Overexpression of <i>zmm28</i> increases maize grain yield in the field.

Wu, Jingrui; Lawit, Shai J; Weers, Ben; Sun, Jindong; Mongar, Nick; Van Hemert, John; Melo, Rosana; Meng, Xin; Rupe, Mary; Clapp, Joshua; Haug Collet, Kristin; Trecker, Libby; Roesler, Keith; Peddicord, Layton; Thomas, Jill; Hunt, Joanne; Zhou, Wengang; Hou, Zhenglin; Wimmer, Matthew; Jantes, Justin; Mo, Hua; Liu, Lu; Wang, Yiwei; Walker, Carl; Danilevskaya, Olga; Lafitte, Renee H; Schussler, Jeffrey R; Shen, Bo; Habben, Jeffrey E

Overexpression of zmm28 increases maize grain yield in the field.

Wu, Jingrui; Lawit, Shai J; Weers, Ben; Sun, Jindong; Mongar, Nick; Van Hemert, John; Melo, Rosana; Meng, Xin; Rupe, Mary; Clapp, Joshua; Haug Collet, Kristin; Trecker, Libby; Roesler, Keith; Peddicord, Layton; Thomas, Jill; Hunt, Joanne; Zhou, Wengang; Hou, Zhenglin; Wimmer, Matthew; Jantes, Justin; Mo, Hua; Liu, Lu; Wang, Yiwei; Walker, Carl; Danilevskaya, Olga; Lafitte, Renee H; Schussler, Jeffrey R; Shen, Bo; Habben, Jeffrey E.

Affiliation

Wu J; Research & Development, Corteva Agriscience, Johnston, IA 50131 jingrui.wu@corteva.com jeffrey.habben@corteva.com.
Lawit SJ; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Weers B; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Sun J; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Mongar N; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Van Hemert J; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Melo R; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Meng X; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Rupe M; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Clapp J; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Haug Collet K; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Trecker L; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Roesler K; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Peddicord L; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Thomas J; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Hunt J; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Zhou W; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Hou Z; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Wimmer M; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Jantes J; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Mo H; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Liu L; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Wang Y; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Walker C; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Danilevskaya O; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Lafitte RH; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Schussler JR; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Shen B; Research & Development, Corteva Agriscience, Johnston, IA 50131.
Habben JE; Research & Development, Corteva Agriscience, Johnston, IA 50131 jingrui.wu@corteva.com jeffrey.habben@corteva.com.

Proc Natl Acad Sci U S A ; 116(47): 23850-23858, 2019 11 19.

Article in En | MEDLINE | ID: mdl-31685622

ABSTRACT

ABSTRACT

Increasing maize grain yield has been a major focus of both plant breeding and genetic engineering to meet the global demand for food, feed, and industrial uses. We report that increasing and extending expression of a maize MADS-box transcription factor gene, zmm28, under the control of a moderate-constitutive maize promoter, results in maize plants with increased plant growth, photosynthesis capacity, and nitrogen utilization. Molecular and biochemical characterization of zmm28 transgenic plants demonstrated that their enhanced agronomic traits are associated with elevated plant carbon assimilation, nitrogen utilization, and plant growth. Overall, these positive attributes are associated with a significant increase in grain yield relative to wild-type controls that is consistent across years, environments, and elite germplasm backgrounds.

Subject(s)

Crops, Agricultural/genetics; Edible Grain; Genes, Plant; Zea mays/genetics; Amino Acid Sequence; Crops, Agricultural/enzymology; Glutamate-Ammonia Ligase/metabolism; Nitrate Reductase/metabolism; Nitrogen/metabolism; Photosynthesis/genetics; Plant Leaves/physiology; Plant Proteins/chemistry; Plant Proteins/genetics; Plant Proteins/metabolism; Plants, Genetically Modified; Protein Binding; Transcriptome; Zea mays/enzymology

Key words

MADS-box; carbon assimilation; maize yield; nitrogen utilization; zmm28

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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Edible Grain / Genes, Plant / Crops, Agricultural / Zea mays Language: En Journal: Proc Natl Acad Sci U S A Year: 2019 Type: Article

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