High-quality haplotype-resolved chromosome assembly provides evolutionary insights and targeted steviol glycosides (SGs) biosynthesis in Stevia rebaudiana Bertoni

IF 10.1 1区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Plant Biotechnology Journal Pub Date : 2024-09-16 DOI:10.1111/pbi.14446

Mamta Masand, Shikha Sharma, Sangeeta Kumari, Poonam Pal, Aasim Majeed, Gopal Singh, Ram Kumar Sharma

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Abstract

Stevia rebaudiana Bertoni is popular source of plant-derived low/no-calorie natural sweeteners (LNCSs), collectively known as steviol glycosides (SGs). Nevertheless, genetic predisposition for targeted biosynthesis of SGs is complex due to multi-substrate functionality of key uridine diphosphate glycosyltransferases (UGTs). Here, we created a high-quality monoploid assembly of 1.34 Gb with N50 value of 110 Mb, 55 551 predicted protein-coding genes, and ~80% repetitive regions in Rebaudioside-A (Reb-A) enriched cultivar of S. rebaudiana. Additionally, a haplotype-based chromosome assembly consisting of haplotype A and haplotype B with an overall genome size of 2.33Gb was resolved, harbouring 639 634 variants including single nucleotide polymorphisms (SNPs), indels and structural variants (SVs). Furthermore, a lineage-specific whole genome duplication analysis revealed that gene families encoding UGTs and Cytochrome-P450 (CYPs) were tandemly duplicated. Additionally, expression analysis revealed five tandemly duplicated gene copies of UGT76G1 having significant correlations with Reb-A content, and identified key residue (leu200val) in the glycosylation of Reb-A. Furthermore, missense variations identified in the acceptor region of UGT76G1 in haplotype resolve genome, transcriptional and molecular docking analysis were confirmed with resequencing of 10 diverse stevia genotypes (~25X). Gene regulatory network analysis identified key transcription factors (MYB, bHLH, bZIP and AP2-ERF) as potential regulators of SG biosynthesis. Overall, this study provides haplotype-resolved chromosome-level genome assembly for genome editing and enhancing breeding efforts for targeted biosynthesis of SGs in S. rebaudiana.

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高质量的单倍型解析染色体组装提供了对甜叶菊（Stevia rebaudiana Bertoni）进化的深入了解和有针对性的甜菊醇苷（SGs）生物合成

甜叶菊（Stevia rebaudiana Bertoni）是植物提取的低热量/无热量天然甜味剂（LNCSs）的常用来源，统称为甜菊糖（SGs）。然而，由于关键的二磷酸尿苷糖基转移酶（UGTs）具有多底物功能，定向生物合成甜菊糖的遗传倾向非常复杂。在这里，我们在富含 Rebaudioside-A（Reb-A）的 S. rebaudiana 栽培品种中创建了一个 1.34 Gb 的高质量单倍体组合，其 N50 值为 110 Mb，有 55 551 个预测的蛋白编码基因和约 80% 的重复区域。此外，还解析了由单倍型 A 和单倍型 B 组成的基于单倍型的染色体组合，其基因组总大小为 2.33Gb，包含 639 634 个变异，包括单核苷酸多态性（SNP）、嵌合体和结构变异（SV）。此外，针对不同品系的全基因组重复分析表明，编码 UGTs 和细胞色素-P450（CYPs）的基因家族存在串联重复。此外，表达分析表明，UGT76G1 的五个串联重复基因拷贝与 Reb-A 含量有显著相关性，并确定了 Reb-A 糖基化过程中的关键残基（leu200val）。此外，通过对 10 种不同甜叶菊基因型（约 25 倍）进行重新测序，证实了在单倍型解析基因组、转录和分子对接分析中发现的 UGT76G1 受体区的错义变异。基因调控网络分析确定了作为 SG 生物合成潜在调控因子的关键转录因子（MYB、bHLH、bZIP 和 AP2-ERF）。总之，本研究提供了单倍型分辨染色体组水平的基因组组装，可用于 S. rebaudiana 的基因组编辑和提高 SGs 定向生物合成的育种工作。

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来源期刊

Plant Biotechnology Journal 生物-生物工程与应用微生物

CiteScore

20.50

自引率

2.90%

发文量

201

审稿时长

1 months

期刊介绍： Plant Biotechnology Journal aspires to publish original research and insightful reviews of high impact, authored by prominent researchers in applied plant science. The journal places a special emphasis on molecular plant sciences and their practical applications through plant biotechnology. Our goal is to establish a platform for showcasing significant advances in the field, encompassing curiosity-driven studies with potential applications, strategic research in plant biotechnology, scientific analysis of crucial issues for the beneficial utilization of plant sciences, and assessments of the performance of plant biotechnology products in practical applications.

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