Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize

Matt Sauer; Jianfei Zhao; Meeyeon Park; Rajdeep S. Khangura; Brian P. Dilkes; R. Scott Poethig

doi:10.1093/g3journal/jkad179

Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize

Matt Sauer, Jianfei Zhao, Meeyeon Park, Rajdeep S. Khangura, Brian P. Dilkes, R. Scott Poethig

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Teopod1 (Tp1), Teopod2 (Tp2), and Early phase change (Epc) have profound effects on the timing of vegetative phase change in maize. Gain-of-function mutations in Tp1 and Tp2 delay all known phase-specific vegetative traits, whereas loss-of-function mutations in Epc accelerate vegetative phase change and cause shoot abortion in some genetic backgrounds. Here, we show that Tp1 and Tp2 likely represent cis-acting mutations that cause the overexpression of Zma-miR156j and Zma-miR156h, respectively. Epc is the maize ortholog of HASTY, an Arabidopsis gene that stabilizes miRNAs and promotes their intercellular movement. Consistent with its pleiotropic phenotype and epistatic interaction with Tp1 and Tp2, epc reduces the levels of miR156 and several other miRNAs.

Original language	English (US)
Article number	jkad179
Journal	G3: Genes, Genomes, Genetics
Volume	13
Issue number	10
DOIs	https://doi.org/10.1093/g3journal/jkad179
State	Published - Oct 2023
Externally published	Yes

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Publisher Copyright:
© The Author(s) 2023.

Keywords

EPC
HASTY
Teopod
early phase change
miR156
plant genetics and genomics
vegetative phase change

PubMed: MeSH publication types

Journal Article
Research Support, U.S. Gov't, Non-P.H.S.
Research Support, N.I.H., Extramural

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title = "Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize",

abstract = "Teopod1 (Tp1), Teopod2 (Tp2), and Early phase change (Epc) have profound effects on the timing of vegetative phase change in maize. Gain-of-function mutations in Tp1 and Tp2 delay all known phase-specific vegetative traits, whereas loss-of-function mutations in Epc accelerate vegetative phase change and cause shoot abortion in some genetic backgrounds. Here, we show that Tp1 and Tp2 likely represent cis-acting mutations that cause the overexpression of Zma-miR156j and Zma-miR156h, respectively. Epc is the maize ortholog of HASTY, an Arabidopsis gene that stabilizes miRNAs and promotes their intercellular movement. Consistent with its pleiotropic phenotype and epistatic interaction with Tp1 and Tp2, epc reduces the levels of miR156 and several other miRNAs.",

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author = "Matt Sauer and Jianfei Zhao and Meeyeon Park and Khangura, {Rajdeep S.} and Dilkes, {Brian P.} and Poethig, {R. Scott}",

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AU - Sauer, Matt

AU - Zhao, Jianfei

AU - Park, Meeyeon

AU - Khangura, Rajdeep S.

AU - Dilkes, Brian P.

AU - Poethig, R. Scott

N1 - Publisher Copyright: © The Author(s) 2023.

PY - 2023/10

Y1 - 2023/10

N2 - Teopod1 (Tp1), Teopod2 (Tp2), and Early phase change (Epc) have profound effects on the timing of vegetative phase change in maize. Gain-of-function mutations in Tp1 and Tp2 delay all known phase-specific vegetative traits, whereas loss-of-function mutations in Epc accelerate vegetative phase change and cause shoot abortion in some genetic backgrounds. Here, we show that Tp1 and Tp2 likely represent cis-acting mutations that cause the overexpression of Zma-miR156j and Zma-miR156h, respectively. Epc is the maize ortholog of HASTY, an Arabidopsis gene that stabilizes miRNAs and promotes their intercellular movement. Consistent with its pleiotropic phenotype and epistatic interaction with Tp1 and Tp2, epc reduces the levels of miR156 and several other miRNAs.

AB - Teopod1 (Tp1), Teopod2 (Tp2), and Early phase change (Epc) have profound effects on the timing of vegetative phase change in maize. Gain-of-function mutations in Tp1 and Tp2 delay all known phase-specific vegetative traits, whereas loss-of-function mutations in Epc accelerate vegetative phase change and cause shoot abortion in some genetic backgrounds. Here, we show that Tp1 and Tp2 likely represent cis-acting mutations that cause the overexpression of Zma-miR156j and Zma-miR156h, respectively. Epc is the maize ortholog of HASTY, an Arabidopsis gene that stabilizes miRNAs and promotes their intercellular movement. Consistent with its pleiotropic phenotype and epistatic interaction with Tp1 and Tp2, epc reduces the levels of miR156 and several other miRNAs.

KW - EPC

KW - HASTY

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KW - miR156

KW - plant genetics and genomics

KW - vegetative phase change

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Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize

Abstract

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Keywords

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