Advance Diploma In Bioinformatics With Internship Project
Published 7/2025
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 8h 28m | Size: 2.97 GB
Complete Bioinformatics, with internship project, Tools and Techniques, Computational Biology, Data Analysis and ML
What you'll learn
You will learn about introduction to Bioinformatics, fundamentals of Molecular Biology, key areas of Bioinformatics, core concepts in Bioinformatics
Learn scopes of Bioinformatics, applications of Bioinformatics, challenges in Bioinformatics, future of Bioinformatics.
You will be able to know about introduction to Tools and Techniques in Bioinformatics, Bioinformatics tools and Applications of Bioinformatics tools.
You will also understand about Sequence alignment tools, Genomic Data Analysis tools, Protein Analysis tools
Learn Phylogenetic Analysis tools, Pathway and Network Analysis tools, Structural Bioinformatics Tools and Bioinformatics Programming Frameworks
Learn Introduction to Proteomics, Structural and Functional Proteomics. Gain knowledge on Transcriptomics and RNA-Seq Data Analysis
Learn about Introduction to Computational Biology, Key Areas in Computational Biology, Tools and Techniques in Computational Biology
Know about applications of Computational Biology, challenges in Computational Biology, future directions of computational biology
Learn about Introduction to Data Analysis and Machine Learning in Bioinformatics, basis of Machine Learning in Bioinformatics
Learn Tools and Platforms for Bioinformatics Data Analysis. You will also learn about Machine Learning Techniques in Bioinformatics
Know about Drug Discovery and Development. Learn about CRISPR and Gene Editing Tools. You will also have the knowledge on Personalized Medicine and Precision
Develop an understanding about Literature Review in Bioinformatics. Gain knowledge on Research Proposal Writing
Requirements
A foundational understanding of Biology, particularly in Genetics and Molecular Biology.
A basic knowledge of DNA Sequencing Methods and data interpretation.
Analytical skills and a curiosity for computational approaches to solving biological problems.
Description
BioinformaticsDescriptionTake the next step in your scientific journey! Whether you're an aspiring researcher, a budding bioinformatician, a healthcare professional, or simply passionate about exploring the intersection of biology and data science, this course is your gateway to mastering the principles of bioinformatics. Dive into the world of genomic data analysis, computational biology, and algorithm-driven research. Strengthen your knowledge of DNA sequencing, gene expression analysis, and genome annotation. Enhance your analytical skills with molecular data interpretation, programming techniques, and bioinformatics tools. Build a solid foundation for advancements in personalized medicine, biotechnology, and genetic research. This is your opportunity to elevate your expertise, drive scientific innovation, and make a meaningful impact in the ever-evolving fields of bioinformatics and computational genomics!With this course as your guide, you'll learn how to:Understand the fundamental concepts and principles of bioinformatics and computational biology.Gain insights into key bioinformatics techniques such as sequence alignment, next-generation sequencing (NGS) data analysis, and genome annotation.Learn about the applications of bioinformatics in fields like CRISPR and Gene Editing, personalized medicine, drug discovery, evolutionary biology, and systems biology.Invest in your knowledge today and build a strong foundation for advanced studies and innovative research in bioinformatics, genomics, and computational biology.The Frameworks of the CourseEngaging video lectures, case studies, assessments, downloadable resources, and interactive exercises form the foundation of this course. This course is designed to provide an in-depth understanding of bioinformatics, its principles, tools, and real-world applications through comprehensive chapters and units.This course introduces crucial bioinformatics tools and programming techniques, including Python, R, BLAST, and data visualization libraries, equipping you with practical skills for genomic data interpretation and biological research.You will explore key concepts on genomics, proteomics and transcriptomics along with fundamental concept on RNA-Seq Data Analysis, Omics Data analysis. The course will cover topics including Computational Biology, Data Analysis and Machine Learning. This course will also introduce an understanding about Literature Review in Bioinformatics, Research Proposal Writing, Data Visualization, Report Preparation and Publishing Research Papers.This course also helps you to strengthen your knowledge and application of advanced research, data-driven discovery, and innovation in the fields of genomics, computational biology, and personalized medicine.In the first part of the course, you'll learn about introduction, scopes and applications of Bioinformatics. You will learn about Tools and Techniques in Bioinformatics. You will learn the details about genomics, proteomics and transcriptomics. You will also understand about Computational Biology. You will also know about Phylogenetics-Tree Construction and Visualization.In the middle part of the course, you'll be able to learn about Data Analysis and Machine Learning in Bioinformatics, basis of Machine Learning in Bioinformatics, Tools and Platforms for Bioinformatics Data Analysis. You will also learn about Machine Learning Techniques in Bioinformatics. Gain knowledge about Omics Data Analysis. You will understand about applications of Artificial intelligence (AI), data Analysis and Machine Learning in Bioinformatics. You will also know about Drug Discovery and Development. Learn about CRISPR and Gene Editing Tools. You will also have the knowledge on Personalized Medicine and Precision Healthcare.In the final part of the course, you'll know about Research Methodology and Scientific Writing,Literature Review in Bioinformatics. Gain knowledge on Research Proposal Writing, Data Visualization and Report Preparation and Publishing Research Papers.Course Content:Part 1Introduction and Study PlanØ Module 1: Fundamentals of BioinformaticsØ Module 2: Tools and Techniques in Bioinformatics.Ø Module 3: Genomics, Proteomics and TranscriptomicsØ Module 4: Computational BiologyØ Module 5: Data Analysis and Machine Learning in Bioinformatics.Ø Module 6: Practical ApplicationsØ Module 7: Research Methodology and Scientific WritingPart 2Projects· Predict the Function of Non-Annotated Genes Using Supervised Learning Techniques.· Analyze Genomic Mutations Associated with Specific Cancers Using Bioinformatics.Internship in BioinformaticsThis course is designed to provide students with a foundation in bioinformatics, integrating biology, computer science, and data analysis. The course will cover essential concepts, tools, and techniques used in bioinformatics to analyze and interpret biological data. By the end of the course, students will have hands-on experience with bioinformatics tools and databases and will be able to apply computational approaches to solve biological problems.Assignment Title: Bioinformatics Analysis of Gene Sequences and Protein StructuresProject Title: Comprehensive Bioinformatics Analysis of a Biological Dataset
Who this course is for
This course is designed for students and researchers in life sciences, computer science, or related fields who want to integrate computational methods into their biological research.
Computer Scientists and Data Analysts interested in applying their programming and data analysis skills to solve biological problems.
Healthcare Professionals and Biotech Enthusiasts looking to understand how bioinformatics drives innovations in drug discovery, personalized medicine, and genomics.
Advance Diploma In Bioinformatics With Internship Project
