Highly heterozygous Citrus changshan-huyou Y. B. Chang originated from ancient hybridization between mandarin and pummelo and displayed distinct tissue-specific allelic imbalance

• Published in: bioRxiv
• Main Authors: Zeng, Zhanghui, Luo, Yingjie, Hu, Haifei, Lan, Lan, Guo, Baojin, Zhou, Ping, Tan, Cong, Huang, Xiaoping, Qi, Tuo, Chen, Zhehao, Yu, Zhiming, Wang, Lilin, Xiang, Taihe, Li, Chengdao, Jia, Yong
• Format: Paper
• Language: English
• Published: Cold Spring Harbor Laboratory 26.03.2025
• Edition: 1.1
• Subjects: Evolutionary Biology; evolutionary origin; Hi-C; Y. B. Chang; haplotype-resolved genome; highly heterozygous genome; allelic imbalance
• ISSN: 2692-8205
• DOI: 10.1101/2025.03.24.644872

The genus Citrus is characterized by a reticulate evolutionary history with frequent hybridization, making it an intriguing subject for genome evolution investigation. Citrus changshan Y. B. Chang (Huyou) is a unique landrace first discovered in Zhejiang Province, China with premium fruit quality. The evolutionary origin of Huyou has puzzled local botanists and growers. Here, we sequenced a 120-years-old “ancestral tree” of Huyou using PacBio long read and Hi-C sequencing and assembled 2 high-quality haplotype-resolved genomes HY1 and HY2. Huyou displayed a genome heterozygosity level at 3.07%, among the highest in published citrus genomes. Using a k-mer-based tracing approach, we explicitly resolved that HY1 genome contained 87.8% mandarin, 7.3% pummelo, 0.2% citron origin, whereas HY2 had 85.0% pummelo, 2.9% mandarin, 0.3% citron, implying a hybridization event between mandarin and pummelo. Phylogeny dating showed that HY1 (2.0 Mya) and HY2 (2.18 Mya) had diverged earlier than the split of Citrus clementina and Citrus reticulata, and the split of Citrus grandis and Citrus maxima, respectively. We observed clear chromosomal recombination on chr8 and chr9 in HY1, which may have occurred after the ancestral hybridization. Further transcriptome analyses in 6 tissues revealed a strong allelic dominance of HY2 over HY1 in root tissue and moderately in stem, leaf, flower, and fruits. KEGG enrichment analyses revealed that genes related to antioxidants biosynthesis and lipid metabolisms were most significantly affected by allelic imbalance. This first report of allelic imbalance in citrus species support Huyou as an interesting model to investigate genome evolution following distant hybridization.