Comparative Genomics [electronic resource] : Using Fungi as Models / edited by Per Sunnerhagen, Jure Piskur.
| Call Number | 579.135 |
| Title | Comparative Genomics Using Fungi as Models / edited by Per Sunnerhagen, Jure Piskur. |
| Physical Description | XVII, 289 p. online resource. |
| Series | Topics in Current Genetics, 1610-2096 ; 15 |
| Contents | Comparative Genomics and Gene Finding in Fungi -- Taxonomy and Phylogenetic Diversity Among the Yeasts -- Structural Features of Fungal Genomes -- Duplication of Genes and Genomes in Yeasts -- Telomeres in Fungi -- Employing Protein Size in the Functional Analysis of Orthologous Proteins, as Illustrated With the Yeast HOG Pathway -- Lager Brewing Yeast -- Genome Evolution: Lessons from Genolevures -- The Genome of the Filamentous Fungus Ashbya gossypii: Annotation and Evolutionary Implications -- Schizosaccharomyces pombe Comparative genomics; from Sequence to Systems. |
| Summary | Fungal comparative genomics started in 2000 by the genome sequencing of several yeast species other than the canonical Saccharomyces cerevisiae. Since then, over 30 fungal genome sequences have become available. This set represents a total evolutionary divergence comparable to that between vertebrates and arthropods, but also contains closely related genomes. This volume describes how we can use this set of genomes to trace large and small-scale events in genome evolution, to extract information about highly conserved and less conserved sequence elements, and to develop novel methods in genomics that will have an impact on genomics at large. |
| Added Author | Sunnerhagen, Per. editor. Piskur, Jure. editor. SpringerLink (Online service) |
| Subject | LIFE SCIENCES. BIOTECHNOLOGY. BIOCHEMISTRY. MICROBIOLOGY. MICROBIAL GENETICS. Microbial genomics. Life Sciences. Microbial Genetics and Genomics. Biochemistry, general. Microbiology. Biotechnology. |
| Multimedia |
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| Summary | Fungal comparative genomics started in 2000 by the genome sequencing of several yeast species other than the canonical Saccharomyces cerevisiae. Since then, over 30 fungal genome sequences have become available. This set represents a total evolutionary divergence comparable to that between vertebrates and arthropods, but also contains closely related genomes. This volume describes how we can use this set of genomes to trace large and small-scale events in genome evolution, to extract information about highly conserved and less conserved sequence elements, and to develop novel methods in genomics that will have an impact on genomics at large. |
| Contents | Comparative Genomics and Gene Finding in Fungi -- Taxonomy and Phylogenetic Diversity Among the Yeasts -- Structural Features of Fungal Genomes -- Duplication of Genes and Genomes in Yeasts -- Telomeres in Fungi -- Employing Protein Size in the Functional Analysis of Orthologous Proteins, as Illustrated With the Yeast HOG Pathway -- Lager Brewing Yeast -- Genome Evolution: Lessons from Genolevures -- The Genome of the Filamentous Fungus Ashbya gossypii: Annotation and Evolutionary Implications -- Schizosaccharomyces pombe Comparative genomics; from Sequence to Systems. |
| Subject | LIFE SCIENCES. BIOTECHNOLOGY. BIOCHEMISTRY. MICROBIOLOGY. MICROBIAL GENETICS. Microbial genomics. Life Sciences. Microbial Genetics and Genomics. Biochemistry, general. Microbiology. Biotechnology. |
| Multimedia |