Structural and Genomic Bases of Branching Traits in Spur-Type Apple: Insights from Morphology and Whole-Genome Resequencing
Han Wang, Dongmei Chen, Guodong Zhao, Da Zhang, Xin Liu, Bowei Zhu, Linguang Jia, Tongsheng Zhao, Chaohong Zhang, Xinsheng Zhang

TL;DR
This study explores the genetic and structural basis of compact growth in spur-type apples using genome sequencing and analysis to support breeding improvements.
Contribution
The paper identifies candidate genes and genomic variations linked to spur-type branching traits in apples through whole-genome resequencing.
Findings
Spur-type apple lines showed smaller, more compact cell structures compared to non-spur-type lines.
Genomic analysis identified 29,157 candidate genes with deleterious mutations associated with spur-type traits.
Candidate genes were enriched in pathways related to molecular function, phosphorylation, and metabolism.
Abstract
Background: Plant architecture, particularly branching patterns, plays a crucial role in plant growth, photosynthetic performance, and yield. Spur-type apple, characterized by compact growth, early fruiting, high productivity, and manageable canopy structure, represent valuable germplasm for establishing dwarf and high-density apple orchards. While hybrid breeding of spur-type varieties offers significant potential for genetic advancement, severe segregation of traits in hybrid progeny and the difficulty of combining multiple favorable traits still significantly limit breeding efficiency. Moreover, the genetic basis and molecular mechanisms of the spur-type trait remain poorly understood at the genomic level, hindering the development of precise molecular breeding approaches. Methods: To address this, we used the spur-type line ‘0301-13-14’ and the non-spur-type line ‘0301-50-32’ from…
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 Molecular Biology Research · Plant Physiology and Cultivation Studies · Postharvest Quality and Shelf Life Management
