Hybridization Drives Trait Integration in Telomere‐To‐Telomere Apocynum Genomes
Pan Xu, Fan Wu, Qi Yan, Bao Ao, Shengsheng Wang, Lijun Chen, Li Wang, Jiyu Zhang

TL;DR
This study shows how hybridization in Apocynum plants leads to stress resilience through genomic changes and gene expression shifts, offering insights for crop improvement in harsh environments.
Contribution
The study identifies hybridization-driven trait integration and dynamic allele-specific expression mechanisms in Apocynum genomes for stress tolerance.
Findings
APZ is a homoploid hybrid of AVX and AHG, with AHG plastid inheritance and hybrid origin ~0.95 million years ago.
APZ shows large heterozygous inversions preserving AHG stress-tolerance haplotypes and dynamic allele-specific expression in salt tolerance.
AvFLS and AvCHS5 genes from AVX enhance salt tolerance and flavonoid biosynthesis, validated through transgenic assays.
Abstract
Hybridization drives plant adaptation, yet its genomic mechanisms in non‐model perennials remain elusive. Apocynum species thrive in extreme saline‐alkaline environments. This study establishes A. pictum (APZ) as a homoploid hybrid of A. venetum (AVX) and A. hendersonii (AHG), exemplifying hybrid‐driven resilience. Leveraging telomere‐to‐telomere (T2T) genome assemblies of AVX, APZ, and AHG, we confirmed APZ's hybrid origin ~0.95 million years ago (Mya), following species divergence ~2.08 Mya, with AHG plastid inheritance. Nuclear and plastid analyses resolve taxonomic disputes among three Apocynum species. APZ exhibits large heterozygous inversions on chromosomes 3 and 8 with suppressed recombination, preserving AHG stress‐tolerance haplotypes. The study also showed that allele‐specific expression (ASE) dynamically regulates salt tolerance: AHG‐biased stress MAPK signalling pathway…
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Taxonomy
TopicsChromosomal and Genetic Variations · Plant Molecular Biology Research · Telomeres, Telomerase, and Senescence
