Wanted pages
From Biolecture.org
List of non-existing pages with the most links to them, excluding pages which only have redirects linking to them. For a list of non-existent pages that have redirects linking to them, see the list of broken redirects.
Showing below up to 500 results in range #1 to #500.
View (previous 500 | next 500) (20 | 50 | 100 | 250 | 500)
- BioPerl (11 links)
- What is sequencing? (10 links)
- Cancer research (9 links)
- Computation (9 links)
- Fundamentals of genomics (9 links)
- Heatlthcare (9 links)
- Linux (9 links)
- What are DNA and RNA? (9 links)
- What is a reference? (9 links)
- What is the meaning of genotype, envirotype, and phenotype (8 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)
- Dynamic programming (6 links)
- Genome Reading (6 links)
- What are palindromes? (6 links)
- What are repeats? (6 links)
- Cancer genomes (5 links)
- Enviromics (5 links)
- Evolution (5 links)
- Genomes and aging (5 links)
- BLOSUM (4 links)
- Computers for genomics (4 links)
- Gap penalty (4 links)
- Genome Assembly (4 links)
- Indel (4 links)
- Matrix (mathematics) (4 links)
- Nucleotide (4 links)
- Optimal matching (4 links)
- Point accepted mutation (4 links)
- Protein (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)
- Array data structure (3 links)
- Bellman equation (3 links)
- Bioinformatics course (3 links)
- Camera resectioning (3 links)
- Computer stereo vision (3 links)
- Craig Venter (3 links)
- DNA sequences (3 links)
- Distortions (3 links)
- Dynamic time warping (3 links)
- Embedded systems (3 links)
- Epigenetic ''''''sequencing (3 links)
- Genome Research Foundation (3 links)
- Hirschberg's algorithm (3 links)
- Levenshtein distance (3 links)
- Method of Four Russians (3 links)
- Michael J. Fischer (3 links)
- Phenome (3 links)
- Pixels (3 links)
- Please click here and sign your name to petition the governments of the world to sequence genomes free of charge (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)
- Who are Koreans? (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)
- '''Sequence ''''''alignment (2 links)
- 454 Life Sciences (2 links)
- ACLARA BioSciences, Inc. (2 links)
- Acacia Biosciences (2 links)
- Acadia Pharmaceuticals (2 links)
- Advanced Center for Genome Technology (2 links)
- Align two protein sequences using a dynamic programming method in Perl by MJ (2 links)
- Alzheimer genome (2 links)
- Amyotrophic lateral sclerosis (2 links)
- Ancestry (2 links)
- Animal genome (2 links)
- Articles, news (2 links)
- Beta (2 links)
- BioPython (2 links)
- BioRuby (2 links)
- Biology (2 links)
- Books (2 links)
- CRISPR (2 links)
- Comparing 7 billion human genomes with computers (2 links)
- Create a flat text file database of protein sequences with hash function in Perl by MJ (2 links)
- DNA and sequence alignment (2 links)
- DNAgenotek.com (2 links)
- DeCODE (2 links)
- Disclaimer (2 links)
- Etc. (2 links)
- GATK (2 links)
- Genealogy (2 links)
- Genetic code (2 links)
- GenomeCare (2 links)
- Genome ''''''sequencing (2 links)
- Genome reference (2 links)
- Genomics lecture (2 links)
- Genotyping (2 links)
- Geromics: Aging as a disease (2 links)
- Geromics course (2 links)
- Geromics course books and references (2 links)
- Geromics course homework (2 links)
- HelloGenome (2 links)
- How to Study Geromics (2 links)
- How we produce genomic big data? (2 links)
- Human Genome Project (2 links)
- Illumina User Group meeting in Phuket 2010 abstract by Theragen BiO Insititute (2 links)
- Immune genome (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)
- Is Darwinian evolution correct? (2 links)
- Jeongmin Oh (2 links)
- Jong's Corean CV (2 links)
- Jong's research articles format 2 (2 links)
- Lecture note (2 links)
- Lectures (2 links)
- List of fully sequenced genomes (2 links)
- Major theories of geromics (2 links)
- Mapping the population stratification with government and company funds for free genotyping throughout the world (2 links)
- Merck (2 links)
- Methylation sequencing (2 links)
- Microsoft (2 links)
- Mitogenomics (2 links)
- Molecular mechanisms of aging -1 (DNA damage and telomere attrition) (2 links)
- Multiomics (2 links)
- Nanopore ''''''sequencing (2 links)
- Nanopore sequencing (2 links)
- Natural selection (2 links)
- Omics Course Grading (2 links)
- Omics course (2 links)
- Omics course homework guide (2 links)
- Paper (2 links)
- Pfizer (2 links)
- Phamacogenomics (2 links)
- Phylogenomics (2 links)
- Pinpointing persons who represent in the population clusters and genotype them for their families and groups (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)
- Programming (2 links)
- Proteomics Wonwoo Jeong (2 links)
- Question (2 links)
- Reference (2 links)
- Roots (2 links)
- SRA008370 (2 links)
- Sanger genome sequencing (2 links)
- Scientific result (2 links)
- Self-evaluation Paper (2 links)
- Sns links (2 links)
- Standard genome reference (2 links)
- The origin of Korean people using genome data (2 links)
- Trait (2 links)
- Turing machine (2 links)
- University of Toronto (2 links)
- Video files (2 links)
- Whale genome analyses (2 links)
- Whale genome analysis (2 links)
- Whale shark genome analysis (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 bioinformatics? (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)
- $0 Genome Project (1 link)
- 1. Align three DNA sequences using Perl (1 link)
- 1. 그거 연구.. (1 link)
- 10. amyotrophic lateral sclerosis 루게릭병 (1 link)
- 11. 필리핀 토착병 (1 link)
- 12. Immune Therapy (1 link)
- 13. 코끼리는 TP53 20 COPY 가지고 있으며, 사람은 1COPY를 가지고 있다. (1 link)
- 1st generation (1 link)
- 2. Bio programming (1 link)
- 2. Open a FASTA file and print it out on the screen and file again with the sequence name changed to Genomics is great (1 link)
- 2. Pick 5 protein sequences and predict their secondary structures using available prediction programs MJ (1 link)
- 2. 저거 연구.. (1 link)
- 2. 최근 조사된 자료에 따르면 현재 우리나라는 전 세계적으로 대장암 발병률이 가장 높은 국가로 알려졌다. 대장암 발병률이 우리나라에서 특히 더 높은 이유 (1 link)
- 2016.6.10 (1 link)
- 20170526 class lecture note (1 link)
- 20180504 ttest in perl (1 link)
- 2024 Geromics Students Folder (1 link)
- 2nd generation (1 link)
- 3 (1 link)
- 3. Produce a web page using PHP (1 link)
- 3. 췌장암 저비용 조기 진단 키트 (1 link)
- 3rd Millennium (1 link)
- 3rd generation (1 link)
- 4 (1 link)
- 4. Create a FASTA file with a sequence. Open it and reverse the sequence of it and print it out in another FASTA file MJ (1 link)
- 4. Produce a database of aging-related genes (1 link)
- 5 (1 link)
- 5. Find the complementary sequence of a DNA string (1 link)
- 5. Obesity 와 암 연관성 관련변이 (1 link)
- 5. proteomics (1 link)
- 5/13 (1 link)
- 6. 당뇨와 암 연관성 관련변이 (1 link)
- 7. Align two protein sequences using a dynamic programming method in Perl MJ (1 link)
- 7. 담배와 암 연관성 관련변이 (1 link)
- 8. aging 과 연령별 암 genome, 연관성 관련변이 (1 link)
- 9) Creating a flat text file database of protein sequences with hash function in Perl (1 link)
- 9. Create a flat text file database of protein sequences with hash function in Perl MJ (1 link)
- 9. 동양과 서양 암 관련 유전변이 차이 (1 link)
- ABI (1 link)
- AMOS (1 link)
- Aber Genomic Computing (1 link)
- Accelrys (1 link)
- Access http://koreanreference.org/home/index.html and search for TERT HUMAN DNA region (1 link)
- Access http://string-db.org/ and find all the interaction partners of TERT HUMAN protein (1 link)
- Acero (1 link)
- Active site (1 link)
- Advanced Genomics 2021 Announcements (1 link)
- Advanced Genomics 2021 Homework (1 link)
- Advanced Genomics course attendance check page 2021 (1 link)
- Ageing (1 link)
- AgileBio (1 link)
- Aging related genomics in Advanced Genomics course (1 link)
- Agrogenomics (1 link)
- Albinism (1 link)
- Align two protein sequences using a dynamic programming method in Perl (1 link)
- Alignment-free sequence analysis (1 link)
- Alksdfj;lkajdklfaj (1 link)
- All: Parts 1, 2 and 3 (!No Pictures!) (95/02/23 - 69k) (1 link)
- All the videos for Geromics 2024 in one big page (1 link)
- Allometra (1 link)
- Alternative splicing (1 link)
- Amino acid (1 link)
- Analyzing 7 billion people (1 link)
- Ancestors (1 link)
- Ancestory (1 link)
- Ancestry com (1 link)
- Ancient genome analyses in Advanced Genomics course (1 link)
- Animal genomes (1 link)
- Anthropogenomics (1 link)
- Anti DNA Antibody (1 link)
- Antibody Polyclonal Production (1 link)
- Antibody Structure (1 link)
- ApoCom Genomics (1 link)
- Applera corporation (1 link)
- Applera genomics initiative (1 link)
- Applied biosystems (1 link)
- Arachne (1 link)
- Archaea genomes (1 link)
- Arenay (1 link)
- Array Genetics (1 link)
- Asian Genome Project (1 link)
- Asian Variome Project (1 link)
- Associatomics (1 link)
- Audwl5065@unist.ac.kr (1 link)
- Avian influenza (1 link)
- B. Make a Perl program translating 'all' combinations of triple bases into amino acids (1 link)
- BIT 강국 대한민국 (1 link)
- BLAT (1 link)
- Base stacking (1 link)
- Be independent and critical in thinking (1 link)
- Beijing Genomics Institute (1 link)
- Benchmark (computing) (1 link)
- Big Bioinformatics Companies (1 link)
- BioDiscovery.com (1 link)
- BioInformatics - review of lectures (1 link)
- BioJava (1 link)
- BioLinux (1 link)
- BioPHP (1 link)
- Bio wiki W2- Sequncing (1 link)
- Bioinformatics Homework (1 link)
- Bioinformatics Perl Homeworks (1 link)
- Bioinformatics course 2019 UNIST Students Folder (1 link)
- Bioinformatics portal sites (1 link)
- Biolecture education resources (1 link)
- Biology courses (1 link)
- Bioprogramming 180504 (1 link)
- Bowtie (sequence analysis) (1 link)
- British Genomics (1 link)
- Burrows–Wheeler transform (1 link)
- C. Pick 5 protein sequences and predict their secondary structures using available prediction programs (1 link)
- CATH (1 link)
- CEGMA (1 link)
- CLC Bio (1 link)
- CRI (1 link)
- CambrianGenomics.com (1 link)
- Cambridge (1 link)
- Canadian Genomics (1 link)
- Cancer Genomics (1 link)
- Cancer genomics (1 link)
- Canceromics and Geromics 180608 (1 link)
- Caniome (1 link)
- Cathepsin (1 link)
- Celera diagnostics (1 link)
- Celera genomics (1 link)
- Changhan's M.S thesis (1 link)
- Chapter 4 (1 link)
- Chapter 5 (1 link)
- Chemgenomics (1 link)
- Chemical genomics (1 link)
- Chemicogenomics (1 link)
- Chemogenomics (1 link)
- Chiken genome (1 link)
- Chinese Genomics (1 link)
- Class note 20180507 (1 link)
- Clustal (1 link)
- ClustalO (1 link)
- Coalescence (genetics) (1 link)
- Comparative method (linguistics) (1 link)
- Comparative modelling (1 link)
- Computational biology (1 link)
- Computational genomics (1 link)
- Computer memory (1 link)
- Computing is the key of life (1 link)
- Consensus sequence (1 link)
- Consequences (1 link)
- Conservation (genetics) (1 link)
- Conservative mutation (1 link)
- Conserved sequence (1 link)
- Contig (1 link)
- Convergence (1 link)
- Convergent evolution (1 link)
- Create a FASTA file with a sequence. Open it and reverse the sequence of it and print it out in another FASTA file (1 link)
- Create a MySQL database and add 5 protein sequences in your MySQL DB (1 link)
- Create a flat text file database of protein sequences with hash function in Perl (1 link)
- Curing Aging using genomics (Geromics) (1 link)
- Custom Organic Synthesis (1 link)
- Custom microarrays (1 link)
- D. Open and re-write one FASTA file containing one protein sequence of TERT (1 link)
- DNASTAR (1 link)
- DNA Chimera (1 link)
- DNA microarrays (1 link)
- DNA of Relationship (1 link)
- DNA repair (1 link)
- DNA testing (1 link)
- Daniyar Zhumagaliyev (1 link)
- Data set (1 link)
- Dawn Field (Centre for Ecology and Hydrology) - Activities in Environmental Bioinformatics 1 (1 link)
- DeCODE genetics (1 link)
- Deenay (1 link)
- Define an Ome (1 link)
- Definition of 20 most imprortant words in my life (1 link)
- Definition of Bioinformatics by Jong's lecture matrial (1 link)
- Definition of species (1 link)
- Demogenome (1 link)
- Descendants (1 link)
- Designer Babies: Ethical Considerations (1 link)
- Designing Insects (1 link)
- Diagnostics (1 link)
- Did Galam Seo found his study style during listening to a Genomic lecture in 2018 (1 link)
- Disease (1 link)
- Disease Risk (1 link)
- Disease association with genes (1 link)
- Disease genomics in Advanced Genomics course (1 link)
- Distance matrix (1 link)
- Dmitrii Dotsenko (1 link)
- Dna testing (1 link)
- Dot plot (bioinformatics) (1 link)
- Download TERT HUMAN sequence and search for 3D structure of it and build a 3D model using bat's TERT homolog sequence using the human 3D template (1 link)
- Drosophila melanogaster (1 link)
- Drug development (1 link)
- Drug discovery (1 link)
- Dugwoo Nam (1 link)
- E. Create a FASTA file with a sequence. Open it and reverse the sequence of it and print it out in another FASTA file (1 link)
- ELAND (1 link)
- EMBOSS (1 link)
- ERA000005 (1 link)
- EST (1 link)
- Early diagnostics of diseases using genomics (1 link)
- Ecome (1 link)
- Econogenomics (1 link)
- Edit distance (1 link)
- Engineering (1 link)
- Entelos (1 link)
- Envirome (1 link)
- Enzyme (1 link)
- Epigenetics 180601 (1 link)
- Epigenomics in Advanced Genomics course (1 link)
- Equigenomics (1 link)
- Ethnogenomics (1 link)
- Eubacteria genomes (1 link)
- Eugenomics (1 link)
- Evaluation & scoring (1 link)
- Everyone has the right not to be discriminated solely by one's own genome type and information by birth (1 link)
- Everyone has the right to protect one's own genome information by birth (1 link)
- Evolomics (1 link)
- Expressed sequence tags (1 link)
- Expressome (1 link)
- Expressomics (1 link)
- Extract a sequence MKKTGIKG from ASMKATAHQMKKTGIKGMSTYALLRL and print it out in a file (1 link)
- F. Extract a sequence MKKTGIKG from ASMKATAHQMKKTGIKGMSTYALLRL and print it out in a file (1 link)
- FASTA format (1 link)
- FM-index (1 link)
- Families of structurally similar proteins (1 link)
- Family history (1 link)
- Family trees (1 link)
- Felidome (1 link)
- Find the complementary sequence of a DNA string (1 link)
- Fishome (1 link)
- Frameshift (1 link)
- Functional genomics (1 link)
- Functome (1 link)
- Functomics (1 link)
- G. In a multi-sequence FASTA file, produce statistics such as sequence number, average seq length, GC content, AT content, etc (1 link)
- GCG (software) (1 link)
- Galam Seo SELF (1 link)
- GebomeService.org (1 link)
- GenBank (1 link)
- Gene Discovery (1 link)
- Gene annotation (1 link)
- Gene annotation esssay (1 link)
- Gene expression (1 link)
- Genealogy dna (1 link)
- Geneious (1 link)
- Generation (1 link)
- Genes (1 link)
- Genetic (1 link)
- Genetic Code Table (1 link)
- Genetic Engineering Organisms and Transgenics (1 link)
- Genetic Marker (1 link)
- Genetic Risk (1 link)
- Genetic Testing and Indigenous Populations (1 link)
- Genetic algorithm (1 link)
- Genetic genealogy database (1 link)
- Genetic profile (1 link)
- Genetic scan (1 link)
- Genetic test (1 link)
- Genetics dna (1 link)
- GenomeLibrary.net (1 link)
- GenomeLibrary.org (1 link)
- GenomeServcie.net (1 link)
- Genome Research journal (1 link)
- Genome analysis - Whale (1 link)
- Genome assembly (1 link)
- Genome mapping program for NGS data (1 link)
- Genome privacy (1 link)
- Genome project (1 link)
- Genome scan (1 link)
- Genome sequence analysis and methods (1 link)
- Genome sequencing (1 link)
- Genomes A (1 link)
- Genomes B (1 link)
- Genomes C (1 link)
- Genomes D (1 link)
- Genomes E (1 link)
- Genomes F (1 link)
- Genomes G (1 link)
- Genomes H (1 link)
- Genomes I (1 link)
- Genomes J (1 link)
- Genomes K (1 link)
- Genomes L (1 link)
- Genomes M (1 link)
- Genomes N (1 link)
- Genomes O (1 link)
- Genomes P (1 link)
- Genomes Q (1 link)
- Genomes R (1 link)
- Genomes S (1 link)
- Genomes T (1 link)
- Genomes U (1 link)
- Genomes V (1 link)
- Genomes W (1 link)
- Genomes X (1 link)
- Genomes Y (1 link)
- Genomes Z (1 link)
- Genomics 180507 (1 link)
- Genomics 2024 Announcements (1 link)
- Genomics course attendance check page 2021 (1 link)
- Gerogenomics (1 link)
- Gerome Reading (1 link)
- Gerome Writing (1 link)
- Geromics 2024 Announcements (1 link)
- Geromics 2024 Homework (1 link)
- Geromics course homework guide (1 link)
- Geromics course papers published by Jong Bhak (1 link)
- Geromics learning resource (1 link)
- Geromics learning videos (1 link)
- Getontogenomics (1 link)
- GlaxoSmithKline (1 link)
- Global optimization (1 link)
- H. Align two protein sequences using a dynamic programming method in Perl (1 link)
- HMM (1 link)
- HW1 0513 (1 link)
- HW1 0520 (1 link)
- HW1 KSG 0603 (1 link)
- HW2 0513 (1 link)
- HW KSG 0513 (1 link)
- Hans Winkler (1 link)
- Hayoon Cho (1 link)
- Hemagglutinin (1 link)
- Heredity (1 link)