Transposon-Associated Small RNAs Involved in Plant Defense in Poplar

Transposon-Associated Small RNAs Involved in Plant Defense in Poplar

Utilizing high-throughput Illumina sequencing, we examined how small RNA (sRNA) profiles vary in Chinese white poplar (<i>Populus tomentosa</i>) across two pivotal infection stages by the rust fungus <i>Melampsora larici-populina</i>: the biotrophic growth phase (T02; 48 h po...

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Bibliographic Details
Main Authors: Cui Long, Yuxin Du, Yumeng Guan, Sijia Liu, Jianbo Xie
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Plants
Subjects:
small RNAs
defense response
infection
poplar
<i>Melampsora larici-populina</i>
Online Access:https://www.mdpi.com/2223-7747/14/8/1265
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Summary:Utilizing high-throughput Illumina sequencing, we examined how small RNA (sRNA) profiles vary in Chinese white poplar (<i>Populus tomentosa</i>) across two pivotal infection stages by the rust fungus <i>Melampsora larici-populina</i>: the biotrophic growth phase (T02; 48 h post infection) and the urediniospore development and dispersal phase (T03; 168 h), both essential for plant colonization and prolonged biotrophic engagement. Far exceeding random expectations, siRNA clusters predominantly arose from transposon regions, with pseudogenes also contributing significantly, and infection-stage-specific variations were notably tied to these transposon-derived siRNAs. As the infection advanced, clusters of 24 nt siRNAs in transposon and intergenic regions exhibited pronounced abundance shifts. An analysis of targets indicated that <i>Populus</i> sRNAs potentially regulate 95% of <i>Melampsora larici-populina</i> genes, with pathogen effector genes showing heightened targeting by sRNAs during the biotrophic and urediniospore phases compared to controls, pointing to selective sRNA-target interactions. In contrast to conserved miRNAs across plant species, <i>Populus</i>-specific miRNAs displayed a markedly greater tendency to target <i>NB-LRR</i> genes. These observations collectively highlight the innovative roles of sRNAs in plant defense, their evolutionary roots, and their dynamic interplay with pathogen coevolution.
ISSN:2223-7747

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