Transcriptomic analyses reveal regulatory plasticity and metabolic reprogramming underlying genotype-specific microspore embryogenesis in wheat
Hai Ying Yuan, Yunfei Jiang, Palak Kathiria, Venkatesh Bollina, Yifang Tan, Jean L. Enns, Alison M. R. Ferrie, Sateesh Kagale

TL;DR
This study uses transcriptomics to uncover how gene regulation and metabolism influence successful microspore embryogenesis in wheat, offering insights to improve breeding.
Contribution
The study identifies genotype-specific gene expression patterns and epigenetic factors linked to microspore embryogenesis in wheat.
Findings
Nanda wheat shows enriched epigenetic regulation and metabolic pathway remodeling during embryogenesis.
DEG hotspots and a histone deacetylase gene are potential biomarkers for embryogenic efficiency.
Sadash exhibits B-subgenome suppression, with 65% overlap with DEGs from genotype comparisons.
Abstract
Embryogenic efficiency in wheat microspores is driven by epigenetic regulation, homoeolog expression bias, and genotype-specific genomic variation, with coordinated remodeling of metabolic pathways and cell-wall dynamics establishing a favourable cellular environment. Microspore embryogenesis is a process in which immature male gametophytes are induced to form embryo-like structures that can regenerate into doubled haploid (DH) plants following chromosome doubling. By producing complete homozygosity in a single generation, DH technology accelerates cultivar development and is particularly valuable for breeding resilient crops. However, bread wheat remains largely recalcitrant to microspore embryogenesis, with strong genotype dependence limiting its broad application in breeding programs. Here, we performed a comparative transcriptomic time-course in two spring wheat cultivars with…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsPlant tissue culture and regeneration · Plant Molecular Biology Research · Wheat and Barley Genetics and Pathology
