy, Kumar S.; Madhaiyan, Munusamy

doi:10.3389/fpls.2017.00556

Cited by 15 publications

(3 citation statements)

References 112 publications

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“…These microbes increase plant immunity against phytopathogens by helping them to obtain more transition metals by producing siderophores (Fones and Preston, 2013). Apart from producing AHLdegrading enzymes these quorum quenching microbes will occupy most of the intercellular space thus leaving very few spaces for later-invading phyto-pathogenic bacteria (Alagarasan et al, 2017). aeruginosa (Kaufmann et al, 2007).…”

Section: Biotizationmentioning

confidence: 99%

Anti-quorum sensing agents: a potential alternative for antibiotics

Saikia¹,

Kaushik²

2022

IJAAS

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Quorum sensing (QS) is a bacterial cell to cell communication, which helps bacteria to mount population-density-dependent infection to overcome the defence responses from host. In this mechanism some diffusible chemical signalling compounds are involved, known as autoinducers, which are directly proportional to the population cell density. The main role of QS is to coordinate the expression of several collective traits, including the production of virulence factors, secondary metabolites with antimicrobial activity, pigment production, siderophore production, epiphytic fitness, bioluminescence, plasmid transfer, motility and biofilm formation. Due to the growing bacterial resistance to the antibiotics that have been overused, it has become necessary to search for alternative antimicrobial therapies. One of them is anti-quorum sensing agents/anti-biofilm agents/quorum sensing inhibitors that disrupts the bacterial communication. This study discusses the various QS-disrupting mechanisms used by anti-quorum sensing agents such as, inhibition of AIs synthesis inhibition of AI transport, degradation of AIs using enzymes, sequestration of AIs using monoclonal antibodies, QS signal competition (QS mimicry), as well as the different techniques applied artificially to inhibit the QS pathways in bacteria and thus protecting plant from bacterial diseases.

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Section: Biotizationmentioning

confidence: 99%

Anti-quorum sensing agents: a potential alternative for antibiotics

Saikia¹,

Kaushik²

2022

IJAAS

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“…These microbes increases plant immunity against phytopathogens by helping them to obtain more transition metals by producing siderophores (Fones and Preston, 2013) [19] . Apart from producing AHL-degrading enzymes these QQ microbes will occupy most of the intercellular space thus leaving very few spaces for laterinvading phyto-pathogenic bacteria (Alagarasan et al, 2017) [1] (Table 1). Another way is by Mutagenesis, in A. tumefaciens, production of the AHL lactonase is encoded by attM which in normal condition gets suppressed by the negative transcription factor attJ.…”

Section: Fig 2: Sites Of Action Of Various Degrading Enzymes On Ahlmentioning

confidence: 99%

A review article: Anti-quorum sensing agents as a potential replacement for antibiotics in Phytobacteriology

Verma,

Das,

Sarmah

et al. 2021

Pharma Innovation

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Quorum sensing is a bacterial cell to cell communication, which helps bacteria to mount populationdensity-dependent infection to overcome the defence responses from the host. In this mechanism some diffusible chemical signalling compounds are involved, known as autoinducers, which are directly proportional to the population cell density. The main role of quorum sensing is to coordinate the expression of several collective traits, including biofilm formation, bioluminescence, epiphytic fitness, Production of virulence factors, secondary metabolites with antimicrobial activity, pigments, siderophores, plasmid transfer and motility. Due to the growing bacterial resistance to the antibiotics that have been overused, it has become necessary to search for alternative antimicrobial therapies. One of them is anti-quorum sensing agents/anti-biofilm agents/quorum sensing inhibitors that disrupts the bacterial communication. This review article discusses the various quorum sensing-disrupting mechanisms used by anti-quorum sensing agents such as, inhibition of Autoinducer synthesis inhibition of transport of Autoinducers, degradation of autoinducers using enzymes, sequestration using monoclonal antibodies, signal competition, as well as the different techniques applied artificially to inhibit the quorum sensing pathways in bacteria and thus, protecting plant from bacterial diseases.

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“…The disruption of QS signalling, also called 'quorum quenching' (QQ), has been described in bacteria, fungi, plants, animals, etc. [5][6][7][8] . The use of endophytic bacteria living inside plant tissues capable of naturally degrading AHL produced by pathogens has been considered as a suitable approach to interfere with infection 9 .…”

mentioning

confidence: 99%

Biological Control of Potato Tuber Soft Rot using <i>N</i>-Acyl-L-Homoserine Lactone-Degrading Endophytic Bacteria

Hà¹,

Minh²,

Hoi³

et al. 2018

Current Science

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Pectobacterium carotovorum (Pc) causing potato tuber soft rot uses N-acyl-L-homoserine lactones (AHLs) to control the production of virulence factors via quorum sensing (QS). Some bacteria produce enzymes to inactivate the AHL signals of pathogenic bacteria via a phenomenon known as quorum quenching. One hundred bacterial isolates from potato tubers were screened for AHL-degrading activity using biosensor strain Chromobacterium violaceum CV026. Of these isolates, 20 were able to inactivate AHLs from the pathogenic bacteria in vitro. Of the 20 isolates, 6 attenuated tissue maceration of potato tubers by Pc. Suppression of tuber soft rot was observed even when these isolates were applied 24 h after the pathogen was introduced. Their colonization in tubers was approximately 10 3 -10 4 cfu/g tuber, 7 days after inoculation. These isolates were identified as Bacillus sp., Variovorax sp., Variovorax paradoxus and Agrobacterium tumefaciens. Four of these isolates showed putative AHL-lactonase activity and provided the most significant protection against Pc. Therefore, AHL-degrading endophytic bacteria can be utilized as a novel biocontrol agent of potato tuber soft rot in Vietnam.

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Shoot the Message, Not the Messenger—Combating Pathogenic Virulence in Plants by Inhibiting Quorum Sensing Mediated Signaling Molecules

Cited by 15 publications

References 112 publications

Anti-quorum sensing agents: a potential alternative for antibiotics

Anti-quorum sensing agents: a potential alternative for antibiotics

A review article: Anti-quorum sensing agents as a potential replacement for antibiotics in Phytobacteriology

Biological Control of Potato Tuber Soft Rot using <i>N</i>-Acyl-L-Homoserine Lactone-Degrading Endophytic Bacteria

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