Biology Meets Programming: Bioinformatics for Beginners
Description
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About this course: Are you interested in learning how to program (in Python) within a scientific setting? This course will cover algorithms for solving various biological problems along with a handful of programming challenges helping you implement these algorithms in Python. It offers a gently-paced introduction to our Bioinformatics Specialization (https://www.coursera.org/specializations/bioinformatics), preparing learners to take the first course in the Specialization, "Finding Hidden Messages in DNA" (https://www.coursera.org/learn/dna-analysis). Each of the four weeks in the course will consist of two required components. First, an interactive textbook provides Python programming …
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When you enroll for courses through Coursera you get to choose for a paid plan or for a free plan .
- Free plan: No certicification and/or audit only. You will have access to all course materials except graded items.
- Paid plan: Commit to earning a Certificate—it's a trusted, shareable way to showcase your new skills.
About this course: Are you interested in learning how to program (in Python) within a scientific setting? This course will cover algorithms for solving various biological problems along with a handful of programming challenges helping you implement these algorithms in Python. It offers a gently-paced introduction to our Bioinformatics Specialization (https://www.coursera.org/specializations/bioinformatics), preparing learners to take the first course in the Specialization, "Finding Hidden Messages in DNA" (https://www.coursera.org/learn/dna-analysis). Each of the four weeks in the course will consist of two required components. First, an interactive textbook provides Python programming challenges that arise from real biological problems. If you haven't programmed in Python before, not to worry! We provide "Just-in-Time" exercises from the Codecademy Python track (https://www.codecademy.com/learn/python). And each page in our interactive textbook has its own discussion forum, where you can interact with other learners. Second, each week will culminate in a summary quiz. Lecture videos are also provided that accompany the material, but these videos are optional.
Created by: University of California, San Diego-
Taught by: Pavel Pevzner, Professor
Department of Computer Science and Engineering -
Taught by: Phillip Compeau, Visiting Researcher
Department of Computer Science & Engineering
Each course is like an interactive textbook, featuring pre-recorded videos, quizzes and projects.
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University of California, San Diego UC San Diego is an academic powerhouse and economic engine, recognized as one of the top 10 public universities by U.S. News and World Report. Innovation is central to who we are and what we do. Here, students learn that knowledge isn't just acquired in the classroom—life is their laboratory.Syllabus
WEEK 1
Week 1
Where in the Genome Does Replication Begin? (Part 1)
2 videos, 2 readings expand
- Reading: Course Details
- Reading: (Optional) Week 1 FAQs
- Video: Optional: Where in the Genome Does DNA Replication Begin? (Part 1)
- Video: Optional: Where in the Genome Does DNA Replication Begin? (Part 2)
Graded: Stepik Interactive Text for Week 1
Graded: Week 1 Quiz
WEEK 2
Week 2
Where in the Genome Does Replication Begin? (Part 2)
2 videos, 1 reading expand
- Reading: (Optional) Week 2 FAQs
- Video: Optional: Where in the Genome Does DNA Replication Begin? (Part 3)
- Video: Optional: Where in the Genome Does DNA Replication Begin? (Part 4)
Graded: Stepik Interactive Text for Week 2
Graded: Week 2 Quiz
WEEK 3
Week 3
Which DNA Patterns Play the Role of Molecular Clocks? (Part 1)
3 videos, 1 reading expand
- Reading: (Optional) Week 3 FAQs
- Video: Optional: From Implanted Patterns to Regulatory Motifs (Part 1) (10:09)
- Video: Optional: From Implanted Patterns to Regulatory Motifs (Part 2) (05:06)
- Video: Optional: From Implanted Patterns to Regulatory Motifs (Part 3) (07:22)
Graded: Stepik Interactive Text for Week 3
Graded: Week 3 Quiz
WEEK 4
Week 4
Which DNA Patterns Play the Role of Molecular Clocks? (Part 2)
3 videos, 1 reading expand
- Reading: (Optional) Week 4 FAQs
- Video: Optional: How Rolling Dice Helps Us Find Regulatory Motifs (Part 1) (12:43)
- Video: Optional: How Rolling Dice Helps Us Find Regulatory Motifs (Part 2) (05:37)
- Video: Optional: How Rolling Dice Helps Us Find Regulatory Motifs (Part 3) (07:46)
Graded: Stepik Interactive Text for Week 4
Graded: Week 4 Quiz
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