Willing, Eyla: On Distance and Sorting of the Double Cut-and-Join and the Inversion-*indel* Model. 2018
Inhalt
- 1 Introduction
- 2 Important Data Structures and Models
- 2.1 Insertions and Deletions
- 2.1.1 Core Genomes and Unique Markers
- 2.1.2 A First Upper Bound to the Distance with Unique Markers
- 2.1.3 Extremities, Adjacencies and Labels
- 2.1.4 The Indel Operation on G-Adjacencies
- 2.2 Graph Structures for Representing Genomic Relations
- 2.2.1 Breakpoint Graph
- 2.2.2 Adjacency Graph
- 2.2.3 Master Graph
- 2.2.4 Properties of Cycles
- 2.2.5 A Note on Relations between the Types of Graphs
- 2.3 The Double Cut-and-Join Model
- 3 Uniform Sampling of DCJ Sorting Scenarios
- 3.1 Sampling by Sorting Components Individually
- 3.1.1 Solution Space for DCJ Sorting without Recombinations
- 3.1.2 Bundling Cases with Identical Distance Values
- 3.1.3 Bundling Cases with Identical Change(s) in Distance Value
- 3.1.4 Sampling Weights for a Distance-Splitgroup-Pair
- 3.1.5 Uniform Sampling of an Optimal DCJ Operation
- 3.2 Implementation into UniMoG
- 3.3 Evaluation
- 3.4 Discussion
- 4 DCJ-indel Model on Circular Genomes Via DCJ Distance
- 4.1 Generalising the DCJ Model and Distance
- 4.2 DCJ and indel Operations on a Labelled Cycle
- 4.3 DCJ Operations on a Pair of Labelled Cycles
- 4.4 Distance
- 4.5 On Sorting With Indels
- 5 Inversion-indel Distance Problems
- 5.1 Distance Relations
- 5.2 Preliminaries
- 5.2.1 Effect of an Inversion on Cycles
- 5.2.2 Component Groups
- 5.2.3 Component Group Relations
- 5.2.4 Effect of an Inversion on Component Groups
- 5.3 Resolving Unlabelled Good Components
- 5.4 Resolving Labelled Good Components
- 5.5 Handling AB-Cycles and AB-Component Groups
- 5.6 The Labelled Component Group Tree
- 5.7 Chapter Summary
- 6 Optimal Tree Covers of To
- 6.1 Covering Paths and Tree Covers
- 6.2 Properties of To Influencing the Cost of Optimal Covers
- 6.3 Heterogeneous Paths
- 6.4 The Residual Tree Tr
- 6.4.1 Residual Trees With One Type of Leaf Labelling
- 6.4.2 Residual Trees With Two Types of Leaf Labelling
- 6.4.3 Residual Trees With Three Types of Leaf Labelling
- 6.4.4 Residual Trees With Four Types of Leaf Labelling
- 6.4.5 Strategy for Reduction in the General Case
- 6.5 Chapter Summary
- 7 Inversion-indel Distance and Sorting
- 7.1 The General Inversion-indel Distance
- 7.2 Sorting with Inversions, Insertions and Deletions
- 7.3 Model Limitations and Extensions
- 8 Final Remarks
- Bibliography
- Notations
- Appendix
- A Additional Examples
- A.1 Unsafe Covering Paths
- A.2 Non-Separated Labelled Tree
- A.3 Separations
- A.4 Short and Long e-Branches
- A.5 Counter-Example for Reduction of AB-Leaves
- A.6 The Number of Separating Vertices Matters
- B Bounds to an Optimal Tree Cover With Restraints
- C Cover Descriptions
- C.1 Nomenclature
- C.2 Trees with Two Leaf Types
- C.3 Trees with Three Leaf Types
- C.4 Trees with Four Leaf Types
- D Detailed Sampling Results for sty-stm Comparison of Y-Proteobacteria