RRC ID 25672
Author Hatano H, Mizuno N, Matsuda R, Shitsukawa N, Park P, Takumi S.
Title Dysfunction of mitotic cell division at shoot apices triggered severe growth abortion in interspecific hybrids between tetraploid wheat and Aegilops tauschii.
Journal New Phytol
Abstract Common wheat is an allohexaploid species, derived through endoreduplication of an interspecific triploid hybrid produced from a cross between cultivated tetraploid wheat and the wild diploid relative Aegilops tauschii. Hybrid incompatibilities, including hybrid necrosis, have been observed in triploid wheat hybrids. A limited number of A. tauschii accessions show hybrid lethality in triploid hybrids crossed with tetraploid wheat as a result of developmental arrest at the early seedling stage, which is termed severe growth abortion (SGA). Despite the potential severity of this condition, the genetic mechanisms underlying SGA are not well understood. Here, we conducted comparative analyses of gene expression profiles in crown tissues to characterize developmental arrest in triploid hybrids displaying SGA. A number of defense-related genes were highly up-regulated, whereas many transcription factor genes, such as the KNOTTED1-type homeobox gene, which function in shoot apical meristem (SAM) and leaf primordia, were down-regulated in the crown tissues of SGA plants. Transcript accumulation levels of cell cycle-related genes were also markedly reduced in SGA plants, and no histone H4-expressing cells were observed in the SAM of SGA hybrid plants. Our findings demonstrate that SGA shows unique features among other types of abnormal growth phenotypes, such as type II and III necrosis.
Volume 194(4)
Pages 1143-1154
Published 2012-6-1
DOI 10.1111/j.1469-8137.2012.04125.x
PMID 22436033
MeSH Gene Expression Profiling Hybridization, Genetic* Microscopy, Electron, Transmission Mitosis Phenotype Photosynthesis Plant Shoots / growth & development* Tetraploidy Triploidy Triticum / physiology*
IF 8.512
Times Cited 16
Wheat KU-2022 KU-2059 KU-2069 KU-2025 KU-2110 KU-8736A KU-138