抑制溶酶体酶释放可能是麝香抗炎作用机制之一。
One of the mechanisms of anti-inflammatory actions of musk is through inhibition of lysosomal enzyme release.
抑制溶酶体酶释放可能是麝香抗炎作用机制之一。
Therefore, inhibition of lysosomal enzyme release might be considered as one of the mechanisms of anti-inflammatory role of musk.
提示ACP(及其他溶酶体酶)可能在急性高眼压后的视网膜损伤过程中起重要作用。
It suggests that ACP (with other lysosomal enzymes) may play an important role in the retinal damage after acute ocular hypertension.
阻断组胺作用及抑制溶酶体酶的释放,可能是654 -2抗炎症作用的部分环节。
It is suggested that inhibition of histamine pharmacological effect and lysosomal enzyme release may be responsible for antiinflammatory effect of anisodamine.
包括酯酶的一些,可以位于完整溶酶体的外表面。
Some, including an esterase, may be on the outside of intact lysosomes .
大多数动物的消化道在消化食物时,很少有赖于溶酶体的酶。
The alimentary canal of most animals relies very little on lysosomal enzymes in digesting food.
这或许仅仅是由于那些粗糙型内质网上合成,而将输送到溶酶体的酶所引起。
This may be merely due to enzyme in transit to lysosomes after synthesis on rough endoplasmic reticulum .
有些细胞外酶原能被分泌的溶酶体蛋白酶所激活。
Some extracellular proenzymes may be activated by secreted lysosomal proteinases.
酸性磷酸酶染色显示包绕并吞噬分解外源蛋白的结构是呈染色阳性的溶酶体结构。
An acid phosphatase staining was performed in order to confirm that the autophagosome-like structures have lysosomal enzymes, the structures displayed positive staining.
溶酶体是这种降解作用最后凭借的机器:它是非常酸性的分隔区间,有很多强有力的酶。
The lysosome is the machinery of last resort for this degradation: it is a highly acidified compartment with many powerful enzymes.
在孢子细胞外被与质膜间也观察到非溶酶体酸性磷酸酶。
Non-lysosomal acid phosphatase was observed between the spore coat and spore membrane.
这是近40溶酶体储存引起的疾病的身体无法产生的酶分解和回收利用材料的细胞。
It is one of nearly 40 lysosomal storage diseases caused by the body's inability to produce enzymes that break down and recycle materials in cells.
溶酶体也为膜所包绕,含有分解某些大分子的酶。
Lysosomes are also membrane bound and they contain the enzymes concerned with the breakdown of macromolecules.
巨噬细胞的溶酶体、胞质内致密颗粒和部分质膜也呈现酶活性。
The lysosomes and the dense granules of cytoplasm, as well as on the some area of plasma membrane of the macrophages showed the enzyme activity.
对细胞来说,溶酶体和过氧物酶体是被当成垃圾处置系统而提到的。
Lysosomes and peroxisomes are often referred to as the garbage disposal system of a cell.
目的探讨脊髓前角原代培养细胞ACP 酶的分布,确定溶酶体形态、整体分布及与其它细胞器之间的相互关系。
Objective To research the distribution of ACP ase in primary cultured cells in anterior horns of spinal cord, determine lysosome appearance, integral distribution and their relation with other cells.
研究人员发现砷可以在短时间内使细胞中的溶酶体变得不稳定,从而使其分解并释放出酶,杀灭APL细胞。
Researchers found that arsenite causes rapid destabilization of the lysosome in cells, and that breaks the lysosome apart, releasing enzymes that destroy these particular kinds of leukemia cells.
结论脊髓前角原代培养细胞的acp酶反应可较好的代表溶酶体的整体分布。
Conclusion ACP ase reaction of primary cultured cells in anterior horns of spinal cord can well represent the integral distribution of lysosome.
结论脊髓前角原代培养细胞的acp酶反应可较好的代表溶酶体的整体分布。
Conclusion ACP ase reaction of primary cultured cells in anterior horns of spinal cord can well represent the integral distribution of lysosome.
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