Investigation of morphogenesis of inflorescence and determination of the nature of inheritance of "supernumerary spikelets" trait of bread wheat (Triticum aestivum L.) mutant line

Investigation of morphogenesis of inflorescence and determination of the nature of inheritance of "supernumerary spikelets" trait of bread wheat (Triticum aestivum L.) mutant line

Using C-banding and FISH methods, the karyotype of MC1611 induced mutant of bread wheat, which develop additional spikelets at a rachis node (trait "supernumerary spikelets") was characterized. It was determined that the mutant phenotype is not associated with aneuploidy and major chromoso...

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Bibliographic Details
Published in:Ontogenez Vol. 45; no. 6; p. 434
Main Authors: Dobrovol'skaia, O B, Badaeva, E D, Adonina, I G, Popova, O M, Krasnikov, A A, Laĭkova, L I
Format: Journal Article
Language:Russian
Published: Russia (Federation) 01-11-2014
Subjects:
Chromosome Banding
Chromosomes, Plant - genetics
Chromosomes, Plant - metabolism
Flowers - embryology
Flowers - genetics
Karyotype
Meristem - genetics
Meristem - metabolism
Morphogenesis - genetics
Mutation
Triticum - embryology
Triticum - genetics
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Summary:Using C-banding and FISH methods, the karyotype of MC1611 induced mutant of bread wheat, which develop additional spikelets at a rachis node (trait "supernumerary spikelets") was characterized. It was determined that the mutant phenotype is not associated with aneuploidy and major chromosomal rearrangements. The results of genetic analysis showed that supernumerary spikelets of the line are caused by a mutation of the single bh-D. 1 gene, influenced by the genetic background. The mutation causes abnormalities of inflorescence morphogenesis associated with the development of ectopic spikelet meristems in place of floral meristems in the basal part of the spikelets, causing the appearance of additional spikes at a rachis node. The mutant phenotype suggests that the Bh-D gene determines the fate of the lateral meristem in ear, which develops as floral meristem and gives rise to floral organs in wild-type inflorescences. In the Bh-D. 1 mutant, the establishing identity is impaired. The characterized mutant can be used in further studies on molecular genetic basis of development of wheat inflorescence.
ISSN:0475-1450
DOI:10.7868/s0475145014060032