A Field Approach to 3D Gene Expression Pattern Characterization

A Field Approach to 3D Gene Expression Pattern Characterization

We present a vector field method for obtaining the spatial organization of 3D patterns of gene expression based on gradients and lines of force obtained by numerical integration. The convergence of these lines of force in local maxima are centers of gene expression, providing a natural and powerful...

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Hauptverfasser: Costa, L. da F, Travencolo, B. A. N, Azeredo, A, Beletti, M. E, Rasskin-Gutman, D, Sternik, G, Belmonte, J. C. I, Mueller, G. B
Format: Artikel
Sprache:eng
Schlagworte:
Physics - Biological Physics
Physics - Statistical Mechanics
Quantitative Biology - Genomics
Quantitative Biology - Tissues and Organs
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Zusammenfassung:We present a vector field method for obtaining the spatial organization of 3D patterns of gene expression based on gradients and lines of force obtained by numerical integration. The convergence of these lines of force in local maxima are centers of gene expression, providing a natural and powerful framework to characterize the organization and dynamics of biological structures. We apply this novel methodology to analyze the expression pattern of the Enhanced Green Fluorescent Protein (EGFP) driven by the promoter of light chain myosin II during zebrafish heart formation.
DOI:10.48550/arxiv.q-bio/0411020