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- Help:Contents (147 links)
- User:S (146 links)
- Jong Bhak (26 links)
- Baik BuKyung (19 links)
- Bioinformatics (18 links)
- How to grade this course by Jong Bhak (17 links)
- 20131571 조우빈 (17 links)
- Sequencing (15 links)
- How to write a scientific essay? (15 links)
- Genomics (14 links)
- What are good motivations for an active participation in classes and research? (14 links)
- Genomics course (14 links)
- Youngjun Bhak (14 links)
- Bioprogramming (13 links)
- DNA (12 links)
- RNA (12 links)
- Geromics (12 links)
- BioPerl (11 links)
- Codon (11 links)
- PCR (11 links)
- H.W.1 (11 links)
- What is sequencing? (10 links)
- Homework in the bioinformatics class (10 links)
- Lecture & Self-study by MJ 20180427 (10 links)
- UNIST Bioinformatics course (9 links)
- Epigenomics (9 links)
- Jong Bhak's Genomics Syllabus (9 links)
- BioOS (9 links)
- Cancer research (9 links)
- Computation (9 links)
- Fundamentals of genomics (9 links)
- Heatlthcare (9 links)
- Linux (9 links)
- NGS alignment algorithms (9 links)
- Sequence Alignment (9 links)
- UNIST (9 links)
- What are DNA and RNA? (9 links)
- What is a reference? (9 links)
- Perl Programming HW by MJ 20180604 (9 links)
- What is a genome? (8 links)
- What is the meaning of genotype, envirotype, and phenotype (8 links)
- Genome (7 links)
- What is DNA? (7 links)
- Description of Genomics course (7 links)
- Frequently asked questions on this course (7 links)
- Genomics course books and references (7 links)
- Genomics course homework (7 links)
- Genomics lecture movies (7 links)
- How to Study Genomics (7 links)
- Major theories of genomics (7 links)
- What are key technologies of genomics? (7 links)
- What are the most important things in genomics? (7 links)
- What are the principles of genomics? (7 links)
- What is the future of genomics? (7 links)
- What is the philosophy of genomics? (7 links)
- What specific problems are in genomics? (7 links)
- Youngkwang Jung - bioinformatics (7 links)
- Homework 2. Pick 5 protein sequences and predict their secondary structures using available prediction programs (7 links)
- How to present scientific work or problems? (7 links)
- Pick 5 protein sequences and predict their secondary structures using available prediction programs by MJ (7 links)
- Genomics basics (6 links)
- 23andme.com (6 links)
- Decodeme.com (6 links)
- Illumina (6 links)
- Omics (6 links)
- Homework (6 links)
- Bioinformatics course 2015 UNIST Students Folder (6 links)
- Phenomics (6 links)
- Principles of Bioinformatics (6 links)
- Telomere (6 links)
- Dynamic programming (6 links)
- Genome Reading (6 links)
- Genome Writing (6 links)
- Genomics course papers published by Jong Bhak (6 links)
- Class talking & question (6 links)
- Lecture (6 links)
- SeongEon's content (6 links)
- Programing - homework (6 links)
- In my definition (6 links)
- What are palindromes? (6 links)
- What are repeats? (6 links)
- Proteomics (5 links)
- UNIST Genomics course (5 links)
- Genomics learning resource (5 links)
- Bioinformatics course 2016 UNIST Students Folder (5 links)
- Bioinformatics homework (5 links)
- Bioinformatics Book by Jong Bhak (5 links)
- Bioprogramming Class (5 links)
- Canceromics and Geromics Class (5 links)
- Enviromics (5 links)
- Epigenomics Class (5 links)
- Genomics Class (5 links)
- Homework for Genomics (5 links)
- Introduction on how to learn from this course (5 links)
- Proteomics Class (5 links)
- Reference paper list for Bioinformatics (5 links)
- Transcriptomics Class (5 links)
- UNIST Bioinformatics course syllabus (5 links)
- Transcriptomics (5 links)
- SaetByeol Kim (5 links)
- Cancer genomes (5 links)
- Comparative Genomics (5 links)
- Evolution (5 links)
- Genomes and aging (5 links)
- Korean genome project (5 links)
- Phylogenetic tree (5 links)
- Alignment (5 links)
- Seung-hoon Kim (5 links)
- Myeongji Park - bioinformatics (5 links)
- Bioinformatics course 2017 UNIST Students Folder (5 links)
- Haemophilus influenzae (4 links)
- Navigenics.com (4 links)
- Celera (4 links)
- Personal Genome Project (4 links)
- Agowa (4 links)
- Nimblegen (4 links)
- KOBIC (4 links)
- The first Korean genome sequence and analysis: Full genome sequencing for a socio-ethnic group (4 links)
- Protein (4 links)
- Sequence alignment (4 links)
- Gene (4 links)
- What is RNA? (4 links)
- What is science? (4 links)
- UNIST Genomics course 2021 (4 links)
- Biology learning procedure (4 links)
- Sungwon Jeon (4 links)
- Computers for genomics (4 links)
- Genome Assembly (4 links)
- SELF (4 links)
- The human genome project (4 links)
- Tiger genome analyses (4 links)
- Text books in Bioinformatics (4 links)
- Jiyoung Oh (4 links)
- BuKyung Randomly generate five 100 AA long protein sequences and store them in a FASTA file (4 links)
- Genomics 2021 Homework (4 links)
- 1. Lecture (4 links)
- Sungbin Lim (4 links)
- Jong Bhak's instructions for students for Genomics (4 links)
- BLOSUM (4 links)
- Gap penalty (4 links)
- Indel (4 links)
- Matrix (mathematics) (4 links)
- Nucleotide (4 links)
- Optimal matching (4 links)
- Point accepted mutation (4 links)
- Sequence mining (4 links)
- Smith–Waterman algorithm (4 links)
- Template:Cite book (4 links)
- Template:Cite journal (4 links)
- Template:Cite web (4 links)
- Template:Reflist (4 links)
- How to learn from Jong Bhak? (4 links)
- Openfree (3 links)
- Craig Venter (3 links)
- Free Genomics Project (3 links)
- Please click here and sign your name to petition the governments of the world to sequence genomes free of charge (3 links)
- Sanger sequencing (3 links)
- US Genomics (3 links)
- Genomics Companies (3 links)
- BLAST (3 links)
- Affymetrix (3 links)
- Decode (3 links)
- Knome.com (3 links)
- NanoGen (3 links)
- Personal Genome Companies (3 links)
- U.S. Genomics (3 links)
- Genomics Major Paper Publication (3 links)
- Transcriptome (3 links)
- Genome Research Foundation (3 links)
- Phenome (3 links)
- All the videos for Genomics 2021 in one big page (3 links)
- Methanococcus jannaschii (3 links)
- Microbial genomics (3 links)
- UNIST Omics course (3 links)
- Bioinformatics course homework guide (3 links)
- UNIST Advanced Genomics course 2021 (3 links)
- What is life? (3 links)
- Bioinformatics course (3 links)
- Perl (3 links)
- HeeUn Kwon (3 links)
- Kangseok Lee (3 links)
- Yoon Changhan (3 links)
- Omics students folder 2023 (3 links)
- Illumina sequencing (3 links)
- Next generation sequencing (3 links)
- What is a protein? (3 links)
- Genomics Course Students Folder (3 links)
- Install and Learn BioPerl (3 links)
- Minwoo Wie (3 links)
- Presentation (3 links)
- Homo sapiens histone H3 (3 links)
- SeongEon Park - bioinformatics (3 links)
- Genomics course homework guide (3 links)
- Scientific Background (3 links)
- Jeonghu Kim - Bioinformatics (3 links)
- My definition (3 links)
- Next Generation Sequencing (3 links)
- Array data structure (3 links)
- Bellman equation (3 links)
- Camera resectioning (3 links)
- Computer stereo vision (3 links)
- DNA sequences (3 links)
- Distortions (3 links)
- Dynamic time warping (3 links)
- Embedded systems (3 links)
- Hirschberg's algorithm (3 links)
- Levenshtein distance (3 links)
- Method of Four Russians (3 links)
- Michael J. Fischer (3 links)
- Pixels (3 links)
- Real-time computing (3 links)
- Recursion (3 links)
- Scan lines (3 links)
- Similarity matrix (3 links)
- String (computer science) (3 links)
- Vladimir Levenshtein (3 links)
- File:ParallelNeedlemanAlgorithm.pdf (3 links)
- Template:- (3 links)
- Template:DNA sequence (3 links)
- Template:External links (3 links)
- Template:Infobox algorithm (3 links)
- Template:Math (3 links)
- Template:Mvar (3 links)
- Template:Strings (3 links)
- Template:Technical (3 links)
- Genomics learning videos (3 links)
- Epigenetic ''''''sequencing (3 links)
- Who are Koreans? (3 links)
- Genome Sequencing Procedure (2 links)
- Comparing 7 billion human genomes with computers (2 links)
- Donate your genome (2 links)
- Mapping the population stratification with government and company funds for free genotyping throughout the world (2 links)
- Merck (2 links)
- Pfizer (2 links)
- Pinpointing persons who represent in the population clusters and genotype them for their families and groups (2 links)
- You, us, and the future generations (2 links)
- Ancestry (2 links)
- Genealogy (2 links)
- Genotyping (2 links)
- Roots (2 links)
- Human genome (2 links)
- Genomatix Inc. in Germany (2 links)
- University of Toronto (2 links)
- BioPAX (2 links)
- 454 Life Sciences (2 links)
- ACLARA BioSciences, Inc. (2 links)
- Abgenomics (2 links)
- Acacia Biosciences (2 links)
- Acadia Pharmaceuticals (2 links)
- Advalytix AG (2 links)
- Advanced Center for Genome Technology (2 links)
- Affymax Research Institute (2 links)
- Agy Therapeutics (2 links)
- Amita (2 links)
- Array Biopharma (2 links)
- Azign Biosciences (2 links)
- DeCODE (2 links)
- Functional Biosciences Inc. (2 links)
- BioPython (2 links)
- BioRuby (2 links)
- Part 1: Molecular Biology Search and Analysis (2 links)
- Human Genome Project (2 links)
- Fred Sanger (2 links)
- George Church (2 links)
- You! (2 links)
- $0 Genomics Project (2 links)
- List of fully sequenced genomes (2 links)
- The diploid genome sequence of a Chinese individual was sequenced (2 links)
- Genome Research (2 links)
- Biotechnology News Sites (2 links)
- Genomics News Archive (2 links)
- Science News Sites (2 links)
- Phylogenomics (2 links)
- BioFoundation (2 links)
- AriadneGenomics (2 links)
- BioLicense (2 links)
- DNAgenotek.com (2 links)
- Genomics Institutes (2 links)
- Microsoft (2 links)
- Rosetta Genomics (2 links)
- Selah Genomics (2 links)
- Proteome (2 links)
- Oncogenomics (2 links)
- C. elegans Genomics (2 links)
- Rice genome (2 links)
- Ibadan (2 links)
- Mitogenomics (2 links)
- Pangenomics (2 links)
- Biology (2 links)
- Genetic code (2 links)
- What is bioinformatics? (2 links)
- A new multiplex sequencing method published by MPI group for highly degraded DNA fragments. Cave bear mitochondria (2 links)
- N Engl J Med (2 links)
- The first Korean Genome Sequence analysis (2 links)
- Theragen Inc. launched a personal genome typing service similar to 23andme's. However, the product was withheld due to legal issues. (2 links)
- The second Korean human genome (2 links)
- SRA008370 (2 links)
- HelloGene (2 links)
- HelloGenome (2 links)
- Disclaimer (2 links)
- External links (2 links)
- GenomeCare (2 links)
- Illumina User Group meeting in Phuket 2010 abstract by Theragen BiO Insititute (2 links)
- Turkey genome authors (2 links)
- The first Cyano bacterium sequenced (2 links)
- The first bacterium sequenced (2 links)
- The fisrt archae genome sequenced (2 links)
- Trait (2 links)
- How to write research paper by Jong Bhak (2 links)
- Multiomics (2 links)
- Programming (2 links)
- SELF: Self evaluating learning framework (2 links)
- Taq polymerase (2 links)
- UNIST Omics special lecture 2018 (2 links)
- DNA Sequencing (2 links)
- Bioinformatics course 2015 UNIST Jong Bhak (2 links)
- UNIST Genomics course 2015 (2 links)
- UNIST Genomics course 2016 (2 links)
- UNIST Genomics course 2017 (2 links)
- UNIST Genomics course 2018 (2 links)
- UNIST Genomics course 2024 (2 links)
- Present experimental designs (2 links)
- Present how you executed team plans (2 links)
- Present hypotheses (2 links)
- Present results scientifically (2 links)
- Present strategies (2 links)
- Present their problems (2 links)
- Bioinformatics definition by Jong Bhak (2 links)
- Bioinformatics is Biology, and Biology, Bioinformatics. (2 links)
- Bioperl (2 links)
- Beta (2 links)
- Aging (2 links)
- Jong's Corean CV (2 links)
- Jong's research articles format 2 (2 links)
- Heo Moon Seong (2 links)
- Lim Doyeon (2 links)
- Yeonsu Jeon (2 links)
- Cancer (2 links)
- The Practical Use of System Biology: K-12 E.coli Strain (2 links)
- Genomics Wonwoo Jeong (2 links)
- Proteomics Wonwoo Jeong (2 links)
- Jeongmin Oh (2 links)
- Tae Heon Kim (2 links)
- Description of Omics course (2 links)
- Genomics lecture (2 links)
- How to study Omics? (2 links)
- List of omics student emails (2 links)
- Omics Course Grading (2 links)
- Omics course (2 links)
- Omics course homework guide (2 links)
- DNA and sequence alignment (2 links)
- How we produce genomic big data? (2 links)
- Introduction to Jong Bhak's genomics course (2 links)
- Methylation sequencing (2 links)
- Nanoball sequencing (2 links)
- Nanopore sequencing (2 links)
- Turing machine (2 links)
- Whale genome analyses (2 links)
- What is Sequencing in Genomics and Omics? (2 links)
- What is information? (2 links)
- What is transcription and translation? (2 links)
- Bhak Young June (Park Young June) (2 links)
- Chaeeun Lee (2 links)
- Gun Oh (2 links)
- Youngkwang Jung (2 links)
- Strawberry Perl (2 links)
- Description of Geromics course (2 links)
- Geromics course (2 links)
- Geromics course books and references (2 links)
- Geromics course homework (2 links)
- Geromics lecture movies (2 links)
- How to Study Geromics (2 links)
- Jong Bhak's Geromics Syllabus (2 links)
- Major theories of geromics (2 links)
- What are key technologies of geromics? (2 links)
- What are the most important things in geromics? (2 links)
- What are the principles of geromics? (2 links)
- What is a gerome? (2 links)
- What is the future of geromics? (2 links)
- What is the philosophy of geromics? (2 links)
- What specific problems are in geromics? (2 links)
- Ahn Cheolwoo (2 links)
- Hyewon Cho (2 links)
- SELF check points for students (2 links)
- 2023 Geromics course attendance chec by students (2 links)
- YeongJae Kim (2 links)
- 5.19 (2 links)
- BuKyung Make a Perl program translating 'all' combinations of triple bases into amino acids (2 links)
- Essay about genome analysis article (2 links)
- Secondary structure (2 links)
- Week2 (2 links)
- Week3-Essay1 KKJ (2 links)
- Self Evaluation (2 links)
- Essay2 (2 links)
- Genomics Homework (2 links)
- About the Bioperl (2 links)
- Homo sapiens AKT1 (2 links)
- Homo sapiens Checkpoint kinase CHK1 (2 links)
- Homo sapiens P53 (2 links)
- Homo sapiens PCNA (2 links)
- Homo sapiens RAD51 (2 links)
- Homo sapiens Ubiquitin Specific Peptidase 1(USP1) (2 links)
- Homo sapiens catenin beta 1 (CTNNB1) (2 links)
- Homo sapiens myosin IE (2 links)
- 5/20 (2 links)
- B7 (2 links)
- CXXC-type zinc finger protein 4 (2 links)
- Codon code using perl is here (2 links)
- Interferon-gamma (2 links)
- Interleukin-2 (2 links)
- Programmed cell death protein 1 precursor (PD-1) (2 links)
- APC gene (2 links)
- 2016 Genomics Students Folder (2 links)
- Scientific Experiment (2 links)
- From HomeWork (2 links)
- Time - Scale Pan Genome Analysis of Horizontal Gene Transfer in heterogeneous Bacteria Pool (2 links)
- Research paper (2 links)
- Week5 Korean Genome Project (2 links)
- A (2 links)
- CRISPR (2 links)
- Reference (2 links)
- Madina Seidualy (2 links)
- Yeonsong - bioinformatics (2 links)
- My personal Essay (2 links)
- 3. Essay (2 links)
- Lecture note and Summary (2 links)
- Alzheimer genome (2 links)
- Amyotrophic lateral sclerosis (2 links)
- Animal genome (2 links)
- Articles, news (2 links)
- Books (2 links)
- Cancer genome (2 links)
- Etc. (2 links)
- GATK (2 links)
- Genome reference (2 links)
- Genome sequencing technique (2 links)
- Homework-TJ (2 links)
- Immune genome (2 links)
- Lecture note (2 links)
- Lectures (2 links)
- Paper (2 links)
- Phamacogenomics (2 links)
- Question (2 links)
- Scientific result (2 links)
- Self-evaluation Paper (2 links)
- Sns links (2 links)
- Standard genome reference (2 links)
- Video files (2 links)
- Word files (2 links)
- Epigenetics (2 links)
- FASTA (2 links)
- Align two protein sequences using a dynamic programming method in Perl by MJ (2 links)
- Create a FASTA file with a sequence. Open it and reverse the sequence of it and print it out in another FASTA file by MJ (2 links)
- Create a flat text file database of protein sequences with hash function in Perl by MJ (2 links)
- Extract a sequence MKKTGIKG from ASMKATAHQMKKTGIKGMSTYALLRL and print it out in a file by MJ (2 links)
- In a multi-sequence FASTA file, produce statistics such as sequence number, average seq length, GC content, AT content, etc by MJ (2 links)
- Make a Perl program to calculate the length of a Mycoplasma genitalium bacterium by MJ (2 links)
- Make a Perl program to calculate the lengths of DNA and protein sequences by MJ (2 links)
- Make a Perl program translating 'all' combinations of triple bases into amino acids by MJ (2 links)
- Open and re-write one FASTA file containing one protein sequence of TERT by MJ (2 links)
- Randomly generate five 100 AA long protein sequences and store them in a FASTA file by MJ (2 links)
- Natural selection (2 links)
- Ilsun Yun (2 links)
- CRISPR-Cas9 for Gene Therapy (2 links)
- Cancer gene therapy: innovations in therapeutic delivery of CRISPR-Cas9 (2 links)
- CtDNA (2 links)
- Delivery systems for gene therapy (2 links)
- Dental pulp stem cells (2 links)
- Epithelial cell rests of Malassez (2 links)
- Gene Therapy (2 links)
- HIV and Gene therapy (2 links)
- Human tooth development (2 links)
- Polyphyodont (2 links)
- Promotion of natural tooth repair by small molecule GSK3 antagonists (2 links)
- Regenerative endodontics (2 links)
- Socket preservation (2 links)
- Tooth Regeneration (2 links)
- Sequencing Methods (2 links)
- Algorithm (2 links)
- '''Sequence ''''''alignment (2 links)
- Genome ''''''sequencing (2 links)
- Genomics intro (2 links)
- Is Darwinian evolution correct? (2 links)
- Nanopore ''''''sequencing (2 links)
- Sanger genome sequencing (2 links)
- Sequence (2 links)
- The origin of Korean people using genome data (2 links)
- Whale genome analysis (2 links)
- Whale shark genome analysis (2 links)
- Geromics: Aging as a disease (2 links)
- Geromics: Stem cell exhaustion (2 links)
- Molecular mechanisms of aging -1 (DNA damage and telomere attrition) (2 links)