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转基因为甜橙表达的基因产生高品质的果实,并显示出对“亚洲韧皮杆菌”的耐受性。

Transgenic Sweet Orange Expressing the Gene Produces High-Quality Fruit and Shows Tolerance to ' Liberibacter asiaticus'.

机构信息

Área de Proteção de Plantas, Instituto de Desenvolvimento Rural do Paraná-IAPAR/Emater (IDR-Paraná), Celso Garcia Cid Road, km 375, Londrina 86047-902, PR, Brazil.

Centro de Ciências Agrárias, Universidade Estadual de Londrina (UEL), Celso Garcia Cid Road, km 380, Londrina 86057-970, PR, Brazil.

出版信息

Int J Mol Sci. 2022 Aug 18;23(16):9300. doi: 10.3390/ijms23169300.

DOI:10.3390/ijms23169300
PMID:36012564
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9409437/
Abstract

Huanglongbing (otherwise known as HLB or greening) is currently the most devastating citrus disease worldwide. HLB is primarily associated with the phloem-inhabiting bacterium ' Liberibacter asiaticus' (Las). Currently, there are no citrus species resistant to Las. Genetic transformation is one of the most effective approaches used to induce resistance against plant diseases. Antimicrobial peptides (AMPs) have shown potential breakthroughs to improve resistance to bacterial diseases in plants. In this paper, we confirm the -mediated transformation of Pera sweet orange expressing the AMP () gene isolated from the flesh fly and its reaction to Las, involving plant performance and fruit quality assessments. Four independent transgenic lines, STX-5, STX-11, STX-12, and STX-13, and a non-transgenic control, were graft-inoculated with Las. Based on our findings, none of the transgenic plants were immune to Las. However, the STX-5 and STX-11 lines showed reduced susceptibility to HLB with mild disease symptoms and low incidence of plants with the presence of Las. Fruit and juice quality were not affected by the genetic transformation. Further, no residues of the sarcotoxin IA protein were found in the juice of the STX-11 and STX-12 fruits, though detected in the juice of the STX-5 and STX-13 lines, as revealed by the immunoblotting test. However, juices from all transgenic lines showed low traces of sarcotoxin IA peptide in its composition. The accumulation of this peptide did not cause any deleterious effects on plants or in fruit/juice. Our findings reinforce the challenges of identifying novel approaches to managing HLB.

摘要

黄龙病(又称 HLB 或绿化病)是目前世界上最具破坏性的柑橘病害。HLB 主要与韧皮部栖息细菌 'Liberibacter asiaticus'(Las)有关。目前,没有柑橘品种对 Las 具有抗性。遗传转化是诱导植物疾病抗性最有效的方法之一。抗菌肽(AMPs)在提高植物对细菌性疾病的抗性方面显示出了潜在的突破。在本文中,我们证实了从果肉蝇中分离出的 AMP ()基因表达的 Pera 甜橙经 -介导转化及其对 Las 的反应,涉及植物性能和果实品质评估。四个独立的转基因系,STX-5、STX-11、STX-12 和 STX-13,以及一个非转基因对照,均用 Las 嫁接接种。根据我们的发现,没有一种转基因植物对 Las 具有免疫力。然而,STX-5 和 STX-11 系对 HLB 的敏感性降低,表现出轻度症状和 Las 存在的植物发病率低。遗传转化并未影响果实和果汁质量。此外,尽管在 STX-5 和 STX-13 系的果汁中检测到,但免疫印迹试验并未发现 STX-11 和 STX-12 果实果汁中 sarcotoxin IA 蛋白的残留。然而,所有转基因系的果汁中都含有低浓度的 sarcotoxin IA 肽。该肽的积累对植物或果实/果汁没有造成任何有害影响。我们的发现强化了识别管理 HLB 的新方法的挑战。

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