T tubules

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The [[Action potential|action potential]] generated travels deep into the cell by the aid of t-tubules, which are invaginations of the [[Sarcolemma|sarcolemma]]. When muscle is stimulated by Action Potential, the t tubules are triggered to release Ca2+ ions from the Terminal cristae of the Sarcoplasmic reticulum, which causes muscle contraction. They help spread the impulse so that the [[Cell|cell]] is able to contract at the same time<ref>A.Fullick, J.Locke, P.Bircher. A level biology for OCR. Oxford University Press, Great Clarendon Street, Oxford, OX2 6DP, United Kingdom. 2015.</ref>.  
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The [[Action potential|action potential]] generated travels deep into the cell by the aid of t-tubules, which are invaginations of the [[Sarcolemma|sarcolemma]]. When the muscle is stimulated by [[Action Potential|Action Potential]], the t tubules are triggered to release [[Calcium|Ca<sup>2+</sup>]] [[ions|ions]] from the Terminal cristae of the [[Sarcoplasmic reticulum|Sarcoplasmic reticulum]], which causes muscle contraction. They help spread the impulse so that the [[Cell|cell]] is able to contract at the same time<ref>A. Fullick, J.Locke, P.Bircher. A level biology for OCR. Oxford University Press, Great Clarendon Street, Oxford, OX2 6DP, United Kingdom. 2015.</ref><ref>Calcium regulation of muscle contraction. Biophys J. 1975;15(7):707-23.</ref>.
  
 
=== References  ===
 
=== References  ===
  
<references />Calcium regulation of muscle contraction. Biophys J. 1975;15(7):707-23.
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<references />

Latest revision as of 08:03, 26 November 2018

The action potential generated travels deep into the cell by the aid of t-tubules, which are invaginations of the sarcolemma. When the muscle is stimulated by Action Potential, the t tubules are triggered to release Ca2+ ions from the Terminal cristae of the Sarcoplasmic reticulum, which causes muscle contraction. They help spread the impulse so that the cell is able to contract at the same time[1][2].

References

  1. A. Fullick, J.Locke, P.Bircher. A level biology for OCR. Oxford University Press, Great Clarendon Street, Oxford, OX2 6DP, United Kingdom. 2015.
  2. Calcium regulation of muscle contraction. Biophys J. 1975;15(7):707-23.
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