Dwarfism in Pinus taeda originates from independent somatic mutations co-localized in a shared genomic region
Pinar Guner, M. Nasir Shalizi, Fikret Isik, Trevor D. Walker

TL;DR
Dwarfism in loblolly pines arises from somatic mutations in a shared genomic region, offering insights into genetic variation in long-lived plants.
Contribution
The study identifies a common genomic region linked to dwarfism in unrelated pine families, suggesting independent somatic mutations in a shared pathway.
Findings
A genomic region on linkage group eight is strongly associated with dwarfism across unrelated pine families.
Dwarf phenotypes segregate in a Mendelian 1:1 ratio, indicating stable inheritance from somatic mutations.
The study proposes a Latin name, Ramus nanus mutatus, to describe the witches’ broom phenomenon in pines.
Abstract
Somatic mutations in long-lived conifers are rarely characterized yet offer a unique window into the spontaneous genetic forces that shape variation in plants. In Pinus taeda, dwarf phenotypes originate from abnormal branches, colloquially known as “witches’ brooms”, where progeny derived from the affected branch segregate for dwarfism in an apparent Mendelian 1:1 ratio. In this study, we genotyped six unrelated wind-pollinated families segregating for dwarfism using single-nucleotide polymorphism markers that had been previously positioned on a linkage map. Trait-loci association analyses identified a genomic region on linkage group eight (spanning 98-155 cM) that was strongly associated with dwarfism across unrelated families. This finding suggests that independent, de novo somatic mutations within a common genomic region are the basis for stable dwarf phenotypes in P. taeda. The…
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
TopicsTree Root and Stability Studies · Plant Gene Expression Analysis · Plant Molecular Biology Research
