Vitaly L Galinsky1. 1. Illumina, Inc., 9885 Towne Centre Dr., San Diego CA 92121, USA. vit@ucsd.edu
Abstract
MOTIVATION: The analysis of high-throughput experiment data provided by microarrays becomes increasingly more and more important part of modern biological science. Microarrays allow to conduct genotyping or gene expression experiments on hundreds of thousands of test genes in parallel. Because of the large and constantly growing amount of experimental data the necessity of efficiency, robustness and complete automation of microarray image analysis algorithms is gaining significant attention in the field of microarray processing. RESULTS: The author presents here an efficient and completely automatic image registration algorithm (that is an algorithm for spots and blocks indexing) that allows to process a wide variety of microarray slides with different parameters of grid and block spacing as well as spot sizes. The algorithm scales linearly with the grid size, the time complexity is O(M), where M is number of rows x number of columns. It can successfully cope with local and global distortions of the grid, such as focal distortions and non-orthogonal transformations. The algorithm has been tested both on CCD and scanned images and showed very good performance-the processing time of a single slide with 44 blocks of 200 x 200 grid points (or 1 760 000 grid points total) was about 10 s. AVAILABILITY: The test implementation of the algorithm will be available upon request for academics. SUPPLEMENTARY INFORMATION: http://fleece.ucsd.edu/~vit/Registration_Supplement.pdf
MOTIVATION: The analysis of high-throughput experiment data provided by microarrays becomes increasingly more and more important part of modern biological science. Microarrays allow to conduct genotyping or gene expression experiments on hundreds of thousands of test genes in parallel. Because of the large and constantly growing amount of experimental data the necessity of efficiency, robustness and complete automation of microarray image analysis algorithms is gaining significant attention in the field of microarray processing. RESULTS: The author presents here an efficient and completely automatic image registration algorithm (that is an algorithm for spots and blocks indexing) that allows to process a wide variety of microarray slides with different parameters of grid and block spacing as well as spot sizes. The algorithm scales linearly with the grid size, the time complexity is O(M), where M is number of rows x number of columns. It can successfully cope with local and global distortions of the grid, such as focal distortions and non-orthogonal transformations. The algorithm has been tested both on CCD and scanned images and showed very good performance-the processing time of a single slide with 44 blocks of 200 x 200 grid points (or 1 760 000 grid points total) was about 10 s. AVAILABILITY: The test implementation of the algorithm will be available upon request for academics. SUPPLEMENTARY INFORMATION: http://fleece.ucsd.edu/~vit/Registration_Supplement.pdf
Authors: Kevin L Gunderson; Semyon Kruglyak; Michael S Graige; Francisco Garcia; Bahram G Kermani; Chanfeng Zhao; Diping Che; Todd Dickinson; Eliza Wickham; Jim Bierle; Dennis Doucet; Monika Milewski; Robert Yang; Chris Siegmund; Juergen Haas; Lixin Zhou; Arnold Oliphant; Jian-Bing Fan; Steven Barnard; Mark S Chee Journal: Genome Res Date: 2004-04-12 Impact factor: 9.043
Authors: Jose I Martin-Subero; Ole Ammerpohl; Marina Bibikova; Eliza Wickham-Garcia; Xabier Agirre; Sara Alvarez; Monika Brüggemann; Stefanie Bug; Maria J Calasanz; Martina Deckert; Martin Dreyling; Ming Q Du; Jan Dürig; Martin J S Dyer; Jian-Bing Fan; Stefan Gesk; Martin-Leo Hansmann; Lana Harder; Sylvia Hartmann; Wolfram Klapper; Ralf Küppers; Manuel Montesinos-Rongen; Inga Nagel; Christiane Pott; Julia Richter; José Román-Gómez; Marc Seifert; Harald Stein; Javier Suela; Lorenz Trümper; Inga Vater; Felipe Prosper; Claudia Haferlach; Juan Cruz Cigudosa; Reiner Siebert Journal: PLoS One Date: 2009-09-11 Impact factor: 3.240