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Autori principali: Liu, Xin, Fu, Ning, Li, Jia, Xiao, Tian-Wen, Zeng, Shaohua, Jiang, Rong, Wang, Xin-Feng, Zhang, Hui-Ye, Wei, Lei, Lu, Lu-Yun, Wang, Zheng-Feng, Yan, Hai-Fei, Li, Lin-Feng, Rouard, Mathieu, Ge, Xue-Jun, Li, Wei-Ming, Huang, Hui-Run
Natura: Artículo científico
Lingua:en
Pubblicazione: Nature communications 2026
Soggetti:
Accesso online:https://pubmed.ncbi.nlm.nih.gov/41786733/
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author Liu, Xin
Fu, Ning
Li, Jia
Xiao, Tian-Wen
Zeng, Shaohua
Jiang, Rong
Wang, Xin-Feng
Zhang, Hui-Ye
Wei, Lei
Lu, Lu-Yun
Wang, Zheng-Feng
Yan, Hai-Fei
Li, Lin-Feng
Rouard, Mathieu
Ge, Xue-Jun
Li, Wei-Ming
Huang, Hui-Run
author_facet Liu, Xin
Fu, Ning
Li, Jia
Xiao, Tian-Wen
Zeng, Shaohua
Jiang, Rong
Wang, Xin-Feng
Zhang, Hui-Ye
Wei, Lei
Lu, Lu-Yun
Wang, Zheng-Feng
Yan, Hai-Fei
Li, Lin-Feng
Rouard, Mathieu
Ge, Xue-Jun
Li, Wei-Ming
Huang, Hui-Run
Liu, Xin
Fu, Ning
Li, Jia
Xiao, Tian-Wen
Zeng, Shaohua
Jiang, Rong
Wang, Xin-Feng
Zhang, Hui-Ye
Wei, Lei
Lu, Lu-Yun
Wang, Zheng-Feng
Yan, Hai-Fei
Li, Lin-Feng
Rouard, Mathieu
Ge, Xue-Jun
Li, Wei-Ming
Huang, Hui-Run
collection PubMed - marine biology
contents Going wild in banana breeding enables Fusarium-resistant hybrids with improved fruit quality. Liu, Xin Fu, Ning Li, Jia Xiao, Tian-Wen Zeng, Shaohua Jiang, Rong Wang, Xin-Feng Zhang, Hui-Ye Wei, Lei Lu, Lu-Yun Wang, Zheng-Feng Yan, Hai-Fei Li, Lin-Feng Rouard, Mathieu Ge, Xue-Jun Li, Wei-Ming Huang, Hui-Run Musa Fusarium Disease Resistance Plant Breeding Plant Diseases Fruit Genetic Variation Genome, Plant China Bananas (Musa spp.) are crucial for food security, but modern cultivars derived from few wild species and propagated vegetatively possess low genetic diversity, and weak disease resistance. Identifying new parental lines is therefore essential for banana breeding. Here we show that Musa cheesmanii exhibits high resistance to Fusarium oxysporum f. sp. cubense tropical race 4. We cross it with two Musa ABB cultivars popular in China, 'Yulin' and 'Jinyu'. The resulting hybrids exhibit enhanced disease resistance, high yield, desirable pulp taste, and extended shelf-life, underscoring the breeding value of this wild species. Additionally, a telomere-to-telomere, gap-free genome of M. cheesmanii is assembled, with multi-omics analyses offering insights into its diversification, black pseudo-stem coloration, and disease resistance. Overall, M. cheesmanii is a promising male parent for enhancing genetic diversity and improving banana cultivars.
format Artículo científico
id pubmed_41786733
institution PubMed
language en
publishDate 2026
publisher Nature communications
record_format pubmed
spellingShingle Going wild in banana breeding enables Fusarium-resistant hybrids with improved fruit quality.
Liu, Xin
Fu, Ning
Li, Jia
Xiao, Tian-Wen
Zeng, Shaohua
Jiang, Rong
Wang, Xin-Feng
Zhang, Hui-Ye
Wei, Lei
Lu, Lu-Yun
Wang, Zheng-Feng
Yan, Hai-Fei
Li, Lin-Feng
Rouard, Mathieu
Ge, Xue-Jun
Li, Wei-Ming
Huang, Hui-Run
Musa
Fusarium
Disease Resistance
Plant Breeding
Plant Diseases
Fruit
Genetic Variation
Genome, Plant
China
Going wild in banana breeding enables Fusarium-resistant hybrids with improved fruit quality. Liu, Xin Fu, Ning Li, Jia Xiao, Tian-Wen Zeng, Shaohua Jiang, Rong Wang, Xin-Feng Zhang, Hui-Ye Wei, Lei Lu, Lu-Yun Wang, Zheng-Feng Yan, Hai-Fei Li, Lin-Feng Rouard, Mathieu Ge, Xue-Jun Li, Wei-Ming Huang, Hui-Run Musa Fusarium Disease Resistance Plant Breeding Plant Diseases Fruit Genetic Variation Genome, Plant China Bananas (Musa spp.) are crucial for food security, but modern cultivars derived from few wild species and propagated vegetatively possess low genetic diversity, and weak disease resistance. Identifying new parental lines is therefore essential for banana breeding. Here we show that Musa cheesmanii exhibits high resistance to Fusarium oxysporum f. sp. cubense tropical race 4. We cross it with two Musa ABB cultivars popular in China, 'Yulin' and 'Jinyu'. The resulting hybrids exhibit enhanced disease resistance, high yield, desirable pulp taste, and extended shelf-life, underscoring the breeding value of this wild species. Additionally, a telomere-to-telomere, gap-free genome of M. cheesmanii is assembled, with multi-omics analyses offering insights into its diversification, black pseudo-stem coloration, and disease resistance. Overall, M. cheesmanii is a promising male parent for enhancing genetic diversity and improving banana cultivars.
title Going wild in banana breeding enables Fusarium-resistant hybrids with improved fruit quality.
topic Musa
Fusarium
Disease Resistance
Plant Breeding
Plant Diseases
Fruit
Genetic Variation
Genome, Plant
China
url https://pubmed.ncbi.nlm.nih.gov/41786733/