Time Series Transcriptome Analysis in Medicago truncatula Shoot and Root Tissue During Early Nodulation

In response to colonization by rhizobia bacteria, legumes are able to form nitrogen-fixing nodules in their roots, allowing the plants to grow efficiently in nitrogen-depleted environments. Legumes utilize a complex, long-distance signaling pathway to regulate nodulation that involves signals in bot...

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Bibliographic Details
Published in:Frontiers in plant science 2022-04, Vol.13, p.861639-861639
Main Authors: Gao, Yueyao, Selee, Bradley, Schnabel, Elise L, Poehlman, William L, Chavan, Suchitra A, Frugoli, Julia A, Feltus, Frank Alex
Format: Article
Language:English
Subjects:
differential gene expression
Medicago truncatula
nodulation
Plant Science
rhizobia
time series
transcriptional dynamic
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Summary:In response to colonization by rhizobia bacteria, legumes are able to form nitrogen-fixing nodules in their roots, allowing the plants to grow efficiently in nitrogen-depleted environments. Legumes utilize a complex, long-distance signaling pathway to regulate nodulation that involves signals in both roots and shoots. We measured the transcriptional response to treatment with rhizobia in both the shoots and roots of over a 72-h time course. To detect temporal shifts in gene expression, we developed GeneShift, a novel computational statistics and machine learning workflow that addresses the time series replicate the averaging issue for detecting gene expression pattern shifts under different conditions. We identified both known and novel genes that are regulated dynamically in both tissues during early nodulation including leginsulin, defensins, root transporters, nodulin-related, and circadian clock genes. We validated over 70% of the expression patterns that GeneShift discovered using an independent RNA-Seq study. GeneShift facilitated the discovery of condition-specific temporally differentially expressed genes in the symbiotic nodulation biological system. In principle, GeneShift should work for time-series gene expression profiling studies from other systems.
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2022.861639