review article | Q7318358 |
scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1017892052 |
P356 | DOI | 10.1023/A:1022640512023 |
P698 | PubMed publication ID | 12836681 |
P2093 | author name string | Jürg Spring | |
P2860 | cites work | Initial sequencing and analysis of the human genome | Q21045365 |
The Sequence of the Human Genome | Q22065842 | ||
Analysis of the genome sequence of the flowering plant Arabidopsis thaliana | Q22122387 | ||
The evolutionary fate and consequences of duplicate genes | Q27861065 | ||
Molecular evidence for an ancient duplication of the entire yeast genome | Q29547472 | ||
Comparative genomics of the eukaryotes | Q29547504 | ||
Evidence for a clade of nematodes, arthropods and other moulting animals | Q29547800 | ||
A kingdom-level phylogeny of eukaryotes based on combined protein data | Q29616067 | ||
Gene duplications in early metazoan evolution | Q30827274 | ||
Deceiving appearances: signaling by "dead" and "fractured" receptor protein-tyrosine kinases | Q31791634 | ||
Phylogenies of developmentally important proteins do not support the hypothesis of two rounds of genome duplication early in vertebrate history | Q33858354 | ||
Neoproterozoic 'snowball Earth' simulations with a coupled climate/ice-sheet model | Q33904415 | ||
Origin of the eukaryotic nucleus determined by rate-invariant analysis of rRNA sequences | Q34049657 | ||
Assessing evolutionary relationships among microbes from whole-genome analysis | Q34069787 | ||
The new phylogeny of eukaryotes. | Q34087777 | ||
Duplicate and diverge: the evolution of plant genome microstructure | Q34137804 | ||
Ancient origin of the Hox gene cluster | Q34186040 | ||
Evolution of the vertebrate genome as reflected in paralogous chromosomal regions in man and the house mouse | Q34364325 | ||
The ParaHox gene cluster is an evolutionary sister of the Hox gene cluster. | Q34467620 | ||
Gene number in an invertebrate chordate, Ciona intestinalis | Q36474681 | ||
Evolutionary patterns of gene families generated in the early stage of vertebrates | Q44746612 | ||
Evidence in favour of ancient octaploidy in the vertebrate genome | Q47673717 | ||
Eukaryote genome duplication - where's the evidence? | Q47730493 | ||
Ancient large-scale genome duplications: phylogenetic and linkage analyses shed light on chordate genome evolution | Q47750405 | ||
The mesoderm specification factor twist in the life cycle of jellyfish. | Q52584566 | ||
The draft sequences. Comparing species. | Q55034613 | ||
Genomic Exploration of the Hemiascomycetous Yeasts: 20. Evolution of gene redundancy compared to Saccharomyces cerevisiae | Q57984478 | ||
Gene duplications and the origins of vertebrate development | Q58063347 | ||
Gene loss and gain in the evolution of the vertebrates | Q71789873 | ||
Vertebrate evolution by interspecific hybridisation--are we polyploid? | Q72989525 | ||
Is tetralogy true? Lack of support for the "one-to-four rule" | Q73352636 | ||
Origin of eukaryotic cell nuclei by symbiosis of Archaea in Bacteria is revealed by homology-hit analysis | Q73435237 | ||
P433 | issue | 1-4 | |
P921 | main subject | prokaryotes | Q19081 |
P304 | page(s) | 19-25 | |
P577 | publication date | 2003-01-01 | |
P1433 | published in | Journal of Structural and Functional Genomics | Q15764584 |
P1476 | title | Major transitions in evolution by genome fusions: from prokaryotes to eukaryotes, metazoans, bilaterians and vertebrates | |
P478 | volume | 3 |
Q84991539 | An alternative approach to medical genetics based on modern evolutionary biology. Part 5: epigenetics and genomics |
Q35584917 | Classification of fungal and bacterial lytic polysaccharide monooxygenases |
Q28595721 | Computational Identification of the Paralogs and Orthologs of Human Cytochrome P450 Superfamily and the Implication in Drug Discovery |
Q37471239 | Crystal structure of Bacillus subtilis YckF: structural and functional evolution. |
Q44841832 | Extensive duplications of phototransduction genes in early vertebrate evolution correlate with block (chromosome) duplications |
Q28204423 | Identification of duplicated fourth alpha2-adrenergic receptor subtype by cloning and mapping of five receptor genes in zebrafish |
Q28776288 | Major events in the genome evolution of vertebrates: paranome age and size differ considerably between ray-finned fishes and land vertebrates |
Q31029753 | On conditioned reconstruction, gene content data, and the recovery of fusion genomes |
Q56336640 | Single-Gene and Whole-Genome Duplications and the Evolution of Protein-Protein Interaction Networks |
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