A Novel Putative Microtubule-Associated Protein Is Involved in Arbuscule Development during Arbuscular Mycorrhiza Formation

A Novel Putative Microtubule-Associated Protein Is Involved in Arbuscule Development during Arbuscular Mycorrhiza Formation

The formation of arbuscular mycorrhizal (AM) symbiosis requires plant root host cells to undergo major structural and functional reprogramming to house the highly branched AM fungal structure for the reciprocal exchange of nutrients. These morphological modifications are associated with cytoskeleton...

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Bibliographic Details
Published in:Plant and cell physiology Vol. 62; no. 2; pp. 306 - 320
Main Authors: Ho-Pl Garo, Tania, Huertas, Ra L, Tamayo-Navarrete, Mar A I, Blancaflor, Elison, Gavara, Nuria, Garc A-Garrido, Jos M
Format: Journal Article
Language:English
Published: Japan Oxford University Press 11-05-2021
Subjects:
Genes, Plant - genetics
Genes, Plant - physiology
Microtubules - metabolism
Microtubules - physiology
Mycorrhizae - growth & development
Phylogeny
Plant Proteins - genetics
Plant Proteins - metabolism
Plant Proteins - physiology
Plant Roots - metabolism
Plant Roots - microbiology
Plant Roots - physiology
Regular Papers
Sequence Alignment
Solanum lycopersicum - genetics
Solanum lycopersicum - metabolism
Solanum lycopersicum - microbiology
Solanum lycopersicum - physiology
Symbiosis
Mycorrhiza-related genes
Cytoskeleton
Microtubule-associated protein
Tomato
Hairy roots
Arbuscular mycorrhiza
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Summary:The formation of arbuscular mycorrhizal (AM) symbiosis requires plant root host cells to undergo major structural and functional reprogramming to house the highly branched AM fungal structure for the reciprocal exchange of nutrients. These morphological modifications are associated with cytoskeleton remodelling. However, molecular bases and the role of microtubules (MTs) and actin filament dynamics during AM formation are largely unknown. In this study, the tomato tsb (tomato similar to SB401) gene, belonging to a Solanaceae group of genes encoding MT-associated proteins (MAPs) for pollen development, was found to be highly expressed in root cells containing arbuscules. At earlier stages of mycorrhizal development, tsb overexpression enhanced the formation of highly developed and transcriptionally active arbuscules, while tsb silencing hampers the formation of mature arbuscules and represses arbuscule functionality. However, at later stages of mycorrhizal colonization, tsb overexpressing (OE) roots accumulate fully developed transcriptionally inactive arbuscules, suggesting that the collapse and turnover of arbuscules might be impaired by TSB accumulation. Imaging analysis of the MT cytoskeleton in cortex root cells OE tsb revealed that TSB is involved in MT bundling. Taken together, our results provide unprecedented insights into the role of novel MAP in MT rearrangements throughout the different stages of the arbuscule life cycle.
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ISSN:1471-9053
0032-0781
1471-9053
DOI:10.1093/pcp/pcaa159