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CONTENTS INTRODUCTION RESTING MEMBRANE POTENTIAL ACTION POTENTIAL ION DISTRIBUTION CHARGE DISTRIGUTION VOLTAGE GATED CHANNELS SPECIFIC CHANNELS INVOLVED.

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Presentation on theme: "CONTENTS INTRODUCTION RESTING MEMBRANE POTENTIAL ACTION POTENTIAL ION DISTRIBUTION CHARGE DISTRIGUTION VOLTAGE GATED CHANNELS SPECIFIC CHANNELS INVOLVED."— Presentation transcript:

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2 CONTENTS INTRODUCTION RESTING MEMBRANE POTENTIAL ACTION POTENTIAL ION DISTRIBUTION CHARGE DISTRIGUTION VOLTAGE GATED CHANNELS SPECIFIC CHANNELS INVOLVED CARDIAC ACTION POTENTIAL SUMMARY REFERENCES

3 INTRODUCTION What is membrane potential? Resting membrane potential Action potential

4 ION DISTRIBUTION

5 CHARGE DISRIBUTION + + + + + + + + + + + + + + + + + + + + + Vm= -70mv

6 VOLTAGE GATED CHANNELS It is an opening so that ions move inwards and outwards -70 mv-55 mv ++++++ ++++++

7 SPECIFIC CHANNELS INVOLVED Type of channel Na + weak Fast Ca 2++ Autoryh Thmic K + Voltage Depende nt Na + Slow Ca 2++ openedcontinous ly Opens @ -40mv Opens @ 0mv Opens @ -55mv Opens @ +30mv Result on ions Na + enters in Ca 2++ Enters in K + outNa + enters in Ca 2++ out Effect on Vm Raise in Vm Raise in Vm Lower in Vm Raise in Vm Cardiac Muscle K + Opens @ +30mv Lets K + out Lower in Vm

8 CARDIAC ACTION POTENTIAL SA (Sinoatrial) node AV(Atrioventricular)node Autorhythmic cells

9 Explaination Time Vm Time Vm -By these two graphs

10 IN AUTORHYTHMIC CELLS Na+ weak Fast Ca2+ AR k+ Vm Time -60 -40 o

11 PHASE I Na+ enters through leak channel and raises Vm. PHASE II When Vm reaches -40mv, Fast ca 2+ channels open and ca 2+ enters, this raises Vm further. PHASE III At 0mv k + channel opens, k + excite cell and returns Vm to rest (-60mv). PHASE IV Start over.

12 IN CARDIAC MUSCLE Time Vm Time Vm -70 -55 30 VD Na + Slow Ca 2+ CM K + Intercalated disc ---------------------------------------------------------- Gap junctions

13 PHASE I Na + and Ca 2+ leaks from neighbouring cells and raise Vm from -70mv to -55mv. PHASE II At –55mv voltage dependent Na + channel opens enters to raise Vm. PHASE III At +30mv both slow Ca 2+ and k + opens and k + exits, while Vm remains the same. PHASE IV Calcium causes muscle contraction PHASE V Ca 2+ closes, K + remains open, K + exits and Vm returns to rest and continues for next set

14 SUMMARY

15 REFERENCES Textbook of cell and molecular biology- 2nd ed– Ajoy Paul Textbook of Medical physiology- Tenth edition – Arthur C.Guyton, M.D & John E.Hall, Ph.D.

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