Nanoscale elemental and morphological imaging of nitrogen-fixing cyanobacteria.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Metallomics Pub Date : 2024-09-13 DOI:10.1093/mtomcs/mfae040
Bobby G Duersch,Steven A Soini,Yanqi Luo,Xiaoyang Liu,Si Chen,Vivian M Merk
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Abstract

Nitrogen-fixing cyanobacteria bind atmospheric nitrogen and carbon dioxide using sunlight. This experimental study focused on a laboratory-based model system, Anabaena sp., in nitrogen-depleted culture. When combined nitrogen is scarce, the filamentous procaryotes reconcile photosynthesis and nitrogen fixation by cellular differentiation into heterocysts. To better understand the influence of micronutrients on cellular function, 2D and 3D synchrotron X-ray fluorescence mappings were acquired from whole biological cells in their frozen-hydrated state at the Bionanoprobe, Advanced Photon Source. To study elemental homeostasis within these chain-like organisms, biologically relevant elements were mapped using X-ray fluorescence spectroscopy and energy-dispersive X-ray microanalysis. Higher levels of cytosolic K+, Ca2+, and Fe2+ were measured in the heterocyst than in adjacent vegetative cells, supporting the notion of elevated micronutrient demand. P-rich clusters, identified as polyphosphate bodies involved in nutrient storage, metal detoxification and osmotic regulation, were consistently co-localized with K+ and occasionally sequestered Mg2+, Ca2+, Fe2+, and Mn2+ ions. Machine-learning based k-mean clustering revealed that P/K clusters were associated with either Fe or Ca, with Fe and Ca clusters also occurring individually. In accordance with XRF nanotomography, distinct P/K-containing clusters close to the cellular envelope were surrounded by larger Ca-rich clusters. The transition metal Fe, which is part of nitrogenase enzyme, was detected as irregular shaped clusters. The elemental composition and cellular morphology of diazotrophic Anabaena sp. was visualized by multimodal imaging using AFM, SEM, and fluorescence microscopy. This paper discusses the first experimental results obtained with a combined in-line optical and X-ray fluorescence microscope at the Bionanoprobe.
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固氮蓝藻的纳米级元素和形态成像。
固氮蓝藻利用阳光结合大气中的氮和二氧化碳。这项实验研究的重点是实验室模式系统 Anabaena sp.当氮结合缺乏时,丝状原生动物通过细胞分化成异囊,协调光合作用和固氮作用。为了更好地了解微量营养元素对细胞功能的影响,我们在先进光子源的仿生探针(Bionanoprobe)上获取了冷冻水合状态下整个生物细胞的二维和三维同步辐射 X 射线荧光映射图。为了研究这些链状生物体内的元素平衡,利用 X 射线荧光光谱和能量色散 X 射线显微分析绘制了生物相关元素图谱。与邻近的无性细胞相比,在异囊中测得的细胞质 K+、Ca2+ 和 Fe2+ 水平更高,这支持了微量元素需求量增加的观点。富含 P 的簇被确定为参与营养储存、金属解毒和渗透调节的多磷酸盐体,这些簇始终与 K+共定位,偶尔也会螯合 Mg2+、Ca2+、Fe2+ 和 Mn2+ 离子。基于机器学习的 k-mean 聚类显示,P/K 聚类与 Fe 或 Ca 相关,Fe 和 Ca 聚类也会单独出现。根据 XRF 纳米层析技术,靠近细胞包膜的含 P/K 团簇被较大的富 Ca 团簇包围。作为氮酶的一部分的过渡金属 Fe 被检测到呈不规则形状的团块。利用原子力显微镜、扫描电子显微镜和荧光显微镜的多模式成像技术,对重氮营养团藻的元素组成和细胞形态进行了观察。本文讨论了利用 Bionanoprobe 的联机光学和 X 射线荧光显微镜获得的首批实验结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Metallomics
Metallomics 生物-生化与分子生物学
CiteScore
7.00
自引率
5.90%
发文量
87
审稿时长
1 months
期刊介绍: Global approaches to metals in the biosciences
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