Ontogenetic differences in sun and shade galls of Clinodiplosis profusa on Eugenia uniflora leaves and the cytological antioxidant mechanisms in gall cells.
Rayssa Rosa Marquesine, Yve Canaveze, Bruno Garcia Ferreira
{"title":"Ontogenetic differences in sun and shade galls of Clinodiplosis profusa on Eugenia uniflora leaves and the cytological antioxidant mechanisms in gall cells.","authors":"Rayssa Rosa Marquesine, Yve Canaveze, Bruno Garcia Ferreira","doi":"10.1007/s00709-024-01973-8","DOIUrl":null,"url":null,"abstract":"<p><p>The gall-host Eugenia uniflora (Myrtaceae) is adaptable to different light conditions, enabling leaf production and survival in both sun and shade. Leaves of E. uniflora in shaded environments have more mesophyll layers, and galls of Clinodiplosis profusa (Cecidomyiidae) are larger and wider. Based on these previous observations, this study investigated the morphogenesis of galls induced by C. profusa on leaves of E. uniflora in different light conditions, revealing if the galls have a potential for acclimation, as observed with leaves. For this purpose, we compared the anatomical, histometric, and histochemical development of leaves and galls at different stages of development in sun and shade environments. Additionally, we analyzed the cytological features of the tissues composing the mature gall walls. Cells of shade galls expanded more toward the end of the developmental phase, which may explain the larger volume found for shade galls in a previous study. However, during the mature phase, these galls showed no significant differences in tissue thickness and final cell elongation in the contrasting light conditions. In the ultrastructural analyses, mature galls showed a gradient distinguishing the outer and inner parenchyma cells. The inner parenchyma had nutritive cells, with dense cytoplasm and abundant organelles. A higher accumulation of starch grains in nutritive cells, with evidence of hydrolysis of starch grains detected in the innermost layers leads to the accumulation of reducing sugars, which, with the presence of plastoglobules and protein bodies, are important mechanisms of oxidative stress dissipation in the cells in contact with the gall inducer.</p>","PeriodicalId":20731,"journal":{"name":"Protoplasma","volume":null,"pages":null},"PeriodicalIF":2.5000,"publicationDate":"2024-07-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Protoplasma","FirstCategoryId":"99","ListUrlMain":"https://doi.org/10.1007/s00709-024-01973-8","RegionNum":3,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"CELL BIOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
The gall-host Eugenia uniflora (Myrtaceae) is adaptable to different light conditions, enabling leaf production and survival in both sun and shade. Leaves of E. uniflora in shaded environments have more mesophyll layers, and galls of Clinodiplosis profusa (Cecidomyiidae) are larger and wider. Based on these previous observations, this study investigated the morphogenesis of galls induced by C. profusa on leaves of E. uniflora in different light conditions, revealing if the galls have a potential for acclimation, as observed with leaves. For this purpose, we compared the anatomical, histometric, and histochemical development of leaves and galls at different stages of development in sun and shade environments. Additionally, we analyzed the cytological features of the tissues composing the mature gall walls. Cells of shade galls expanded more toward the end of the developmental phase, which may explain the larger volume found for shade galls in a previous study. However, during the mature phase, these galls showed no significant differences in tissue thickness and final cell elongation in the contrasting light conditions. In the ultrastructural analyses, mature galls showed a gradient distinguishing the outer and inner parenchyma cells. The inner parenchyma had nutritive cells, with dense cytoplasm and abundant organelles. A higher accumulation of starch grains in nutritive cells, with evidence of hydrolysis of starch grains detected in the innermost layers leads to the accumulation of reducing sugars, which, with the presence of plastoglobules and protein bodies, are important mechanisms of oxidative stress dissipation in the cells in contact with the gall inducer.
虫瘿寄主 Eugenia uniflora(桃金娘科)能适应不同的光照条件,在阳光和阴凉处都能生叶和存活。荫蔽环境中的 E. uniflora 叶片具有更多中叶层,Clinodiplosis profusa(Cecidomyiidae)的虫瘿更大更宽。基于之前的观察结果,本研究调查了不同光照条件下一枝黄花叶片上由 C. profusa 诱导的虫瘿的形态发生,以揭示虫瘿是否具有与叶片一样的适应潜力。为此,我们比较了叶片和虫瘿在阳光和阴凉环境下不同发育阶段的解剖学、组织计量学和组织化学发育情况。此外,我们还分析了构成成熟虫瘿壁的组织的细胞学特征。荫生虫瘿的细胞在发育阶段末期膨大得更多,这可能解释了之前研究中发现的荫生虫瘿体积更大的原因。不过,在成熟阶段,这些虫瘿的组织厚度和最终细胞伸长率在光照对比条件下没有明显差异。在超微结构分析中,成熟的虫瘿显示出区分外层和内层实质细胞的梯度。内部实质细胞具有营养细胞,细胞质致密,细胞器丰富。营养细胞中的淀粉粒积累较多,最内层有淀粉粒水解的迹象,导致还原糖积累,再加上质粒和蛋白体的存在,是与虫瘿诱导体接触的细胞消除氧化应激的重要机制。
期刊介绍:
Protoplasma publishes original papers, short communications and review articles which are of interest to cell biology in all its scientific and applied aspects. We seek contributions dealing with plants and animals but also prokaryotes, protists and fungi, from the following fields:
cell biology of both single and multicellular organisms
molecular cytology
the cell cycle
membrane biology including biogenesis, dynamics, energetics and electrophysiology
inter- and intracellular transport
the cytoskeleton
organelles
experimental and quantitative ultrastructure
cyto- and histochemistry
Further, conceptual contributions such as new models or discoveries at the cutting edge of cell biology research will be published under the headings "New Ideas in Cell Biology".