Channel noise

Anything that doesn't fit elsewhere.
Post Reply
Samsung_123
Posts: 3
Joined: Wed Aug 15, 2018 8:44 am

Channel noise

Post by Samsung_123 »

Hi guys,

One knows, an ionic channel can be either open or closed - if we take a look at N channels, the probability that n channels are open needs to follow a binomial distribution.... now the standard-deviation is proportional to the square root of the considered channels -- therefore : more channels are producing noise proportional to the square root .... I read (in some papers) it should be proportional to the inverse of the square-root... but I don't see the logic behind - could you please give me a short explanation or do you know papers explaining this certain issue ?


Thank you in advance and kind regards
ted
Site Admin
Posts: 6289
Joined: Wed May 18, 2005 4:50 pm
Location: Yale University School of Medicine
Contact:

Re: Channel noise

Post by ted »

Time to learn about statistics and stochastic processes.
Samsung_123
Posts: 3
Joined: Wed Aug 15, 2018 8:44 am

Re: Channel noise

Post by Samsung_123 »

Dear Ted,


I know an stochastic approach with Markov chains does exist, but is the question answerable due to simple statistics ?

If we take a look at N channels - the probability that n channels are open follows a binomial distribution Bin(n,p) - so the standard deviation is proportional to the square root of n.
If we take a look at the relative frequency it is proportional to the reciprocal value.

Is this the answer in a very intuitive way ?

Kind regards,
ted
Site Admin
Posts: 6289
Joined: Wed May 18, 2005 4:50 pm
Location: Yale University School of Medicine
Contact:

Re: Channel noise

Post by ted »

That's it.
Samsung_123
Posts: 3
Joined: Wed Aug 15, 2018 8:44 am

Re: Channel noise

Post by Samsung_123 »

Hi,

I would like to propose an other approach:

lets assume we divide a membrane into n parts, which are represented by random variables X_1,...,X_n - the "value" of this random variables is representing the current fluctuations (without specifying the distribution, but maybe we can assume a N(0,1) distribution.)

When summing the n parts, the standard deviation of

\sum_{I=1}^{n}X_i should be growing proportional to the square root of n.

I would like to describe the standard deviation of this sum under the condition that the total membrane potential V(t) is influencing the fluctuations of the X_i.

Do you know how to model this ?

kind regards
Post Reply