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Mealybugs nested endosymbiosis: going into the ‘matryoshka’ system in Planococcus citri in depth

机译：瓢虫巢状共生：深入柠檬酸球菌的 matryoshka系统

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BackgroundIn all branches of life there are plenty of symbiotic associations. Insects are particularly well suited to establishing intracellular symbiosis with bacteria, providing them with metabolic capabilities they lack. Essential primary endosymbionts can coexist with facultative secondary symbionts which can, eventually, establish metabolic complementation with the primary endosymbiont, becoming a co-primary. Usually, both endosymbionts maintain their cellular identity. An exception is the endosymbiosis found in mealybugs of the subfamily Pseudoccinae, such as Planococcus citri, with Moranella endobia located inside Tremblaya princeps.

机译：背景在生活的所有分支中，都有许多共生关系。昆虫特别适合与细菌建立细胞内共生关系，从而为昆虫提供它们所缺乏的代谢能力。必要的原发性内共生子可以与兼性次生共生体共存，后者最终可以与原发性内生共生子建立代谢互补，成为共原发性共生子。通常，两个内共生体都保持其细胞身份。一个例外是在假单胞菌亚科的粉虱中发现的共生菌，例如柠檬酸橙球菌，内特拉莫拉氏菌位于Tremblaya princeps内部。

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期刊名称 BMC Microbiology
作者
Sergio López-Madrigal; Amparo Latorre; Manuel Porcar; Andrés Moya; Rosario Gil;
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作者单位

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年(卷),期 2013(13),-1
年度 2013
页码 74
总页数 12
原文格式 PDF
正文语种
中图分类微生物学;
关键词
Nested endosymbiosis Planococcus citri Moranella endobia Tremblaya princeps functional complementation;

机译：巢状共生;柠檬葡萄球菌;内蝇莫拉氏菌;特兰布里亚王子;功能互补;

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专利

1. Mealybugs nested endosymbiosis: going into the ‘matryoshka’ system in Planococcus citri in depth [J] . Sergio López-Madrigal, Amparo Latorre, Manuel Porcar, BMC Microbiology . 2013,第1期

机译：瓢虫巢状共生：深入柠檬酸球菌的“ matryoshka”系统
2. LIFE HISTORY AND REPRODUCTIVE PHYSIOLOGY OF CITRUS MEALYBUG,PLANOCOCCUS CITRI (RISSO) (HEMIPTERA: PSEUDOCOCCIDAE) ON DIFFERENT HOST PLANTS [J] . Rehana Bibi, Munir Ahmad, Asim Gulzar Fresenius environmental bulletin . 2020,第12A期

机译：柑橘Meaybug，Planococcus Citri（Risso）（Hemiptera：Pseudococcidae）在不同宿主植物上的生活史和生殖生理学
3. Detection of insecticide resistance in field populations of citrus mealybug Planococcus citri (Risso) (Hemiptera: Pseudococcidae) [J] . Mruthunjayaswamy Prathibha, Thiruvengadam Venkatesan, Kumar Jalali Sushil Indian Journal of Experimental Biology . 2019,第6期

机译：检测柑橘Meaybug Planococcus Citri（Risso）杀虫剂抗性灭菌性抗性（Hemiptera：Pseudococcidae）
4. Matryoshka Networks: Predicting 3D Geometry via Nested Shape Layers [C] . Stefan Roth, Stephan R. Richter IEEE/CVF Conference on Computer Vision and Pattern Recognition . 2018

机译：Matryoshka Networks：通过嵌套形状层预测3D几何
5. Biodiversity and Ecosystem Services in Agriculture: Evaluating the Influence of Floral Resource Provisioning on Biological Control of Erythroneura Leafhoppers (Hemiptera: Cicadellidae) and Planococcus Mealybug (Hemiptera: Pseudococcidae) in California Vineyards. [D] . Miles, Albie Felix. 2013

机译：农业中的生物多样性和生态系统服务：评估花卉资源供应对加州葡萄园的菊苣叶蝉（Hemiptera：Cicadellidae）和Planococcus Mealybug（Hemiptera：Pseudococcidae）的生物控制的影响。
6. Use of Recombinant Tobacco Mosaic Virus To Achieve RNA Interference in Plants against the Citrus Mealybug Planococcus citri (Hemiptera: Pseudococcidae) [O] . Arif Muhammad Khan, Muhammad Ashfaq, Zsofia Kiss, -1

机译：利用重组烟草花叶病毒在植物中实现抗柑橘MealybugPlanococcus citri（Hemiptera：Pseudococcidae）RNA干扰
7. Mealybugs nested endosymbiosis: going into the ‘matryoshka’ system in Planococcus citri [O] . fer , , Sergio López-Madrigal, 2013

机译：mealybugs嵌套内共生：进入Citococcus citri的'matryoshka'系统

Mealybugs nested endosymbiosis: going into the ‘matryoshka’ system in Planococcus citri in depth

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