在细胞活动的特定阶段,肝细胞线粒体与内质网之间存在紧密的位置关系。
Close topographical relationship between mitochondria and ergastoplasm of liver cells in a definite phase of cellular activity.
作者信息
BERNHARD W, ROUILLER C
出版信息
J Biophys Biochem Cytol. 1956 Jul 25;2(4 Suppl):73-8. doi: 10.1083/jcb.2.4.73.
Abstract
- In most rat liver cells, no special topographical relationship between mitochondria and ergastoplasmic lamellae is to be observed. In some cells, nevertheless, the two organelles are grouped together in dense zones clearly separated from the hyaloplasm. 2. Such an association can be produced at will in the livers of animals refed after prolonged fasting, or in the regenerative phases after partial hepatectomy and intoxication with carbon tetrachloride. In all these cells, the ergastoplasm, after having disappeared, suddenly reappears in the cytoplasm, either along the nucleus or cell membranes, where the mitochondria are grouped. 3. It may be supposed that these topographical relationships between mitochondria and ergastoplasm during a definite period of cellular activity indicate a close functional link between chondrioma and basophilic structures. Mitochondria seem to play an important part in the elaboration of hepatic ergastoplasm.
摘要
- 在大多数大鼠肝细胞中,未观察到线粒体与内质网板层之间存在特殊的拓扑关系。然而,在某些细胞中,这两种细胞器聚集在与透明质明显分开的致密区域。2. 在长期禁食后重新进食的动物肝脏中,或在部分肝切除和四氯化碳中毒后的再生阶段,可以随意产生这种关联。在所有这些细胞中,内质网消失后,突然在细胞质中重新出现,要么沿着细胞核,要么沿着细胞膜,而线粒体则聚集在这些地方。3. 可以推测,在细胞活动的特定时期,线粒体与内质网之间的这些拓扑关系表明线粒体瘤与嗜碱性结构之间存在密切的功能联系。线粒体似乎在肝脏内质网的形成中起重要作用。
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本文引用的文献
1
[Cytochemical study of the variations of the hepatic nucleoproteins during regeneration and autolysis].
Arch Biol (Liege). 1950;61(4):475-99.
2
A small particulate component of the cytoplasm.
J Biophys Biochem Cytol. 1955 Jan;1(1):59-68. doi: 10.1083/jcb.1.1.59.
3
[The concept of microsomes and the problem of cytoplasmic basophilia; critical and experimental study].
Arch Anat Microsc Morphol Exp. 1954;43(3):236-75.
4
Studies on the endoplasmic reticulum. II. Simple dispositions in cells in situ.
J Biophys Biochem Cytol. 1955 Nov 25;1(6):567-82. doi: 10.1083/jcb.1.6.567.
5
[Submicroscopical structure of cytoplasmic basophils in the liver, pancreas and salivary gland; study of ultrafine slices by electron microscope].
Z Zellforsch Mikrosk Anat. 1952;37(3):281-300.
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