Bioinformatics Analysis For Genomics And Proteomics Research
Published 2/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.20 GB | Duration: 2h 30m
Published 2/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.20 GB | Duration: 2h 30m
bioinformatics analysis from genomics to proteomics for researchers including different tools to improve research
What you'll learn
Bioinformatics Analysis Introduction
Why use bioinformatics in Genomics and Proteomics !
bioinformatics Tools
Basic Bioinformatics Analysis
Genomics Bioinformatics Analysis and Results
Proteomics Bioinformatics Analysis and Results
Results Annotation of Certain Analysis
Requirements
Just Knowledge Biology Terms
Little Bit about Linux
Description
Welcome to the Bioinformatics Analysis course! This course is designed to introduce you to the field of bioinformatics and its applications in genomics and proteomics. Get ready to enhance your skills and knowledge in utilizing bioinformatics tools for sequence analysis and data interpretation.Here's an overview of the course contents:1. Bioinformatics Analysis Introduction:Gain an understanding of bioinformatics and its significance in the fields of genomics and proteomics. Explore how bioinformatics can revolutionize research and provide valuable insights into biological data.2. Why use bioinformatics in Genomics and Proteomics?Learn about the advantages and importance of integrating bioinformatics tools and techniques in genomics and proteomics studies. Discover how bioinformatics can enhance data analysis, interpretation, and visualization in these fields.3. Introduction To Bioinformatics Tools:Familiarize yourself with the basic bioinformatics tools used in sequence analysis. Learn about popular software and resources commonly utilized for tasks such as sequence alignment, motif identification, and functional annotation.4. Basic Bioinformatics Sequence Analysis:Dive into the fundamentals of bioinformatics sequence analysis. Explore techniques for DNA and protein sequence alignment, identification of conserved motifs, and prediction of functional elements. Understand how these analyses contribute to biological insights.5. Genomics Bioinformatics Analysis and Results:Explore the specific applications of bioinformatics in genomics analysis. Learn how to analyze genomic data, identify genetic variations, perform gene expression analysis, and interpret the results using bioinformatics tools.6. Proteomics Bioinformatics Analysis and Results:Delve into the world of proteomics and discover how bioinformatics is applied to analyze and interpret protein data. Learn about protein identification, quantification, post-translational modifications, and protein-protein interaction analysis using bioinformatics tools.Throughout the course, you'll have the opportunity to solve quizzes and assignments, allowing you to apply your knowledge and reinforce your understanding of the material. Additionally, if you need further assistance, the instructor offers online meeting/discussion sessions to provide personalized guidance.Register now and embark on a learning journey that will expand your skills in bioinformatics and open doors to new opportunities in research and career development. Bioinformatics is a rapidly growing field, and this course will equip you with the necessary knowledge to harness the power of this amazing technology.Don't miss out on the chance to explore the fascinating intersection of biology and computer science. Enroll today and unlock the potential of bioinformatics in your scientific endeavors!
Overview
Section 1: Introduction
Lecture 1 Bioinformatics Analysis Introduction
Lecture 2 Bioinformatics In Research
Lecture 3 Bioinformatics Tools
Lecture 4 Explain Bioinformatics To Your Grandmother
Lecture 5 Basic Bioinformatics Sequence Analysis
Lecture 6 Basic Bioinformatics Sequence Analysis #2
Lecture 7 Evolving research trends in bioinformatics
Section 2: Bioinformatics Genomics Analysis
Lecture 8 Genomics Analysis #1 Gene Structures and More
Lecture 9 Genomics Analysis #2 Promoter and Regulatory Elements and More
Lecture 10 Genomics Analysis #3 Genome Assembly and Annotation And More
Lecture 11 A Critical Analysis of Assessment Quality in Genomics and Bioinformatics Educati
Lecture 12 Genomics Analysis #4 Expression Analysis to Cancer Variant Detection and More
Lecture 13 Genomics Analysis #5 Transposable Elements Detection
Lecture 14 Genomics Analysis #6 Regulatory Site Detection to Gene Expression Data handling
Section 3: Bioinformatics proteomics analysis
Lecture 15 Proteomics analysis #1 Protein Structure Prediction
Lecture 16 Proteomics analysis #2 Structure Visualization to Domain Analysis
Lecture 17 Proteomics analysis #3 Molecular Docking to oligosaccharide structure detection
Lecture 18 Bioinformatics Analysis of Proteomics Data
Section 4: Bioinformatics Research Perspective
Lecture 19 Important Analysis To Consider When Working on Bioinformatics Research
Lecture 20 Important Bioinformatics Research Areas
Bioinformatics Student Starting Out their Career,Bioinformaticians on advance level of Research,Researchers from all the biology Fields