Add to ORKGThe newest version of MUMmer easily handles comparisons of large eukaryotic genomes at varying evolutionary distances, as demonstrated by applications to multiple genomes. Two new graphical viewing tools provide alternative ways to analyze genome alignments. The new system is the first version of MUMmer to be released as open-source software. This allows other developers to contribute to the code base and freely redistribute the code. The MUMmer sources are available at http://www.tigr.org/software/mummer
Summary: We make available a large cross-comparison for 16 of the completely sequenced genomes and a...
Comparative genomics focuses on comparing the catalog of genomic elements of whole genome sequences ...
Due to major breakthroughs in sequencing technologies throughout the last decades, the time and cost...
Comparisons of whole genomes can yield important insights into the evolution of genome structure, su...
Genome sequence comparisons of exponentially growing data sets form the foundation for the comparati...
The eclosion of data acquisition technologies has shifted the bottleneck in molecular biology resear...
Genome sequencing technology is generating large databases of sequence at such a rate that advances ...
Comparative genomics is useful for finding the evolutionary relationships between different organism...
Comparative Genomics focuses on elucidating the genetic differences between different species or dif...
The amount of information about genomes, both in the form of complete sequences and annotations, has...
Blom J, Albaum S, Doppmeier D, et al. EDGAR: a software framework for the comparative analysis of pr...
Motivation: As more whole genome sequences become available, comparing multiple genomes on the seque...
Motivation: Researchers now have access to large volumes of genome sequences for comparative analysi...
Motivation: Standard genome sequence alignment tools primarily designed to find one alignment per re...
Motivation: As more whole genome sequences become available, comparing multiple genomes at the seque...
Summary: We make available a large cross-comparison for 16 of the completely sequenced genomes and a...
Comparative genomics focuses on comparing the catalog of genomic elements of whole genome sequences ...
Due to major breakthroughs in sequencing technologies throughout the last decades, the time and cost...
Comparisons of whole genomes can yield important insights into the evolution of genome structure, su...
Genome sequence comparisons of exponentially growing data sets form the foundation for the comparati...
The eclosion of data acquisition technologies has shifted the bottleneck in molecular biology resear...
Genome sequencing technology is generating large databases of sequence at such a rate that advances ...
Comparative genomics is useful for finding the evolutionary relationships between different organism...
Comparative Genomics focuses on elucidating the genetic differences between different species or dif...
The amount of information about genomes, both in the form of complete sequences and annotations, has...
Blom J, Albaum S, Doppmeier D, et al. EDGAR: a software framework for the comparative analysis of pr...
Motivation: As more whole genome sequences become available, comparing multiple genomes on the seque...
Motivation: Researchers now have access to large volumes of genome sequences for comparative analysi...
Motivation: Standard genome sequence alignment tools primarily designed to find one alignment per re...
Motivation: As more whole genome sequences become available, comparing multiple genomes at the seque...
Summary: We make available a large cross-comparison for 16 of the completely sequenced genomes and a...
Comparative genomics focuses on comparing the catalog of genomic elements of whole genome sequences ...
Due to major breakthroughs in sequencing technologies throughout the last decades, the time and cost...