A. A. Samsonova scite author profile

Spline and wavelet based registration techniques were developed to register Drosophila segmentation gene expression data. As ground control points for registration we used the locations of extrema on gene expression patterns, represented in 1D. The registration method was characterized by unprecedented high accuracy. A method for constructing the integrated pattern of gene expression at cellular resolution was designed. These patterns were constructed for 9 segmentation genes belonging to gap and pair-rule classes.

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Support vector regression applied to the determination of the developmental age of a Drosophila embryo from its segmentation gene expression patterns

Myasnikova¹,

Samsonova²,

Samsonova³

et al. 2002

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By applying support vector regression we have developed a fast method for automated staging of an embryo on the basis of its gene expression pattern. Support vector regression is a statistical method for creating regression functions of arbitrary type from a set of training data. The training set is composed of embryos for which the precise developmental age was determined by measuring the degree of membrane invagination. Testing the quality of regression on the training set showed good prediction accuracy. The optimal regression function was then used for the prediction of the gene expression based age of embryos in which the precise age has not been measured by membrane morphology. Moreover, we show that the same accuracy of prediction can be achieved when the dimensionality of the feature vector was reduced by applying factor analysis. The data reduction allowed us to avoid over-fitting and to increase the efficiency of the algorithm.

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Methods for acquisition of quantitative data from confocal images of gene expression in situ

et al. 2008

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In this review, we summarize original methods for the extraction of quantitative information from confocal images of gene-expression patterns. These methods include image segmentation, the extraction of quantitative numerical data on gene expression, and the removal of background signal and spatial registration. Finally, it is possible to construct a spatiotemporal atlas of gene expression from individual images recorded at each developmental stage. Initially all methods were developed to extract quantitative numerical information from confocal images of segmentation gene expression in Drosophila melanogaster. The application of these methods to Drosophila images makes it possible to reveal new mechanisms in the formation of segmentation gene expression domains, as well as to construct a quantitative atlas of segmentation gene expression. Most image processing procedures can be easily adapted to process a wide range of biological images.

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Myasnikova¹,

Samsonova²,

Samsonova³

et al. 2001

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Clay minerals in a denudation-accumulative soil catena

Чижикова¹,

Sorokina²,

Хитров³

et al. 2010

Eurasian Soil Sc.

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A. A. Samsonova

Registration of the expression patterns of Drosophila segmentation genes by two independent methods

Support vector regression applied to the determination of the developmental age of a Drosophila embryo from its segmentation gene expression patterns

Methods for acquisition of quantitative data from confocal images of gene expression in situ

Untitled

Clay minerals in a denudation-accumulative soil catena

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