The dominance model for heterosis explains culm length genetics in a hybrid sorghum variety

The dominance model for heterosis explains culm length genetics in a hybrid sorghum variety

Abstract Heterosis helps increase the biomass of many crops; however, while models for its mechanisms have been proposed, it is not yet fully understood. Here, we use a QTL analysis of the progeny of a high-biomass sorghum F1 hybrid to examine heterosis. Five QTLs were identified for culm length and...

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Main Authors: Shumpei Hashimoto, Tatsuro Wake, Haruki Nakamura, Masaki Minamiyama, Satoko Araki-Nakamura, Kozue Ohmae-Shinohara, Eriko Koketsu, Shinnosuke Okamura, Kotaro Miura, Hideo Kawaguchi, Shigemitsu Kasuga, Takashi Sazuka
Format: Article
Language:English
Published: Nature Publishing Group 2021-02-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-84020-3
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spelling doaj-d41840ee33ef444381ca8df5bf781a572021-03-11T12:25:24ZengNature Publishing GroupScientific Reports2045-23222021-02-0111111210.1038/s41598-021-84020-3The dominance model for heterosis explains culm length genetics in a hybrid sorghum varietyShumpei Hashimoto0Tatsuro Wake1Haruki Nakamura2Masaki Minamiyama3Satoko Araki-Nakamura4Kozue Ohmae-Shinohara5Eriko Koketsu6Shinnosuke Okamura7Kotaro Miura8Hideo Kawaguchi9Shigemitsu Kasuga10Takashi Sazuka11Bioscience and Biotechnology Center, Nagoya UniversityBioscience and Biotechnology Center, Nagoya UniversityBioscience and Biotechnology Center, Nagoya UniversityBioscience and Biotechnology Center, Nagoya UniversityBioscience and Biotechnology Center, Nagoya UniversityBioscience and Biotechnology Center, Nagoya UniversityBioscience and Biotechnology Center, Nagoya UniversityBioscience and Biotechnology Center, Nagoya UniversityFaculty of Bioscience and Biotechnology, Fukui Prefectural UniversityGraduate School of Science, Technology, and Innovation, Kobe UniversityFaculty of Agriculture, Education and Research Center of Alpine Field Science, Shinshu UniversityBioscience and Biotechnology Center, Nagoya UniversityAbstract Heterosis helps increase the biomass of many crops; however, while models for its mechanisms have been proposed, it is not yet fully understood. Here, we use a QTL analysis of the progeny of a high-biomass sorghum F1 hybrid to examine heterosis. Five QTLs were identified for culm length and were explained using the dominance model. Five resultant homozygous dominant alleles were used to develop pyramided lines, which produced biomasses like the original F1 line. Cloning of one of the uncharacterised genes (Dw7a) revealed that it encoded a MYB transcription factor, that was not yet proactively used in modern breeding, suggesting that combining classic dw1or dw3, and new (dw7a) genes is an important breeding strategy. In conclusion, heterosis is explained in this situation by the dominance model and a combination of genes that balance the shortness and early flowering of the parents, to produce F1 seed yields.https://doi.org/10.1038/s41598-021-84020-3
collection DOAJ
language English
format Article
sources DOAJ
author Shumpei Hashimoto
Tatsuro Wake
Haruki Nakamura
Masaki Minamiyama
Satoko Araki-Nakamura
Kozue Ohmae-Shinohara
Eriko Koketsu
Shinnosuke Okamura
Kotaro Miura
Hideo Kawaguchi
Shigemitsu Kasuga
Takashi Sazuka
spellingShingle Shumpei Hashimoto
Tatsuro Wake
Haruki Nakamura
Masaki Minamiyama
Satoko Araki-Nakamura
Kozue Ohmae-Shinohara
Eriko Koketsu
Shinnosuke Okamura
Kotaro Miura
Hideo Kawaguchi
Shigemitsu Kasuga
Takashi Sazuka
The dominance model for heterosis explains culm length genetics in a hybrid sorghum variety
Scientific Reports
author_facet Shumpei Hashimoto
Tatsuro Wake
Haruki Nakamura
Masaki Minamiyama
Satoko Araki-Nakamura
Kozue Ohmae-Shinohara
Eriko Koketsu
Shinnosuke Okamura
Kotaro Miura
Hideo Kawaguchi
Shigemitsu Kasuga
Takashi Sazuka
author_sort Shumpei Hashimoto
title The dominance model for heterosis explains culm length genetics in a hybrid sorghum variety
title_short The dominance model for heterosis explains culm length genetics in a hybrid sorghum variety
title_full The dominance model for heterosis explains culm length genetics in a hybrid sorghum variety
title_fullStr The dominance model for heterosis explains culm length genetics in a hybrid sorghum variety
title_full_unstemmed The dominance model for heterosis explains culm length genetics in a hybrid sorghum variety
title_sort dominance model for heterosis explains culm length genetics in a hybrid sorghum variety
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-02-01
description Abstract Heterosis helps increase the biomass of many crops; however, while models for its mechanisms have been proposed, it is not yet fully understood. Here, we use a QTL analysis of the progeny of a high-biomass sorghum F1 hybrid to examine heterosis. Five QTLs were identified for culm length and were explained using the dominance model. Five resultant homozygous dominant alleles were used to develop pyramided lines, which produced biomasses like the original F1 line. Cloning of one of the uncharacterised genes (Dw7a) revealed that it encoded a MYB transcription factor, that was not yet proactively used in modern breeding, suggesting that combining classic dw1or dw3, and new (dw7a) genes is an important breeding strategy. In conclusion, heterosis is explained in this situation by the dominance model and a combination of genes that balance the shortness and early flowering of the parents, to produce F1 seed yields.
url https://doi.org/10.1038/s41598-021-84020-3
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