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飞行素,果蝇牵张激活肌肉中的一种新型肌原纤维蛋白。

Flightin, a novel myofibrillar protein of Drosophila stretch-activated muscles.

作者信息

Vigoreaux J O, Saide J D, Valgeirsdottir K, Pardue M L

机构信息

Department of Biology, Massachusetts Institute of Technology, Cambridge 02139.

出版信息

J Cell Biol. 1993 May;121(3):587-98. doi: 10.1083/jcb.121.3.587.

DOI:10.1083/jcb.121.3.587
PMID:8486738
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2119567/
Abstract

The indirect flight muscles of Drosophila are adapted for rapid oscillatory movements which depend on properties of the contractile apparatus itself. Flight muscles are stretch activated and the frequency of contraction in these muscles is independent of the rate of nerve impulses. Little is known about the molecular basis of these adaptations. We now report a novel protein that is found only in flight muscles and has, therefore, been named flightin. Although we detect only one gene (in polytene region 76D) for flightin, this protein has several isoforms (relative gel mobilities, 27-30 kD; pIs, 4.6-6.0). These isoforms appear to be created by posttranslational modifications. A subset of these isoforms is absent in newly emerged adults but appears when the adult develops the ability to fly. In intact muscles flightin is associated with the A band of the sarcomere, where evidence suggests it interacts with the myosin filaments. Computer database searches do not reveal extensive similarity to any known protein. However, the NH2-terminal 12 residues show similarity to the NH2-terminal sequence of actin, a region that interacts with myosin. These features suggest a role for flightin in the regulation of contraction, possibly by modulating actin-myosin interaction.

摘要

果蝇的间接飞行肌适合进行快速的振荡运动,这依赖于收缩装置本身的特性。飞行肌是受拉伸激活的,并且这些肌肉中的收缩频率与神经冲动的速率无关。关于这些适应性的分子基础,人们了解得很少。我们现在报告一种仅在飞行肌中发现的新型蛋白质,因此将其命名为飞行素。尽管我们仅检测到一个(位于多线染色体区域76D)与飞行素相关的基因,但这种蛋白质有几种同工型(相对凝胶迁移率,27 - 30 kD;等电点,4.6 - 6.0)。这些同工型似乎是由翻译后修饰产生的。其中一部分同工型在新羽化的成虫中不存在,但在成虫发育出飞行能力时出现。在完整的肌肉中,飞行素与肌节的A带相关,有证据表明它在那里与肌球蛋白丝相互作用。计算机数据库搜索未发现与任何已知蛋白质有广泛的相似性。然而,其氨基末端的12个残基与肌动蛋白的氨基末端序列相似,肌动蛋白的该区域与肌球蛋白相互作用。这些特征表明飞行素在收缩调节中起作用,可能是通过调节肌动蛋白 - 肌球蛋白的相互作用来实现的。

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