Difference between revisions of "Gene expression prediction"

Latest revision as of 22:09, 1 April 2018

Method, code, references	Input data	Algorithm	Accuracy
INVOKE (R script)[1] https://github.com/SchulzLab/TEPIC/tree/master/MachineLearningPipelines/INVOKE	Input: TF-genes scores (calculated by TEPIC) open chromatin data (DNaseI-seq, NOMe-seq) PWM (Jaspar, HOCOMOCO, Uniprobe) expression data (RNA-seq) Output: regression coefficients for TF model performance: Pearson correlation, Spearman correlation, and MSE boxplot showing model performance heatmap (top 10 positive and negative coefficients) scatter plots for predicted versus the measured gene expression data	INVOKE offers linear regression with various regularisation techniques (Lasso, Ridge, Elastic net) to infer potentially important transcriptional regulators by predicting gene expression from TEPIC TF-gene scores.	HepG2 - r=0.68, K562 - r=0.68, GM12878 - r =0.58
PECA - paired expression and chromatin accessibility (MATLAB)[2] http://web.stanford.edu/~zduren/PECA/

2009 - an approach based on feature extraction of ChIP-Seq signals, principal component analysis, and regression-based component selection [3]	Input: ChIP-seq data expression data (RNA-seq) Output: log-linear regression model principal components with weights of corresponding TFs	for each TF, each gene - compute a TF association strength (TFAS) - the weighted sum of the corresponding ChIP-Seq signal strength, where the weights reflect the proximity of the signal to the gene. principal component analysis (PCA) to extract uncorrelated characteristic patterns in the TFAS vectors. centered and standardized the TFAS matrix A is decomposed by the singular value decomposition (SVD) regression-based component selection gene expression is expressed by the log-linear regression model	mouse ESCs, r=0.806, R²=0.65, CV-R²=0.64

[edit] References

Error fetching PMID 27899623:
Error fetching PMID 28576882:
Error fetching PMID 19995984:

Error fetching PMID 27899623: [Schmidt2017]
Error fetching PMID 28576882: [Duren2017]
Error fetching PMID 19995984: [Ouyang2009]

All Medline abstracts: PubMed | HubMed

@@ Line 3: / Line 3: @@
 !Method, code, references!!Input data!!Algorithm!!Accuracy!!Comment
 |-
-|INVOKE (R script)<cite>Schmidt217</cite>
+|INVOKE (R script)<cite>Schmidt2017</cite>
 https://github.com/SchulzLab/TEPIC/tree/master/MachineLearningPipelines/INVOKE
 |
@@ Line 20: / Line 20: @@
 INVOKE offers linear regression with various regularisation techniques (Lasso, Ridge, Elastic net) to infer potentially important transcriptional regulators by predicting gene expression from TEPIC TF-gene scores.
 |
+HepG2 - r=0.68,
+<br>K562 - r=0.68,
+<br>GM12878 - r =0.58
 |
+|-
+|PECA - paired expression and chromatin accessibility (MATLAB)<cite>Duren2017</cite>
+http://web.stanford.edu/~zduren/PECA/
+|
+|
+|
+|
+|-
+|
+|
+|
+|
+|
 |-
-|<cite>Ouyang2007</cite>
+|2009 - an approach based on feature extraction of ChIP-Seq signals, principal component analysis, and regression-based component selection <cite>Ouyang2009</cite>
 |Input:
 * ChIP-seq data
@@ Line 37: / Line 58: @@
 * gene expression is expressed by the log-linear regression model
 |mouse ESCs, r=0.806, R<sup>2</sup>=0.65, CV-R<sup>2</sup>=0.64
-|
-|-
-|
-|
-|
-|
-|
-|-
-|
-|
-|
-|
 |
@@ Line 60: / Line 67: @@
 <biblio>
-#Schmidt217 pmid=27899623
+#Schmidt2017 pmid=27899623
+#Duren2017 pmid=28576882
-#Ouyang2007 pmid=19995984
+#Ouyang2009 pmid=19995984
 </biblio>

Difference between revisions of "Gene expression prediction"

Latest revision as of 22:09, 1 April 2018

[edit] References

Personal tools

Namespaces

Variants

Views

Actions

Search

BioUML platform

Community

Modelling

Analysis & Workflows

Collaborative research

Development

Virtual biology

Wiki

Toolbox