Hazelnut allergome overview and Cor a gRNAs identification.

IF 4.3 2区生物学 Q1 PLANT SCIENCES

BMC Plant Biology Pub Date : 2025-05-19 DOI:10.1186/s12870-025-06685-6

Ciro Gianmaria Amoroso, Giuseppe Andolfo

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引用次数: 0

Abstract

Background: Corylus species (hazelnuts) are a valuable source of nutrients and are widely consumed worldwide. Nevertheless, Corylus avellana (Cor a) contains 13 allergens (Cor a 1, Cor a 2, Cor a 6, Cor a 8, Cor a 9, Cor a 10, Cor a 11, Cor a 12, Cor a 13, Cor a 14, Cor a 15, Cor a 16, and Cor a TLP) that have been deposited into the official database (WHO/IUIS) for allergen nomenclature. The recent availability of several Corylus genomes provided opportunities to explore allergome variability, and thus to develop hypoallergenic varieties using modern biotech approaches. Certainly, the identification of CRISPR-Cas9 guide RNA (gRNA) is a pivotal step in achieving this goal. User-friendly web tools include limited reference genomes to design CRISPR-Cas9 gRNAs, while bioinformatic software for custom analysis require advanced command-line skills.

Results: This work explored the evolutionary trajectories of allergenic Cor a homologs in C. avellana, C. americana, C. heterophylla, and C. mandshurica genome assemblies. 52 Cor a orthologs were found in the analyzed species, and a recent tandem duplication of Cor a 1 was found in C. americana. Three new gene models were predicted in C. avellana and C. mandshurica for Cor a 16 and Cor a 10. Additionally, we identified 56 Cor a isoallergens, of which ten Cor a isoforms. Furthermore, phylogenetic analysis sheds light on the evolutionary dynamics of three hazelnut allergens revealing the evolutionary complexity of Cor a 1, Cor a 2, and Cor a TLP within the Corylus genus. A list of multiple gRNAs designed for the CRISPR-Cas9 system was provided for the singular and multiple silencing of Cor a homologs in each Corylus genome.

Conclusions: This study enhances our knowledge on the evolutionary path of Cor a allergens among Corylus species and provides highly accurate on-target guides targeting hazelnut allergome.

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榛子过敏组综述及Cor a gRNAs鉴定。

背景：榛属植物（榛子）是一种有价值的营养来源，在世界范围内被广泛食用。然而，山梨（Cor a）含有13种过敏原（Cor a 1, Cor a 2, Cor a 6, Cor a 8, Cor a 9, Cor a 10, Cor a 11, Cor a 12, Cor a 13, Cor a 14, Cor a 15， Cor a 16和Cor a TLP），这些过敏原已被存入官方数据库（WHO/IUIS）用于过敏原命名。最近几种榛树基因组的可用性为探索过敏原组变异性提供了机会，从而利用现代生物技术方法开发低过敏性品种。当然，CRISPR-Cas9引导RNA （gRNA）的鉴定是实现这一目标的关键一步。用户友好的网络工具包括有限的参考基因组来设计CRISPR-Cas9 grna，而用于定制分析的生物信息学软件需要高级命令行技能。结果：本工作探索了C. avellana、C. americana、C. heterophylla和C. mandshurica基因组序列中致敏性Cor a同源物的进化轨迹。在分析的物种中发现了52个Cor a同源物，最近在美洲种中发现了Cor a 1的串联重复。预测了三种新的基因模型，分别为榛树16号和榛树10号。此外，我们鉴定了56个Cor a异变原，其中10个Cor a同种异构体。此外，系统发育分析揭示了三种榛子过敏原的进化动力学，揭示了榛子属中Cor a 1、Cor a 2和Cor a TLP的进化复杂性。提供了为CRISPR-Cas9系统设计的多个grna列表，用于在每个榛树基因组中单个和多个沉默Cor A同源物。结论：本研究增强了我们对榛属植物中Cor a过敏原的进化路径的认识，为榛子过敏原的靶向定位提供了高度准确的靶标导向。

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来源期刊

BMC Plant Biology 生物-植物科学

CiteScore

8.40

自引率

3.80%

发文量

539

审稿时长

3.8 months

期刊介绍： BMC Plant Biology is an open access, peer-reviewed journal that considers articles on all aspects of plant biology, including molecular, cellular, tissue, organ and whole organism research.