Computational Gene Expression Analysis with Python

Course Feature

Cost

Free
Provider

Udemy
Certificate

No Information
Language

English
Start Date

2023-07-07
Learners

No Information
Duration

No Information
Instructor

Andrew Gao,Sarah Gao

Add to Favorites

4.6

5,488 Ratings

This course will teach you how to analyze and quantify differences in gene expression using public datasets from the Gene Expression Omnibus. You will learn how to use tools like GEO2R, StringDB, PantherDB and more to analyze publicly available gene expression data. With this course, you will gain a detailed understanding of how gene expression analysis works, such as what is fold change, and how to use Python to analyze and visualize gene expression data. You will also get insight into how to write a paper about your project. Examples of research topics include identifying potential biomarkers for cancer, analyzing changes in gene expression when a sample is treated with a drug or under a condition, and differences in gene expression between early and late stage cancer. All you need is a computer, a Google Account (for Google Sheets + Colab) or Excel, and an internet connection. Enroll now and start your journey to becoming a gene expression analysis expert!

Show All

Computational Gene Expression Analysis with Python

Go to class

Course Overview

❗The content presented here is sourced directly from Udemy platform. For comprehensive course details, including enrollment information, simply click on the 'Go to class' link on our website.

Updated in [August 18th, 2023]

Skills and Knowledge:
This course will provide students with the skills and knowledge to analyze and quantify differences in gene expression using public datasets from the Gene Expression Omnibus. Students will gain a detailed understanding of how gene expression analysis works, including what is fold change. Through examples, students will learn how to use tools like GEO2R, StringDB, PantherDB, and more to analyze publicly available gene expression data. Additionally, students will gain insight into how to write a paper about their project. By the end of the course, students will have the skills to identify potential biomarkers for cancer, analyze changes in gene expression when a sample is treated with a drug or under a condition, and identify differences in gene expression between early and late stage cancer.
Professional Growth:
This course provides a comprehensive introduction to gene expression analysis and its applications in the field of professional growth. It covers the fundamentals of gene expression analysis, such as fold change, and provides examples of how Python can be used to analyze and visualize gene expression data. Additionally, the course provides guidance on how to choose a research topic, find a dataset, process the data, and analyze the data graphically with several tools. Finally, the course provides insight into how to write a paper about the project. By taking this course, professionals will gain a detailed understanding of gene expression analysis and its applications, as well as the skills to apply it to their own research.
Further Education:
This course is suitable for preparing further education as it provides a detailed understanding of how gene expression analysis works, and how to use tools like GEO2R, StringDB, PantherDB, and more to analyze publicly available gene expression data. Additionally, the course provides insight into how to write a paper about a research project, and example topics for research. Finally, the course provides a bonus of how to use machine learning for gene expression analysis, if there is enough interest.

Course Syllabus

Introduction

Finding a Dataset and Using GEO

Using Bioinformatics Tools

Python for Data Analysis and Visualization

Next Steps

Show All

Recommended Courses

Finding Hidden Messages in DNA (Bioinformatics I)

4.5

Coursera 5,866 learners

Learn More

Discover the power of computing in modern biology with this top 50 MOOC of all time! Join us on the frontier of bioinformatics to look for hidden messages in DNA and understand the complex language of DNA. Learn to apply randomized algorithms and existing software tools to find recurring biological motifs. Sign up now and start your journey into the world of bioinformatics!

Comparing Genes Proteins and Genomes (Bioinformatics III)

5.0

Coursera 2,703 learners

Learn More

This course will explore the fascinating world of bioinformatics, teaching you how to compare genes, proteins, and genomes. Learn powerful algorithmic tools such as dynamic programming and combinatorial algorithms to determine the number of mutations that have separated two genes/proteins. Discover how genome rearrangements have shaped the evolution of species, and apply popular bioinformatics software tools to solve sequence alignment problems. Join us and explore the world of bioinformatics!

Learn Bioinformatics From Scratch (Theory & Practical)

4.2

Udemy 5,661 learners

Learn More

This Bioinformatics course is the perfect way to develop the skills needed to handle the explosion of biological data. It covers five modules, from databases to evolutionary bioinformatics, with a unique blend of theory and practical. With 93 lectures, 19 practical tutorials, 12 assignments and 5 quizzes, this course will give you the knowledge and confidence to tackle the high biological data. After taking this course, you will have a different perspective on biological data and be ready to take on research, academia and industry in the coming years. Don't miss out on this opportunity to learn Bioinformatics from scratch!

Drug Design and Molecular Docking by using computation Tools

3.4

Udemy 14,442 learners

Learn More

This course is designed to help science students become proficient in the field of drug discovery and development simulation studies. It covers the basics of computer-aided drug design (CADD) and molecular docking, including how to install the Molecular Docking Environment (MOE) and retrieve ligands from bioinformatics databases. Students will learn how to perform molecular docking, 2D and 3D molecule interactions, and use the AutoDock software to solve a real-world problem. The course also covers the use of MOE software to study naturally occurring compounds, antivirals, antifungals, anti-nematodes, and anti-protozoal drugs. Sign up now to learn the fundamentals of drug design and molecular docking and gain the skills to solve real-world problems.