Generating homozygous mutant populations of barley microspores by ethyl methanesulfonate treatment

SUMMARYThe advanced model of floral morphogenesis is based largely on data from Arabidopsis (Arabidopsis thaliana) and rice (Oryza sativa), but this process is less well understood in the Triticeae. Here, we investigated a sterile barley (Hordeum vulgare) mutant with malformed floral organs (designated mfo1), of which the paleae, lodicules, and stamens in each floret were all converted into lemma‐like organs, and the ovary was abnormally shaped. Combining bulked‐segregant analysis, whole‐genome resequencing, and TILLING approaches, the mfo1 mutant was attributed to loss‐of‐function mutations in the MADS‐box transcription factor gene HvAGL6, a key regulator in the ABCDE floral morphogenesis model. Through transcriptomic analysis between young inflorescences of wild‐type and mfo1 plants, 380 genes were identified as differentially expressed, most of which function in DNA binding, protein dimerization, cell differentiation, or meristem determinacy. Regulatory pathway enrichment showed HvAGL6 associates with transcriptional abundance of many MADS‐box genes, including the B‐class gene HvMADS4. Mutants with deficiency in HvMADS4 exhibited the conversion of stamens into supernumerary pistils, producing multiple ovaries resembling the completely sterile multiple ovaries 3.h (mov3.h) mutant. These findings demonstrate that the regulatory model of floral morphogenesis is conserved across plant species and provides insights into the interactions between HvAGL6 and other MADS‐box regulators.

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A guide to barley mutants

Hansson,

Youssef,

Zakhrabekova

et al. 2024

Hereditas

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Background Mutants have had a fundamental impact upon scientific and applied genetics. They have paved the way for the molecular and genomic era, and most of today’s crop plants are derived from breeding programs involving mutagenic treatments. Results Barley (Hordeum vulgare L.) is one of the most widely grown cereals in the world and has a long history as a crop plant. Barley breeding started more than 100 years ago and large breeding programs have collected and generated a wide range of natural and induced mutants, which often were deposited in genebanks around the world. In recent years, an increased interest in genetic diversity has brought many historic mutants into focus because the collections are regarded as valuable resources for understanding the genetic control of barley biology and barley breeding. The increased interest has been fueled also by recent advances in genomic research, which provided new tools and possibilities to analyze and reveal the genetic diversity of mutant collections. Conclusion Since detailed knowledge about phenotypic characters of the mutants is the key to success of genetic and genomic studies, we here provide a comprehensive description of mostly morphological barley mutants. The review is closely linked to the International Database for Barley Genes and Barley Genetic Stocks (bgs.nordgen.org) where further details and additional images of each mutant described in this review can be found.

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Generating homozygous mutant populations of barley microspores by ethyl methanesulfonate treatment

Cited by 4 publications

References 49 publications

Most Tibetan weedy barleys originated via recombination between Btr1 and Btr2 in domesticated barley

Most Tibetan weedy barleys originated via recombination between Btr1 and Btr2 in domesticated barley

A novel type of malformed floral organs mutant in barley was conferred by loss‐of‐function mutations of the MADS‐box gene HvAGL6

A guide to barley mutants

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