Free Download Exploring Gene Expression R for Interpreting Biological Data
Published 6/2023
Created by Abdul Rehman Ikram
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 10 Lectures ( 1h 41m ) | Size: 964 MB
Exploring Genetic Insights and Unlocking Biological Patterns through Data Analysis with R Programming language
What you’ll learn
Possess a solid understanding of bioinformatics principles and methodologies.
Be proficient in using R for data manipulation, analysis, and visualization in the context of bioinformatics.
Acquire knowledge of data manipulation, visualization, and statistical analysis techniques using R.
Gain expertise in differential gene expression analysis using Deseq2.
Perform genomic and transcriptomic analysis, such as genome assembly, gene expression analysis, and differential expression.
Be able to convert gene IDs to gene symbols for improved interpretability.
Have the skills to create compelling visualizations of gene expression data using ggplot2.
Be equipped with the knowledge and techniques to analyze scRNA-seq data using the R Seurat pipeline.
Requirements
Basic Biology Knowledge: Familiarity with basic biological concepts such as genes, proteins, DNA, and biological processes. Understanding of genomics and transcriptomics principles is helpful.
Programming Fundamentals: Prior experience with programming fundamentals is desirable, preferably in a language like Python or R. Knowledge of variables, functions, control structures, and basic data manipulation will provide a strong foundation for learning R programming.
Statistics and Data Analysis: An understanding of basic statistical concepts, such as descriptive statistics, hypothesis testing, and data visualization, is advantageous. This knowledge will assist students in effectively analyzing and interpreting biological data.
Description
The field of bioinformatics has revolutionized the way we understand and analyze biological data, leading to groundbreaking discoveries in genetics, genomics, and related disciplines. In this comprehensive course, "Bioinformatics and R: Analyzing Biological Data," you will embark on a journey to master the art of analyzing biological data using the powerful programming language R. Through a hands-on approach, you will gain the necessary skills and knowledge to unlock the hidden patterns and insights within genetic datasets.This course begins with a solid introduction to bioinformatics and R, providing you with a strong foundation in the fundamentals. You will learn about the key concepts, tools, and resources used in bioinformatics research. We will explore the R programming language, covering its syntax, data structures, and essential functions for data manipulation and analysis.Once equipped with the basics, we will delve into the core topics of bioinformatics analysis. You will discover how to work with R packages specifically designed for bioinformatics, enabling you to leverage pre-built functions and algorithms for efficient data processing. We will focus on widely used packages such as Bioconductor, dplyr, and tidyr, among others.One of the fundamental tasks in bioinformatics is differential gene expression analysis, and we will explore the widely adopted R package Deseq2 for this purpose. You will learn how to perform differential expression analysis, identify significantly expressed genes, and interpret the results.Moreover, we will tackle the challenge of gene ID conversion. Many datasets use unique identifiers such as Ensembl Gene IDs, which are not easily interpretable. You will discover techniques and R packages that facilitate the conversion of these IDs to gene symbols, enabling a more intuitive and meaningful analysis.Data visualization is a crucial aspect of bioinformatics, allowing researchers to explore and present their findings effectively. In this course, you will harness the power of the ggplot2 package in R to create stunning and informative visualizations. You will learn how to generate scatter plots, bar plots, heatmaps, and other visual representations of gene expression data.As the field of single-cell RNA sequencing (scRNA-seq) gains momentum, we will dive into analyzing scRNA-seq data using the R Seurat pipeline. You will learn how to preprocess scRNA-seq data, perform clustering, dimensionality reduction, and visualize the results. By the end of this section, you will have a solid understanding of scRNA-seq analysis techniques and be able to apply them to your own datasets.Throughout the course, you will work on practical exercises and projects, applying the concepts and techniques learned to real-world biological datasets. These hands-on experiences will sharpen your skills and provide you with valuable insights into the challenges and nuances of bioinformatics analysis.By the end of "Bioinformatics and R: Analyzing Biological Data," you will have a comprehensive understanding of bioinformatics principles and how to leverage the power of R for analyzing genetic and biological datasets. Whether you are a biologist, geneticist, or aspiring bioinformatics researcher, this course will equip you with the tools and knowledge needed to unlock the secrets hidden within biological data.Join us on this exciting journey into the world of bioinformatics and R, and embark on a transformative learning experience that will propel your career in biological data analysis. Enroll now and start unraveling the mysteries of genetic insights!
Who this course is for
Biologists and Geneticists: Biologists and geneticists who want to enhance their data analysis skills and leverage bioinformatics tools for interpreting genetic data.
Bioinformatics Researchers: Aspiring or early-career bioinformatics researchers looking to strengthen their knowledge of bioinformatics principles and gain proficiency in using R for data analysis.
Students and Academics: Undergraduate or graduate students, as well as researchers in academia, who want to expand their skill set in bioinformatics and R programming for biological data analysis.
Professionals in Related Fields: Professionals working in fields such as pharmaceuticals, biotechnology, or healthcare, who wish to gain a solid understanding of bioinformatics analysis and its applications in their respective industries.
Data Scientists and Analysts: Data scientists or analysts with an interest in the biological domain who want to apply their skills to genetic data analysis and explore the field of bioinformatics.
Homepage
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