Role of plant secondary metabolites in defence and transcriptional regulation in response to biotic stress

Plant Stress, Год журнала: 2023, Номер 8, С. 100154 - 100154

Опубликована: Апрель 3, 2023

Secondary metabolites in plants have been recognized as a novel basis of potential bio-pesticides, paving the way for their use sustainable agriculture. Plant secondary pivotal roles plant-pathogen interactions. Some important are terpenoids, flavanols, flavones, etc., stress-inducible phytochemicals playing an role plant immune response development. Pathogen enters into host cell, multiply and utilise biological mechanism plants, causing hazard to world food assembly. Under stressed circumstances, evolve powerful intricate system growth defensive action. On other hand, transcription factors (TFs) assist counter adverse environments by acting mediators stress signal regulating stress-responsive gene expression. The transcriptional post-transcriptional manipulation is capable aid molecular breeding genetic modification meant improved metabolite synthesis. Although presence numerous has established life, very slight known about interaction with pathogens specific mechanisms involved leading immunity. Chemical pesticides wreaking havoc on our environment. As consequence, environmental-friendly alternatives disease management, like plant-based metabolites, should be explored. In this appraisal, we reviewed relation pathogens, contribution innate immunity, action, regulation TFs combating infections eco-friendly approach.

Язык: Английский

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Identification and receptor mechanism of TIR-catalyzed small molecules in plant immunity

Science, Год журнала: 2022, Номер 377(6605)

Опубликована: Июль 7, 2022

Plant nucleotide-binding leucine-rich repeat-containing (NLR) receptors with an N-terminal Toll/interleukin-1 receptor (TIR) domain sense pathogen effectors to enable TIR-encoded nicotinamide adenine dinucleotide hydrolase (NADase) activity for immune signaling. TIR-NLR signaling requires the helper NLRs N requirement gene 1 (NRG1), Activated Disease Resistance (ADR1), and Enhanced Susceptibility (EDS1), which forms a heterodimer each of its paralogs Phytoalexin Deficient 4 (PAD4) Senescence-Associated Gene 101 (SAG101). Here, we show that TIR-containing proteins catalyze production 2'-(5''-phosphoribosyl)-5'-adenosine monophosphate (pRib-AMP) diphosphate (pRib-ADP) in vitro planta. Biochemical structural data demonstrate EDS1-PAD4 is complex pRib-AMP pRib-ADP, allosterically promote interaction ADR1-L1 but not NRG1A. Our study identifies TIR-catalyzed pRib-ADP as missing link TIR through likely second messengers plant immunity.

Язык: Английский

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Shared TIR enzymatic functions regulate cell death and immunity across the tree of life

Science, Год журнала: 2022, Номер 377(6605)

Опубликована: Июль 7, 2022

In the 20th century, researchers studying animal and plant signaling pathways discovered a protein domain that is shared across diverse innate immune systems: Toll/interleukin-1/resistance gene (TIR) domain. The TIR found in several architectures was defined as an adaptor mediates protein-protein interactions immunity developmental pathways. However, studies of nerve degeneration animals-and subsequent breakthroughs plant, bacterial, archaeal systems-revealed domains possess enzymatic activities. We provide synthesis functions role various related products evolutionarily systems. These may ultimately guide interventions would span tree life, from treating human neurodegenerative disorders bacterial infections to preventing diseases.

Язык: Английский

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Cyclic ADP ribose isomers: Production, chemical structures, and immune signaling

Science, Год журнала: 2022, Номер 377(6614)

Опубликована: Сен. 1, 2022

Cyclic adenosine diphosphate (ADP)–ribose (cADPR) isomers are signaling molecules produced by bacterial and plant Toll/interleukin-1 receptor (TIR) domains via nicotinamide adenine dinucleotide (oxidized form) (NAD + ) hydrolysis. We show that v-cADPR (2′cADPR) v2-cADPR (3′cADPR) cyclized O-glycosidic bond formation between the ribose moieties in ADPR. Structures of 2′cADPR-producing TIR reveal conformational changes lead to an active assembly resembles those Toll-like adaptor domains. Mutagenesis reveals a conserved tryptophan is essential for cyclization. 3′cADPR activator ThsA effector proteins from antiphage defense system termed Thoeris suppressor immunity when HopAM1. Collectively, our results molecular basis cADPR isomer production establish bacteria as antiviral immunity–suppressing molecule.

Язык: Английский

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Pathogen effector AvrSr35 triggers Sr35 resistosome assembly via a direct recognition mechanism

Science Advances, Год журнала: 2022, Номер 8(36)

Опубликована: Сен. 9, 2022

Nucleotide-binding, leucine-rich repeat receptors (NLRs) perceive pathogen effectors to trigger plant immunity. The direct recognition mechanism of by coiled-coil NLRs (CNLs) remains unclear. We demonstrate that the Triticum monococcum CNL Sr35 directly recognizes effector AvrSr35 from Puccinia graminis f. sp . tritici and report a cryo–electron microscopy structure resistosome crystal AvrSr35. show forms homodimers are disassociated into monomers upon domain Sr35, which induces assembly subsequent immune response. first 20 amino-terminal residues indispensable for signaling but not plasma membrane association. Our findings reveal activation provide insights biochemical function resistosome.

Язык: Английский

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Molecular innovations in plant TIR-based immunity signaling

The Plant Cell, Год журнала: 2022, Номер 34(5), С. 1479 - 1496

Опубликована: Фев. 4, 2022

Abstract A protein domain (Toll and Interleukin-1 receptor [TIR]-like) with homology to animal TIRs mediates immune signaling in prokaryotes eukaryotes. Here, we present an overview of TIR evolution the molecular versatility domains different architectures for host protection against microbial attack. Plant TIR-based emerges as being central potentiation effectiveness defenses triggered by intracellular cell-surface receptors. Equally relevant plant fitness are mechanisms that limit potent healthy tissues but maintain preparedness infection. We propose seed plants evolved a specialized module selectively translate enzymatic activities defense outputs, overlaying more general function TIRs.

Язык: Английский

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NLR signaling in plants: from resistosomes to second messengers

Trends in Biochemical Sciences, Год журнала: 2023, Номер 48(9), С. 776 - 787

Опубликована: Июнь 30, 2023

Pathogen effector-induced assembly of resistosomes has been established as an important event for nucleotide binding and leucine-rich repeat-containing receptor (NLR) signaling in plants.The pentameric coiled-coil domain-containing NLR (CNL) act Ca2+-permeable channels, whereas the tetrameric Toll-interleukin 1-like (TIR) (TNL) are NADase holoenzymes.TNL catalyze production nucleotide-derived second messengers to activate downstream helper NLRs activated disease resistance 1 (ADR1) N requirement gene (NRG1) CNL class. Thus, CNLs TNLs converge on Ca2+ signals trigger plant immunity.NLR cross-talks with pattern-triggered immunity (PTI) pathways.NLR pathways plants negatively regulated by both hosts pathogens. Nucleotide receptors (NLRs) have a critical role through direct or indirect recognition pathogen effectors. Recent studies demonstrated that such induces formation large protein complexes called mediate immune signaling. Some influx acting others function active NADases messengers. In this review we summarize these resistosome-mediated derivatives. We also discuss events regulation resistosome Plants rely multiple detect invading microbial pathogens mount responses [1.Ngou B.P.M. et al.Thirty years resistance: zig-zag system.Plant Cell. 2022; 34: 1447-1478Crossref PubMed Scopus (45) Google Scholar,2.Zhou J.M. Zhang Y. Plant immunity: danger perception signaling.Cell. 2020; 181: 978-989Abstract Full Text PDF (328) Scholar]. One subfamily pattern-recognition (PRRs) (see Glossary) at cell surface Scholar, 2.Zhou 3.DeFalco T.A. Zipfel C. Molecular mechanisms early signaling.Mol. 2021; 81: 3449-3467Abstract (0) PRRs recognize pathogen-associated molecular patterns (PAMPs) host-derived damage-associated (DAMPs), leading (PTI). PTI constitutes first line inducible defense against can breach layer secreting effector proteins into cells dampen PTI. To counteract virulence activity effectors, evolved receptors: intracellular NLRs. specifically proteins, inducing effector-triggered (ETI) confer race-specific site entry Scholar,4.Jones J.D.G. al.Intracellular innate surveillance devices animals.Science. 2016; 354aaf6395Crossref different structures subcellular localizations but conserved responses, including influx, bursts reactive oxygen species (ROS), phytocytokines phytohormones, transcriptional reprogramming Probably reason, ETI tightly connected [5.Yuan M. al.Pattern-recognition required NLR-mediated immunity.Nature. 592: 105-109Crossref (351) Scholar,6.Ngou al.Mutual potentiation cell-surface receptors.Nature. 110-115Crossref (329) However, differ timing, amplitude, duration defense, which could be determining their physiological outcomes. addition includes hypersensitive response (HR), form rapid localized programmed death infection [7.Jones J.D. Dangl J.L. The system.Nature. 2006; 444: 323-329Crossref (8693) largest hundreds distinct members [4.Jones two domains: central nucleotide-binding oligomerization domain (NOD), C-terminal repeat (LRR) domain. A variable (CC) is attached terminus, resulting TIR-NLR CC-NLR (CNL), respectively [8.Maruta N. al.Structural basis activation signalling plants.Immunogenetics. 74: 5-26Crossref (25) Scholar,9.Hu Z. Chai J. Assembly architecture inflammasomes.Annu. Rev. Biophys. 52: 8.1-8.22Google pathogen-sensing NLRs, there some (h) translate from [10.Feehan al.Plant get little help friends.Curr. Opin. Biol. 56: 99-108Crossref (18) Scholar,11.Jubic L.M. al.Help wanted: responses.Curr. 2019; 50: 82-94Crossref (139) Examples hNLRs include Resistance Powdery Mildew 8 (RPW8) family [12.Wu al.Differential TNL-mediated redundant CNLs.New Phytol. 222: 938-953Crossref (118) 13.Castel B. al.Diverse defence via RPW8-NLR NRG1.New 966-980Crossref (144) 14.Qi T. al.NRG1 functions EDS1 regulate TIR-NLR-mediated Nicotiana benthamiana.Proc. Natl. Acad. Sci. U. S. A. 2018; 115: E10979-E10987Crossref (121) 15.Collier S.M. al.Cell mediated N-terminal domains unique highly class NB-LRR protein.Mol. Microbe Interact. 2011; 24: 918-931Crossref (230) Scholar] (Figure 1) (NRCs) [16.Adachi H. Kamoun networks plants.Essays Biochem. 66: 541-549Crossref (4) Scholar,17.Wu C.H. al.NLR network mediates diverse pathogens.Proc. 2017; 114: 8113-8118Crossref (211) More recent signaling, many sensor Solanaceae, depends NRCs upon [18.Ahn H.K. al.Effector-dependent NRC Rpi-amr3 Rpi-amr1.EMBO 2023; 42e111484Crossref (5) Scholar,19.Contreras M.P. al.Sensor helpers pathogens.EMBO 42e111519PubMed messengers, calcium ion derivations. crosstalk between negative effectors host regulators. directly indirectly. For example, interaction benthamiana TNL Roq1 (recognition XopQ its recognized (Xanthomonas outer Q) [20.Schultink al.Roq1 Xanthomonas Pseudomonas HopQ1.Plant 92: 787-795Crossref (82) Scholar,21.Martin R. al.Structure ROQ1 recognizing XopQ.Science. 370eabd9993Crossref (174) Scholar], arabidopsis RPP1 Peronospora parasitica ATR1 (Arabidopsis thaliana [22.Ma al.Direct pathogen-induced complex holoenzyme.Science. 370abe3069Crossref (169) Scholar,23.Krasileva K.V. al.Activation Arabidopsis specified planta association cognate oomycete effector.Plant 2010; 22: 2444-2458Crossref (220) wheat Sr35 (stem rust 35) AvrSr35 [24.Zhao Y.-B. al.Pathogen triggers mechanism.Sci. Adv. 8eabq5108Crossref (13) 25.Forderer al.A defines common principles channels.Nature. 610: 532-539Crossref 26.Salcedo al.Variation determines stem race Ug99.Science. 358: 1604-1606Crossref (117) spp, Hyaloperonospora parasitica, Puccinia graminis tritici, respectively. monitoring effector-mediated perturbations targets. example ZAR1 (HOPZ-ACTIVATED RESISTANCE [27.Lewis al.Allele-specific attenuation syringae HopZ1a type III protein.PLoS Genet. 6e1000894Crossref (111) exists preformed kinase RKS1 (resistance-related normal conditions recognizes AvrAC indirectly uridylylation another PBL2 (PBS1-like 2) [28.Wang al.Ligand-triggered allosteric ADP release primes complex.Science. 364aav5868Crossref (231) Scholar,29.Wang G. al.The decoy substrate pseudokinase specify modified-self plants.Cell Host Microbe. 2015; 18: 285-295Abstract (156) Scholar]; AvrAC-uridylylated associates consequently activates ZAR1-mediated immunity. Alternatively, cases, may not necessarily CHS3 (CHILLING SENSITIVE 3)/CSA1 (CONSTITUTIVE SHADE-AVOIDANCE pair detects PRR coreceptor BAK1 (BRASSINOSTEROID INSENSITIVE 1-associated [30.Yang al.Allelic variation CHS3/CSA1 reveals functional cell-death regulatory modes.Cell 30: 1701-1716Abstract (7) malectin-like receptor-like LET1 autoimmunity SUMM2 (SUPPRESSOR OF MKK1 MKK2) MEKK2 (MAP/ERK kinase-2) scaffolding [31.Liu LETUM1 modulates scaffolding.Nat. Plants. 6: 1106-1115Crossref (26) Effector leads termed 1). Cryoelectron microscopy (cryoEM) analyses show containing ZAR1, RKS1, uridylylated (PBL2UMP) forms wheel-like [32.Wang al.Reconstitution structure conferring immunity.Science. 364aav5870Crossref (368) 1, left). Pentamerization mainly NOD module PBL2UMP being presented rim wheel 2). contrast AvrSr35, remarkably similar Scholar,25.Forderer more study showed oligomeric NRG1 likely formed plasma membrane (PM) [33.Feehan al.Oligomerization requires activation.Proc. 120e2210406120Crossref (3) Interestingly, resistosomes, underlying await further elucidation By comparison, end results right). induced [21.Martin As seen primarily Structural modeling sequestered inactive Scholar,24.Zhao Scholar,32.Wang suggesting oligomerization. it remains unknown whether all resistosomes. Many pairs, executor initiating [34.Xi al.Insight mode action paired receptors.Essays 513-526Crossref (2) Whether how represent challenge understanding mechanisms. cryoEM resistosome, five α1-helices solvent-exposed shaped like channel pore Functional data support ETI. Importantly, electrophysiological evidence supports [35.Bi calcium-permeable triggering 184: 3528-3541Abstract (181) bottom Single molecule imaging hours before loss PM integrity These suggest acts α1 distantly related [36.Adachi al.An motif functionally across species.eLife. 8e49956Crossref (92) Ca2+-channel among Indeed, bears [25.Forderer essential helix well-defined resistosome. It environment funnel-shaped localization shown RPM1 (resistance pv. maculicola [37.El Kasmi F. al.Signaling plasma-membrane self-association full-length protein.Proc. E7385-E7394Crossref (70) RPS2 P. [38.Axtell M.J. Staskawicz B.J. Initiation RPS2-specified coupled AvrRpt2-directed elimination RIN4.Cell. 2003; 112: 369-377Abstract (643) bethamiana Tm-22 [39.Wang NB-ARC domain-mediated CC domain.PLoS Pathog. 16e1008475Crossref (20) ZAR1-like examined. TNL-activated hNLRs, NRG1s, ADR1s display autoactive Scholar,40.Jacob "helper" nonselective cation channels.Science. 373: 420-425Crossref (125) indicating Solanaceae (SD) found noncanonical [41.Seong K. al.Evolution genes wild tomato species.New 227: 1530-1543Crossref (36) themselves structures. undetermined activity. Multiple lines extracellular [42.Xu tale families: channels immunity.Plant 1551-1567Crossref (19) Scholar,43.Kim N.H. al.Con-Ca2+-tenating channels.New 234: 813-818Crossref (8) Elevation concentrations one earliest during Gain-of-function mutations CNGC19/20 (CYCLIC NUCLEOTIDE GATED CHANNEL19/20) increased constitutively (enhanced susceptibility 1)- SA (salicylic acid)-dependent [44.Yu X. kinases BAK1/SERK4 channel-mediated cellular homeostasis containment.Curr. 29: 3778-3790Abstract (64) Scholar,45.Zhao mis-regulated cyclic nucleotide-gated cytosolic elevation Arabidopsis.New 230: 1078-1094Crossref (33) Unregulated Sr35, NRG1, ADR1 sufficient recapitulate CNL-mediated eukaryotic Although released internal pools contribute pharmacological blocking compartments ruthenium red (RR) less efficient inhibition HR than blocker LaCl3 [46.Gao heat-activated 6 involved heat shock responses.Plant 2012; 70: 1056-1069Crossref supporting notion major responses. Nuclear [47.Ludke D. yet? Nucleocytoplasmic coordination immunity.New 236: 24-42Crossref mechanism associated enigmatic. Several interact factors [48.Wang al.Diversity, receptors.J. Integr. 63: 283-296Crossref (11) programming nucleus. transcription set genes, other reprogramming. NRG1A PM- nucleus-localized activation, only PM-resident oligomers oligomerization-independent function. Increases nuclear free reported various stresses [49.Pauly nucleus together cytosol generates specific signatures tobacco suspension culture cells.Cell Calcium. 2001; 413-421Crossref 50.van Der Luit A.H. al.Distinct calmodulin expression tobacco.Plant Physiol. 1999; 121: 705-714Crossref 51.Xiong T.C. al.Isolated nuclei mechanical thermal sensors signalling.Plant 2004; 40: 12-21Crossref should kept mind spatial distribution uniform, steep gradients few nanometers away [52.Pangršič al.EF-hand buffers exocytosis sensory hair cells.Proc. E1028-E1037Crossref transported PM-localized and/or reach possible continuum organelle endoplasmic reticulum (ER). Such result An CNGC15 symbiotic oscillation [53.Charpentier al.Nuclear-localized oscillations.Science. 352: 1102-1105Crossref While signals, they TNLs, CNLs, NADases. ATR1-induced significantly enhances activity, holoenzyme enzymatic encoded TIR [54.Wan L. al.TIR NAD+-cleaving enzymes promote death.Science. 365: 799-803Crossref (226) Scholar,55.Horsefield al.NAD+ cleavage animal pathways.Science. 793-799Crossref (244) TIR-only bacterial HopBA1 (RBA1) [56.Nishimura M.T. al.TIR-only RBA1 Arabidopsis.Proc. E2053-E2062Crossref (93) Tetramerization composite sites Scholar,22.Ma [57.Shi SARM1 recognition, small molecules.Mol. 82: 1643-1659Abstract (27) 58.Manik M.K. al.Cyclic ribose isomers: production, chemical structures, signaling.Science. 377eadc8969Crossref 59.Hogrel nucleotide-induced helical effector.Nature. 608: 808-812Crossref analogs PAD4 (phytoalexin deficient 4)

Язык: Английский

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Oligomerization-mediated autoinhibition and cofactor binding of a plant NLR

Nature, Год журнала: 2024, Номер 632(8026), С. 869 - 876

Опубликована: Июнь 12, 2024

Abstract Nucleotide-binding leucine-rich repeat (NLR) proteins play a pivotal role in plant immunity by recognizing pathogen effectors 1,2 . Maintaining balanced immune response is crucial, as excessive NLR expression can lead to unintended autoimmunity 3,4 Unlike most NLRs, the required for cell death 2 (NRC2) belongs small group characterized constitutively high without self-activation 5 The mechanisms underlying NRC2 autoinhibition and activation are not yet understood. Here we show that Solanum lycopersicum (tomato) ( Sl NRC2) forms dimers tetramers higher-order oligomers at elevated concentrations. Cryo-electron microscopy shows an inactive conformation of these oligomers. Dimerization oligomerization only stabilize state but also sequester from assembling into active form. Mutations dimeric or interdimeric interfaces enhance pathogen-induced Nicotiana benthamiana cryo-electron structures unexpectedly inositol hexakisphosphate (IP 6 ) pentakisphosphate bound inner surface C-terminal domain NRC2, confirmed mass spectrometry. phosphate-binding site impair phosphate binding NRC2-mediated N. Our study indicates negative regulatory mechanism suggests phosphates cofactors NRCs.

Язык: Английский

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Plant NLR immunity activation and execution: a biochemical perspective

Open Biology, Год журнала: 2024, Номер 14(1)

Опубликована: Янв. 1, 2024

Plants deploy cell-surface and intracellular receptors to detect pathogen attack trigger innate immune responses. Inside host cells, families of nucleotide-binding/leucine-rich repeat (NLR) proteins serve as sensors or downstream mediators defence outputs cell death, which prevent disease. Established genetic underpinnings NLR-mediated immunity revealed various strategies plants adopt combat rapidly evolving microbial pathogens. The molecular mechanisms NLR activation signal transmission components controlling execution were less clear. Here, we review recent protein structural biochemical insights plant sensor signalling functions. When put together, the data show how different families, whether transducers, converge on nucleotide-based second messengers cellular calcium confer immunity. Although pathogen-activated NLRs in engage plant-specific machineries promote defence, comparisons with mammalian receptor counterparts highlight some shared working principles for across kingdoms.

Язык: Английский

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Seeing is believing: Exploiting advances in structural biology to understand and engineer plant immunity

Current Opinion in Plant Biology, Год журнала: 2022, Номер 67, С. 102210 - 102210

Опубликована: Апрель 20, 2022

Filamentous plant pathogens cause disease in numerous economically important crops. These secrete virulence proteins, termed effectors, that modulate host cellular processes and promote infection. Plants have evolved immunity receptors detect effectors activate defence pathways, resulting resistance to the invading pathogen. This leads an evolutionary arms race between pathogen is characterised by highly diverse effector repertoires pathogens. Here, we review recent advances understanding host–pathogen co-evolution provided structural determination of alone, complex with receptors. We highlight use prediction within this field its role for future development designer proteins.

Язык: Английский

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