{"title":"GSL8在拟南芥低钙耐受性中的作用。","authors":"Yusuke Shikanai, Mayu Asada, Takafumi Sato, Yusuke Enomoto, Mutsumi Yamagami, Katsushi Yamaguchi, Shuji Shigenobu, Takehiro Kamiya, Toru Fujiwara","doi":"10.5511/plantbiotechnology.22.0421a","DOIUrl":null,"url":null,"abstract":"<p><p>Calcium (Ca) deficiency affects the yields and quality of agricultural products. Susceptibility to Ca deficiency varies among crops and cultivars; however, its genetic basis remains largely unknown. Genes required for low Ca tolerance in <i>Arabidopsis thaliana</i> have been identified. In this study, we identified a novel gene required for low Ca tolerance in <i>A. thaliana</i>. We isolated a mutant sensitive to low Ca concentrations and identified <i>Glucan synthase-like</i> (<i>GSL</i>) <i>8</i> as a gene responsible for low Ca tolerance. <i>GSL8</i> is a paralog of the previously identified low Ca tolerance gene <i>GSL10</i>, which encodes β-1,3 glucan(callose) synthase. Under low Ca conditions, the shoot growth of <i>gsl8</i> mutants were inhibited compared to wild-type plants. A grafting experiment indicated that the shoot, but not root, genotype was important for the shoot growth phenotype. The ectopic accumulation of callose under low Ca conditions was reduced in <i>gsl8</i> mutants. We further investigated the interaction between <i>GSL8</i> and <i>GSL10</i> by testing the <i>gsl8 gsl10</i> double mutant for sensitivity to low Ca concentrations. The double mutant exhibited a more severe phenotype than the single mutant under 0.3 mM Ca, indicating additive effects of <i>GSL8</i> and <i>GSL10</i> with respect to low Ca tolerance. These results establish that <i>GSL</i> genes are required for low Ca tolerance in <i>A. thaliana</i>.</p>","PeriodicalId":20411,"journal":{"name":"Plant Biotechnology","volume":null,"pages":null},"PeriodicalIF":1.4000,"publicationDate":"2022-09-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9592936/pdf/plantbiotechnology-39-3-22.0421a.pdf","citationCount":"0","resultStr":"{\"title\":\"Role of GSL8 in low calcium tolerance in <i>Arabidopsis thaliana</i>.\",\"authors\":\"Yusuke Shikanai, Mayu Asada, Takafumi Sato, Yusuke Enomoto, Mutsumi Yamagami, Katsushi Yamaguchi, Shuji Shigenobu, Takehiro Kamiya, Toru Fujiwara\",\"doi\":\"10.5511/plantbiotechnology.22.0421a\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Calcium (Ca) deficiency affects the yields and quality of agricultural products. Susceptibility to Ca deficiency varies among crops and cultivars; however, its genetic basis remains largely unknown. Genes required for low Ca tolerance in <i>Arabidopsis thaliana</i> have been identified. In this study, we identified a novel gene required for low Ca tolerance in <i>A. thaliana</i>. We isolated a mutant sensitive to low Ca concentrations and identified <i>Glucan synthase-like</i> (<i>GSL</i>) <i>8</i> as a gene responsible for low Ca tolerance. <i>GSL8</i> is a paralog of the previously identified low Ca tolerance gene <i>GSL10</i>, which encodes β-1,3 glucan(callose) synthase. Under low Ca conditions, the shoot growth of <i>gsl8</i> mutants were inhibited compared to wild-type plants. A grafting experiment indicated that the shoot, but not root, genotype was important for the shoot growth phenotype. The ectopic accumulation of callose under low Ca conditions was reduced in <i>gsl8</i> mutants. We further investigated the interaction between <i>GSL8</i> and <i>GSL10</i> by testing the <i>gsl8 gsl10</i> double mutant for sensitivity to low Ca concentrations. The double mutant exhibited a more severe phenotype than the single mutant under 0.3 mM Ca, indicating additive effects of <i>GSL8</i> and <i>GSL10</i> with respect to low Ca tolerance. 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引用次数: 0
摘要
缺钙影响农产品的产量和品质。对钙缺乏的敏感性因作物和品种而异;然而,其遗传基础在很大程度上仍然未知。拟南芥(Arabidopsis thaliana)低钙耐受性所需的基因已经被确定。在这项研究中,我们鉴定了拟南芥低钙耐受性所需的一个新基因。我们分离了一个对低钙浓度敏感的突变体,并确定了葡聚糖合成酶样(GSL) 8是一个负责低钙耐受性的基因。GSL8是先前鉴定的低钙耐受基因GSL10的同源基因,GSL10编码β-1,3葡聚糖(胼胝质)合成酶。在低钙条件下,gsl8突变体的茎部生长受到抑制。嫁接试验表明,茎部而非根的基因型对茎部生长表型起重要作用。低钙条件下,gsl8突变体胼胝质的异位积累减少。通过测试GSL8和GSL10双突变体对低钙浓度的敏感性,我们进一步研究了GSL8和GSL10之间的相互作用。在0.3 mM Ca条件下,双突变体表现出比单突变体更严重的表型,表明GSL8和GSL10对低Ca耐受性有加性作用。这些结果表明,GSL基因是拟南芥低钙耐受性所必需的。
Role of GSL8 in low calcium tolerance in Arabidopsis thaliana.
Calcium (Ca) deficiency affects the yields and quality of agricultural products. Susceptibility to Ca deficiency varies among crops and cultivars; however, its genetic basis remains largely unknown. Genes required for low Ca tolerance in Arabidopsis thaliana have been identified. In this study, we identified a novel gene required for low Ca tolerance in A. thaliana. We isolated a mutant sensitive to low Ca concentrations and identified Glucan synthase-like (GSL) 8 as a gene responsible for low Ca tolerance. GSL8 is a paralog of the previously identified low Ca tolerance gene GSL10, which encodes β-1,3 glucan(callose) synthase. Under low Ca conditions, the shoot growth of gsl8 mutants were inhibited compared to wild-type plants. A grafting experiment indicated that the shoot, but not root, genotype was important for the shoot growth phenotype. The ectopic accumulation of callose under low Ca conditions was reduced in gsl8 mutants. We further investigated the interaction between GSL8 and GSL10 by testing the gsl8 gsl10 double mutant for sensitivity to low Ca concentrations. The double mutant exhibited a more severe phenotype than the single mutant under 0.3 mM Ca, indicating additive effects of GSL8 and GSL10 with respect to low Ca tolerance. These results establish that GSL genes are required for low Ca tolerance in A. thaliana.
期刊介绍:
Plant Biotechnology is an international, open-access, and online journal, published every three months by the Japanese Society for Plant Biotechnology. The journal, first published in 1984 as the predecessor journal, “Plant Tissue Culture Letters” and became its present form in 1997 when the society name was renamed to Japanese Society for Plant Cell and Molecular Biology, publishes findings in the areas from basic- to application research of plant biotechnology. The aim of Plant Biotechnology is to publish original and high-impact papers, in the most rapid turnaround time for reviewing, on the plant biotechnology including tissue culture, production of specialized metabolites, transgenic technology, and genome editing technology, and also on the related research fields including molecular biology, cell biology, genetics, plant breeding, plant physiology and biochemistry, metabolic engineering, synthetic biology, and bioinformatics.
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