ZmPILS6 is an auxin efflux carrier required for maize root morphogenesis
Abstract Plant root systems play a pivotal role in plant physiology and exhibit diverse phenotypic traits. Understanding the genetic mechanisms governing root growth and development in model plants like maize is crucial for enhancing crop resilience to drought and nutrient limitations. This study focused on identifying and characterizing ZmPILS6, an annotated auxin efflux carrier, as a key regulator of various crown root traits in maize. ZmPILS6-modified roots displayed reduced network area and suppressed lateral root formation, desirable traits during drought and low phosphate conditions. The research revealed that ZmPILS6 localizes to the endoplasmic reticulum and plays a vital role in controlling the spatial distribution of indole-3-acetic acid (IAA or “auxin”) in primary roots. The study also demonstrated that ZmPILS6 can actively efflux IAA when expressed in yeast. Furthermore, the loss of ZmPILS6 resulted in significant proteome remodeling in maize roots, particularly affecting hormone signaling pathways. To identify potential interacting partners of ZmPILS6, a weighted gene co-expression analysis (WGNA) was performed. Altogether, this research contributes to the growing knowledge of essential genetic determinants governing maize root morphogenesis, which is crucial for guiding agricultural improvement strategies.Significance Statement Crop yield and stress resilience are significantly influenced by crown root architecture. A reverse genetic screen aimed at identifying novel regulators of maize root morphogenesis led to the discovery of ZmPILS6, an auxin efflux carrier. The loss of ZmPILS6 negatively impacts numerous root traits that are linked to plant physiology and function. Proteomic characterization ofpils6-1roots revealed that this evolutionarily conserved transporter is required for the proper expression of numerous phytohormone pathways, including abscisic acid, gibberellins, and jasmonic acid. Notably, ZmPILS6 appears to have a contrasting role in regulating root morphogenesis compared to its Arabidopsis ortholog, PILS6. This finding emphasizes the need for functional characterization of candidate genes directly within key crops of interest, which cannot always be correctly inferred from other model plants..
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Preprint| Erscheinungsjahr: |
2023 |
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| Erschienen: |
2023 |
| Enthalten in: |
bioRxiv.org - (2023) vom: 18. Dez. Zur Gesamtaufnahme - year:2023 |
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| Sprache: |
Englisch |
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| Beteiligte Personen: |
Cowling, Craig L. [VerfasserIn] |
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| Links: |
Volltext [kostenfrei] |
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| doi: |
10.1101/2023.08.01.551510 |
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| 520 | |a Abstract Plant root systems play a pivotal role in plant physiology and exhibit diverse phenotypic traits. Understanding the genetic mechanisms governing root growth and development in model plants like maize is crucial for enhancing crop resilience to drought and nutrient limitations. This study focused on identifying and characterizing ZmPILS6, an annotated auxin efflux carrier, as a key regulator of various crown root traits in maize. ZmPILS6-modified roots displayed reduced network area and suppressed lateral root formation, desirable traits during drought and low phosphate conditions. The research revealed that ZmPILS6 localizes to the endoplasmic reticulum and plays a vital role in controlling the spatial distribution of indole-3-acetic acid (IAA or “auxin”) in primary roots. The study also demonstrated that ZmPILS6 can actively efflux IAA when expressed in yeast. Furthermore, the loss of ZmPILS6 resulted in significant proteome remodeling in maize roots, particularly affecting hormone signaling pathways. To identify potential interacting partners of ZmPILS6, a weighted gene co-expression analysis (WGNA) was performed. Altogether, this research contributes to the growing knowledge of essential genetic determinants governing maize root morphogenesis, which is crucial for guiding agricultural improvement strategies.Significance Statement Crop yield and stress resilience are significantly influenced by crown root architecture. A reverse genetic screen aimed at identifying novel regulators of maize root morphogenesis led to the discovery of ZmPILS6, an auxin efflux carrier. The loss of ZmPILS6 negatively impacts numerous root traits that are linked to plant physiology and function. Proteomic characterization ofpils6-1roots revealed that this evolutionarily conserved transporter is required for the proper expression of numerous phytohormone pathways, including abscisic acid, gibberellins, and jasmonic acid. Notably, ZmPILS6 appears to have a contrasting role in regulating root morphogenesis compared to its Arabidopsis ortholog, PILS6. This finding emphasizes the need for functional characterization of candidate genes directly within key crops of interest, which cannot always be correctly inferred from other model plants. | ||
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| 700 | 1 | |a Khor, Jasper |4 aut | |
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