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Transcript 
Dimension reduction :
PCA and Clustering
By Hanne Jarmer
Slides by Christopher Workman
Center for Biological Sequence Analysis
DTU
The DNA Array Analysis Pipeline
Question
Experimental Design
Array design
Probe design
Sample Preparation
Hybridization
Buy Chip/Array
Image analysis
Normalization
Expression Index
Calculation
Comparable
Gene Expression Data
Statistical Analysis
Fit to Model (time series)
Advanced Data Analysis
Clustering PCA
Classification
Promoter Analysis
Meta analysis Survival analysis Regulatory Network
The DNA Array Analysis Pipeline
Question
Experimental Design
Array design
Probe design
Sample Preparation
Hybridization
Buy Chip/Array
Image analysis
Normalization
Expression Index
Calculation
Comparable
Gene Expression Data
Statistical Analysis
Fit to Model (time series)
Advanced Data Analysis
Clustering PCA
Classification
Promoter Analysis
Meta analysis Survival analysis Regulatory Network
What is Principal Component
Analysis (PCA)?
• Numerical method
• Dimensionality reduction technique
• Primarily for visualization of arrays/samples
• ”Unsupervised” method used to explore the
intrinsic variability of the data
PCA
• Performs a rotation of the data that
maximizes the variance in the new axes
• Projects high dimensional data into a low
dimensional sub-space (visualized in 2-3
dims)
• Often captures much of the total data
variation in a few dimensions (< 5)
• Exact solutions require a fully determined
system (matrix with full rank)
– i.e. A “square” matrix with independent rows
Principal components
• 1st Principal component (PC1)
– Direction along which there is greatest
variation
• 2nd Principal component (PC2)
– Direction with maximum variation left in
data, orthogonal to PC1
Singular Value Decomposition
• An implementation of PCA
• Defined in terms of matrices:
X is the expression data matrix
U are the left eigenvectors
V are the right eigenvectors
S are the singular values (S2 = Λ)
Singular Value Decomposition
Singular Value Decomposition
• Requirements:
– No missing values
– “Centered” observations, i.e. normalize
data such that each gene has mean = 0
PCA projections (as XY-plot)
Related methods
• Factor Analysis*
• Multidimensional scaling (MDS)
• Generalized multidimensional scaling
(GMDS)
• Semantic mapping
• Isomap
• Independent component analysis (ICA)
* Factor analysis is often confused with PCA though the two methods are
related but distinct. Factor analysis is equivalent to PCA if the error
terms in the factor analysis model are assumed to all have the same
variance.
Why do we cluster?
• Organize observed data into meaningful
structures
• Summarize large data sets
• Used when we have no a priori hypotheses
• Optimization:
– Minimize within cluster distances
– Maximize between cluster distances
Many types of clustering
methods
• Method:
– K-class
– Hierarchical, e.g. UPGMA
• Agglomerative (bottom-up) ... all alone ... join ...
• Divisive (top-down)
... all together ... split ...
– Graph theoretic
• Information used:
– Supervised vs unsupervised
• Final description of the items:
– Partitioning vs non-partitioning
– fuzzy, multi-class
Hierarchical clustering
• Representation of all pair-wise
distances
• Parameters: none (distance measure)
• Results:
– One large cluster
– Hierarchical tree (dendrogram)
• Deterministic
Hierarchical clustering
– UPGMA Algorithm
Unweighted Pair Group Method with Arithmetic Mean
• Assign each item to its own cluster
• Join the nearest clusters
• Re-estimate the distance between clusters
• Repeat for 1 to n
Hierarchical clustering
Hierarchical clustering
Hierarchical Clustering
Data with clustering order
and distances
Dendrogram representation
2D data is a special (simple) case!
Hierarchical Clustering
Original data space
Merging steps define a dendrogram
K-means - Algorithm
J. B. MacQueen (1967): "Some Methods for classification and Analysis of Multivariate Observations",
Proceedings of 5-th Berkeley Symposium on Mathematical Statistics and Probability,
Berkeley, University of California Press, 1:281-297
K-mean clustering, K=3
K-mean clustering, K=3
K-mean clustering, K=3
K-Means
Iteration i
Iteration i+1
Circles: “prototypes” (parameters to fit)
Squares: data points
K-means clustering
Cell Cycle data
Self Organizing Maps (SOM)
• Partitioning method
(similar to the K-means method)
• Clusters are organized in a two-dimensional grid
• Size of grid must be specified
– (eg. 2x2 or 3x3)
• SOM algorithm finds the optimal organization of data
in the grid
SOM - example
SOM - example
SOM - example
SOM - example
SOM - example
Comparison of clustering
methods
• Hierarchical clustering
– Distances between all variables
– Time consuming with a large number of gene
– Advantage to cluster on selected genes
• K-means clustering
– Faster algorithm
– Does only show relations between all variables
• SOM
– Machine learning algorithm
Distance measures
• Euclidian distance
• Vector angle distance
• Pearsons distance
Comparison of distance
measures
Summary
• Dimension reduction important to
visualize data
• Methods:
– Principal Component Analysis
– Clustering
• Hierarchical
• K-means
• Self organizing maps
(distance measure important)
DNA Microarray Analysis
Overview/Review
Cluster analysis
Normalization
Before
After
PCA (using SVD)
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