Biological pathway expression complementation contributes to biomass heterosis in Arabidopsis

Liu，Wenwen1; He，Guangming1; Deng，Xing Wang1,2

2021-04-20

10.1073/pnas.2023278118

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA   影响因子和分区

0027-8424

1091-6490

The mechanisms underlying heterosis have long remained a matter of debate, despite its agricultural importance. How changes in transcriptional networks during plant development are relevant to the continuous manifestation of growth vigor in hybrids is intriguing and unexplored. Here, we present an integrated high-resolution analysis of the daily dynamic growth phenotypes and transcriptome atlases of young Arabidopsis seedlings (parental ecotypes [Col-0 and Per-1] and their F hybrid). Weighted gene coexpression network analysis uncovered divergent expression patterns between parents of the network hub genes, in which genes related to the cell cycle were more highly expressed in one parent (Col-0), whereas those involved in photosynthesis were more highly expressed in the other parent (Per-1). Notably, the hybrid exhibited spatiotemporal high-parent-dominant expression complementation of network hub genes in the two pathways during seedling growth. This suggests that the integrated capacities of cell division and photosynthesis contribute to hybrid growth vigor, which could be enhanced by temporal advances in the progression of leaf development in the hybrid relative to its parents. Altogether, this study provides evidence of expression complementation between fundamental biological pathways in hybrids and highlights the contribution of expression dominance in heterosis.

Biomass heterosis Cell cycle Dominance Photosynthesis WGCNA

SCI

英语

NI期刊

其他

National Natural Science Foundation of China[31871221,31621001]

Science & Technology - Other Topics

Multidisciplinary Sciences

WOS:000642461500016

NATL ACAD SCIENCES

BIOLOGY & BIOCHEMISTRY;CLINICAL MEDICINE;MULTIDISCIPLINARY;PLANT & ANIMAL SCIENCE;ENVIRONMENT/ECOLOGY;SOCIAL SCIENCES, GENERAL;MICROBIOLOGY;ECONOMICS BUSINESS;IMMUNOLOGY;MATERIALS SCIENCE;MATHEMATICS;SPACE SCIENCE;MOLECULAR BIOLOGY & GENETICS;PHARMACOLOGY & TOXICOLOGY;CHEMISTRY;PSYCHIATRY/PSYCHOLOGY;NEUROSCIENCE & BEHAVIOR;PHYSICS;GEOSCIENCES;AGRICULTURAL SCIENCES;ENGINEERING

2-s2.0-85104355917

Scopus

1.School of Advanced Agricultural Sciences,School of Life Sciences,State Key Laboratory of Protein and Plant Gene Research,Peking-Tsinghua Center for Life Sciences,Peking University,Beijing,100871,China
2.Peking University-Southern University of Science and Technology,Institute of Plant and Food Science,Department of Biology,Southern University of Science and Technology,Shenzhen,518055,China

Liu，Wenwen,He，Guangming,Deng，Xing Wang. Biological pathway expression complementation contributes to biomass heterosis in Arabidopsis[J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2021,118(16).

Liu，Wenwen,He，Guangming,&Deng，Xing Wang.(2021).Biological pathway expression complementation contributes to biomass heterosis in Arabidopsis.PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,118(16).

Liu，Wenwen,et al."Biological pathway expression complementation contributes to biomass heterosis in Arabidopsis".PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 118.16(2021).