Electron tomography of muscle cross- bridge by regulatory light chain labelling with APEX2
Muscle contraction results from the cyclic interaction of myosin and actin by coupling energy of adenosine triphosphate (ATP) hydrolysis. During muscle contraction myosin and actin interact with each other through a structure called “cross-bridge”. Despite intense structural studies, the organisa...
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sg-ntu-dr.10356-857242023-02-28T18:34:22Z Electron tomography of muscle cross- bridge by regulatory light chain labelling with APEX2 Mufeeda, Changaramvally Madathummal Michael Ferenczi School of Biological Sciences Science::Biological sciences Muscle contraction results from the cyclic interaction of myosin and actin by coupling energy of adenosine triphosphate (ATP) hydrolysis. During muscle contraction myosin and actin interact with each other through a structure called “cross-bridge”. Despite intense structural studies, the organisation of myosin cross-bridges on myosin filaments is not well understood. Myosin regulatory light chain (RLC) is one of the prominent proteins present at the lever arm domain of cross-bridges. Phosphorylation of RLC modulates cellular functions including muscle contraction. Moreover, RLC mutation is associated with cardiomyopathy. To understand the role of RLC in muscle contraction, high-resolution structure in its sarcomeric environment is required. Currently available high-resolution structure of myosin is inadequate to understand the role of RLC. A novel electron microscopy (EM) labelling technique based on APEX2, an engineered variant of soybean ascorbate peroxidase (APEX) protein is a promising technique to resolve the structure of specific protein in its native environment. In this study, the visualisation of the muscle cross-bridge organisation using APEX2 was attained. APEX2 provides the contrast EM by oxidation of di-aminobenzidine (DAB) substrate. For that purpose, fully functional RLCAPEX2 fusion protein was exchanged into muscle fibre. RLC-APEX2 exchanged muscle prepared in the relaxed state showed good ultrastructural preservation and good EM contrast upon chemical fixation. The presence of RLC-APEX2 in myosin cross-bridges permitted us to visualise structural features by electron tomography (ET) in relaxed state. Our standardised APEX2 based EM labelling protocol could be a promising tool for the labelling of other sarcomeric proteins in diseased states, thus permitting the direct visualisation and ultrastructural organisation of muscle proteins by ET. Doctor of Philosophy 2019-11-25T06:02:48Z 2019-12-06T16:09:06Z 2019-11-25T06:02:48Z 2019-12-06T16:09:06Z 2019 Thesis Mufeeda, C. M. (2019). Electron tomography of muscle cross- bridge by regulatory light chain labelling with APEX2. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/85724 http://hdl.handle.net/10220/50461 10.32657/10356/85724 en 199 p. application/pdf application/octet-stream |
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Science::Biological sciences Mufeeda, Changaramvally Madathummal Electron tomography of muscle cross- bridge by regulatory light chain labelling with APEX2 |
| description |
Muscle contraction results from the cyclic interaction of myosin and actin by
coupling energy of adenosine triphosphate (ATP) hydrolysis. During muscle contraction
myosin and actin interact with each other through a structure called “cross-bridge”. Despite
intense structural studies, the organisation of myosin cross-bridges on myosin filaments is
not well understood. Myosin regulatory light chain (RLC) is one of the prominent proteins
present at the lever arm domain of cross-bridges. Phosphorylation of RLC modulates
cellular functions including muscle contraction. Moreover, RLC mutation is associated with
cardiomyopathy. To understand the role of RLC in muscle contraction, high-resolution
structure in its sarcomeric environment is required. Currently available high-resolution
structure of myosin is inadequate to understand the role of RLC. A novel electron
microscopy (EM) labelling technique based on APEX2, an engineered variant of soybean
ascorbate peroxidase (APEX) protein is a promising technique to resolve the structure of
specific protein in its native environment. In this study, the visualisation of the muscle
cross-bridge organisation using APEX2 was attained. APEX2 provides the contrast EM by
oxidation of di-aminobenzidine (DAB) substrate. For that purpose, fully functional RLCAPEX2
fusion protein was exchanged into muscle fibre. RLC-APEX2 exchanged muscle
prepared in the relaxed state showed good ultrastructural preservation and good EM contrast
upon chemical fixation. The presence of RLC-APEX2 in myosin cross-bridges permitted
us to visualise structural features by electron tomography (ET) in relaxed state. Our
standardised APEX2 based EM labelling protocol could be a promising tool for the
labelling of other sarcomeric proteins in diseased states, thus permitting the direct
visualisation and ultrastructural organisation of muscle proteins by ET. |
| author2 |
Michael Ferenczi |
| author_facet |
Michael Ferenczi Mufeeda, Changaramvally Madathummal |
| format |
Theses and Dissertations |
| author |
Mufeeda, Changaramvally Madathummal |
| author_sort |
Mufeeda, Changaramvally Madathummal |
| title |
Electron tomography of muscle cross- bridge by regulatory light chain labelling with APEX2 |
| title_short |
Electron tomography of muscle cross- bridge by regulatory light chain labelling with APEX2 |
| title_full |
Electron tomography of muscle cross- bridge by regulatory light chain labelling with APEX2 |
| title_fullStr |
Electron tomography of muscle cross- bridge by regulatory light chain labelling with APEX2 |
| title_full_unstemmed |
Electron tomography of muscle cross- bridge by regulatory light chain labelling with APEX2 |
| title_sort |
electron tomography of muscle cross- bridge by regulatory light chain labelling with apex2 |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/85724 http://hdl.handle.net/10220/50461 |
| _version_ |
1759853910821961728 |