eLS

eLS

Online ISBN: 9780470015902

DOI: 10.1002/047001590X

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  1. Biochemistry
  2. Bioethics & Philosophy
  3. Cell Biology
  4. Developmental Biology
  5. Ecology
  6. Evolution & Diversity of Life
  7. Genetics & Disease
  8. Immunology
  9. Microbiology
  10. Molecular Biology
  11. Neuroscience
  12. Plant Science
  13. Science & Society
  14. Structural Biology
    1. Bioinformatics
    2. Cell Motility and Transport
    3. Electron Microscopy
    4. General Structural Biology
    5. Lipids and Membrane Structure
    6. Mass Spectrometry
    7. Membrane Proteins
    8. Nuclear Magnetic Resonance
    9. Nucleic Acid Structure
      1. Alterations in DNA Methylation Resulting from Exposure to Chemical Carcinogens
      2. Alternative Splicing: Cell-type-specific and Developmental Control
      3. Antisense Nucleic Acids in Biotechnology
      4. Archaeal Ribosomes
      5. Artificial Chromosomes
      6. Banding Techniques
      7. Base Flipping
      8. Base Pairing in DNA: Unusual Patterns
      9. Base Pairing in RNA: Unusual Patterns
      10. Basepair (bp)
      11. Biased Gene Conversion and Its Impact on Genome Evolution
      12. Biological Macromolecules: UV-visible Spectrophotometry
      13. Biomolecular NMR Spectroscopy of Ribonucleic Acids
      14. BLAST Algorithm
      15. Blocks of Limited Haplotype Diversity
      16. Cancer Cytogenetics
      17. Caps on Eukaryotic mRNAs
      18. Cell Cycle: Chromosomal Organization
      19. Cellular RNAs: Varied Roles
      20. Centromeric Sequences and Sequence Structures
      21. Chromatin Diminution
      22. Chromatin in the Cell Nucleus: Higher-order Organisation
      23. Chromatin Recognition Protein Modules: The PHD Finger
      24. Chromosomal Bands and Sequence Features
      25. Chromosomal Genetic Disease: Structural Aberrations
      26. Chromosome
      27. Chromosome Condensation and Cohesion
      28. Chromosome Mechanics
      29. Chromosome Rearrangements
      30. Chromosome Structures: Visualization
      31. Chromosome-specific Repeats (Low-copy Repeats)
      32. Chromosomes and Chromatin
      33. Chromosomes: Nonhistone Proteins
      34. Clinical and Phenotypic Relevance of cis-Acting Regulatory Polymorphisms
      35. Clustering of Highly Expressed Genes in the Human Genome
      36. Comparative Cytogenetics Technologies
      37. Contig Assembly
      38. CpG Islands and DNA Methylation
      39. Cre–lox-Inducible Gene Targeting
      40. Crystallisation of Nucleic Acids
      41. Crystallization of Protein–DNA Complexes
      42. Cytogenetic Techniques
      43. DNA Chemical Instability
      44. DNA Chip Revolution
      45. You have free access to this content
        DNA Chips and Microarrays
      46. DNA Cloning
      47. DNA Helicase-deficiency Disorders
      48. DNA Looping and Transcription Regulation
      49. DNA Mechanics and Statistical Mechanics
      50. DNA Methylation
      51. DNA Packaging in Sperm
      52. DNA Polymerase Fidelity Mechanisms
      53. You have free access to this content
        DNA Recombination
      54. You have free access to this content
        DNA Replication
      55. You have free access to this content
        DNA Replication Fidelity
      56. DNA Replication Origins
      57. DNA Sequencing
      58. DNA Structure
      59. DNA Structure Changes Coupled to Protein Binding
      60. DNA Structure: A-, B- and Z-DNA Helix Families
      61. DNA Structure: Sequence Effects
      62. DNA Topology: Fundamentals
      63. DNA Topology: Supercoiling and Linking
      64. DNA Transposition: Classes and Mechanisms
      65. DNA: Mechanical Breakage
      66. DNA: Natural Single-stranded
      67. DNA/RNA Flexibility
      68. Engineered Enzymes
      69. Enhancers
      70. Environmental Carcinogens and Mutagens
      71. Eukaryotic Replication Origins and Initiation of DNA Replication
      72. Exonic Splicing Enhancers
      73. Exosome Complex
      74. Flow-sorted Chromosomes
      75. Fluorescence In Situ Hybridization (FISH) Techniques
      76. Fluorescence Microscopy
      77. Fragile Sites
      78. Gel Electrophoresis
      79. Gene Conversion
      80. Gene Distribution in Human Chromosomes
      81. Gene Duplication and Redundancy
      82. Gene Mapping and Positional Cloning
      83. You have free access to this content
        Gene Structure and Organization
      84. Gene Synthesis for Protein Production
      85. Genetic and Physical Map Correlation
      86. Genetic Maps: Integration
      87. Genetic Networks
      88. Genome Sequence Analysis
      89. Genome, Proteome and the Quest for a Full Structure–Function Description of an Organism
      90. Genomic Rearrangements: Mutational Mechanisms
      91. Global Alignment
      92. Hammerhead Ribozymes
      93. Heterochromatin: Constitutive
      94. Hidden Markov Models
      95. Histone Acetylation: Long-range Patterns in the Genome
      96. Histones
      97. Homologous DNA Interactions in Interphase: Spatial Organization of Interphase Nucleus
      98. Imprinting (Mammals)
      99. Initiator tRNAs in Bacteria and Eukaryotes
      100. Integrase Class Site-specific Recombinases
      101. Intron Homing
      102. Intronless Genes
      103. Introns: Group I Structure and Function
      104. Kilobase Pair (kbp)
      105. Ligation: Theory and Practice
      106. Linkage and Crossing over
      107. Long Interspersed Nuclear Elements (LINEs)
      108. Macromolecular Interactions: Aptamers
      109. Macromolecular Interactions: Light Scattering
      110. Macromolecular Structure Determination by X-ray Crystallography
      111. Magnetic Tweezers
      112. Matrix-associated Regions (MARs) and Scaffold Attachment Regions (SARs)
      113. Mechanism of Single-Stranded DNA Transposition: A Structural Perspective
      114. Megabase Pair (Mbp)
      115. Megasatellite DNA
      116. Messenger RNA in Eukaryotes
      117. Messenger RNA in Prokaryotes
      118. Messenger RNA Splicing Signals
      119. You have free access to this content
        Messenger RNA: Interaction with Ribosomes
      120. Mitosis: Chromosomal Rearrangements
      121. mRNA Formation: 3′ End
      122. mRNA Splicing: Regulated and Differential
      123. mRNA Untranslated Regions (UTRs)
      124. Negative Regulatory Elements (NREs)
      125. Nick Translation
      126. Nuclear Magnetic Resonance (NMR) Spectroscopy: Structure Determination of Proteins and Nucleic Acids
      127. Non-B DNA Structure and Mutations Causing Human Genetic Disease
      128. Nonprotein-coding Genes
      129. Nuclear Receptor Genes
      130. Nucleic Acid Backbone Structure Variations: Peptide Nucleic Acids
      131. You have free access to this content
        Nucleic Acids as Genetic Material
      132. Nucleic Acids: General Properties
      133. Nucleic Acids: Hybridisation
      134. Nucleic Acids: Subtractive Hybridization
      135. Nucleic Acids: Thermal Stability and Denaturation
      136. Nucleolus
      137. Nucleosomes: Structure and Function
      138. Nucleotides: Structure and Properties
      139. Nucleotides: Uncommon, Modified and Synthetic
      140. Plant Nuclear Genome Composition
      141. Polymerase Chain Reaction (PCR): Specialised Applications
      142. Primary Protein and Nucleic Acid Three-dimensional Structure Databases
      143. Prokaryotic DNA-binding Proteins
      144. Prokaryotic Replication Origins: Structure and Function in the Initiation of DNA Replication
      145. Promoters
      146. Protein Isoforms and Isozymes
      147. Protein Synthesis Initiation in Bacteria
      148. Protein–DNA Complexes: Nonspecific
      149. Protein–DNA Complexes: Specific
      150. Protein–DNA Interactions: Polyelectrolyte Effects
      151. Protein–DNA Interactions: Structure and Energetics
      152. Protein–Nucleic Acid Interaction: Major Groove Recognition Determinants
      153. Protein–RNA Interactions
      154. Pulsed-field Gel Electrophoresis
      155. Recombinant DNA
      156. Regulatory RNA
      157. Repetitive Elements: Bioinformatic Identification, Classification and Analysis
      158. Representational Difference Analysis
      159. Repression Mechanism
      160. Restriction Enzymes
      161. Retroviral Repeat Sequences
      162. Ribosomes and Ribosomal Proteins: More Than Just ‘Housekeeping’
      163. RNA Editing
      164. You have free access to this content
        RNA Interactions in mRNA Splicing
      165. RNA Secondary Structure Prediction
      166. RNA Structural Motifs
      167. RNA Structure
      168. RNA Structure: Pseudoknots
      169. RNA Structure: Roles of Divalent Metal Ions
      170. RNA Structure: Tetraloops
      171. RNA Tertiary Structure Prediction: Computational Techniques
      172. Role of Bioinformatics in Genome-wide Association Studies
      173. The Role of Insulators in Genome Organization and Gene Expression
      174. rRNA Structure
      175. Sequence Accuracy and Verification
      176. Sequence Alignment
      177. Sequence Assembly
      178. Sequence Similarity
      179. Short Interspersed Elements (SINEs)
      180. Single Nucleotide Polymorphisms (SNPs): Identification and Scoring
      181. Site-specific Recombination
      182. Small Nuclear Ribonucleoproteins (snRNPs)
      183. Small Regulatory RNAs in Bacteria
      184. Small-Angle Scattering of Neutrons and X-Rays
      185. Smith–Waterman Algorithm
      186. snoRNAs: Biogenesis, Structure and Function
      187. Splice Sites
      188. Spliceosomal Machinery
      189. Spliceosome
      190. Supercoiled DNA: Structure
      191. Telomere
      192. Telomeres
      193. Telomeres in Cell Function: Cancer and Ageing
      194. Telomeres: Protection and Maintenance
      195. Telomeric and Subtelomeric Repeat Sequences
      196. Termination of Replication in Bacteria
      197. Tissue-specific Locus Control: Structure and Function
      198. Topoisomerases
      199. Transcript Elongation and Termination in Bacteria
      200. Transcription Factors
      201. The Transcription/DNA Repair Factor TFIIH
      202. Transfer RNA
      203. Transfer RNA Structure
      204. Transfer RNA Synthesis and Regulation
      205. Translation Control by Proteins
      206. Translation Control by RNA
      207. Transposases and Integrases
      208. Transposons
      209. Transposons: Eukaryotic
      210. Transposons: Prokaryotic
      211. 5′-UTRs and Regulation
      212. 3′ UTRs and Regulation
      213. Viruses: Genomes and Genomics
      214. Watson–Crick Base Pairs and Nucleic Acids Stability
      215. X and Y Chromosomes: Homologous Regions
    10. Optical Microscopy
    11. Protein Folding, Evolution and Degradation
    12. Protein Structure
    13. Replication and Recombination
    14. Sample Preparation in Structural Biology
    15. Signal Transduction
    16. Single Molecule Analysis
    17. Spectrophotometric Methods
    18. Structure of Cell-Cell Interactions
    19. Transcription
    20. Translation and Protein synthesis
    21. Virus Structure and Function
    22. X-Ray Crystallography
  15. Virology

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