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 250 results in range #1 to #250.

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  1. BioPerl‏‎ (11 links)
  2. What is sequencing?‏‎ (10 links)
  3. Cancer research‏‎ (9 links)
  4. Computation‏‎ (9 links)
  5. Fundamentals of genomics‏‎ (9 links)
  6. Heatlthcare‏‎ (9 links)
  7. Linux‏‎ (9 links)
  8. What are DNA and RNA?‏‎ (9 links)
  9. What is a reference?‏‎ (9 links)
  10. What is the meaning of genotype, envirotype, and phenotype‏‎ (8 links)
  11. Major theories of genomics‏‎ (7 links)
  12. What are key technologies of genomics?‏‎ (7 links)
  13. What are the most important things in genomics?‏‎ (7 links)
  14. What are the principles of genomics?‏‎ (7 links)
  15. What is the future of genomics?‏‎ (7 links)
  16. What is the philosophy of genomics?‏‎ (7 links)
  17. What specific problems are in genomics?‏‎ (7 links)
  18. Dynamic programming‏‎ (6 links)
  19. Genome Reading‏‎ (6 links)
  20. What are palindromes?‏‎ (6 links)
  21. What are repeats?‏‎ (6 links)
  22. Cancer genomes‏‎ (5 links)
  23. Enviromics‏‎ (5 links)
  24. Evolution‏‎ (5 links)
  25. Genomes and aging‏‎ (5 links)
  26. BLOSUM‏‎ (4 links)
  27. Computers for genomics‏‎ (4 links)
  28. Gap penalty‏‎ (4 links)
  29. Genome Assembly‏‎ (4 links)
  30. Indel‏‎ (4 links)
  31. Matrix (mathematics)‏‎ (4 links)
  32. Nucleotide‏‎ (4 links)
  33. Optimal matching‏‎ (4 links)
  34. Point accepted mutation‏‎ (4 links)
  35. Protein‏‎ (4 links)
  36. Sequence mining‏‎ (4 links)
  37. Smith–Waterman algorithm‏‎ (4 links)
  38. Template:Cite book‏‎ (4 links)
  39. Template:Cite journal‏‎ (4 links)
  40. Template:Cite web‏‎ (4 links)
  41. Template:Reflist‏‎ (4 links)
  42. Array data structure‏‎ (3 links)
  43. Bellman equation‏‎ (3 links)
  44. Bioinformatics course‏‎ (3 links)
  45. Camera resectioning‏‎ (3 links)
  46. Computer stereo vision‏‎ (3 links)
  47. Craig Venter‏‎ (3 links)
  48. DNA sequences‏‎ (3 links)
  49. Distortions‏‎ (3 links)
  50. Dynamic time warping‏‎ (3 links)
  51. Embedded systems‏‎ (3 links)
  52. Epigenetic ''''''sequencing‏‎ (3 links)
  53. Genome Research Foundation‏‎ (3 links)
  54. Hirschberg's algorithm‏‎ (3 links)
  55. Levenshtein distance‏‎ (3 links)
  56. Method of Four Russians‏‎ (3 links)
  57. Michael J. Fischer‏‎ (3 links)
  58. Phenome‏‎ (3 links)
  59. Pixels‏‎ (3 links)
  60. Please click here and sign your name to petition the governments of the world to sequence genomes free of charge‏‎ (3 links)
  61. Real-time computing‏‎ (3 links)
  62. Recursion‏‎ (3 links)
  63. Scan lines‏‎ (3 links)
  64. Similarity matrix‏‎ (3 links)
  65. String (computer science)‏‎ (3 links)
  66. Vladimir Levenshtein‏‎ (3 links)
  67. Who are Koreans?‏‎ (3 links)
  68. File:ParallelNeedlemanAlgorithm.pdf‏‎ (3 links)
  69. Template:-‏‎ (3 links)
  70. Template:DNA sequence‏‎ (3 links)
  71. Template:External links‏‎ (3 links)
  72. Template:Infobox algorithm‏‎ (3 links)
  73. Template:Math‏‎ (3 links)
  74. Template:Mvar‏‎ (3 links)
  75. Template:Strings‏‎ (3 links)
  76. Template:Technical‏‎ (3 links)
  77. '''Sequence ''''''alignment‏‎ (2 links)
  78. 454 Life Sciences‏‎ (2 links)
  79. ACLARA BioSciences, Inc.‏‎ (2 links)
  80. Acacia Biosciences‏‎ (2 links)
  81. Acadia Pharmaceuticals‏‎ (2 links)
  82. Advanced Center for Genome Technology‏‎ (2 links)
  83. Align two protein sequences using a dynamic programming method in Perl by MJ‏‎ (2 links)
  84. Alzheimer genome‏‎ (2 links)
  85. Amyotrophic lateral sclerosis‏‎ (2 links)
  86. Ancestry‏‎ (2 links)
  87. Animal genome‏‎ (2 links)
  88. Articles, news‏‎ (2 links)
  89. Beta‏‎ (2 links)
  90. BioPython‏‎ (2 links)
  91. BioRuby‏‎ (2 links)
  92. Biology‏‎ (2 links)
  93. Books‏‎ (2 links)
  94. CRISPR‏‎ (2 links)
  95. Comparing 7 billion human genomes with computers‏‎ (2 links)
  96. Create a flat text file database of protein sequences with hash function in Perl by MJ‏‎ (2 links)
  97. DNA and sequence alignment‏‎ (2 links)
  98. DNAgenotek.com‏‎ (2 links)
  99. DeCODE‏‎ (2 links)
  100. Disclaimer‏‎ (2 links)
  101. Etc.‏‎ (2 links)
  102. GATK‏‎ (2 links)
  103. Genealogy‏‎ (2 links)
  104. Genetic code‏‎ (2 links)
  105. GenomeCare‏‎ (2 links)
  106. Genome ''''''sequencing‏‎ (2 links)
  107. Genome reference‏‎ (2 links)
  108. Genomics lecture‏‎ (2 links)
  109. Genotyping‏‎ (2 links)
  110. Geromics: Aging as a disease‏‎ (2 links)
  111. Geromics course‏‎ (2 links)
  112. Geromics course books and references‏‎ (2 links)
  113. Geromics course homework‏‎ (2 links)
  114. HelloGenome‏‎ (2 links)
  115. How to Study Geromics‏‎ (2 links)
  116. How we produce genomic big data?‏‎ (2 links)
  117. Human Genome Project‏‎ (2 links)
  118. Illumina User Group meeting in Phuket 2010 abstract by Theragen BiO Insititute‏‎ (2 links)
  119. Immune genome‏‎ (2 links)
  120. In a multi-sequence FASTA file, produce statistics such as sequence number, average seq length, GC content, AT content, etc by MJ‏‎ (2 links)
  121. Is Darwinian evolution correct?‏‎ (2 links)
  122. Jeongmin Oh‏‎ (2 links)
  123. Jong's Corean CV‏‎ (2 links)
  124. Jong's research articles format 2‏‎ (2 links)
  125. Lecture note‏‎ (2 links)
  126. Lectures‏‎ (2 links)
  127. List of fully sequenced genomes‏‎ (2 links)
  128. Major theories of geromics‏‎ (2 links)
  129. Mapping the population stratification with government and company funds for free genotyping throughout the world‏‎ (2 links)
  130. Merck‏‎ (2 links)
  131. Methylation sequencing‏‎ (2 links)
  132. Microsoft‏‎ (2 links)
  133. Mitogenomics‏‎ (2 links)
  134. Molecular mechanisms of aging -1 (DNA damage and telomere attrition)‏‎ (2 links)
  135. Multiomics‏‎ (2 links)
  136. Nanopore ''''''sequencing‏‎ (2 links)
  137. Nanopore sequencing‏‎ (2 links)
  138. Natural selection‏‎ (2 links)
  139. Omics Course Grading‏‎ (2 links)
  140. Omics course‏‎ (2 links)
  141. Omics course homework guide‏‎ (2 links)
  142. Paper‏‎ (2 links)
  143. Pfizer‏‎ (2 links)
  144. Phamacogenomics‏‎ (2 links)
  145. Phylogenomics‏‎ (2 links)
  146. Pinpointing persons who represent in the population clusters and genotype them for their families and groups‏‎ (2 links)
  147. Present experimental designs‏‎ (2 links)
  148. Present how you executed team plans‏‎ (2 links)
  149. Present hypotheses‏‎ (2 links)
  150. Present results scientifically‏‎ (2 links)
  151. Present strategies‏‎ (2 links)
  152. Present their problems‏‎ (2 links)
  153. Programming‏‎ (2 links)
  154. Proteomics Wonwoo Jeong‏‎ (2 links)
  155. Question‏‎ (2 links)
  156. Reference‏‎ (2 links)
  157. Roots‏‎ (2 links)
  158. SRA008370‏‎ (2 links)
  159. Sanger genome sequencing‏‎ (2 links)
  160. Scientific result‏‎ (2 links)
  161. Self-evaluation Paper‏‎ (2 links)
  162. Sns links‏‎ (2 links)
  163. Standard genome reference‏‎ (2 links)
  164. The origin of Korean people using genome data‏‎ (2 links)
  165. Trait‏‎ (2 links)
  166. Turing machine‏‎ (2 links)
  167. University of Toronto‏‎ (2 links)
  168. Video files‏‎ (2 links)
  169. Whale genome analyses‏‎ (2 links)
  170. Whale genome analysis‏‎ (2 links)
  171. Whale shark genome analysis‏‎ (2 links)
  172. What are key technologies of geromics?‏‎ (2 links)
  173. What are the most important things in geromics?‏‎ (2 links)
  174. What are the principles of geromics?‏‎ (2 links)
  175. What is a gerome?‏‎ (2 links)
  176. What is bioinformatics?‏‎ (2 links)
  177. What is the future of geromics?‏‎ (2 links)
  178. What is the philosophy of geromics?‏‎ (2 links)
  179. What specific problems are in geromics?‏‎ (2 links)
  180. $0 Genome Project‏‎ (1 link)
  181. 1. Align three DNA sequences using Perl‏‎ (1 link)
  182. 1. 그거 연구..‏‎ (1 link)
  183. 10. amyotrophic lateral sclerosis 루게릭병‏‎ (1 link)
  184. 11. 필리핀 토착병‏‎ (1 link)
  185. 12. Immune Therapy‏‎ (1 link)
  186. 13. 코끼리는 TP53 20 COPY 가지고 있으며, 사람은 1COPY를 가지고 있다.‏‎ (1 link)
  187. 1st generation‏‎ (1 link)
  188. 2. Bio programming‏‎ (1 link)
  189. 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)
  190. 2. Pick 5 protein sequences and predict their secondary structures using available prediction programs MJ‏‎ (1 link)
  191. 2. 저거 연구..‏‎ (1 link)
  192. 2. 최근 조사된 자료에 따르면 현재 우리나라는 전 세계적으로 대장암 발병률이 가장 높은 국가로 알려졌다. 대장암 발병률이 우리나라에서 특히 더 높은 이유‏‎ (1 link)
  193. 2016.6.10‏‎ (1 link)
  194. 20170526 class lecture note‏‎ (1 link)
  195. 20180504 ttest in perl‏‎ (1 link)
  196. 2024 Geromics Students Folder‏‎ (1 link)
  197. 2nd generation‏‎ (1 link)
  198. 3‏‎ (1 link)
  199. 3. Produce a web page using PHP‏‎ (1 link)
  200. 3. 췌장암 저비용 조기 진단 키트‏‎ (1 link)
  201. 3rd Millennium‏‎ (1 link)
  202. 3rd generation‏‎ (1 link)
  203. 4‏‎ (1 link)
  204. 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)
  205. 4. Produce a database of aging-related genes‏‎ (1 link)
  206. 5‏‎ (1 link)
  207. 5. Find the complementary sequence of a DNA string‏‎ (1 link)
  208. 5. Obesity 와 암 연관성 관련변이‏‎ (1 link)
  209. 5. proteomics‏‎ (1 link)
  210. 5/13‏‎ (1 link)
  211. 6. 당뇨와 암 연관성 관련변이‏‎ (1 link)
  212. 7. Align two protein sequences using a dynamic programming method in Perl MJ‏‎ (1 link)
  213. 7. 담배와 암 연관성 관련변이‏‎ (1 link)
  214. 8. aging 과 연령별 암 genome, 연관성 관련변이‏‎ (1 link)
  215. 9) Creating a flat text file database of protein sequences with hash function in Perl‏‎ (1 link)
  216. 9. Create a flat text file database of protein sequences with hash function in Perl MJ‏‎ (1 link)
  217. 9. 동양과 서양 암 관련 유전변이 차이‏‎ (1 link)
  218. ABI‏‎ (1 link)
  219. AMOS‏‎ (1 link)
  220. Aber Genomic Computing‏‎ (1 link)
  221. Accelrys‏‎ (1 link)
  222. Access http://koreanreference.org/home/index.html and search for TERT HUMAN DNA region‏‎ (1 link)
  223. Access http://string-db.org/ and find all the interaction partners of TERT HUMAN protein‏‎ (1 link)
  224. Acero‏‎ (1 link)
  225. Active site‏‎ (1 link)
  226. Advanced Genomics 2021 Announcements‏‎ (1 link)
  227. Advanced Genomics 2021 Homework‏‎ (1 link)
  228. Advanced Genomics course attendance check page 2021‏‎ (1 link)
  229. Ageing‏‎ (1 link)
  230. AgileBio‏‎ (1 link)
  231. Aging related genomics in Advanced Genomics course‏‎ (1 link)
  232. Agrogenomics‏‎ (1 link)
  233. Albinism‏‎ (1 link)
  234. Align two protein sequences using a dynamic programming method in Perl‏‎ (1 link)
  235. Alignment-free sequence analysis‏‎ (1 link)
  236. Alksdfj;lkajdklfaj‏‎ (1 link)
  237. All: Parts 1, 2 and 3 (!No Pictures!) (95/02/23 - 69k)‏‎ (1 link)
  238. All the videos for Geromics 2024 in one big page‏‎ (1 link)
  239. Allometra‏‎ (1 link)
  240. Alternative splicing‏‎ (1 link)
  241. Amino acid‏‎ (1 link)
  242. Analyzing 7 billion people‏‎ (1 link)
  243. Ancestors‏‎ (1 link)
  244. Ancestory‏‎ (1 link)
  245. Ancestry com‏‎ (1 link)
  246. Ancient genome analyses in Advanced Genomics course‏‎ (1 link)
  247. Animal genomes‏‎ (1 link)
  248. Anthropogenomics‏‎ (1 link)
  249. Anti DNA Antibody‏‎ (1 link)
  250. Antibody Polyclonal Production‏‎ (1 link)

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