A Novel Gaussian Extrapolation Approach for 2D Gel Electrophoresis Saturated Protein Spots 被引量：2

A Novel Gaussian Extrapolation Approach for 2D Gel Electrophoresis Saturated Protein Spots

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摘要 Analysis of images obtained from two-dimensional gel electrophoresis （2D-GE） is a topic of utmost importance in bioinformatics research, since commercial and academic software available currently has proven to be neither completely effective nor fully automatic, often requiring manual revision and refinement of computer generated matches. In this work, we present an effective technique for the detection and the reconstruction of over-saturated protein spots. Firstly, the algorithm reveals overexposed areas, where spots may be truncated, and plateau regions caused by smeared and overlapping spots. Next, it reconstructs the correct distribution of pixel values in these overexposed areas and plateau regions, using a two-dimensional least-squares fitting based on a generalized Gaussian distribution. Pixel correction in saturated and smeared spots allows more accurate quantification, providing more reliable image analysis results. The method is validated for processing.highly exposed 2D-GE images, comparing reconstructed spots with the corresponding non-saturated image, demonstrating that the algorithm enables correct spot quantification. Analysis of images obtained from two-dimensional gel electrophoresis （2D-GE） is a topic of utmost importance in bioinformatics research, since commercial and academic software available currently has proven to be neither completely effective nor fully automatic, often requiring manual revision and refinement of computer generated matches. In this work, we present an effective technique for the detection and the reconstruction of over-saturated protein spots. Firstly, the algorithm reveals overexposed areas, where spots may be truncated, and plateau regions caused by smeared and overlapping spots. Next, it reconstructs the correct distribution of pixel values in these overexposed areas and plateau regions, using a two-dimensional least-squares fitting based on a generalized Gaussian distribution. Pixel correction in saturated and smeared spots allows more accurate quantification, providing more reliable image analysis results. The method is validated for processing.highly exposed 2D-GE images, comparing reconstructed spots with the corresponding non-saturated image, demonstrating that the algorithm enables correct spot quantification.

作者 Massimo Natale Alfonso Caiazzo Enrico M. Bucci Elisa Ficarra

机构地区 Department of Control and Computer Engineering BioDigitalValley S.r.l. WIAS Berlin Istituto di Biostrutture e Bioimmagini

出处《Genomics, Proteomics & Bioinformatics》 SCIE CAS CSCD 2012年第6期336-344,共9页 基因组蛋白质组与生物信息学报（英文版）

基金 funded by the Valle d’Aosta Regional Government (http://www.regione.vda.it/) in the frame of the regional law n.84-07/12/1993 (project ParIS-Parkinson Informative System)

关键词 Image analysis Two-dimensional gel electrophoresis PROTEOMICS Software tools Image analysis Two-dimensional gel electrophoresis Proteomics Software tools

分类号 Q51 [生物学—生物化学]

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参考文献21

1O'Farrel PH. High resolution two-dimensional electrophoresis of proteins. J Biol Chem 1975;250:4007-21.
2G6rg A, Weiss W, Dunn MJ. Current two-dimensional electropho- resis technology for proteomics. Proteomics 2004;4:3665-85.
3Miller I, Crawford J, Gianazza E. Protein stains for proteomic applications: which, when, why? Proteomics 2006;6:5385408.
4Hortin GL, Sviridov D. The dynamic range problem in the analysis of the plasma proteome. J Proteomics 2010;73:629-36.
5Millioni R, Puricelli L, Sbrignadello S, Iori E, Murphy E, Tessari P. Operator- and software-related post-experimental variability and source of error in 2-DE analysis. Amino Acids 2012;42:1583-90.
6Clark BN, Gutstein HB. The myth of automated, high-throughput two-dimensional gel analysis. Proteomics 2008;8:1197-203.
7Wheelock AM, Buckpitt AR. Software-induced variance in two- dimensional gel electrophoresis image analysis. Electrophoresis 2005;26:4508-20.
8dos Anjos A, Moller AL, Ersboll BK, Finnie C, Shahbazkia HR. New approach for segmentation sional gel electrophoresis images. and quantification of two-dimen- Bioinformatics 2011;27:368-75.
9Srinark T, Kambhamettu C. An image analysis suite for spot detection and spot matching in two-dimensional electrophoresis gels. Electrophoresis 2008;29:706-15.
10Rashwan S, Faheem T, Sarhan A, Youssef BAB. A fuzzy-watershed based algorithm for protein spot detection in 2DGE images. In: Proceedings of the 9th WSEAS international conference on signal processing, computational geometry and artificial vision (ISC- GAV'09), Stevens Point, Wisconsin, USA: World Scientific and Engineering Academy and Society (WSEAS): 2009 o. 3540.

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1IGNATOVA M, GUEVEL B, COM E, et al. Two-dimen sional fluorescence difference gel electrophoresis analysis of Listeria monocytogenes submitted to a redox shock [J]. J Proteomics, 2013, 79(1): 13-27.
2SERACKIS A, NAVAKAUSKAS D. Treatment of over-sat- urated protein spots in two dimensional electrophoresis gel images [J]. Informatica, 2010, 21(3): 409-424.
3PLEISSNER K P, HOFFMANN F, KR1EGEL K, et al. New algorithmic approaches to protein spot detection and pat- tern matching in two-dimensional electrophoresis gel databas es[J]. Electrophoresis, 1999, 20(4-5): 755-765.
4SRINARK T, KAMBHAMETTU C. An image analysis suite for spot detection and spot matching in two-dimensional elec- trophoresis gels [J]. Eleetrophoresis, 2008, 29(3) ; 706-715.
5SUN C L, WANG X M. Spot segmentation and verifycation based on improve marker controlled watershed transform [C]//IEEE Conference on Computer Science and Information Technology. Chengdu, 2010:63- 66.
6KIM M A, YOON Y W. Spot detection of complex regions by accumulator gradient in two-dimensional electrophoresis images [C]//ICACT 09. Phoenix Park, 2009; 1982-1985.
7BAI Xiangzhi, ZHOU Fugen. A unified form of multi scale top-hat transform based algorithms for image processing [J]. Optik International Journal for Light and Electron Optics, 2013, 124(13): 1614-1619.
8WANG Jun, TAN Ying. Efficient Euclidean distance trans- form algorithm of binary images in arbitrary dimensions [J]. Pattern Recognit, 2013, 46(1): 230-242.
9SANDERS J, KANDROT E. CUDA by example: an intro- duction to general-purpose GPU programming [M]. New York: Addison-Wesley Educational Publishers Inc, 2010.
10任勇勇,潘泉,张绍武,赵春晖,程咏梅.基于围线分层扫描的完全欧氏距离变换算法[J].中国图象图形学报,2011,16(1):32-36. 被引量：8

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7邢美园,苏开颜,毛国根.互联网上的蛋白质二维凝胶电泳(2DE)数据库资源[J].现代图书情报技术,2003(S1):156-161.
8谢妮慧,王淳,何海燕.抗辐射MRAM的外部程序存储器设计[J].单片机与嵌入式系统应用,2017,17(4):46-50. 被引量：1
9Recommended paper related to this topic[J].Journal of Zhejiang University-Science B(Biomedicine & Biotechnology),2012,13(10):796-796.
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A Novel Gaussian Extrapolation Approach for 2D Gel Electrophoresis Saturated Protein Spots 被引量：2

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