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线粒体嵴 - 版本历史
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123.130.221.191:建立内容为“{{noteTA|G1=生命科学}} '''线粒体嵴'''({{lang-en|mitochondrial cristae}})简称“'''嵴'''”,是线粒体内膜向线粒体基质折褶形…”的新页面
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<p>建立内容为“{{noteTA|G1=生命科学}} '''线粒体嵴'''({{lang-en|mitochondrial cristae}})简称“'''嵴'''”,是<a href="/index.php?title=%E7%BA%BF%E7%B2%92%E4%BD%93%E5%86%85%E8%86%9C&action=edit&redlink=1" class="new" title="线粒体内膜(页面不存在)">线粒体内膜</a>向<a href="/index.php?title=%E7%BA%BF%E7%B2%92%E4%BD%93%E5%9F%BA%E8%B4%A8&action=edit&redlink=1" class="new" title="线粒体基质(页面不存在)">线粒体基质</a>折褶形…”的新页面</p>
<p><b>新页面</b></p><div>{{noteTA|G1=生命科学}}<br />
'''线粒体嵴'''({{lang-en|mitochondrial cristae}})简称“'''嵴'''”,是[[线粒体内膜]]向[[线粒体基质]]折褶形成的一种结构。线粒体嵴的形成增大了线粒体内膜的表面积。在不同种类的[[细胞]]中,线粒体嵴的数目、形态和排列方式可能有较大差别。线粒体嵴主要有几种排列方式,分别称为“片状嵴”(lamellar cristae)、“管状嵴”(tubular cristae)和“泡状嵴”(vesicular cristae)。<ref><br />
{{cite journal | author = Hanaki M, Tanaka K, Kashima Y<br />
| year = 1985<br />
| month = <br />
| day = <br />
| title = Scanning electron microscopic study on mitochondrial cristae in the rat adrenal cortex<br />
| journal = Journal of Electron Microscopy<br />
| volume = 34<br />
| issue = 4<br />
| pages = 373-380<br />
| pmid = 3837809<br />
| doi = <br />
| url = http://www.ncbi.nlm.nih.gov/m/pubmed/3837809/<br />
| language = en }}<br />
</ref>片状排列的线粒体嵴主要出现在高等[[动物细胞]]的[[线粒体]]中,这些片状嵴多数垂直于线粒体长轴;管状排列的线粒体嵴则主要出现在[[原生动物]]和植物细胞的线粒体中。有研究发现,[[睾丸间质细胞]]中既存在层状嵴也存在管状嵴。<ref><br />
{{cite journal<br />
| author = Frederick P. Prince<br />
| year = 1999<br />
| month = Apr<br />
| day = 1<br />
| title = Mitochondrial cristae diversity in human Leydig cells: a revised look at cristae morphology in these steroid-producing cells<br />
| journal = Anat Rec<br />
| volume = 254<br />
| issue = 4<br />
| pages = 534-541<br />
| pmid = 10203260<br />
| url = http://www.ncbi.nlm.nih.gov/m/pubmed/10203260/<br />
| language = en }}<br />
</ref>线粒体嵴上有许多有柄小[[球体]],即线粒体[[基粒]](elementary particle),基粒中含有[[ATP]][[合酶]],能利用[[呼吸链]]产生的能量合成[[三磷酸腺苷]](adenosine triphosphate,缩写为“ATP”)。所以需要较多能量的细胞,线粒体嵴的数目一般也较多。但某些形态特殊的线粒体嵴由于没有ATP合酶,所以不能合成ATP。<ref><br />
{{cite journal<br />
| author = Frederick P. Prince<br />
| year = 2002<br />
| month = Feb<br />
| day = <br />
| title = Lamellar and tubular associations of the mitochondrial cristae: unique forms of the cristae present in steroid-producing cells<br />
| journal = Mitochondrion<br />
| volume = 1<br />
| issue = 4<br />
| pages = 381-389<br />
| pmid = <br />
| doi = 10.1016/S1567-7249(01)00038-1<br />
| url = http://www.sciencedirect.com/science/article/pii/S1567724901000381<br />
| language = en }}<br />
</ref><br />
<br />
某个对数学模型的研究指出,丝状线粒体的线粒体嵴的光学性质可能影响该线粒体所属[[组织 (生物学)|组织]]的光的产生与传播。<ref><br />
{{cite journal<br />
| author = Thar,R. and M.Kühl<br />
| year = 2004<br />
| title = Propagation of electromagetic radiation in mitochondria?<br />
| journal = J.Theoretical Biology<br />
| volume = 230<br />
| issue = 2<br />
| pages = 261-270<br />
| url = http://www.mbl.ku.dk/MKuhl/pages/PDF/Thar&amp;Kuhl2004.pdf<br />
| language = en }}<br />
</ref><br />
<br />
== 参考文献 ==<br />
<br />
{{reflist}}<br />
<br />
[[Category:细胞呼吸]] [[Category:膜生物学]]<br />
==参考来源==<br />
*[http://zh.wikipedia.org/wiki/%E7%BA%BF%E7%B2%92%E4%BD%93%E5%B5%B4 维基百科-线粒体嵴]</div>
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