Genomic Data Science and Clustering (Bioinformatics V)

Genomic Data Science and Clustering (Bioinformatics V)

This course is part of Bioinformatics Specialization

Instructors: Pavel Pevzner

Skills you'll gain

Bioinformatics

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Assessments

3 assignments

Taught in English

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This course is part of the Bioinformatics Specialization

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There are 3 modules in this course

How do we infer which genes orchestrate various processes in the cell? How did humans migrate out of Africa and spread around the world? In this class, we will see that these two seemingly different questions can be addressed using similar algorithmic and machine learning techniques arising from the general problem of dividing data points into distinct clusters.

In the first half of the course, we will introduce algorithms for clustering a group of objects into a collection of clusters based on their similarity, a classic problem in data science, and see how these algorithms can be applied to gene expression data. In the second half of the course, we will introduce another classic tool in data science called principal components analysis that can be used to preprocess multidimensional data before clustering in an effort to greatly reduce the number dimensions without losing much of the "signal" in the data. Finally, you will learn how to apply popular bioinformatics software tools to solve a real problem in clustering.

Welcome to class!At the beginning of the class, we will see how algorithms for clustering a set of data points will help us determine how yeast became such good wine-makers. At the bottom of this email is the Bioinformatics Cartoon for this chapter, courtesy of <a href="http://bearandfox.com" target="_blank" title="Link: http://bearandfox.com">Randall Christopher</a> and serving as a chapter header in the Specialization's bestselling <a href="http://bioinformaticsalgorithms.com" target="_blank">print companion</a>. How did the monkey lose a wine-drinking contest to a tiny mammal?  Why have Pavel and Phillip become cavemen? And will flipping a coin help them escape their eternal boredom until they can return to the present? Start learning to find out!<img width="550" alt="" src="http://bioinformaticsalgorithms.com/images/cover/clustering_cropped.jpg" title="Image: http://bioinformaticsalgorithms.com/images/cover/clustering_cropped.jpg">

What's included

5 videos2 readings1 assignment2 app items

5 videosTotal 32 minutes

(Check Out Our Wacky Course Intro Video!)3 minutesPreview module
Which Yeast Genes are Responsible for Wine Making? 6 minutes
Gene Expression Matrices 6 minutes
Clustering as an Optimization Problem 10 minutes
The Lloyd Algorithm for k-Means Clustering 5 minutes

2 readingsTotal 10 minutes

Course Details10 minutes
Week 1 FAQs (Optional)0 minutes

1 assignmentTotal 20 minutes

Week 1 Quiz20 minutes

2 app itemsTotal 210 minutes

Interactive Text for Week 1210 minutes
Open in order to Sync Your Progress: Interactive Text for Week 10 minutes

Welcome to week 2 of class! This week, we will see how we can move from a "hard" assignment of points to clusters toward a "soft" assignment that allows the boundaries of the clusters to blend. We will also see how to adapt the Lloyd algorithm that we encountered in the first week in order to produce an algorithm for soft clustering. We will also see another clustering algorithm called "hierarchical clustering" that groups objects into larger and larger clusters.