Elimination of Viroids from Tobacco Pollen Involves a Decrease in Propagation Rate and an Increase of the Degradation Processes

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Authors	MATOUSEK J. STEINBACHOVA L. DRABKOVA L.Z. KOCABEK T. POTĚŠIL David MISHRA A.K. HONYS D. STEGER G.
Year of publication	2020
Type	Article in Periodical
Magazine / Source	International Journal of Molecular Sciences
MU Faculty or unit	Central European Institute of Technology
Citation
Web	https://www.mdpi.com/1422-0067/21/8/3029
Doi	http://dx.doi.org/10.3390/ijms21083029
Keywords	AFCVd and CBCVd propagation and eradication; viroid replication; viroid degradation; Nicotiana tabacum; male gametophyte; small RNA; recombinant AGO; TUDOR S-nuclease; strand-specific viroid RT-qPCR
Description	Some viroids-single-stranded, non-coding, circular RNA parasites of plants-are not transmissible through pollen to seeds and to next generation. We analyzed the cause for the elimination of apple fruit crinkle viroid (AFCVd) and citrus bark cracking viroid (CBCVd) from male gametophyte cells of Nicotiana tabacum by RNA deep sequencing and molecular methods using infected and transformed tobacco pollen tissues at different developmental stages. AFCVd was not transferable from pollen to seeds in reciprocal pollinations, due to a complete viroid eradication during the last steps of pollen development and fertilization. In pollen, the viroid replication pathway proceeds with detectable replication intermediates, but is dramatically depressed in comparison to leaves. Specific and unspecific viroid degradation with some preference for (-) chains occurred in pollen, as detected by analysis of viroid-derived small RNAs, by quantification of viroid levels and by detection of viroid degradation products forming "comets" on Northern blots. The decrease of viroid levels during pollen development correlated with mRNA accumulation of several RNA-degrading factors, such as AGO5 nuclease, DICER-like and TUDOR S-like nuclease. In addition, the functional status of pollen, as a tissue with high ribosome content, could play a role during suppression of AFCVd replication involving transcription factors IIIA and ribosomal protein L5.
Related projects:	Czech Infrastructure for Integrative Structural Biology e-Infrastruktura CZ