Eigenphenotypes: towards an algorithmic framework for phenotype discovery

Author

Vaughan, Alexander ; Singh, Rahul ; Shimoide, Alan ; Yoon, Ilmi ; Fuse, Medumi

Author_Institution

Dept. of Biol., San Francisco State Univ., CA, USA

fYear

2005

fDate

8-11 Aug. 2005

Firstpage

77

Lastpage

78

Abstract

Studying the genetic control of molecular, anatomical and/or morphological phenotypes in model organisms is a powerful tool in the functional analysis of a gene. The goal of our research is to develop algorithms that discover phenotypes of behavior in model organisms, which may identify, categorize, and quantify these phenotypes under conditions of minimal a priori information. Starting from a non-invasive video monitoring of a model organism, we propose an eigen-decomposition of the organism´s behavior captured in video. Traditional clustering techniques in space, time, and frequency can utilize this decomposition to characterize the categorical behaviors of an animal, and for an analysis of the behavioral repertoire. This supplies a quantified analysis of behavior with minimal assumptions, a crucial first step in the genetic analysis of behavior.

Keywords

cellular biophysics; eigenvalues and eigenfunctions; genetics; molecular biophysics; pattern clustering; video recording; algorithmic framework; anatomical phenotype; clustering technique; eigen-decomposition; eigenphenotype; genetic analysis; genetic control; model organism; molecular phenotype; morphological phenotype; noninvasive video monitoring; phenotype discovery; quantified analysis; Animals; Biological control systems; Computational biology; Computer science; Fuses; Genetics; Organisms; Psychology; Time series analysis; Timing;

fLanguage

English

Publisher

ieee

Conference_Titel

Computational Systems Bioinformatics Conference, 2005. Workshops and Poster Abstracts. IEEE

Print_ISBN

0-7695-2442-7

Type

conf

DOI

10.1109/CSBW.2005.60

Filename

1540548