02 - Week 1 Where in the Genome Does DNA Replication Begin/01 - Search for Hidden Messages in Replication Origin (Part 1) (11-37)/3 - 3 - Search for Hidden Messages in Replication Origin (Part 1) (1137).mp4 45MB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/04 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 1) (12-42)/5 - 4 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 1) (1242).mp4 40MB
08 - Week 7 How Do We Compare Biological Sequences (Part 2)/03 - Multiple Sequence Alignment (13-04)/9 - 3 - Multiple Sequence Alignment (1304).mp4 37MB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/01 - From Implanted Patterns to Regulatory Motifs (Part 1) (10-08)/5 - 1 - From Implanted Patterns to Regulatory Motifs (Part 1) (1008).mp4 37MB
06 - Week 5 How Do We Assemble Genomes (Part 2)/01 - Assembling Read-Pairs/7 - 1 - Assembling Read-Pairs.mp4 36MB
03 - Week 2 How Do We Sequence Antibiotics/02 - How Do Bacteria Make Antibiotics (08-51)/4 - 2 - How Do Bacteria Make Antibiotics (0851).mp4 34MB
03 - Week 2 How Do We Sequence Antibiotics/06 - Adapting Sequencing for Spectra with Errors (07-40)/4 - 6 - Adapting Sequencing for Spectra with Errors (0740).mp4 31MB
03 - Week 2 How Do We Sequence Antibiotics/10 - Open Problems (07-43)/4 - 10 - Open Problems (0743).mp4 30MB
08 - Week 7 How Do We Compare Biological Sequences (Part 2)/02 - Space-Efficient Sequence Alignment (10-36)/9 - 2 - Space-Efficient Sequence Alignment (1036).mp4 28MB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/02 - Inverting Burrows-Wheeler/12 - 2 - Inverting Burrows-Wheeler.mp4 28MB
10 - Week 9 How Do We Locate Disease-Causing Mutations/03 - From a Trie to a Suffix Tree/11 - 3 - From a Trie to a Suffix Tree.mp4 26MB
09 - Week 8 Are There Fragile Regions in the Human Genome/01 - Transforming Men into Mice (13-11)/10 - 1 - Transforming Men into Mice (1311).mp4 26MB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/03 - From Implanted Patterns to Regulatory Motifs (Part 3) (07-21)/5 - 3 - From Implanted Patterns to Regulatory Motifs (Part 3) (0721).mp4 26MB
05 - Week 4 How Do We Assemble Genomes (Part 1)/02 - What Is Genome Sequencing/6 - 2 - What Is Genome Sequencing.mp4 24MB
05 - Week 4 How Do We Assemble Genomes (Part 1)/09 - Eulers Theorem/6 - 9 - Eulers Theorem.mp4 23MB
02 - Week 1 Where in the Genome Does DNA Replication Begin/05 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 3) (05-55)/3 - 7 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 3) (0555).mp4 20MB
05 - Week 4 How Do We Assemble Genomes (Part 1)/06 - String Reconstruction as an Eulerian Path Problem/6 - 6 - String Reconstruction as an Eulerian Path Problem.mp4 20MB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/06 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 3) (07-45)/5 - 6 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 3) (0745).mp4 20MB
10 - Week 9 How Do We Locate Disease-Causing Mutations/02 - Using the Trie/11 - 2 - Using the Trie.mp4 20MB
05 - Week 4 How Do We Assemble Genomes (Part 1)/08 - De Bruijn Graphs/6 - 8 - De Bruijn Graphs.mp4 20MB
09 - Week 8 Are There Fragile Regions in the Human Genome/09 - Synteny Block Construction (11-00)/10 - 9 - Synteny Block Construction (1100).mp4 19MB
05 - Week 4 How Do We Assemble Genomes (Part 1)/01 - Field Trip Kaliningrad (04-12)/6 - 1 - Field Trip Kaliningrad (0412).mp4 19MB
03 - Week 2 How Do We Sequence Antibiotics/05 - Cyclopeptide Sequencing with Branch and Bound (06-15)/4 - 5 - Cyclopeptide Sequencing with Branch and Bound (0615).mp4 19MB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/04 - The Change Problem (10-20)/8 - 4 - The Change Problem (1020).mp4 19MB
03 - Week 2 How Do We Sequence Antibiotics/08 - The Spectral Convolution Saves the Day (06-02)/4 - 8 - The Spectral Convolution Saves the Day (0602).mp4 19MB
06 - Week 5 How Do We Assemble Genomes (Part 2)/02 - De Bruijn Graphs Face Harsh Realities of Assembly/7 - 2 - De Bruijn Graphs Face Harsh Realities of Assembly.mp4 18MB
02 - Week 1 Where in the Genome Does DNA Replication Begin/03 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 1) (09-05)/3 - 5 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 1) (0905).mp4 17MB
05 - Week 4 How Do We Assemble Genomes (Part 1)/03 - Exploding Newspapers/6 - 3 - Exploding Newspapers.mp4 17MB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/05 - Setting Up Checkpoints/12 - 5 - Setting Up Checkpoints.mp4 17MB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/02 - From Implanted Patterns to Regulatory Motifs (Part 2) (06-26)/5 - 2 - From Implanted Patterns to Regulatory Motifs (Part 2) (0626).mp4 17MB
10 - Week 9 How Do We Locate Disease-Causing Mutations/01 - Why Do We Map Reads/11 - 1 - Why Do We Map Reads.mp4 16MB
03 - Week 2 How Do We Sequence Antibiotics/01 - The Discovery of Antibiotics (04-10)/4 - 1 - The Discovery of Antibiotics (0410).mp4 16MB
09 - Week 8 Are There Fragile Regions in the Human Genome/08 - Rearrangement Hotspots in the Human Genome (07-55)/10 - 8 - Rearrangement Hotspots in the Human Genome (0755).mp4 15MB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/06 - From Manhattan to the Alignment Graph (09-41)/8 - 6 - From Manhattan to the Alignment Graph (0941).mp4 15MB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/07 - From Global to Local Alignment (11-12)/8 - 7 - From Global to Local Alignment (1112).mp4 15MB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/06 - Inexact Matching/12 - 6 - Inexact Matching.mp4 15MB
01 - Welcome/03 - Screencast How to Solve Programming Assignments (04-39)/2 - 3 - Screencast How to Solve Programming Assignments (0439).mp4 14MB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/05 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 2) (05-36)/5 - 5 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 2) (0536).mp4 14MB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/01 - From Sequence Comparison to Biological Insights (10-02)/8 - 1 - From Sequence Comparison to Biological Insights (1002).mp4 14MB
03 - Week 2 How Do We Sequence Antibiotics/03 - Sequencing Antibiotics by Shattering Them into Pieces (04-40)/4 - 3 - Sequencing Antibiotics by Shattering Them into Pieces (0440).mp4 14MB
05 - Week 4 How Do We Assemble Genomes (Part 1)/07 - Similar Problems with Different Algorithmic Fates/6 - 7 - Similar Problems with Different Algorithmic Fates.mp4 13MB
09 - Week 8 Are There Fragile Regions in the Human Genome/05 - 2-Breaks (07-16)/10 - 5 - 2-Breaks (0716).mp4 13MB
05 - Week 4 How Do We Assemble Genomes (Part 1)/05 - String Reconstruction as a Hamiltonian Path Problem/6 - 5 - String Reconstruction as a Hamiltonian Path Problem.mp4 13MB
09 - Week 8 Are There Fragile Regions in the Human Genome/03 - Breakpoint Theorem (05-58)/10 - 3 - Breakpoint Theorem (0558).mp4 11MB
09 - Week 8 Are There Fragile Regions in the Human Genome/06 - Breakpoint Graphs (06-33)/10 - 6 - Breakpoint Graphs (0633).mp4 11MB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/01 - String Compression and the Burrows-Wheeler Transform/12 - 1 - String Compression and the Burrows-Wheeler Transform.mp4 11MB
03 - Week 2 How Do We Sequence Antibiotics/04 - A Brute Force Algorithm for Cyclopeptide Sequencing (03-05)/4 - 4 - A Brute Force Algorithm for Cyclopeptide Sequencing (0305).mp4 10MB
09 - Week 8 Are There Fragile Regions in the Human Genome/04 - Rearrangements in Tumor Genomes (05-18)/10 - 4 - Rearrangements in Tumor Genomes (0518).mp4 10MB
05 - Week 4 How Do We Assemble Genomes (Part 1)/04 - The String Reconstruction Problem/6 - 4 - The String Reconstruction Problem.mp4 9MB
08 - Week 7 How Do We Compare Biological Sequences (Part 2)/01 - Penalizing Insertions and Deletions in Sequence Alignment (05-27)/9 - 1 - Penalizing Insertions and Deletions in Sequence Alignment (0527).mp4 9MB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/04 - Finding the Matched Patterns/12 - 4 - Finding the Matched Patterns.mp4 9MB
02 - Week 1 Where in the Genome Does DNA Replication Begin/02 - Search for Hidden Messages in Replication Origin (Part 2) (06-24)/3 - 4 - Search for Hidden Messages in Replication Origin (Part 2) (0624).mp4 9MB
03 - Week 2 How Do We Sequence Antibiotics/07 - From 20 to More than 100 Amino Acids (02-20)/4 - 7 - From 20 to More than 100 Amino Acids (0220).mp4 9MB
03 - Week 2 How Do We Sequence Antibiotics/09 - The Truth About Spectra (02-20)/4 - 9 - The Truth About Spectra (0220).mp4 9MB
09 - Week 8 Are There Fragile Regions in the Human Genome/07 - 2-Break Distance Theorem (05-11)/10 - 7 - 2-Break Distance Theorem (0511).mp4 8MB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/05 - Dynamic Programming and Backtracking Pointers (06-58)/8 - 5 - Dynamic Programming and Backtracking Pointers (0658).mp4 8MB
09 - Week 8 Are There Fragile Regions in the Human Genome/02 - Sorting By Reversals (04-20)/10 - 2 - Sorting By Reversals (0420).mp4 8MB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/03 - The Manhattan Tourist Problem (06-14)/8 - 3 - The Manhattan Tourist Problem (0614).mp4 7MB
09 - Week 8 Are There Fragile Regions in the Human Genome/09 - Synteny Block Construction (11-00)/AreThereFragileRegions.99-118.pptx 7MB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/02 - The Alignment Game and the Longest Common Subsequence Problem (03-45)/8 - 2 - The Alignment Game and the Longest Common Subsequence Problem (0345).mp4 6MB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/07 - Further Applications of Read Mapping/12 - 7 - Further Applications of Read Mapping.mp4 6MB
02 - Week 1 Where in the Genome Does DNA Replication Begin/04 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 2) (04-10)/3 - 6 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 2) (0410).mp4 6MB
01 - Welcome/02 - How to Sync a Coursera Account with Stepic (01-45)/2 - 2 - How to Sync a Coursera Account with Stepic (0145).mp4 6MB
06 - Week 5 How Do We Assemble Genomes (Part 2)/03 - Field Trip Kaliningrad (Part 2) (01-39)/7 - 3 - Field Trip Kaliningrad (Part 2) (0139).mp4 6MB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/03 - Using Burrows-Wheeler for Pattern Matching/12 - 3 - Using Burrows-Wheeler for Pattern Matching.mp4 5MB
09 - Week 8 Are There Fragile Regions in the Human Genome/09 - Synteny Block Construction (11-00)/AreThereFragileRegions.99-118.pdf 3MB
01 - Welcome/01 - Class Welcome Message (01-31)/2 - 1 - Class Welcome Message (0131).mp4 3MB
09 - Week 8 Are There Fragile Regions in the Human Genome/01 - Transforming Men into Mice (13-11)/AreThereFragileRegions.1-27.pdf 2MB
09 - Week 8 Are There Fragile Regions in the Human Genome/01 - Transforming Men into Mice (13-11)/AreThereFragileRegions.1-27.pptx 2MB
09 - Week 8 Are There Fragile Regions in the Human Genome/08 - Rearrangement Hotspots in the Human Genome (07-55)/AreThereFragileRegions.82-98.pdf 1MB
09 - Week 8 Are There Fragile Regions in the Human Genome/08 - Rearrangement Hotspots in the Human Genome (07-55)/AreThereFragileRegions.82-98.pptx 981KB
09 - Week 8 Are There Fragile Regions in the Human Genome/02 - Sorting By Reversals (04-20)/AreThereFragileRegions.28-37.pdf 830KB
09 - Week 8 Are There Fragile Regions in the Human Genome/06 - Breakpoint Graphs (06-33)/AreThereFragileRegions.59-74.pdf 795KB
09 - Week 8 Are There Fragile Regions in the Human Genome/04 - Rearrangements in Tumor Genomes (05-18)/AreThereFragileRegions.41-48.pptx 794KB
09 - Week 8 Are There Fragile Regions in the Human Genome/02 - Sorting By Reversals (04-20)/AreThereFragileRegions.28-37.pptx 709KB
09 - Week 8 Are There Fragile Regions in the Human Genome/04 - Rearrangements in Tumor Genomes (05-18)/AreThereFragileRegions.41-48.pdf 408KB
09 - Week 8 Are There Fragile Regions in the Human Genome/06 - Breakpoint Graphs (06-33)/AreThereFragileRegions.59-74.pptx 296KB
09 - Week 8 Are There Fragile Regions in the Human Genome/05 - 2-Breaks (07-16)/AreThereFragileRegions.49-58.pdf 232KB
09 - Week 8 Are There Fragile Regions in the Human Genome/05 - 2-Breaks (07-16)/AreThereFragileRegions.49-58.pptx 222KB
09 - Week 8 Are There Fragile Regions in the Human Genome/07 - 2-Break Distance Theorem (05-11)/AreThereFragileRegions.75-81.pdf 209KB
09 - Week 8 Are There Fragile Regions in the Human Genome/03 - Breakpoint Theorem (05-58)/AreThereFragileRegions.38-40.pdf 174KB
09 - Week 8 Are There Fragile Regions in the Human Genome/07 - 2-Break Distance Theorem (05-11)/AreThereFragileRegions.75-81.pptx 155KB
09 - Week 8 Are There Fragile Regions in the Human Genome/03 - Breakpoint Theorem (05-58)/AreThereFragileRegions.38-40.pptx 145KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/02 - Inverting Burrows-Wheeler/12 - 2 - Inverting Burrows-Wheeler.srt 21KB
09 - Week 8 Are There Fragile Regions in the Human Genome/09 - Synteny Block Construction (11-00)/10 - 9 - Synteny Block Construction (1100).srt 20KB
10 - Week 9 How Do We Locate Disease-Causing Mutations/03 - From a Trie to a Suffix Tree/11 - 3 - From a Trie to a Suffix Tree.srt 19KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/04 - The Change Problem (10-20)/8 - 4 - The Change Problem (1020).srt 18KB
09 - Week 8 Are There Fragile Regions in the Human Genome/01 - Transforming Men into Mice (13-11)/10 - 1 - Transforming Men into Mice (1311).srt 15KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/04 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 1) (12-42)/5 - 4 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 1) (1242).srt 15KB
10 - Week 9 How Do We Locate Disease-Causing Mutations/02 - Using the Trie/11 - 2 - Using the Trie.srt 14KB
08 - Week 7 How Do We Compare Biological Sequences (Part 2)/03 - Multiple Sequence Alignment (13-04)/9 - 3 - Multiple Sequence Alignment (1304).srt 14KB
03 - Week 2 How Do We Sequence Antibiotics/02 - How Do Bacteria Make Antibiotics (08-51)/4 - 2 - How Do Bacteria Make Antibiotics (0851).srt 13KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/07 - From Global to Local Alignment (11-12)/8 - 7 - From Global to Local Alignment (1112).srt 13KB
03 - Week 2 How Do We Sequence Antibiotics/06 - Adapting Sequencing for Spectra with Errors (07-40)/4 - 6 - Adapting Sequencing for Spectra with Errors (0740).srt 13KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/01 - From Implanted Patterns to Regulatory Motifs (Part 1) (10-08)/5 - 1 - From Implanted Patterns to Regulatory Motifs (Part 1) (1008).srt 13KB
02 - Week 1 Where in the Genome Does DNA Replication Begin/01 - Search for Hidden Messages in Replication Origin (Part 1) (11-37)/3 - 3 - Search for Hidden Messages in Replication Origin (Part 1) (1137).srt 13KB
03 - Week 2 How Do We Sequence Antibiotics/10 - Open Problems (07-43)/4 - 10 - Open Problems (0743).srt 12KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/02 - Inverting Burrows-Wheeler/12 - 2 - Inverting Burrows-Wheeler.txt 12KB
10 - Week 9 How Do We Locate Disease-Causing Mutations/01 - Why Do We Map Reads/11 - 1 - Why Do We Map Reads.srt 12KB
09 - Week 8 Are There Fragile Regions in the Human Genome/01 - Transforming Men into Mice (13-11)/10 - 1 - Transforming Men into Mice (1311).txt 12KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/03 - From Implanted Patterns to Regulatory Motifs (Part 3) (07-21)/5 - 3 - From Implanted Patterns to Regulatory Motifs (Part 3) (0721).srt 11KB
08 - Week 7 How Do We Compare Biological Sequences (Part 2)/02 - Space-Efficient Sequence Alignment (10-36)/9 - 2 - Space-Efficient Sequence Alignment (1036).srt 11KB
10 - Week 9 How Do We Locate Disease-Causing Mutations/03 - From a Trie to a Suffix Tree/11 - 3 - From a Trie to a Suffix Tree.txt 11KB
06 - Week 5 How Do We Assemble Genomes (Part 2)/01 - Assembling Read-Pairs/7 - 1 - Assembling Read-Pairs.srt 11KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/01 - From Sequence Comparison to Biological Insights (10-02)/8 - 1 - From Sequence Comparison to Biological Insights (1002).srt 11KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/06 - From Manhattan to the Alignment Graph (09-41)/8 - 6 - From Manhattan to the Alignment Graph (0941).srt 11KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/06 - Inexact Matching/12 - 6 - Inexact Matching.srt 11KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/04 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 1) (12-42)/5 - 4 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 1) (1242).txt 11KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/09 - Eulers Theorem/6 - 9 - Eulers Theorem.srt 11KB
09 - Week 8 Are There Fragile Regions in the Human Genome/09 - Synteny Block Construction (11-00)/10 - 9 - Synteny Block Construction (1100).txt 10KB
02 - Week 1 Where in the Genome Does DNA Replication Begin/03 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 1) (09-05)/3 - 5 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 1) (0905).srt 9KB
03 - Week 2 How Do We Sequence Antibiotics/05 - Cyclopeptide Sequencing with Branch and Bound (06-15)/4 - 5 - Cyclopeptide Sequencing with Branch and Bound (0615).srt 9KB
03 - Week 2 How Do We Sequence Antibiotics/08 - The Spectral Convolution Saves the Day (06-02)/4 - 8 - The Spectral Convolution Saves the Day (0602).srt 9KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/06 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 3) (07-45)/5 - 6 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 3) (0745).srt 9KB
09 - Week 8 Are There Fragile Regions in the Human Genome/08 - Rearrangement Hotspots in the Human Genome (07-55)/10 - 8 - Rearrangement Hotspots in the Human Genome (0755).srt 9KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/08 - De Bruijn Graphs/6 - 8 - De Bruijn Graphs.srt 9KB
03 - Week 2 How Do We Sequence Antibiotics/02 - How Do Bacteria Make Antibiotics (08-51)/4 - 2 - How Do Bacteria Make Antibiotics (0851).txt 9KB
09 - Week 8 Are There Fragile Regions in the Human Genome/05 - 2-Breaks (07-16)/10 - 5 - 2-Breaks (0716).srt 9KB
03 - Week 2 How Do We Sequence Antibiotics/10 - Open Problems (07-43)/4 - 10 - Open Problems (0743).txt 8KB
02 - Week 1 Where in the Genome Does DNA Replication Begin/01 - Search for Hidden Messages in Replication Origin (Part 1) (11-37)/3 - 3 - Search for Hidden Messages in Replication Origin (Part 1) (1137).txt 8KB
08 - Week 7 How Do We Compare Biological Sequences (Part 2)/03 - Multiple Sequence Alignment (13-04)/9 - 3 - Multiple Sequence Alignment (1304).txt 8KB
10 - Week 9 How Do We Locate Disease-Causing Mutations/01 - Why Do We Map Reads/11 - 1 - Why Do We Map Reads.txt 8KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/02 - What Is Genome Sequencing/6 - 2 - What Is Genome Sequencing.srt 8KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/07 - From Global to Local Alignment (11-12)/8 - 7 - From Global to Local Alignment (1112).txt 8KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/05 - Setting Up Checkpoints/12 - 5 - Setting Up Checkpoints.srt 8KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/05 - Dynamic Programming and Backtracking Pointers (06-58)/8 - 5 - Dynamic Programming and Backtracking Pointers (0658).srt 8KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/03 - The Manhattan Tourist Problem (06-14)/8 - 3 - The Manhattan Tourist Problem (0614).srt 8KB
09 - Week 8 Are There Fragile Regions in the Human Genome/06 - Breakpoint Graphs (06-33)/10 - 6 - Breakpoint Graphs (0633).srt 8KB
03 - Week 2 How Do We Sequence Antibiotics/06 - Adapting Sequencing for Spectra with Errors (07-40)/4 - 6 - Adapting Sequencing for Spectra with Errors (0740).txt 8KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/04 - The Change Problem (10-20)/8 - 4 - The Change Problem (1020).txt 7KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/06 - String Reconstruction as an Eulerian Path Problem/6 - 6 - String Reconstruction as an Eulerian Path Problem.srt 7KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/01 - From Implanted Patterns to Regulatory Motifs (Part 1) (10-08)/5 - 1 - From Implanted Patterns to Regulatory Motifs (Part 1) (1008).txt 7KB
09 - Week 8 Are There Fragile Regions in the Human Genome/03 - Breakpoint Theorem (05-58)/10 - 3 - Breakpoint Theorem (0558).srt 7KB
03 - Week 2 How Do We Sequence Antibiotics/03 - Sequencing Antibiotics by Shattering Them into Pieces (04-40)/4 - 3 - Sequencing Antibiotics by Shattering Them into Pieces (0440).srt 7KB
02 - Week 1 Where in the Genome Does DNA Replication Begin/02 - Search for Hidden Messages in Replication Origin (Part 2) (06-24)/3 - 4 - Search for Hidden Messages in Replication Origin (Part 2) (0624).srt 7KB
08 - Week 7 How Do We Compare Biological Sequences (Part 2)/02 - Space-Efficient Sequence Alignment (10-36)/9 - 2 - Space-Efficient Sequence Alignment (1036).txt 7KB
02 - Week 1 Where in the Genome Does DNA Replication Begin/05 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 3) (05-55)/3 - 7 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 3) (0555).srt 7KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/05 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 2) (05-36)/5 - 5 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 2) (0536).srt 7KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/01 - From Sequence Comparison to Biological Insights (10-02)/8 - 1 - From Sequence Comparison to Biological Insights (1002).txt 7KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/06 - From Manhattan to the Alignment Graph (09-41)/8 - 6 - From Manhattan to the Alignment Graph (0941).txt 7KB
02 - Week 1 Where in the Genome Does DNA Replication Begin/03 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 1) (09-05)/3 - 5 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 1) (0905).txt 6KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/06 - Inexact Matching/12 - 6 - Inexact Matching.txt 6KB
03 - Week 2 How Do We Sequence Antibiotics/01 - The Discovery of Antibiotics (04-10)/4 - 1 - The Discovery of Antibiotics (0410).srt 6KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/04 - Finding the Matched Patterns/12 - 4 - Finding the Matched Patterns.srt 6KB
10 - Week 9 How Do We Locate Disease-Causing Mutations/02 - Using the Trie/11 - 2 - Using the Trie.txt 6KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/01 - Field Trip Kaliningrad (04-12)/6 - 1 - Field Trip Kaliningrad (0412).srt 6KB
09 - Week 8 Are There Fragile Regions in the Human Genome/07 - 2-Break Distance Theorem (05-11)/10 - 7 - 2-Break Distance Theorem (0511).srt 6KB
08 - Week 7 How Do We Compare Biological Sequences (Part 2)/01 - Penalizing Insertions and Deletions in Sequence Alignment (05-27)/9 - 1 - Penalizing Insertions and Deletions in Sequence Alignment (0527).srt 6KB
06 - Week 5 How Do We Assemble Genomes (Part 2)/02 - De Bruijn Graphs Face Harsh Realities of Assembly/7 - 2 - De Bruijn Graphs Face Harsh Realities of Assembly.srt 6KB
09 - Week 8 Are There Fragile Regions in the Human Genome/08 - Rearrangement Hotspots in the Human Genome (07-55)/10 - 8 - Rearrangement Hotspots in the Human Genome (0755).txt 6KB
09 - Week 8 Are There Fragile Regions in the Human Genome/04 - Rearrangements in Tumor Genomes (05-18)/10 - 4 - Rearrangements in Tumor Genomes (0518).srt 6KB
03 - Week 2 How Do We Sequence Antibiotics/05 - Cyclopeptide Sequencing with Branch and Bound (06-15)/4 - 5 - Cyclopeptide Sequencing with Branch and Bound (0615).txt 6KB
03 - Week 2 How Do We Sequence Antibiotics/08 - The Spectral Convolution Saves the Day (06-02)/4 - 8 - The Spectral Convolution Saves the Day (0602).txt 6KB
06 - Week 5 How Do We Assemble Genomes (Part 2)/01 - Assembling Read-Pairs/7 - 1 - Assembling Read-Pairs.txt 5KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/06 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 3) (07-45)/5 - 6 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 3) (0745).txt 5KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/09 - Eulers Theorem/6 - 9 - Eulers Theorem.txt 5KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/03 - From Implanted Patterns to Regulatory Motifs (Part 3) (07-21)/5 - 3 - From Implanted Patterns to Regulatory Motifs (Part 3) (0721).txt 5KB
09 - Week 8 Are There Fragile Regions in the Human Genome/02 - Sorting By Reversals (04-20)/10 - 2 - Sorting By Reversals (0420).srt 5KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/02 - What Is Genome Sequencing/6 - 2 - What Is Genome Sequencing.txt 5KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/01 - String Compression and the Burrows-Wheeler Transform/12 - 1 - String Compression and the Burrows-Wheeler Transform.srt 5KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/05 - Dynamic Programming and Backtracking Pointers (06-58)/8 - 5 - Dynamic Programming and Backtracking Pointers (0658).txt 5KB
09 - Week 8 Are There Fragile Regions in the Human Genome/05 - 2-Breaks (07-16)/10 - 5 - 2-Breaks (0716).txt 5KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/08 - De Bruijn Graphs/6 - 8 - De Bruijn Graphs.txt 5KB
03 - Week 2 How Do We Sequence Antibiotics/04 - A Brute Force Algorithm for Cyclopeptide Sequencing (03-05)/4 - 4 - A Brute Force Algorithm for Cyclopeptide Sequencing (0305).srt 5KB
09 - Week 8 Are There Fragile Regions in the Human Genome/06 - Breakpoint Graphs (06-33)/10 - 6 - Breakpoint Graphs (0633).txt 5KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/05 - Setting Up Checkpoints/12 - 5 - Setting Up Checkpoints.txt 5KB
02 - Week 1 Where in the Genome Does DNA Replication Begin/02 - Search for Hidden Messages in Replication Origin (Part 2) (06-24)/3 - 4 - Search for Hidden Messages in Replication Origin (Part 2) (0624).txt 5KB
02 - Week 1 Where in the Genome Does DNA Replication Begin/05 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 3) (05-55)/3 - 7 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 3) (0555).txt 5KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/03 - The Manhattan Tourist Problem (06-14)/8 - 3 - The Manhattan Tourist Problem (0614).txt 5KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/02 - The Alignment Game and the Longest Common Subsequence Problem (03-45)/8 - 2 - The Alignment Game and the Longest Common Subsequence Problem (0345).srt 4KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/03 - Exploding Newspapers/6 - 3 - Exploding Newspapers.srt 4KB
09 - Week 8 Are There Fragile Regions in the Human Genome/03 - Breakpoint Theorem (05-58)/10 - 3 - Breakpoint Theorem (0558).txt 4KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/07 - Similar Problems with Different Algorithmic Fates/6 - 7 - Similar Problems with Different Algorithmic Fates.srt 4KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/06 - String Reconstruction as an Eulerian Path Problem/6 - 6 - String Reconstruction as an Eulerian Path Problem.txt 4KB
02 - Week 1 Where in the Genome Does DNA Replication Begin/04 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 2) (04-10)/3 - 6 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 2) (0410).srt 4KB
03 - Week 2 How Do We Sequence Antibiotics/03 - Sequencing Antibiotics by Shattering Them into Pieces (04-40)/4 - 3 - Sequencing Antibiotics by Shattering Them into Pieces (0440).txt 4KB
01 - Welcome/03 - Screencast How to Solve Programming Assignments (04-39)/2 - 3 - Screencast How to Solve Programming Assignments (0439).srt 4KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/05 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 2) (05-36)/5 - 5 - How Rolling Dice Helps Us Find Regulatory Motifs (Part 2) (0536).txt 4KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/04 - Finding the Matched Patterns/12 - 4 - Finding the Matched Patterns.txt 4KB
09 - Week 8 Are There Fragile Regions in the Human Genome/07 - 2-Break Distance Theorem (05-11)/10 - 7 - 2-Break Distance Theorem (0511).txt 4KB
03 - Week 2 How Do We Sequence Antibiotics/01 - The Discovery of Antibiotics (04-10)/4 - 1 - The Discovery of Antibiotics (0410).txt 4KB
08 - Week 7 How Do We Compare Biological Sequences (Part 2)/01 - Penalizing Insertions and Deletions in Sequence Alignment (05-27)/9 - 1 - Penalizing Insertions and Deletions in Sequence Alignment (0527).txt 4KB
03 - Week 2 How Do We Sequence Antibiotics/07 - From 20 to More than 100 Amino Acids (02-20)/4 - 7 - From 20 to More than 100 Amino Acids (0220).srt 4KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/02 - From Implanted Patterns to Regulatory Motifs (Part 2) (06-26)/5 - 2 - From Implanted Patterns to Regulatory Motifs (Part 2) (0626).srt 4KB
09 - Week 8 Are There Fragile Regions in the Human Genome/04 - Rearrangements in Tumor Genomes (05-18)/10 - 4 - Rearrangements in Tumor Genomes (0518).txt 3KB
06 - Week 5 How Do We Assemble Genomes (Part 2)/02 - De Bruijn Graphs Face Harsh Realities of Assembly/7 - 2 - De Bruijn Graphs Face Harsh Realities of Assembly.txt 3KB
03 - Week 2 How Do We Sequence Antibiotics/09 - The Truth About Spectra (02-20)/4 - 9 - The Truth About Spectra (0220).srt 3KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/05 - String Reconstruction as a Hamiltonian Path Problem/6 - 5 - String Reconstruction as a Hamiltonian Path Problem.srt 3KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/04 - The String Reconstruction Problem/6 - 4 - The String Reconstruction Problem.srt 3KB
09 - Week 8 Are There Fragile Regions in the Human Genome/02 - Sorting By Reversals (04-20)/10 - 2 - Sorting By Reversals (0420).txt 3KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/01 - Field Trip Kaliningrad (04-12)/6 - 1 - Field Trip Kaliningrad (0412).txt 3KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/07 - Further Applications of Read Mapping/12 - 7 - Further Applications of Read Mapping.srt 3KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/01 - String Compression and the Burrows-Wheeler Transform/12 - 1 - String Compression and the Burrows-Wheeler Transform.txt 3KB
03 - Week 2 How Do We Sequence Antibiotics/04 - A Brute Force Algorithm for Cyclopeptide Sequencing (03-05)/4 - 4 - A Brute Force Algorithm for Cyclopeptide Sequencing (0305).txt 3KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/03 - Exploding Newspapers/6 - 3 - Exploding Newspapers.txt 3KB
02 - Week 1 Where in the Genome Does DNA Replication Begin/04 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 2) (04-10)/3 - 6 - From a Biological Insight toward an Algorithm for Finding Replication Origin (Part 2) (0410).txt 3KB
07 - Week 6 How Do We Compare Biological Sequences (Part 1)/02 - The Alignment Game and the Longest Common Subsequence Problem (03-45)/8 - 2 - The Alignment Game and the Longest Common Subsequence Problem (0345).txt 3KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/07 - Similar Problems with Different Algorithmic Fates/6 - 7 - Similar Problems with Different Algorithmic Fates.txt 3KB
01 - Welcome/01 - Class Welcome Message (01-31)/2 - 1 - Class Welcome Message (0131).srt 3KB
06 - Week 5 How Do We Assemble Genomes (Part 2)/03 - Field Trip Kaliningrad (Part 2) (01-39)/7 - 3 - Field Trip Kaliningrad (Part 2) (0139).srt 2KB
01 - Welcome/03 - Screencast How to Solve Programming Assignments (04-39)/2 - 3 - Screencast How to Solve Programming Assignments (0439).txt 2KB
01 - Welcome/02 - How to Sync a Coursera Account with Stepic (01-45)/2 - 2 - How to Sync a Coursera Account with Stepic (0145).srt 2KB
03 - Week 2 How Do We Sequence Antibiotics/09 - The Truth About Spectra (02-20)/4 - 9 - The Truth About Spectra (0220).txt 2KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/03 - Using Burrows-Wheeler for Pattern Matching/12 - 3 - Using Burrows-Wheeler for Pattern Matching.srt 2KB
03 - Week 2 How Do We Sequence Antibiotics/07 - From 20 to More than 100 Amino Acids (02-20)/4 - 7 - From 20 to More than 100 Amino Acids (0220).txt 2KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/04 - The String Reconstruction Problem/6 - 4 - The String Reconstruction Problem.txt 2KB
05 - Week 4 How Do We Assemble Genomes (Part 1)/05 - String Reconstruction as a Hamiltonian Path Problem/6 - 5 - String Reconstruction as a Hamiltonian Path Problem.txt 2KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/07 - Further Applications of Read Mapping/12 - 7 - Further Applications of Read Mapping.txt 2KB
04 - Week 3 Which DNA Patterns Play the Role of Molecular Clocks/02 - From Implanted Patterns to Regulatory Motifs (Part 2) (06-26)/5 - 2 - From Implanted Patterns to Regulatory Motifs (Part 2) (0626).txt 2KB
01 - Welcome/01 - Class Welcome Message (01-31)/2 - 1 - Class Welcome Message (0131).txt 2KB
06 - Week 5 How Do We Assemble Genomes (Part 2)/03 - Field Trip Kaliningrad (Part 2) (01-39)/7 - 3 - Field Trip Kaliningrad (Part 2) (0139).txt 1KB
11 - Week 10 How Do We Locate Disease-Causing Mutations (Part 2)/03 - Using Burrows-Wheeler for Pattern Matching/12 - 3 - Using Burrows-Wheeler for Pattern Matching.txt 1KB
01 - Welcome/02 - How to Sync a Coursera Account with Stepic (01-45)/2 - 2 - How to Sync a Coursera Account with Stepic (0145).txt 1KB
