Evolution and Phylogeny of MicroRNAs - Protocols, Pitfalls, and Problems
MicroRNAs are important regulators in many eukaryotic lineages. Typical miRNAs have a length of about 22nt and are processed from precursors that form a characteristic hairpin structure. Once they appear in a genome, miRNAs are among the best-conserved elements in both animal and plant genomes. Func...
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| Published in | Methods in molecular biology (Clifton, N.J.) Vol. 2257; p. 211 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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United States
2022
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| Abstract | MicroRNAs are important regulators in many eukaryotic lineages. Typical miRNAs have a length of about 22nt and are processed from precursors that form a characteristic hairpin structure. Once they appear in a genome, miRNAs are among the best-conserved elements in both animal and plant genomes. Functionally, they play an important role in particular in development. In contrast to protein-coding genes, miRNAs frequently emerge de novo. The genomes of animals and plants harbor hundreds of mutually unrelated families of homologous miRNAs that tend to be persistent throughout evolution. The evolution of their genomic miRNA complement closely correlates with important morphological innovation. In addition, miRNAs have been used as valuable characters in phylogenetic studies. An accurate and comprehensive annotation of miRNAs is required as a basis to understand their impact on phenotypic evolution. Since experimental data on miRNA expression are limited to relatively few species and are subject to unavoidable ascertainment biases, it is inevitable to complement miRNA sequencing by homology based annotation methods. This chapter reviews the state of the art workflows for homology based miRNA annotation, with an emphasis on their limitations and open problems. |
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| AbstractList | MicroRNAs are important regulators in many eukaryotic lineages. Typical miRNAs have a length of about 22nt and are processed from precursors that form a characteristic hairpin structure. Once they appear in a genome, miRNAs are among the best-conserved elements in both animal and plant genomes. Functionally, they play an important role in particular in development. In contrast to protein-coding genes, miRNAs frequently emerge de novo. The genomes of animals and plants harbor hundreds of mutually unrelated families of homologous miRNAs that tend to be persistent throughout evolution. The evolution of their genomic miRNA complement closely correlates with important morphological innovation. In addition, miRNAs have been used as valuable characters in phylogenetic studies. An accurate and comprehensive annotation of miRNAs is required as a basis to understand their impact on phenotypic evolution. Since experimental data on miRNA expression are limited to relatively few species and are subject to unavoidable ascertainment biases, it is inevitable to complement miRNA sequencing by homology based annotation methods. This chapter reviews the state of the art workflows for homology based miRNA annotation, with an emphasis on their limitations and open problems. |
| Author | Velandia-Huerto, Cristian A Schor, Jana Yazbeck, Ali M Stadler, Peter F |
| Author_xml | – sequence: 1 givenname: Cristian A surname: Velandia-Huerto fullname: Velandia-Huerto, Cristian A email: cristian@bioinf.uni-leipzig.de organization: Bioinformatics Group, Department of Computer Science, and Interdisciplinary Center for Bioinformatics, University of Leipzig, D-04107, Härtelstraße 16-18, Leipzig, Germany. cristian@bioinf.uni-leipzig.de – sequence: 2 givenname: Ali M surname: Yazbeck fullname: Yazbeck, Ali M email: ali@bioinf.uni-leipzig.de, ali@bioinf.uni-leipzig.de organization: Doctoral School for Science and Technology, Lebanese University, Rafic Hariri University Campus, Hadath, Lebanon. ali@bioinf.uni-leipzig.de – sequence: 3 givenname: Jana surname: Schor fullname: Schor, Jana organization: Young Investigators Group Bioinformatics & Transcriptomics, Department of Molecular Systems Biology, Helmholtz Centre for Environmental Research GmbH - UFZ, D-04318, Permoserstraße 15, Leipzig, Germany – sequence: 4 givenname: Peter F surname: Stadler fullname: Stadler, Peter F email: studla@bioinf.uni-leipzig.de, studla@bioinf.uni-leipzig.de, studla@bioinf.uni-leipzig.de, studla@bioinf.uni-leipzig.de organization: Santa Fe Institute, Santa Fe, 1399 Hyde Park Rd, NM 87501, USA. studla@bioinf.uni-leipzig.de |
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| Keywords | RNA secondary structure; gene duplication; homology search; data curation; evolution |
| Language | English |
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| Snippet | MicroRNAs are important regulators in many eukaryotic lineages. Typical miRNAs have a length of about 22nt and are processed from precursors that form a... |
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| SubjectTerms | Animals Base Sequence Genome, Plant MicroRNAs - genetics Phylogeny Plants - genetics |
| Title | Evolution and Phylogeny of MicroRNAs - Protocols, Pitfalls, and Problems |
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