Comprehensive characterization of a transgene insertion in a highly repetitive, centromeric region of Anopheles mosquitoes.

IF 4.9 4区 医学 Q1 PARASITOLOGY
Matteo Vitale, Chiara Leo, Thomas Courty, Nace Kranjc, John B Connolly, Giulia Morselli, Christopher Bamikole, Roya Elaine Haghighat-Khah, Federica Bernardini, Silke Fuchs
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引用次数: 1

Abstract

The availability of the genomic sequence of the malaria mosquito Anopheles gambiae has in recent years sparked the development of transgenic technologies with the potential to be used as novel vector control tools. These technologies rely on genome editing that confer traits able to affect vectorial capacity. This can be achieved by either reducing the mosquito population or by making mosquitoes refractory to the parasite infection. For any genetically modified organism that is regarded for release, molecular characterization of the transgene and flanking sites are essential for their safety assessment and post-release monitoring. Despite great advancements, Whole-Genome Sequencing data are still subject to limitations due to the presence of repetitive and unannotated DNA sequences. Faced with this challenge, we describe a number of techniques that were used to identify the genomic location of a transgene in the male bias mosquito strain Ag(PMB)1 considered for potential field application. While the initial inverse PCR identified the most likely insertion site on Chromosome 3 R 36D, reassessment of the data showed a high repetitiveness in those sequences and multiple genomic locations as potential insertion sites of the transgene. Here we used a combination of DNA sequencing analysis and in-situ hybridization to clearly identify the integration of the transgene in a poorly annotated centromeric region of Chromosome 2 R 19D. This study emphasizes the need for accuracy in sequencing data for the genome of organisms of medical importance such as Anopheles mosquitoes and other tools available that can support genomic locations of transgenes.

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转基因插入在蚊子按蚊高度重复,着丝点区域的综合表征。
近年来,冈比亚按蚊(Anopheles gambiae)基因组序列的获得激发了转基因技术的发展,这些技术有可能被用作新的病媒控制工具。这些技术依赖于基因组编辑,赋予能够影响载体能力的特征。这可以通过减少蚊子数量或使蚊子对寄生虫感染产生抗性来实现。对于任何被认为可以释放的转基因生物,转基因和侧翼位点的分子表征对于其安全性评估和释放后监测至关重要。尽管取得了很大的进步,但由于存在重复和未注释的DNA序列,全基因组测序数据仍然受到限制。面对这一挑战,我们描述了一些技术,用于确定转基因在雄蚊菌株Ag(PMB)1的基因组位置,考虑潜在的场应用。虽然最初的反向PCR确定了3号染色体r36d上最可能的插入位点,但对数据的重新评估显示,这些序列的重复率很高,并且多个基因组位置可能是转基因的插入位点。在这里,我们使用DNA测序分析和原位杂交相结合,清楚地确定了转基因在染色体2 r19d的一个标记不佳的着丝粒区域的整合。这项研究强调了对医学上重要的生物体(如按蚊)基因组测序数据准确性的需求,以及其他可以支持转基因基因组定位的可用工具。
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来源期刊
Pathogens and Global Health
Pathogens and Global Health PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-PARASITOLOGY
CiteScore
6.00
自引率
0.00%
发文量
60
审稿时长
6-12 weeks
期刊介绍: Pathogens and Global Health is a journal of infectious disease and public health that focuses on the translation of molecular, immunological, genomics and epidemiological knowledge into control measures for global health threat. The journal publishes original innovative research papers, reviews articles and interviews policy makers and opinion leaders on health subjects of international relevance. It provides a forum for scientific, ethical and political discussion of new innovative solutions for controlling and eradicating infectious diseases, with particular emphasis on those diseases affecting the poorest regions of the world.
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