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Literature DB >> 17293398

Interfilament spacing is preserved during sarcomere length isometric contractions in rat cardiac trabeculae.

Gerrie P Farman¹, Edward J Allen, David Gore, Thomas C Irving, Pieter P de Tombe.

Abstract

It is generally assumed that the myofilament lattice in intact (i.e., nonskinned) striated muscle obeys constant volume. However, whether such is the case during the myocardial contraction is unknown. Accordingly, we measured interfilament spacing by x-ray diffraction in ultra-thin isolated rat right ventricular trabeculae during a short 10 ms shuttered exposure either just before electrical stimulation (diastole), or at the peak of the contraction (systole); sarcomere length (SL) was held constant throughout the contraction using an iterative feedback control system. SL was thus varied in a series of SL-clamped contractions; the relationship between SL and interfilament spacing was not different between diastole and systole within 1%; this was true also over a wide range of inotropic states induced by varied [Ca(2+)](o). We conclude that the cardiac myofilament lattice maintains constant volume, and thus constant interfilament spacing, during contraction.

Entities: Chemical Disease Species

Mesh：

Year: 2007 PMID： 17293398 PMCID： PMC1852334 DOI： 10.1529/biophysj.107.104257

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

9 in total

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Authors: H E ter Keurs; W H Rijnsburger; R van Heuningen; M J Nagelsmit
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9. Time-resolved changes in equatorial x-ray diffraction and stiffness during rise of tetanic tension in intact length-clamped single muscle fibers.

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9 in total

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5. Structural and functional impact of troponin C-mediated Ca²⁺ sensitization on myofilament lattice spacing and cross-bridge mechanics in mouse cardiac muscle.

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10. Topographic mapping and compression elasticity analysis of skinned cardiac muscle fibers in vitro with atomic force microscopy and nanoindentation.

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