AbstractThe concept of breakpoint graph, known from the theory of sorting by reversal, has been successfully applied in the theory of gene assembly in ciliates. We further investigate its usage for gene assembly, and show that the graph allows for an efficient characterization of the possible orders of loop recombination operations (one of the three types of molecular operations that accomplish gene assembly) for a given gene during gene assembly. The characterization is based on spanning trees within a graph built upon the connected components in the breakpoint graph. We work in the abstract and more general setting of so-called legal strings
Summary. The intramolecular model (Ehrenfeucht et al, 2001) for gene assembly in ciliates considers ...
The simple intramolecular model for gene assembly in ciliates consists of three molecular operations...
Since the double helical structure of DNA was discovered in 1953, significant progress has been made...
AbstractThe concept of breakpoint graph, known from the theory of sorting by reversal, has been succ...
Motivated by genome rearrangements that take place in some species of ciliates we introduce a combin...
AbstractWe present in this paper a graph theoretical model of gene assembly, where (segments of) gen...
AbstractDNA processing in ciliates, a very ancient group of organisms, is among the most sophisticat...
AbstractWe describe a graph reduction operation, generalizing three graph reduction operations relat...
We use combinatorial analysis to understand DNA recombination processes that certain species of cili...
AbstractThe intramolecular model for gene assembly in ciliates considers three operations, ld, hi, a...
AbstractGene assembly in ciliates is an intricate biological process that has been studied formally ...
AbstractThe simple intramolecular model for gene assembly in ciliates is particularly interesting be...
Ciliates are small eukaryotic organisms that perform extensive genomic rearrangements during develop...
The intramolecular model for gene assembly in ciliates considers three operations, ld, hi, and dlad ...
Abstract. The intramolecular model for gene assembly in ciliates con-siders three operations, ld, hi...
Summary. The intramolecular model (Ehrenfeucht et al, 2001) for gene assembly in ciliates considers ...
The simple intramolecular model for gene assembly in ciliates consists of three molecular operations...
Since the double helical structure of DNA was discovered in 1953, significant progress has been made...
AbstractThe concept of breakpoint graph, known from the theory of sorting by reversal, has been succ...
Motivated by genome rearrangements that take place in some species of ciliates we introduce a combin...
AbstractWe present in this paper a graph theoretical model of gene assembly, where (segments of) gen...
AbstractDNA processing in ciliates, a very ancient group of organisms, is among the most sophisticat...
AbstractWe describe a graph reduction operation, generalizing three graph reduction operations relat...
We use combinatorial analysis to understand DNA recombination processes that certain species of cili...
AbstractThe intramolecular model for gene assembly in ciliates considers three operations, ld, hi, a...
AbstractGene assembly in ciliates is an intricate biological process that has been studied formally ...
AbstractThe simple intramolecular model for gene assembly in ciliates is particularly interesting be...
Ciliates are small eukaryotic organisms that perform extensive genomic rearrangements during develop...
The intramolecular model for gene assembly in ciliates considers three operations, ld, hi, and dlad ...
Abstract. The intramolecular model for gene assembly in ciliates con-siders three operations, ld, hi...
Summary. The intramolecular model (Ehrenfeucht et al, 2001) for gene assembly in ciliates considers ...
The simple intramolecular model for gene assembly in ciliates consists of three molecular operations...
Since the double helical structure of DNA was discovered in 1953, significant progress has been made...