The haplotype-resolved telomere-to-telomere carnation (Dianthus caryophyllus) genome reveals the correlation between genome architecture and gene expression.

IF 7.6 Q1 GENETICS & HEREDITY 园艺研究(英文) Pub Date : 2023-11-27 eCollection Date: 2024-01-01 DOI:10.1093/hr/uhad244
Lan Lan, Luhong Leng, Weichao Liu, Yonglin Ren, Wayne Reeve, Xiaopeng Fu, Zhiqiang Wu, Xiaoni Zhang
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Abstract

Carnation (Dianthus caryophyllus) is one of the most valuable commercial flowers, due to its richness of color and form, and its excellent storage and vase life. The diverse demands of the market require faster breeding in carnations. A full understanding of carnations is therefore required to guide the direction of breeding. Hence, we assembled the haplotype-resolved gap-free carnation genome of the variety 'Baltico', which is the most common white standard variety worldwide. Based on high-depth HiFi, ultra-long nanopore, and Hi-C sequencing data, we assembled the telomere-to-telomere (T2T) genome to be 564 479 117 and 568 266 215 bp for the two haplotypes Hap1 and Hap2, respectively. This T2T genome exhibited great improvement in genome assembly and annotation results compared with the former version. The improvements were seen when different approaches to evaluation were used. Our T2T genome first informs the analysis of the telomere and centromere region, enabling us to speculate about specific centromere characteristics that cannot be identified by high-order repeats in carnations. We analyzed allele-specific expression in three tissues and the relationship between genome architecture and gene expression in the haplotypes. This demonstrated that the length of the genes, coding sequences, and introns, the exon numbers and the transposable element insertions correlate with gene expression ratios and levels. The insertions of transposable elements repress expression in gene regulatory networks in carnation. This gap-free finished T2T carnation genome provides a valuable resource to illustrate the genome characteristics and for functional genomics analysis in further studies and molecular breeding.

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单倍型解析的端粒到端粒康乃馨(石竹属)基因组揭示了基因组结构与基因表达之间的相关性。
康乃馨(Dianthus caryophyllus)因其丰富的色彩和形态,以及出色的储藏和花瓶寿命而成为最有价值的商品花卉之一。市场的多样化需求要求加快康乃馨的育种速度。因此,我们需要充分了解康乃馨,以指导育种方向。因此,我们组建了世界上最常见的白色标准品种'Baltico'的单倍型分辨无间隙康乃馨基因组。基于高深度HiFi、超长纳米孔和Hi-C测序数据,我们为两个单倍型Hap1和Hap2分别组装了564 479 117和568 266 215 bp的端粒到端粒(T2T)基因组。与前一版本相比,这一 T2T 基因组在基因组组装和注释结果方面有很大改进。在使用不同的评估方法时,这些改进都是显而易见的。我们的 T2T 基因组首先为端粒和中心粒区域的分析提供了信息,使我们能够推测康乃馨中无法通过高阶重复识别的特定中心粒特征。我们分析了等位基因在三种组织中的特异性表达以及基因组结构与单倍型基因表达之间的关系。结果表明,基因的长度、编码序列和内含子、外显子数目和转座元件插入与基因表达比率和水平相关。转座元件的插入抑制了康乃馨基因调控网络中的表达。这个无间隙的 T2T 康乃馨基因组为说明基因组特征以及在进一步研究和分子育种中进行功能基因组学分析提供了宝贵的资源。
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