Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-22T17:11:36.275Z Has data issue: false hasContentIssue false
  • English
  • Français

Explicit asymptotic results for open times in ion channel models

Part of: Physiological, cellular and medical topics Special processes Distribution theory

Published online by Cambridge University Press:  01 July 2016

Valeri T. Stefanov  and
Geoffrey F. Yeo
Valeri T. Stefanov*
Affiliation:
The University of Western Australia
Geoffrey F. Yeo*
Affiliation:
Murdoch University
*
*Postal address: Department of Mathematics, The University of Western Australia, Nedlands, WA 6907, Australia.
**Postal address: Department of Mathematics and Statistics, Murdoch University, Murdoch, WA 6150, Australia.
Get access Rights & Permissions [Opens in a new window]

Abstract

The dynamical aspects of single channel gating can be modelled by a Markov renewal process, with states aggregated into two classes corresponding to the receptor channel being open or closed, and with brief sojourns in either class not detected. This paper is concerned with the relation between the amount of time, for a given record, in which the channel appears to be open compared to the amount in which it is actually open and the difference in their proportions; this may be used to obtain information on the unobserved actual process from the observed one. Results, with extensions, on exponential families have been applied to obtain relevant generating functions and asymptotic normal distributions, including explicit forms for the parameters. Numerical results are given as illustration in special cases.

Keywords

ASYMPTOTICSEXPONENTIAL FAMILYION CHANNELMARKOV RENEWAL PROCESS

MSC classification

Primary: 60K20: Applications of Markov renewal processes (reliability, queueing networks, etc.)
Secondary: 62E20: Asymptotic distribution theory 92C05: Biophysics
Type
General Applied Probability
Information
Advances in Applied Probability , Volume 29 , Issue 4 , December 1997 , pp. 947 - 964
Copyright
Copyright © Probability Trust 1997 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

The research of the first author was supported by a grant from the Faculty of Engineering and Mathematical Sciences of UWA.

References

Ball, F., Milne, R. K. and Yeo, G. F. (1991) Aggregated semi-Markov processes incorporating time interval omission. Adv. Appl. Prob. 23, 772797.Google Scholar
Ball, F., Milne, R. K. and Yeo, G. F. (1993a) On the exact distribution of observed open times in single ion channel models. J. Appl. Prob. 30, 529537.Google Scholar
Ball, F., Milne, R. K. and Yeo, G. F. (1994) Continuous-time Markov chains in a random environment, with applications to ion channel modelling. Adv. Appl. Prob. 26, 919946.Google Scholar
Ball, F. and Rice, J. A. (1992) Stochastic models for ion channels: introduction and bibliography. Math. Biosci. 112, 189206.CrossRefGoogle ScholarPubMed
Ball, F. and Sansom, M. S. P. (1988) Aggregated Markov processes incorporating time interval omission. Adv. Appl. Prob. 20, 546572.Google Scholar
Ball, F. and Yeo, G. F. (1994) Numerical evaluation of observed sojourn time distributions for a single ion channel incorporating time interval omission. Statist. Comp. 4, 112.Google Scholar
Ball, F., Yeo, G. F., Milne, R. K., Edeson, R. O., Madsen, B. M. and Sansom, M. S. P. (1993b) Single ion channel models incorporating aggregation and time interval omission. Biophys. J. 64, 357374.Google Scholar
Barndorff-Nielsen, O. (1978) Information and Exponential Families. Wiley, Chichester.Google Scholar
Barndorff-Nielsen, O. (1980) Conditionality resolutions. Biometrika 67, 293310.Google Scholar
Barndorff-Nielsen, O. (1988) Parametric Statistical Models and Likelihood. (Lecture Notes in Statistics 50.) Springer, Heidelberg.Google Scholar
Barndorff-Nielsen, O. and Cox, D. R. (1994) Inference and Asymptotics. Chapman and Hall, London.Google Scholar
Brown, L. (1986) Fundamentals of Statistical Exponential Families. IMS, Hayward, CA.Google Scholar
Colquhoun, D. and Hawkes, A. G. (1982) On the stochastic properties of bursts of single ion channel openings and of clusters of bursts. Phil. Trans. R. Soc. London B 300, 159.Google Scholar
Colquhoun, D. and Hawkes, A. G. (1987) A note on correlations in single ion channel records. Proc. R. Soc. London B 230, 1552.Google Scholar
Colquhoun, D. and Hawkes, A. G. (1990) Stochastic properties of ion channel openings and bursts in a membrane patch that contains two channels: evidence concerning the number of channels present when a record containing only single openings is observed. Proc. R. Soc. London B 240, 453477.Google Scholar
Dabrowski, A. R., Mcdonald, D. and Rösler, U. (1990) Renewal theory properties of ion channels. Ann. Statist. 18, 10911115.Google Scholar
Fredkin, D. and Rice, J. A. (1986) On aggregated Markov processes. J. Appl. Prob. 23, 208214.Google Scholar
Fredkin, D. and Rice, J. A. (1991) On the superposition of currents from ion channels. Phil. Trans. R. Soc. London B 334, 347356.Google Scholar
Hamill, O.-P., Marty, A., Neher, E., Sakmann, B. and Sigworth, F. J. (1981) Improved patch-clamp techniques for high resolution current recording from cells and cell-free membrane patches. Pflügers Archive Europ. J. Physiol. 391, 85100.Google Scholar
Milne, R. K., Yeo, G. F., Edeson, R. O. and Madsen, B. W. (1988) Stochastic models of a single ion channel: an alternating renewal approach with application to limited time resolution. Proc. R. Soc. London B 233, 247292.Google ScholarPubMed
Sakmann, B. and Neher, E., (eds) (1983) Single-Channel Recording. Plenum, New York.Google Scholar
Serfozo, R. (1975) Functional limit theorems for stochastic processes based on embedded processes. Adv. Appl. Prob. 7, 123139.Google Scholar
Stefanov, V. T. (1991) Noncurved exponential families associated with observations over finite state Markov chains. Scand. J. Statist. 18, 353356.Google Scholar
Stefanov, V. T. (1995) Explicit limit results for minimal sufficient statistics and maximum likelihood estimators in some Markov processes: exponential families approach. Ann. Statist. 23, 10731101.CrossRefGoogle Scholar
Yeo, G. F., Milne, R. K., Edeson, R. O., Madsen, B. W. (1988) Statistical inference from single ion channel records: two-state Markov model with limited time resolution. Proc. R. Soc. London B 235, 6394.Google ScholarPubMed