Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision
Previous revision
start [2009/12/30 13:07]
aconesa
start [2010/05/03 16:51] (current)
jcarbonell
Line 1: Line 1:
- 
 ====== Serial Expression Analysis ====== ====== Serial Expression Analysis ======
  
-Serial Expression Analysis ​(SEA) is a web site for the analysis of serial gene expression data. Serial data is understood as multifactorial experimental designs where one of the factors is a quantitative variable such as time or treatment dose. The site offers five different methodologies for the identification of genes and functional classes which significant changes across series. +**S**erial **E**xpression **A**nalysis ​(**SEA**) is a web site for the analysis of serial gene expression data. Serial data is understood as multifactorial experimental designs where one of the factors is a quantitative variable such as time or treatment dose. The site offers five different methodologies for the identification of genes and functional classes which significant changes across series. \\
-\\ +
-\\ +
-===== maSigPro ===== +
- +
-**maSigPro** (MicroArray Significant Profiles) [1] applies linear regression to model gene expression in (multiple)series time course microarray data   and selects differentially ​ expressed genes through a two-steps algorithm. First, responsive genes are identified by fitting a generic regression model with time as quantitative variable and series as dummy variables. Second, step-wise regression is applied on selected genes to adjust models ​  ​ime|3|3|3|9|9|9|27|27|27|…| +
-|Treatment|Ctr|TrA|TrB|Ctr|TrA|TrB|Ctr|TrA|TrB|…| +
-   ​*//​Control.group//:​ name of the reference series in the model (in the example is Ctr) +
-   ​*//​degree//:​ polynomial degree for the regression model (max. is # time-points – 1). \\ +
-   ​*//​alpha//:​ significant level for gene selection.\\ +
-   ​*//​rsq//:​ cut-off value at the R-squared (goodness of fit) regression parameter. \\ +
-\\ +
-__Parameters for maSigPro visualization__\\ +
-   ​*//​k//:​ number of clusters to split gene selection. +
-   ​*//​cluster.method//:​ clustering method. Possible values are:  +
-       * "​hclust":​ hierarchical clustering\\ +
-       * "​kmeans":​ k-means\\ +
-   ​*//​series.to.see//:​ number of the series to visualize from the available series.\\ +
-\\ +
- +
-===== ASCA-genes ===== +
- +
-**ASCA-genes** [2] is an adaptation of the ASCA method (ANOVA Simultaneous Component Analysis) [3] developed by Smilde and co-workers, to the analysis of multifactorial experiments in transcriptomics. Basically, ASCA uses ANOVA to decompose data variation associated to experimental factors, and PCA to discover principal patterns of variation associated to the experimental factors. **ASCA-genes** combines this multivariate descriptive analysis on time course expression data with a gene selection procedure. **ASCA-genes** has been implemented for designed experiments comprising either one, two or three experimental factors, one of them typically the time. The program returns trajectory charts representing major transcriptional changes and  lists of  selected genes that significantly follow these major changes. An additional list collects genes with expression profile changes different from the major trends.\\ +
-__Parameters__:​ +
-   ​*//​Data//:​ txt file with expression data, genes in rows, arrays in columns. The file must contain an additional row with arrays names and a column with gene names.\\ +
-   ​*//​Covariates//:​ txt file with experimental design information,​ containing as many columns as arrays and as many rows as experimental factor. Each cell contains the value of the array in the experimental factor. E.g: +
-\\ +
-|Time|3|3|3|9|9|9|27|27|27|…| +
-|Treatment|Ctr|TrA|TrB|Ctr|TrA|TrB|Ctr|TrA|TrB|…| +
- +
-   * //Join//: logical to indicate whether serial transcriptional changes should include time-zero non-null values (TRUE, default) or not (FALSE).\\ +
-   * //​Interaction//:​ logical to indicate whether interactions between factors should be analyzed.\\ +
-   * //​Variability//:​ average"​ to explain more than the average variation of the principal components. A specific variation can be also indicated as 0.75 or 0.80...\\ +
-   ​*//​alpha//:​ significant level for gene selection.\\ +
-   ​*//​R//:​ number of bootstrap rounds for gene selection.\\ +
-  // +
-    +
-    +
-===== maSigFun ===== +
-** +
-maSigFun** [4] methodology derives from **maSigPro** [1], a regression-based approach for the analysis of multiple series time-course microarray data . In **maSigFun** the regression model is not gene-wise fitted as in **maSigPro**,​ but to the data matrix composed by the expression values of all genes belonging to the functional class, thereby being one regression model computed for each functional category. The program returns lists of functional categories with a statistically significant expression changes, as a whole, along time and across series. As in **maSigPro**,​ the trajectory charts for significant functional categories can be plotted through the //maSigFun visulazation//​ module.\\ +
-__Parameters for maSigFun class selection__:​ +
- ​*//​Data//:​ txt file with expression data, genes in rows, arrays in columns. The file must contain an additional row with arrays names and a column with gene names.\\ +
-   ​*//​Covariates//:​ txt file with experimental design information,​ containing as many columns as arrays and as many rows as experimental factor. Each cell contains the value of the array in the experimental factor. E.g: +
-\\ +
-|Time|3|3|3|9|9|9|27|27|27|…| +
-|Treatment|Ctr|TrA|TrB|Ctr|TrA|TrB|Ctr|TrA|TrB|…| +
-   * //​Annotations//:​ a two columns (gene tab annotation) txt file with functional data. +
-   ​*//​Control.group//:​ name of the reference series in the model (in the example is Ctr) +
-   ​*//​degree//:​ polynomial degree for the regression model (max. is # time-points – 1). \\ +
-   ​*//​alpha//:​ significant level for functional class selection.\\ +
-   ​*//​rsq//:​ cut-off value at the R-squared (goodness of fit) regression parameter. \\ +
-\\ +
-__Parameters for maSigFun visualization__\\ +
-   ​*//​k//:​ number of clusters to split gene selection. +
-   ​*//​cluster.method//:​ clustering method. Possible values are:  +
-       * "​hclust":​ hierarchical clustering\\ +
-       * "​kmeans":​ k-means\\ +
-   ​*//​series.to.see//:​ number of the series to visualize from the available series.\\ +
-\\+
  
-\\ +{{ :roadmap_low.png |}}
-===== References ===== +
-[1] Conesa, A.; Nueda, M.J.; Ferrer, A. and Talón, M. (2006) maSigPro: a Method to Identify Significantly Differential Expression Profiles in Time-Course Microarray Experiments. Bioinformatics,​ 22 (9), 1096-1102.\\ +
-[2] Nueda, M.J.; Conesa, A.; Westerhuis, J.A.; Hoefsloot, H.C.J.; Smilde, A.K.; Talón, M. and Ferrer, A. (2007) Discovering gene expression patterns in Time Course Microarray Experiments by ANOVA-SCA. Bioinformatics,​ 23 (14), 1792-1800.\\ +
-[3] Smilde, A.K.; Jansen, J.J.; Hoefsloot, H.C.J.; Lamers, R.J.A.N.; Van der Greef, J. and Timmerman, M.E. (2005) ANOVA-Simultaneous component analysis (ASCA): a new tool for analyzing designed metabolomics data. Bioinformatics,​ 21 (13), 3043-3048. +
-[4] Nueda, M.J.; Sebastián, P.; Tarazona, S.; García-García,​ F.; Dopazo, J.; Ferrer, A. and Conesa, A. (2009) Functional Assessment of Time Course Microarray data. BMC Bioinformatics. 10 (suppl 6)S9.+
  
  
 +The following table summarizes the main characteristics of the SEA algorithms:​\\
  
 +|**Name**|**Statistical Strategy**|**Selected Features** |**Selection criterion**|
 +|maSigPro|Univariate Regression|Genes| Genes with differential expression profiles|
 +|maSigFun| Univariate Regression| Functional Categories|Functional classes with most genes having correlated differential expression profiles|
 +|ASCA-genes|ANOVA + Multivariate Projection|Genes|Genes that follow major expression trends|
 +|ASCA-functional|ANOVA + Multivariate Projection + GSA|Functional Categories|Functional classes associated to a given expression trend|
 +|PCA-maSigFun|Multivariate Projection + Univariate Regression|Functional Categories| Functional classes with subset of genes  showing correlated differential expression profiles| ​
start.1262174853.txt.gz · Last modified: 2009/12/30 13:07 by aconesa
[unknown link type]Back to top
CC Attribution-Noncommercial-Share Alike 4.0 International
www.chimeric.de Valid CSS Driven by DokuWiki do yourself a favour and use a real browser - get firefox!! Recent changes RSS feed Valid XHTML 1.0