microRNA390 modulates <scp><i>Nicotiana attenuata</i></scp>'s tolerance response to <scp><i>Manduca sexta</i></scp> herbivory

Pradhan, Maitree; Rocha, Catarina; Halitschke, Rayko; Baldwin, Ian Thomas; Pandey, Sarvesh

doi:10.1002/pld3.350

Cited by 6 publications

(3 citation statements)

References 55 publications

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“…S1b). At the same time, we noticed that the blumenol‐C content of the field‐grown plants was strikingly lower than those previously observed for the glasshouse‐grown plants (Wang et al ., 2018a; Pradhan et al ., 2021). WT plants displayed a strong positive correlation between their blumenol‐C contents and their reproductive output (flower numbers; Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Alternatively, AGO7 may have acquired a novel function in N. attenuata as a consequence of the unique selection pressures that this species encounters (Navarro‐Quezada et al ., 2020). AGOs' sequences, structures, and functions are constantly evolving, likely a result of changing selection pressures (Singh et al ., 2015; Singh & Pandey, 2015; Pradhan et al ., 2017, 2021). Studies on AGO7 function in legume–rhizobia interactions provide hints that similar regulatory processes may operate between these two types of symbiotic interactions.…”

Section: Discussionmentioning

confidence: 99%

“…The miR390/TAS3 module plays a role in nodulation of M. truncatula (Hobecker et al ., 2017). Earlier, we found that AMF colonization increased miR390 accumulation in N. attenuata (Pandey et al ., 2018), but subsequent research into miR390‐function in this species by stable overexpression did not find a role in AMF symbiosis; instead miR390 modulates plant tolerance responses to herbivory (Pradhan et al ., 2021).…”

Section: Discussionmentioning

confidence: 99%

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Argonaute7 (AGO7) optimizes arbuscular mycorrhizal fungal associations and enhances competitive growth inNicotiana attenuata

Pradhan

Baldwin

2023

New Phytologist

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Summary Plants interact with arbuscular mycorrhizal fungi (AMF) and in doing so, change transcript levels of many miRNAs and their targets. However, the identity of an Argonaute (AGO) that modulates this interaction remains unknown, including in Nicotiana attenuata. We examined how the silencing of NaAGO1/2/4/7/and 10 by RNAi influenced plant‐competitive ability under low‐P conditions when they interact with AMF. Furthermore, the roles of seven miRNAs, predicted to regulate signaling and phosphate homeostasis, were evaluated by transient overexpression. Only NaAGO7 silencing by RNAi (irAGO7) significantly reduced the competitive ability under P‐limited conditions, without changes in leaf or root development, or juvenile‐to‐adult phase transitions. In plants growing competitively in the glasshouse, irAGO7 roots were over‐colonized with AMF, but they accumulated significantly less phosphate and the expression of their AMF‐specific transporters was deregulated. Furthermore, the AMF‐induced miRNA levels were inversely regulated with the abundance of their target transcripts. miRNA overexpression consistently decreased plant fitness, with four of seven‐tested miRNAs reducing mycorrhization rates, and two increasing mycorrhization rates. Overexpression of Na‐miR473 and Na‐miRNA‐PN59 downregulated targets in GA, ethylene, and fatty acid metabolism pathways. We infer that AGO7 optimizes competitive ability and colonization by regulating miRNA levels and signaling pathways during a plant's interaction with AMF.

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Section: Resultsmentioning

confidence: 99%