Mitochondria Inspire a Lifestyle.

4区 生物学 Q3 Medicine
Peter Kramer, Paola Bressan
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引用次数: 6

Abstract

Tucked inside our cells, we animals (and plants, and fungi) carry mitochondria, minuscule descendants of bacteria that invaded our common ancestor 2 billion years ago. This unplanned breakthrough endowed our ancestors with a convenient, portable source of energy, enabling them to progress towards more ambitious forms of life. Mitochondria still manufacture most of our energy; we have evolved to invest it to grow and produce offspring, and to last long enough to make it all happen. Yet because the continuous generation of energy is inevitably linked to that of toxic free radicals, mitochondria give us life and give us death. Stripping away clutter and minutiae, here we present a big-picture perspective of how mitochondria work, how they are passed on virtually only by mothers, and how they shape the lifestyles of species and individuals. We discuss why restricting food prolongs lifespan, why reproducing shortens it, and why moving about protects us from free radicals despite increasing their production. We show that our immune cells use special mitochondria to keep control over our gut microbes. And we lay out how the fabrication of energy and free radicals sets the internal clocks that command our everyday rhythms-waking, eating, sleeping. Mitochondria run the show.

线粒体激发一种生活方式。
我们这些动物(还有植物和真菌)体内的细胞都携带着线粒体,它们是20亿年前入侵我们共同祖先的细菌的微小后代。这个意外的突破使我们的祖先获得了一种方便、便携的能源,使他们能够向更有野心的生命形式发展。线粒体仍然为我们制造大部分能量;我们已经进化到投资它来成长和生育后代,并持续足够长的时间来实现这一切。然而,由于能量的持续产生不可避免地与有毒自由基的产生联系在一起,线粒体给了我们生命,也给了我们死亡。抛开杂乱和细节,我们在这里展示了线粒体是如何工作的,它们实际上是如何仅由母亲传递的,以及它们是如何塑造物种和个体的生活方式的大图景。我们讨论了为什么限制食物可以延长寿命,为什么繁殖会缩短寿命,为什么四处走动可以保护我们免受自由基的侵害,尽管自由基的产生会增加。我们发现我们的免疫细胞使用特殊的线粒体来控制我们的肠道微生物。我们还展示了能量和自由基的制造是如何设置内部时钟的,这些时钟控制着我们每天的节奏——醒来、吃饭、睡觉。线粒体起着主导作用。
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
CiteScore
2.00
自引率
0.00%
发文量
0
期刊介绍: "Advances in Anatomy, Embryology and Cell Biology" presents critical reviews on all topical fields of normal and experimental anatomy including cell biology. The multi-perspective presentation of morphological aspects of basic biological phenomen in the human constitutes the main focus of the series. The contributions re-evaluate the latest findings and show ways for further research.
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