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Spike Structure at the Interface between Gliding Mycoplasma mobile Cells and Glass Surfaces Visualized by Rapid-Freeze-and-Fracture Electron Microscopy

机译：快速冻结和破裂电子显微镜可视化的滑行支原体移动细胞和玻璃表面之间的界面的穗状结构。

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摘要

Mycoplasma mobile is a flask-shaped bacteria that binds to a substrate and glides towards its tapered end, the so-called “head-like protrusion,” by an unknown mechanism. To search for cellular structures underlying this motility, the cell-substrate interface of actively gliding cells was visualized by rapid-freeze-and-freeze-fracture rotary-shadow electron microscopy. Novel structures, called “spikes,” were observed to protrude from the cell membrane and attach to the glass surface at their distal end. The spikes were on average 50 nm in length and 4 nm in diameter, most abundant around the head, and not observed in a nonbinding mutant. The spikes may be involved in the mechanism of binding, gliding, or both.

机译：移动支原体是一种瓶状细菌，它会与基质结合，并通过未知机制向其锥形末端滑动，即所谓的“头状突起”。为了寻找这种运动基础的细胞结构，通过快速冷冻和冷冻断裂旋转阴影电子显微镜观察了活跃滑动细胞的细胞-基质界面。观察到称为“尖峰”的新型结构从细胞膜突出，并在其远端附着于玻璃表面。尖峰的平均长度为50 nm，直径为4 nm，在头部周围最丰富，在非结合型突变体中未观察到。刺可能与结合，滑动或两者兼有。

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期刊名称 Journal of Bacteriology
作者
Makoto Miyata; Jennifer D. Petersen;
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作者单位

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年(卷),期 2004(186),13
年度 2004
页码 4382–4386
总页数 5
原文格式 PDF
正文语种
中图分类微生物学;
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专利

1. Spike Structure at the Interface between Gliding Mycoplasma mobile Cells and Glass Surfaces Visualized by Rapid-Freeze-and-Fracture Electron Microscopy [J] . Makoto Miyata, Jennifer D. Petersen Journal of bacteriology . 2004,第13期

机译：快速冻结和破裂电子显微镜可视化的滑行支原体活动细胞和玻璃表面之间的界面的穗状结构。
2. Morphology of Isolated Gli349, a Leg Protein Responsible for Mycoplasma mobile Gliding via Glass Binding, Revealed by Rotary Shadowing Electron Microscopy [J] . Jun Adan-Kubo, Atsuko Uenoyama, Toshiaki Arata, Journal of bacteriology . 2006,第8期

机译：分离的Gli349的形态学，通过玻璃结合负责支原体移动滑行的腿蛋白，通过旋转阴影电子显微镜显示
3. Morphology of Isolated Gli349, a Leg Protein Responsible for Mycoplasma mobile Gliding via Glass Binding, Revealed by Rotary Shadowing Electron Microscopy [J] . Jun Adan-Kubo, Atsuko Uenoyama, Toshiaki Arata, Journal of bacteriology . 2006,第8期

机译：分离的Gli349的形态学，通过玻璃结合负责支原体移动滑行的腿蛋白，通过旋转阴影电子显微镜显示
4. Surface characterization of microstructures on glass by atomic force microscopy and analytical scanning electron microscopy [C] . T Boeck, K Schmidt, A Gerlitzke, International conference on defect recognition and image processing in semiconductors . 1998

机译：原子力显微镜和分析扫描电子显微镜玻璃微观结构的表面特征
5. Exploring the Cell Surface: Identification and Characterization of Lipoproteins in Mycoplasma mycoides subsp. mycoides Large Colony, Mycoplasma mycoides subsp. capri, and Mycoplasma capricolum subsp. capricolum [D] . Martin, Tara R. 2009

机译：探索细胞表面：支原体支原体亚种中脂蛋白的鉴定和表征。大菌落，支原体亚种。卡普里岛和支原体亚种。癸酸
6. Morphology of Isolated Gli349 a Leg Protein Responsible for Mycoplasma mobile Gliding via Glass Binding Revealed by Rotary Shadowing Electron Microscopy [O] . Jun Adan-Kubo, Atsuko Uenoyama, Toshiaki Arata, 2006

机译：分离的Gli349的形态学通过玻璃结合支链负责支原体移动滑行的腿蛋白通过旋转阴影电子显微镜显示
7. Spike Structure at the Interface between Gliding Mycoplasma mobile Cells and Glass Surfaces Visualized by Rapid-Freeze-and-Fracture Electron Microscopy [O] . Miyata, Makoto, Petersen, Jennifer D. 2004

机译：快速冻结和断裂电子显微镜观察到的滑行支原体活动细胞和玻璃表面之间的界面上的尖峰结构

Spike Structure at the Interface between Gliding Mycoplasma mobile Cells and Glass Surfaces Visualized by Rapid-Freeze-and-Fracture Electron Microscopy

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