Research Center of Crop Stresses Resistance Technologies, Yangtze University, Jingzhou, 434025, China.
Western Crop Genetics Alliance, Western Australian State Agricultural Biotechnology Centre, College of Science, Health, Engineering and Education, Murdoch University, Murdoch, WA, 6155, Australia.
Sci Data. 2023 Aug 10;10(1):535. doi: 10.1038/s41597-023-02434-2.
Wild barley, from "Evolution Canyon (EC)" in Mount Carmel, Israel, are ideal models for cereal chromosome evolution studies. Here, the wild barley EC_S1 is from the south slope with higher daily temperatures and drought, while EC_N1 is from the north slope with a cooler climate and higher relative humidity, which results in a differentiated selection due to contrasting environments. We assembled a 5.03 Gb genome with contig N50 of 3.53 Mb for wild barley EC_S1 and a 5.05 Gb genome with contig N50 of 3.45 Mb for EC_N1 using 145 Gb and 160.0 Gb Illumina sequencing data, 295.6 Gb and 285.35 Gb Nanopore sequencing data and 555.1 Gb and 514.5 Gb Hi-C sequencing data, respectively. BUSCOs and CEGMA evaluation suggested highly complete assemblies. Using full-length transcriptome data, we predicted 39,179 and 38,373 high-confidence genes in EC_S1 and EC_N1, in which 93.6% and 95.2% were functionally annotated, respectively. We annotated repetitive elements and non-coding RNAs. These two wild barley genome assemblies will provide a rich gene pool for domesticated barley.
野生大麦,来自以色列 Carmel 山的“进化峡谷 (EC)”,是研究谷类染色体进化的理想模型。这里,野生大麦 EC_S1 来自南坡,温度更高且干旱,而 EC_N1 来自北坡,气候更凉爽且相对湿度更高,这导致了由于环境差异而产生的分化选择。我们使用 145 Gb 和 160.0 Gb Illumina 测序数据、295.6 Gb 和 285.35 Gb Nanopore 测序数据以及 555.1 Gb 和 514.5 Gb Hi-C 测序数据,分别为 EC_S1 和 EC_N1 组装了一个 5.03 Gb 的基因组,其 contig N50 分别为 3.53 Mb 和 5.05 Gb。BUSCOs 和 CEGMA 评估表明组装非常完整。使用全长转录组数据,我们在 EC_S1 和 EC_N1 中预测了 39,179 和 38,373 个高可信度基因,其中分别有 93.6%和 95.2%得到了功能注释。我们还注释了重复元件和非编码 RNA。这两个野生大麦基因组组装将为栽培大麦提供丰富的基因库。
