Protein engineering and the study of muscle contraction in Drosophila flight muscles.

Journal of cell science. Supplement Pub Date : 1991-01-01 DOI:10.1242/jcs.1991.supplement_14.15
J Sparrow, D Drummond, M Peckham, E Hennessey, D White
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引用次数: 23

Abstract

We describe an experimental approach to the use of genetics to study muscle contraction in Drosophila melanogaster. Mutations induced by in vitro mutagenesis are inserted into the genome of flies using P-element mediated transformation, permitting the effects of the mutant genes to be studied in vivo in the indirect flight muscles (IFMs). Details of how mechanical experiments can be performed on skinned IFMs, despite their small size, are provided. The effects of two in vitro actin mutations, G368E and E316K, are described. The problems of performing biochemical and biophysical experiments on the IFMs and their myofibrillar proteins are described, together with indications as to how these may be overcome.

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果蝇飞行肌的蛋白质工程与肌肉收缩研究。
我们描述了一种实验方法,利用遗传学来研究肌肉收缩在果蝇黑腹。通过p元素介导的转化,将体外诱变诱导的突变插入到果蝇的基因组中,从而允许在体内间接飞行肌(ifm)中研究突变基因的影响。提供了如何在剥皮的ifm上进行机械实验的细节,尽管它们的尺寸很小。本文描述了两种体外肌动蛋白突变G368E和E316K的影响。描述了对ifm及其肌原纤维蛋白进行生化和生物物理实验的问题,以及如何克服这些问题的指示。
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Journal of cell science. Supplement
Journal of cell science. Supplement
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Studies of DNA methylation in animals. Characterization of the execution phase of apoptosis in vitro using extracts from condemned-phase cells. Analysis of the temporal program of replication initiation in yeast chromosomes. On the structure of replication and transcription factories. Stepwise assembly of initiation complexes at budding yeast replication origins during the cell cycle.
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