DNA Electroporation, Isolation and Imaging of Myofibers

Alexis R. Demonbreun; Elizabeth M. McNally

doi:10.3791/53551

JoVE Journal
Biology

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JoVE Journal Biology

DNA Electroporation, Isolation and Imaging of Myofibers

DNA 일렉트로, 근섬유의 분리 및 이미징

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07:52 min

December 23, 2015

DOI: 10.3791/53551-v

Alexis R. Demonbreun¹, Elizabeth M. McNally¹

¹Center for Genetic Medicine,Northwestern University

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Overview

This protocol utilizes electroporation to introduce and express fluorescently labeled proteins in mouse muscle fibers. The main advantage of this technique is that it allows for the study of protein function and localization in mature myo fibers without generating transgenic mice.

Key Study Components

Area of Science

Neuroscience
Cell Biology
Muscle Physiology

Background

The procedure focuses on isolating myo fibers from the flexor digitorum brevis of mice.
It involves damaging the sarcolemma through laser wounding.
This method can be adapted for testing pharmaceutical agents and other cell wounding techniques.
High-resolution confocal microscopy is used for imaging muscle structure.

Purpose of Study

To visualize muscle structure through imaging of isolated fibers.
To study the localization and function of proteins in mature muscle fibers.
To provide a method that circumvents the need for transgenic mice.

Methods Used

Electroporation for protein introduction.
Isolation of muscle fibers post-recovery.
High-resolution confocal microscopy for imaging.
Preparation of collagenase solution and culture media for fiber isolation.

Main Results

Successful introduction and expression of fluorescent proteins in muscle fibers.
Visualization of muscle structure using confocal microscopy.
Demonstration of the method's adaptability for pharmaceutical testing.
Validation of protein localization studies in mature myo fibers.

Conclusions

This protocol provides a reliable method for studying protein dynamics in muscle fibers.
It offers an alternative to transgenic approaches for muscle research.
The technique can be utilized for various experimental applications in muscle biology.

Frequently Asked Questions

What is the main advantage of this technique?

The main advantage is that it allows for the study of protein function and localization in mature myo fibers without generating transgenic mice.

What type of microscopy is used in this study?

High-resolution confocal microscopy is used to visualize muscle structure.

From which part of the mouse are the myo fibers isolated?

Myo fibers are isolated from the flexor digitorum brevis of mice.

How does the protocol adapt for pharmaceutical testing?

The method can be adapted to test pharmaceutical agents and other methods of cell wounding.

What is the first step in the procedure?

The first step is thawing out the collagenase solution.

What is the purpose of electroporation in this protocol?

Electroporation is used to introduce and express fluorescently labeled proteins in the muscle fibers.

이 프로토콜은 전기천공법을 사용하여 마우스 근육 섬유에 형광 표지된 단백질을 도입하고 발현합니다. 전기천공법 후 회복 후 섬유가 분리됩니다. 그런 다음 고해상도 컨포칼 현미경을 사용하여 개별 섬유를 이미지화하여 근육 구조를 시각화합니다.

이 절차의 전반적인 목표는 마우스의 flexo digitorum brevis에서 myo fibers를 분리하여 sarcolemma가 나중에 레이저 상처를 통해 손상될 수 있도록 하는 것입니다. 이 기술의 주요 장점은 형질전환 마우스를 생성하지 않고도 성숙한 근육 섬유에서 단백질 기능과 국소화를 연구할 수 있다는 것입니다. 이 방법은 제약 작용제 및 기타 세포 상처 방법을 테스트하도록 조정할 수 있습니다.

콜라겐분해효소 용액을 해동하는 것으로 시작합니다. 다음으로, 12웰 플레이트에서 두 개의 웰을 준비합니다. 각 광섬유를 하나로 분리하려면 1밀리리터의 예온, DMEM 및 BSA 로드를 다른 1밀리리터의 예열 1 x 링거로 추가합니다.

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