Science, ISSN 0036-8075, 2/2009, Volume 323, Issue 5915, pp. 746 - 751
Ever since the integration of Mendelian genetics into evolutionary biology in the early 20th century, evolutionary geneticists have for the most part treated...
Reviews | Genes | Biological evolution | Alleles | Evolutionary genetics | Evolution | Trichomes | Epistasis | Plants | Genetic mutation | Population genetics | MORPHOLOGICAL EVOLUTION | POPULATION | DIFFERENCE | BRISTLE NUMBER | DROSOPHILA-MELANOGASTER | MULTIDISCIPLINARY SCIENCES | ADAPTATION | FRIGIDA | ARABIDOPSIS | FLOWERING TIME | LOCUS | Selection, Genetic | Gene Regulatory Networks | Arabidopsis - genetics | Biological Evolution | Genetic Variation | Phenotype | Animals | Plants - genetics | Epistasis, Genetic | Genetic Speciation | Mutation | Drosophila - genetics | Evolution, Molecular | Population Dynamics | Genetics | Genetic aspects | Analysis | Evolutionary biology | Theory | Predictions
Reviews | Genes | Biological evolution | Alleles | Evolutionary genetics | Evolution | Trichomes | Epistasis | Plants | Genetic mutation | Population genetics | MORPHOLOGICAL EVOLUTION | POPULATION | DIFFERENCE | BRISTLE NUMBER | DROSOPHILA-MELANOGASTER | MULTIDISCIPLINARY SCIENCES | ADAPTATION | FRIGIDA | ARABIDOPSIS | FLOWERING TIME | LOCUS | Selection, Genetic | Gene Regulatory Networks | Arabidopsis - genetics | Biological Evolution | Genetic Variation | Phenotype | Animals | Plants - genetics | Epistasis, Genetic | Genetic Speciation | Mutation | Drosophila - genetics | Evolution, Molecular | Population Dynamics | Genetics | Genetic aspects | Analysis | Evolutionary biology | Theory | Predictions
Journal Article
Evolution, ISSN 0014-3820, 2/2012, Volume 66, Issue 2, pp. 330 - 348
Quantifying rates of morphological evolution is important in many macroevolutionary studies, and critical when assessing possible adaptive radiations and...
Datasets | Taxa | Phylogenetics | Plant morphology | Evolution | Random allocation | Phylogeny | Fossils | Rates of change | Lung morphology | punctuated equilibrium | evolutionary rates | Adaptive radiation | lungfish | paleontology | morphological evolution | Lungfish | Punctuated equilibrium | Evolutionary rates | Morphological evolution | Paleontology | PHYLOGENIES | MARINE FOSSIL RECORD | INFORMATION | NONSTOCHASTIC VARIATION | PHENOTYPIC EVOLUTION | PATTERNS | RADIATION | EVOLUTIONARY BIOLOGY | EARLY TETRAPODS | GENETICS & HEREDITY | DIFFERENTIAL DIVERSIFICATION RATES | ECOLOGY | DIVERSITY | Biological Evolution | Fishes - genetics | Animals | Fishes - classification | Fishes - anatomy & histology | Morphological variation | Morphological diversity | Origin of species | Research | Lung-fishes | Natural history
Datasets | Taxa | Phylogenetics | Plant morphology | Evolution | Random allocation | Phylogeny | Fossils | Rates of change | Lung morphology | punctuated equilibrium | evolutionary rates | Adaptive radiation | lungfish | paleontology | morphological evolution | Lungfish | Punctuated equilibrium | Evolutionary rates | Morphological evolution | Paleontology | PHYLOGENIES | MARINE FOSSIL RECORD | INFORMATION | NONSTOCHASTIC VARIATION | PHENOTYPIC EVOLUTION | PATTERNS | RADIATION | EVOLUTIONARY BIOLOGY | EARLY TETRAPODS | GENETICS & HEREDITY | DIFFERENTIAL DIVERSIFICATION RATES | ECOLOGY | DIVERSITY | Biological Evolution | Fishes - genetics | Animals | Fishes - classification | Fishes - anatomy & histology | Morphological variation | Morphological diversity | Origin of species | Research | Lung-fishes | Natural history
Journal Article
Nature Reviews Genetics, ISSN 1471-0056, 11/2013, Volume 14, Issue 11, pp. 751 - 764
The evolution of phenotypic similarities between species, known as convergence, illustrates that populations can respond predictably to ecological challenges....
MORPHOLOGICAL EVOLUTION | PARALLEL MOLECULAR EVOLUTION | PELVIC REDUCTION | POPULATION-GENETICS | LINKAGE DISEQUILIBRIUM | PSEUDOMONAS-AERUGINOSA | GENETICS & HEREDITY | FLOWERING-LOCUS-C | REGULATORY EVOLUTION | C-4 PHOTOSYNTHESIS | ADAPTIVE EVOLUTION | Fishes - genetics | Viruses - genetics | Butterflies - genetics | Humans | Gene Transfer, Horizontal | Bacteria - genetics | Linkage Disequilibrium | Biological Evolution | Phenotype | Animals | Adaptation, Physiological - genetics | Alleles | Models, Genetic | Mutation | Evolutionary genetics | Convergence (Biology) | Genetic aspects | Research
MORPHOLOGICAL EVOLUTION | PARALLEL MOLECULAR EVOLUTION | PELVIC REDUCTION | POPULATION-GENETICS | LINKAGE DISEQUILIBRIUM | PSEUDOMONAS-AERUGINOSA | GENETICS & HEREDITY | FLOWERING-LOCUS-C | REGULATORY EVOLUTION | C-4 PHOTOSYNTHESIS | ADAPTIVE EVOLUTION | Fishes - genetics | Viruses - genetics | Butterflies - genetics | Humans | Gene Transfer, Horizontal | Bacteria - genetics | Linkage Disequilibrium | Biological Evolution | Phenotype | Animals | Adaptation, Physiological - genetics | Alleles | Models, Genetic | Mutation | Evolutionary genetics | Convergence (Biology) | Genetic aspects | Research
Journal Article
The New Phytologist, ISSN 0028-646X, 10/2011, Volume 192, Issue 1, pp. 266 - 301
Plants have utterly transformed the planet, but testing hypotheses of causality requires a reliable time-scale for plant evolution. While clock methods have...
Palynology | Phylogenetics | Evolution | Pollen | Calibration | Plants | Vascular plants | Angiosperms | Spores | Fossils | divergence time | molecular clock | Angiosperm | land plant | chronogram | fossil record | phylogeny | embryophyte | calibration | Divergence time | Land plant | Fossil record | Chronogram | Phylogeny | Embryophyte | Molecular clock | REPRODUCTIVE STRUCTURES | U-PB AGES | PLANT SCIENCES | MORPHOLOGICAL PHYLOGENETIC ANALYSIS | YIXIAN FORMATION | ESTIMATING DIVERGENCE TIMES | SP-NOV | VASCULAR LAND PLANTS | CRETACEOUS ANGIOSPERM POLLEN | Biological Evolution | Reproducibility of Results | Time Factors | Magnoliopsida - genetics | Models, Genetic | Genetic research | Analysis
Palynology | Phylogenetics | Evolution | Pollen | Calibration | Plants | Vascular plants | Angiosperms | Spores | Fossils | divergence time | molecular clock | Angiosperm | land plant | chronogram | fossil record | phylogeny | embryophyte | calibration | Divergence time | Land plant | Fossil record | Chronogram | Phylogeny | Embryophyte | Molecular clock | REPRODUCTIVE STRUCTURES | U-PB AGES | PLANT SCIENCES | MORPHOLOGICAL PHYLOGENETIC ANALYSIS | YIXIAN FORMATION | ESTIMATING DIVERGENCE TIMES | SP-NOV | VASCULAR LAND PLANTS | CRETACEOUS ANGIOSPERM POLLEN | Biological Evolution | Reproducibility of Results | Time Factors | Magnoliopsida - genetics | Models, Genetic | Genetic research | Analysis
Journal Article
Molecular Biology and Evolution, ISSN 0737-4038, 01/2015, Volume 32, Issue 1, pp. 91 - 99
Heat-shock protein 90 (Hsp90) promotes the maturation and stability of its client proteins, including many kinases. In doing so, Hsp90may allow its clients to...
Hsp90 | Evolution | Gene family | Kinase | Capacitor | Relaxed selection | MORPHOLOGICAL EVOLUTION | CHAPERONE HSP90 | PHYLOGENIES | BIOCHEMISTRY & MOLECULAR BIOLOGY | evolution | GENOME | capacitor | GENETIC-VARIATION | EVOLUTIONARY BIOLOGY | kinase | relaxed selection | gene family | PROTEIN EVOLUTION | SEQUENCE | GENETICS & HEREDITY | EXPRESSION | Mammals - genetics | Protein Kinases - metabolism | Mammals - metabolism | Protein Kinases - genetics | Animals | Molecular Chaperones - metabolism | Humans | Selection, Genetic | HSP90 Heat-Shock Proteins - metabolism | Mutation Rate | Phylogeny | Evolution, Molecular | Discoveries
Hsp90 | Evolution | Gene family | Kinase | Capacitor | Relaxed selection | MORPHOLOGICAL EVOLUTION | CHAPERONE HSP90 | PHYLOGENIES | BIOCHEMISTRY & MOLECULAR BIOLOGY | evolution | GENOME | capacitor | GENETIC-VARIATION | EVOLUTIONARY BIOLOGY | kinase | relaxed selection | gene family | PROTEIN EVOLUTION | SEQUENCE | GENETICS & HEREDITY | EXPRESSION | Mammals - genetics | Protein Kinases - metabolism | Mammals - metabolism | Protein Kinases - genetics | Animals | Molecular Chaperones - metabolism | Humans | Selection, Genetic | HSP90 Heat-Shock Proteins - metabolism | Mutation Rate | Phylogeny | Evolution, Molecular | Discoveries
Journal Article
Bulletin of the Geological Society of America, ISSN 0016-7606, 2017, Volume 129, Issue 3-4, pp. 372 - 391
The growth and decay of ocean-island volcanoes are intrinsically linked to vertical movements. While the causes for subsidence are better understood, uplift...
LITHOSPHERIC FLEXURE | AZORES TRIPLE JUNCTION | GEOSCIENCES, MULTIDISCIPLINARY | MID-ATLANTIC RIDGE | K-AR AGES | INSULAR SHELVES | PALMA CANARY-ISLANDS | SEA-LEVEL CHANGE | HAWAIIAN-ISLANDS | MORPHOLOGICAL RECORD | SAO-MIGUEL
LITHOSPHERIC FLEXURE | AZORES TRIPLE JUNCTION | GEOSCIENCES, MULTIDISCIPLINARY | MID-ATLANTIC RIDGE | K-AR AGES | INSULAR SHELVES | PALMA CANARY-ISLANDS | SEA-LEVEL CHANGE | HAWAIIAN-ISLANDS | MORPHOLOGICAL RECORD | SAO-MIGUEL
Journal Article
Annual Review of Ecology, Evolution, and Systematics, ISSN 1543-592X, 11/2016, Volume 47, Issue 1, pp. 463 - 486
Modularity has emerged as a central concept for evolutionary biology, thereby providing the field with a theory of organismal structure and variation. This...
genotype-phenotype map | macroevolution | morphological integration | adaptive landscape | G-matrix | Genotype-phenotype map | Macroevolution | Morphological integration | Adaptive landscape | PHENOTYPIC VARIATION PATTERNS | EVOLUTIONARY BIOLOGY | COVARIANCE-MATRIX | NATURAL-SELECTION | ECOLOGY | STABILIZING SELECTION | PHYLOGENETIC COMPARATIVE-ANALYSIS | NEW-WORLD MONKEYS | QUANTITATIVE GENETICS | DIRECTIONAL SELECTION | Genetic research | Evolution | Genes | Research
genotype-phenotype map | macroevolution | morphological integration | adaptive landscape | G-matrix | Genotype-phenotype map | Macroevolution | Morphological integration | Adaptive landscape | PHENOTYPIC VARIATION PATTERNS | EVOLUTIONARY BIOLOGY | COVARIANCE-MATRIX | NATURAL-SELECTION | ECOLOGY | STABILIZING SELECTION | PHYLOGENETIC COMPARATIVE-ANALYSIS | NEW-WORLD MONKEYS | QUANTITATIVE GENETICS | DIRECTIONAL SELECTION | Genetic research | Evolution | Genes | Research
Journal Article