Experimental observation of magnetosome chain collapse in magnetotactic bacteria: Sedimentological, paleomagnetic, and evolutionary implications

Kobayashi A; Kirschvink JL; Nash CZ; Kopp RE; Sauer DA; Bertani LE; Voorhout WF; Taguchi T

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Experimental observation of magnetosome chain collapse in magnetotactic bacteria: Sedimentological, paleomagnetic, and evolutionary implications

机译：趋磁细菌中磁小体链塌陷的实验观察：沉积学，古磁和进化意义

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Magnetotactic bacteria precipitate intracellular crystals of single-domain magnetite (Fe3O4) and/or greigite (Fe3S4), which have often been implicated in carrying the natural remanent magnetization (NRM) of freshwater and marine sediments. In vivo, the magnetic crystals are usually aligned in chains such that their moments add together, generating net cellular moments high enough to rotate the cells passively to align with the geomagnetic field. A magnetostatic/biophysical analysis demonstrates that this arrangement is out of dynamic equilibrium and would collapse spontaneously without a support mechanism. Past rock magnetic analyses of shallow water marine carbonates suggest that partial collapse does occur during diagenesis and dolomitization.

机译：趋磁细菌沉淀单畴磁铁矿（Fe3O4）和/或钙铁矿（Fe3S4）的细胞内晶体，这些晶体通常与淡水和海洋沉积物的自然剩余磁化强度（NRM）有关。在体内，磁性晶体通常按链排列，这样它们的矩加在一起，产生足够高的净细胞矩，足以被动旋转细胞以与地磁场对齐。静磁/生物物理分析表明，这种布置没有动态平衡，并且在没有支撑机制的情况下会自发塌陷。过去对浅层海洋碳酸盐岩的岩石磁学分析表明，在成岩作用和白云石化过程中确实发生了部分塌陷。

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《Earth and Planetary Science Letters: A Letter Journal Devoted to the Development in Time of the Earth and Planetary System》 |2006年第4期|共13页
作者
Kobayashi A; Kirschvink JL; Nash CZ; Kopp RE; Sauer DA; Bertani LE; Voorhout WF; Taguchi T;
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正文语种 eng
中图分类天文学、地球科学;
关键词
rock magnetism; paleomagnetism; magnetotactic bacteria; cytoskeleton; evolution; MAGNETOSPIRILLUM-MAGNETOTACTICUM; CRYOELECTRON TOMOGRAPHY; BIOGENIC MAGNETITE; MEMBRANE; ULTRASTRUCTURE; MORPHOLOGY; PARTICLES; STABILITY; MAGNETIZATION; ALH84001;

机译：岩石磁性;古磁性;趋磁细菌;细胞骨架;进化;磁螺线管-磁触变;铬电子断层扫描;生物磁铁矿;膜;超微结构;形态学;颗粒;稳定性;磁化;ALH84001;

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1. Experimental observation of magnetosome chain collapse in magnetotactic bacteria: Sedimentological, paleomagnetic, and evolutionary implications [J] . Kobayashi A, Kirschvink JL, Nash CZ, Earth and Planetary Science Letters: A Letter Journal Devoted to the Development in Time of the Earth and Planetary System . 2006,第3a4期

机译：趋磁细菌中磁小体链塌陷的实验观察：沉积学，古磁和进化意义
2. Magnetic-field induced rotation of magnetosome chains in silicified magnetotactic bacteria [J] . Marine Blondeau, Yohan Guyodo, Fran?ois Guyot, Scientific reports. . 2018,第1期

机译：硅片磁体细菌中磁场链的磁场诱导旋转
3. Probing the Mechanical Properties of Magnetosome Chains in Living Magnetotactic Bacteria [J] . Andre? Ko?rnig, Jiajia Dong, Mathieu Bennet, Nano letters . 2014,第8期

机译：探索趋磁细菌中的核小体链的力学性质
4. Effect of the chain of magnetosomes embedded in magnetotactic bacteria and their motility on Magnetic Resonance imaging [C] . Felfoul Ouajdi, Mokrani Nisryn, Mohammadi Mahmood, 32nd Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2010

机译：趋磁细菌中嵌入的磁小体链及其运动性对磁共振成像的影响
5. Acquisition and evaluation of sedimentologic, paleomagnetic, and geochemical time-series data from Flathead Lake, Montana: Implications for late Pleistocene and Holocene paleoclimate. [D] . Sperazza, Michael. 2006

机译：从蒙大拿州弗莱德黑德湖获取和评估沉积学，古磁和地球化学的时间序列数据：晚更新世和全新世古气候的意义。
6. Analysis of Magnetosome Chains in Magnetotactic Bacteria by Magnetic Measurements and Automated Image Analysis of Electron Micrographs [O] . E. Katzmann, M. Eibauer, W. Lin, 2013

机译：磁测量和自动电子显微照片图像分析法分析趋磁细菌中的核小体链
7. Experimental Observation of Magnetosome Chain Collapse in Magnetotactic Bacteria: Sedimentological, paleomagnetic, and evolutionary implications [O] . Kobayashi Atsuko, Kirschvink Joseph L., Nash Cody Z., 2006

机译：趋磁细菌中磁小体链塌陷的实验观察：沉积学，古磁和进化意义
8. Study of Shaped-Charge Collapse and Jet Formation Using the HEMP (Hydrodynamic, Elastic, Magneto, and Plastic) Code and a Comparison with Experimental Observations. [R] . Simmons, B. M. 1984

机译：用HEmp（流体力学，弹性，磁性和塑性）代码研究聚能射流坍塌和射流形成及与实验观察的比较。

Experimental observation of magnetosome chain collapse in magnetotactic bacteria: Sedimentological, paleomagnetic, and evolutionary implications

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