Wednesday, December 20, 2023

 

Uncovering the 150-year history of Japanese beer barley breeding


Researchers use DNA technology to pinpoint traces of breeding efforts inscribed in the genomes of modern elite Japanese barley cultivars


Peer-Reviewed Publication

OKAYAMA UNIVERSITY

Symptoms of barley yellow mosaic virus disease in susceptible and resistant accessions 

IMAGE: 

A: CLOSE-UP IMAGES OF A SINGLE BARLEY LEAF. A-1: YELLOW MOSAIC VIRUS-INFESTED LEAF SHOWING APPARENTLY YELLOWISH MOSAIC SYMPTOM, A-2: RESISTANT ACCESSION HAS A GREEN AND HEALTHY LEAF. B: WHOLE PLANT IMAGES. B-1: HEAVILY INFESTED ACCESSION SHOWS SEVERE YELLOWING AND WITHERING—THE CORRESPONDING YIELD AND QUALITY DETERIORATE. B-2: RESISTANT CULTIVAR WITH HEALTHY GREEN LEAVES.

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CREDIT: PROFESSOR SHIN TAKETA FROM OKAYAMA UNIVERSITY




Barley is a staple crop with several applications, acting as a source of food, livestock feed, and an ingredient for malt brewing. Originally disseminated from China and the Korean Peninsula about 2,000 years ago, all Japanese barley cultivars were six-row for human food until the 1880s. After the cultural enlightenment of the Meiji period, Japan needed to initiate its own domestic brewery. To supply raw materials for emerging beer industries, two-row beer barley cultivars were introduced from the West as genetic resources. Breeding of new beer barley cultivars was initiated to adapt to harsh climate and endemic diseases in Japan.
Lately, barley yellow mosaic virus (BaYMV) has devastated barley crops in Japan. Most Japanese six-row barley cultivars are either resistant or moderately resistant to BaYMV. Unfortunately, the newly introduced Western two-row cultivars are highly susceptible to this disease.
Genes that confer resistance to BaYMV, such as resistance to yellow mosaic 5 (rym5) and rym3, have been routinely used to breed BaYMV-resistant barley cultivars. Such cultivars are also economically suitable for farming and have acceptable malting qualities. However, concerns arose that intensive breeding of BaYMV-resistant two-row malting barley cultivars may have reduced their genetic diversity.
To assess the diversity of two closely related modern Japanese malting barley cultivars, ‘Sukai Golden’ and ‘Sachiho Golden,’ Professor Shin Taketa from the Institute of Plant Science and Resources, Okayama University, and Dr. Keiichi Mochida from RIKEN Center for Sustainable Resource Science, along with Professor Shunsuke Yajima from the NODAI Genome Research Center, Tokyo University of Agriculture, Dr. Hidekazu Takahashi from the Food and Agricultural Sciences, Fukushima University, and Dr. Toshinori Sotome from the Tochigi Prefectural Agricultural Experiment Station, analyzed gene expression and single-nucleotide polymorphisms (SNPs) by sequencing RNAs from 20-day-old immature seeds. The results of their study were published online in Breeding Science on October 28, 2023.
RNA sequencing is an effective method to quickly obtain complete gene expression profiles and genome-wide data on SNPs, which are single-base variants in DNA that can sometimes be the reason for differences in disease susceptibility between populations.
Their analyses showed that these two Japanese cultivars possessed unique and contrasting features related to malting quality and BaYMV resistance gene(s). Notably, the researchers detected 2,419 Sukai Golden-specific and 3,058 Sachiho Golden-specific SNPs—a high SNP number compared to the genome sequences of two reference cultivars.
Discussing their findings, Prof. Taketa adds, “This study detected key traces of Japanese barley improvement inscribed in the genomes of two high-quality modern cultivars. Japanese beer barley breeding began around 150 years ago by introducing Western high-quality beer barley. The hot and humid Japanese climate and soil-transmitting virus diseases hampered the development of beer barley suited for Japan. Western beer barley cultivars inevitably required crossed with virus-disease-resistant East Asian barley, despite the latter having undesirable brewing quality characteristics. Balancing virus disease resistance and malting quality was extremely difficult. ” 
Two SNP clusters were detected in ‘Sukai Golden’ showing the incorporation of the BaYMV resistance gene rym5 on the long arm of 3H and the anthocyanin-less ant2 gene on the long arm of 2H, respectively.
Similarly, the resistance gene rym3 from ‘Haganemugi’ was mapped to the proximal region of 5H. Haplotype analysis of progenitors of the two modern malting cultivars revealed that this particular rym3 gene received independent introduction into ‘Sukai Golden’ and ‘Sachiho Golden.’
This study of the immature seed transcriptomes of two elite Japanese malting barley cultivars could provide important insights into improving seed quality and resistance to BaYMV. Accordingly, Prof. Taketa concludes, “We know that repeated crossing and rigorous selection of the barley cultivars allowed for adaptation to the harsh Japanese agricultural environment. In this way, high-quality modern Japanese beer barley cultivars were developed over the past 150 years and are still evolving for the future, thanks to the strenuous efforts of both public and private breeders.”  
In summary, this study emphasizes the pivotal role of barley research in proposing long-term effective measures for preventing the barley resistance genes from becoming ineffective against variant virus strains. Plant geneticists should devise effective strategies for the durable use of limited virus resistance gene sources.

About Okayama University, Japan
As one of the leading universities in Japan, Okayama University aims to create and establish a new paradigm for the sustainable development of the world. Okayama University offers a wide range of academic fields, which become the basis of the integrated graduate schools. This not only allows us to conduct the most advanced and up-to-date research but also provides an enriching educational experience.
Website: https://www.okayama-u.ac.jp/index_e.html

About Professor Shin Taketa from Okayama University, Japan
Professor Shin Taketa, affiliated with the Institute of Plant Science and Resources at Okayama University, obtained his Ph.D. from Kyoto University in 1992. Prof. Taketa’s research interests include plant genetics and genomics, agriculture science, morphology, and seed quality. He is a member of the Japanese Society of Plant Physiology and the Japanese Society of Breeding. He has authored over 100 research articles in national and international publications of repute. 
 

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