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This Bioinformatics course is going to game changer for you. Currently, there is an explosion of biological data. You need to develop your skills to handle the data in the era of this big biological data. It is humanly impossible to tackle the high biological data using conventional techniques. Here comes Bioinformatics. Bioinformatics is at the intersection of biology and computer science. Without this basic skill, you may not stand anywhere in research, academia and industry in the coming five to ten years. Keeping this need of time in view, we brought here a basic bioinformatics course for you.

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This Bioinformatics course is going to game changer for you. Currently, there is an explosion of biological data. You need to develop your skills to handle the data in the era of this big biological data. It is humanly impossible to tackle the high biological data using conventional techniques. Here comes Bioinformatics. Bioinformatics is at the intersection of biology and computer science. Without this basic skill, you may not stand anywhere in research, academia and industry in the coming five to ten years. Keeping this need of time in view, we brought here a basic bioinformatics course for you.

This course includes five modules

(1) Databases

(2) Alignment

(3) Genomic Bioinformatics

(4) Structural Bioinformatics

(5) Evolutionary Bioinformatics 

This course is a unique blend of theory and practical. You will learn basic theory then perform practical and afterwards attempt the quizzes to check your knowledge. There is a total of 93 Lectures among them, there are 19 practical tutorials. Furthermore, there are 12 Assignments and 5 quizzes in this course along with theory lectures. We assure you that after taking this course, your perspective will be very different for biological data.  Students will learn the basics of bioinformatics, starting from biological databases to protein-ligand docking. There will be variety of the bioinformatics tools that we will use. These tools are freely available and closely related to the course material, and students will need to sign up for some tools to access them but for most of tools there will be no need to sign up.

We hope this course will be worth your money and time.

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Focuses on bioinformatics and its role in modern research, academia, and industry
Introduces basic principles of bioinformatics, suitable for beginners new to the field
Offers a comprehensive study of essential bioinformatics topics, including databases, alignment, genomic bioinformatics, structural bioinformatics, and evolutionary bioinformatics
Combines theoretical explanations with practical tutorials, hands-on labs, and interactive materials to enhance understanding and skill development
Utilises freely available bioinformatics tools and resources that are closely aligned with the course content

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Learn Bioinformatics From Scratch (Theory & Practical) with these activities:
Review High School Biology
Brush up on the basics of biology to ensure you have a solid foundation for this course.
Browse courses on Genetics
Show steps
  • Review your high school biology notes or textbook.
  • Take practice quizzes or tests to assess your understanding.
  • Join a study group or online forum to discuss concepts with peers.
  • Attend a refresher course or workshop on biology.
  • Watch educational videos or documentaries on biology topics.
Review 'Bioinformatics: A Practical Guide to the Analysis of Genes and Genomes'
Gain a comprehensive understanding of bioinformatics principles and applications by reviewing this foundational text.
Show steps
  • Read the book thoroughly, taking notes and highlighting key concepts.
  • Complete the exercises and assignments provided in the book.
  • Discuss the concepts with classmates or colleagues to enhance your understanding.
  • Apply the knowledge gained to your own bioinformatics projects or research.
Follow Bioinformatics Tutorials and Courses
Expand your knowledge and skills by following additional tutorials and courses related to bioinformatics.
Show steps
  • Identify reputable sources for bioinformatics tutorials and courses.
  • Select tutorials or courses that align with your interests and learning goals.
  • Follow the tutorials or courses diligently, taking notes and completing exercises.
  • Apply what you learn to your own bioinformatics projects or assignments.
  • Share your knowledge and experiences with others.
Four other activities
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Solve Bioinformatics Practice Problems
Reinforce your understanding of bioinformatics concepts by solving practice problems.
Show steps
  • Find practice problems online or in textbooks.
  • Solve the problems independently.
  • Check your answers and identify areas where you need improvement.
  • Review the concepts related to the problems you solved.
  • Repeat the process to improve your problem-solving skills.
Create a Bioinformatics Glossary
Enhance your understanding and retention of key bioinformatics terms by creating your own glossary.
Show steps
  • Identify the key terms and concepts covered in the course.
  • Define each term clearly and concisely.
  • Include examples or illustrations to reinforce your understanding.
  • Organize the glossary alphabetically or by topic.
  • Review and update your glossary regularly.
Develop a Bioinformatics Data Analysis Project
Apply your bioinformatics skills and knowledge to a practical project to solidify your understanding and gain experience.
Show steps
  • Identify a research question or problem related to bioinformatics.
  • Gather and preprocess the necessary data.
  • Analyze the data using appropriate bioinformatics tools and techniques.
  • Interpret the results and draw conclusions.
  • Present your findings in a report or presentation.
Volunteer at a Bioinformatics Research Lab
Gain hands-on experience and contribute to the field of bioinformatics by volunteering at a research lab.
Show steps
  • Identify research labs that align with your interests.
  • Contact the labs and inquire about volunteer opportunities.
  • Assist researchers with bioinformatics tasks, such as data analysis or software development.
  • Attend lab meetings and seminars to learn about cutting-edge research.
  • Network with researchers and professionals in the field.

Career center

Learners who complete Learn Bioinformatics From Scratch (Theory & Practical) will develop knowledge and skills that may be useful to these careers:
Bioinformatics Scientist
A Bioinformatics Scientist is responsible for leveraging computational methods to analyze biological data. This course can provide a comprehensive foundation in databases, alignment, genomic and structural bioinformatics, and evolutionary bioinformatics, which are essential for success in this role. The practical tutorials and assignments will provide hands-on experience in using the tools and techniques commonly used in bioinformatics research. This course can help you develop the skills needed to handle and interpret the vast amount of biological data generated in modern research.
Biostatistician
Biostatisticians use statistical methods to analyze biological data and solve complex problems in the life sciences. This course provides a solid foundation in databases and alignment techniques, which are widely used in biostatistics. By understanding the principles of bioinformatics, you can gain insights into the data and contribute to the development of new statistical methods for biological research.
Computational Biologist
Computational Biologists develop and use computational methods to solve problems in biology and medicine. This course will help you build a foundation in bioinformatics, which is a fundamental area for computational biology. By learning about databases, alignment, and genomic and structural bioinformatics, you can gain the skills needed to analyze and interpret biological data, develop new algorithms, and contribute to the advancement of computational biology.
Data Scientist
Data Scientists use statistical and computational methods to analyze data and extract valuable insights. While this course does not focus on data science, it provides a strong foundation in databases and alignment techniques, which are essential for handling and analyzing biological data. By understanding the principles of bioinformatics, you can apply your data science skills in the field of biology and healthcare.
Genetic Counselor
Genetic Counselors provide information and support to individuals and families affected by genetic conditions. By taking this course, you can gain a basic understanding of databases and genomic bioinformatics, which are important for understanding the genetic basis of diseases and interpreting genetic test results. This knowledge can be valuable in providing accurate information and guidance to clients.
Healthcare Data Analyst
Healthcare Data Analysts analyze and interpret healthcare data to improve patient outcomes and drive operational efficiency. This course provides a solid foundation in databases and alignment techniques, which are essential for handling and analyzing healthcare data. By understanding the principles of bioinformatics, you can gain the skills needed to extract meaningful insights from healthcare data and contribute to the advancement of precision medicine.
Medical Laboratory Scientist
Medical Laboratory Scientists analyze and interpret clinical laboratory tests to diagnose and monitor diseases. This course may be useful for those interested in specializing in molecular diagnostics, as it covers topics such as databases and genomic bioinformatics. By gaining a basic understanding of these topics, you can enhance your ability to analyze and interpret molecular data and contribute to the accurate diagnosis of diseases.
Pharmaceutical Scientist
Pharmaceutical Scientists develop and evaluate new drugs and treatments. This course may be useful for those interested in drug discovery and development, as it covers topics such as structural bioinformatics and evolutionary bioinformatics. By understanding the principles of these fields, you can gain insights into the structure and function of proteins and how they interact with potential drug targets.
Quality Assurance Manager
Quality Assurance Managers are responsible for ensuring the quality and safety of products and services. This course may be useful for those interested in quality assurance in the pharmaceutical or biotechnology industries, as it covers topics such as databases and genomic bioinformatics. By understanding the principles of these fields, you can gain insights into the quality control processes and data analysis techniques used in these industries.
Research Scientist
Research Scientists conduct research to advance knowledge in various scientific fields. This course provides a solid foundation in bioinformatics, which is essential for conducting research in fields such as genomics, proteomics, and systems biology. By understanding the principles of databases, alignment, and genomic and structural bioinformatics, you can gain the skills needed to design and conduct bioinformatics research projects.
Science Writer
Science Writers communicate complex scientific information to the public and policymakers. This course may be useful for those interested in specializing in science writing in the field of biology or medicine. By gaining a basic understanding of databases and genomic bioinformatics, you can enhance your ability to interpret scientific data and write clear and engaging articles for a non-technical audience.
Software Engineer
Software Engineers design, develop, and maintain software systems. This course may be useful for those interested in developing software tools and applications for the life sciences industry. By understanding the principles of bioinformatics, you can gain insights into the specific requirements and challenges of software development in this field.
Technical Writer
Technical Writers create documentation and other written materials to explain technical concepts and products. This course may be useful for those interested in technical writing in the field of biology or medicine. By gaining a basic understanding of databases and genomic bioinformatics, you can enhance your ability to understand and explain complex scientific information in a clear and concise manner.
Biomedical Engineer
Biomedical Engineers apply engineering principles to solve problems in biology and medicine. This course may be useful for those interested in developing biomedical devices and technologies. By understanding the principles of bioinformatics, you can gain insights into the integration of biological and computational systems.
Biophysicist
Biophysicists use physical principles to study biological systems. This course may be useful for those interested in understanding the structure and function of biological molecules. By gaining a basic understanding of structural bioinformatics, you can enhance your ability to model and analyze the interactions between proteins, DNA, and other biomolecules.

Reading list

We've selected nine books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Learn Bioinformatics From Scratch (Theory & Practical).
Provides a comprehensive overview of sequence and genome analysis, covering topics such as sequence alignment, genome assembly, and comparative genomics. It valuable resource for researchers and students who are interested in these fields.
Provides a comprehensive overview of bioinformatics, covering topics such as sequence analysis, genome annotation, and protein structure prediction. It valuable resource for students and researchers in the field.
Provides a comprehensive overview of bioinformatics. It explains the fundamental principles and technologies used in the field, covering topics such as sequence analysis, genome annotation, and protein structure prediction, making it a valuable resource for understanding the basics.
Provides a theoretical introduction to bioinformatics, covering topics such as sequence analysis, genome annotation, and protein structure prediction. It good choice for students and researchers who are interested in the theoretical foundations of bioinformatics.
Provides a clear and concise introduction to bioinformatics, covering topics such as sequence analysis, genome annotation, and protein structure prediction. It good choice for students and researchers who are new to the field.
Focuses on the practical aspects of bioinformatics, emphasizing reproducible and robust research using open-source tools. It provides hands-on guidance on data management, statistical analysis, and visualization, complementing the theoretical knowledge gained from the course.
Aimed at beginners in bioinformatics, this book introduces the fundamental concepts and tools used in the field. It covers topics like sequence analysis, genome assembly, and data visualization, making it a good starting point for understanding bioinformatics.
Focuses on functional genomics, covering topics like gene expression analysis, proteomics, and metabolomics. It provides a good understanding of the technologies and methods used to study the function of genes and proteins.
Provides a comprehensive overview of bioinformatics, covering topics like sequence analysis, genome annotation, and comparative genomics. It offers a good foundation for understanding the concepts and applications of bioinformatics.

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