FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3090394598> ?p ?o ?g. }

• W3090394598 endingPage "183" @default.
• W3090394598 startingPage "169" @default.
• W3090394598 abstract "Bidirectional signaling occurs along the microbiome–root–shoot axis in plants much akin to that along the human microbiome–gut–brain axis. Production of plant secondary metabolites elicited by rhizosphere microbiota, such as coumarins, can directly impact the composition and activity of the microbial community. Microbially elicited production of secondary metabolites in the roots can act as intertissue messengers in plants. Coumarins are the ‘new kids on the block’ in the chemical communication along the microbiome–root–shoot axis. Plants shape their rhizosphere microbiome by secreting root exudates into the soil environment. Recently, root-exuded coumarins were identified as novel players in plant–microbiome communication. Beneficial members of the root-associated microbiome stimulate coumarin biosynthesis in roots and their excretion into the rhizosphere. The iron-mobilizing activity of coumarins facilitates iron uptake from the soil environment, while their selective antimicrobial activity shapes the root microbiome, resulting in promotion of plant growth and health. Evidence is accumulating that, in analogy to strigolactones and flavonoids, coumarins may act in microbiome-to-root-to-shoot signaling events. Here, we review this multifaceted role of coumarins in bidirectional chemical communication along the microbiome–root–shoot axis. Plants shape their rhizosphere microbiome by secreting root exudates into the soil environment. Recently, root-exuded coumarins were identified as novel players in plant–microbiome communication. Beneficial members of the root-associated microbiome stimulate coumarin biosynthesis in roots and their excretion into the rhizosphere. The iron-mobilizing activity of coumarins facilitates iron uptake from the soil environment, while their selective antimicrobial activity shapes the root microbiome, resulting in promotion of plant growth and health. Evidence is accumulating that, in analogy to strigolactones and flavonoids, coumarins may act in microbiome-to-root-to-shoot signaling events. Here, we review this multifaceted role of coumarins in bidirectional chemical communication along the microbiome–root–shoot axis. a molecular signaling pathway that is essential for plants to associate with AM fungi and for legumes specifically to engage in symbiosis with nitrogen-fixing rhizobacteria. This signaling pathway contains a set of conserved genes that are shared by the rhizobial and mycorrhizal associations. Upon perception of a microbial signal at the plasma membrane, a series of signal transduction cascades is activated involving the production of calcium oscillations, which are perceived by Ca+/calmodulin-dependent protein kinase (CCaMK). After this, there is transcriptional regulation of transcription factors and genes that coordinate the formation of symbiosis. a physiological state of the plant following root colonization by selected beneficial microbes or treatment with natural/synthetic compounds characterized by the launching of a faster and stronger defense response, resulting in enhanced resistance against future pathogen or insect attack or enhanced tolerance to abiotic stresses. the totality of microbial genomes and the functional traits of the microbiota present in a specific host tissue. the bidirectional communication between the gastrointestinal microbiota, the gut, and the central nervous system (brain) involving signals from the neuron system, immune system, and endocrine system that affect gut behavior, and the emotional status and fitness of the host. concept describing the bidirectional communication between rhizosphere microbiota, the plant root, and the aerial shoot tissue involving plant- or microbe-derived signals that affect plant growth, nutrition, and health. the combined population of all commensal, symbiotic, and pathogenic microbial organisms (including archaea, bacteria, fungi, and protists) that live in or on a host, such as the rhizosphere microbiota or gut microbiota. a secondary metabolite biosynthesis pathway in plants that generates a range of aromatic metabolites. Products of this pathway have roles in the resistance of plants to (a)biotic stresses, and in plant structural support and stress adaptation. Phenylpropanoid compounds are derived from the amino acid phenylalanine, the end-product of the shikimate pathway, through deamination by phenylalanine ammonia lyase (PAL). Phenylpropanoid natural compounds include hydroxycinnamic acid, flavonoid/isoflavonoids, lignans/lignin, coumarins, and stilbenes." @default.
• W3090394598 created "2020-10-08" @default.
• W3090394598 creator A5016077985 @default.
• W3090394598 creator A5016372671 @default.
• W3090394598 creator A5038302656 @default.
• W3090394598 creator A5052033735 @default.
• W3090394598 date "2021-02-01" @default.
• W3090394598 modified "2023-10-17" @default.
• W3090394598 title "Coumarin Communication Along the Microbiome–Root–Shoot Axis" @default.
• W3090394598 cites W1068448542 @default.
• W3090394598 cites W1484992296 @default.
• W3090394598 cites W1555086262 @default.
• W3090394598 cites W1591611150 @default.
• W3090394598 cites W1597130528 @default.
• W3090394598 cites W1694538241 @default.
• W3090394598 cites W1975711556 @default.
• W3090394598 cites W1990473745 @default.
• W3090394598 cites W1991160769 @default.
• W3090394598 cites W1999097240 @default.
• W3090394598 cites W1999415347 @default.
• W3090394598 cites W2000561328 @default.
• W3090394598 cites W2007866059 @default.
• W3090394598 cites W2014749946 @default.
• W3090394598 cites W2017387862 @default.
• W3090394598 cites W2024360225 @default.
• W3090394598 cites W2031610572 @default.
• W3090394598 cites W2035913075 @default.
• W3090394598 cites W2042975548 @default.
• W3090394598 cites W2046455823 @default.
• W3090394598 cites W2050572895 @default.
• W3090394598 cites W2064441931 @default.
• W3090394598 cites W2068073333 @default.
• W3090394598 cites W2070831559 @default.
• W3090394598 cites W2073146875 @default.
• W3090394598 cites W2077963423 @default.
• W3090394598 cites W2087276505 @default.
• W3090394598 cites W2088056291 @default.
• W3090394598 cites W2088100662 @default.
• W3090394598 cites W2102742829 @default.
• W3090394598 cites W2117164391 @default.
• W3090394598 cites W2117396466 @default.
• W3090394598 cites W2118355172 @default.
• W3090394598 cites W2123946035 @default.
• W3090394598 cites W2126213436 @default.
• W3090394598 cites W2135748521 @default.
• W3090394598 cites W2135983909 @default.
• W3090394598 cites W2139130789 @default.
• W3090394598 cites W2139981607 @default.
• W3090394598 cites W2140380548 @default.
• W3090394598 cites W2142556037 @default.
• W3090394598 cites W2145630072 @default.
• W3090394598 cites W2147944643 @default.
• W3090394598 cites W2149276772 @default.
• W3090394598 cites W2149770431 @default.
• W3090394598 cites W2150749399 @default.
• W3090394598 cites W2157554024 @default.
• W3090394598 cites W2159676924 @default.
• W3090394598 cites W2208044447 @default.
• W3090394598 cites W2273761496 @default.
• W3090394598 cites W2300993165 @default.
• W3090394598 cites W2315415865 @default.
• W3090394598 cites W2399092983 @default.
• W3090394598 cites W2414865884 @default.
• W3090394598 cites W2497282785 @default.
• W3090394598 cites W2513207182 @default.
• W3090394598 cites W2519703394 @default.
• W3090394598 cites W2586887021 @default.
• W3090394598 cites W2588879639 @default.
• W3090394598 cites W2596895947 @default.
• W3090394598 cites W2604715481 @default.
• W3090394598 cites W2605215836 @default.
• W3090394598 cites W2621129805 @default.
• W3090394598 cites W2621758986 @default.
• W3090394598 cites W2626773522 @default.
• W3090394598 cites W2732679607 @default.
• W3090394598 cites W2756661876 @default.
• W3090394598 cites W2764099220 @default.
• W3090394598 cites W2766229654 @default.
• W3090394598 cites W2788183094 @default.
• W3090394598 cites W2789533954 @default.
• W3090394598 cites W2789828017 @default.
• W3090394598 cites W2793210462 @default.
• W3090394598 cites W2795637755 @default.
• W3090394598 cites W2799721285 @default.
• W3090394598 cites W2802768052 @default.
• W3090394598 cites W2839631923 @default.
• W3090394598 cites W2889513053 @default.
• W3090394598 cites W2890851984 @default.
• W3090394598 cites W2914899419 @default.
• W3090394598 cites W2921784278 @default.
• W3090394598 cites W2944146722 @default.
• W3090394598 cites W2946950556 @default.
• W3090394598 cites W2948522701 @default.
• W3090394598 cites W2949138495 @default.
• W3090394598 cites W2950328437 @default.
• W3090394598 cites W2952257081 @default.
• W3090394598 cites W2953042703 @default.
• W3090394598 cites W2958608037 @default.

• next