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Sante Gnerre

Researcher at Broad Institute

Publications -  42
Citations -  29947

Sante Gnerre is an academic researcher from Broad Institute. The author has contributed to research in topics: Genome & Genomics. The author has an hindex of 34, co-authored 38 publications receiving 28281 citations. Previous affiliations of Sante Gnerre include Massachusetts Institute of Technology.

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Initial sequencing and comparative analysis of the mouse genome.

Robert H. Waterston, +222 more
- 05 Dec 2002 - 
TL;DR: The results of an international collaboration to produce a high-quality draft sequence of the mouse genome are reported and an initial comparative analysis of the Mouse and human genomes is presented, describing some of the insights that can be gleaned from the two sequences.
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Genome sequence, comparative analysis and haplotype structure of the domestic dog

Kerstin Lindblad-Toh, +241 more
- 08 Dec 2005 - 
TL;DR: A high-quality draft genome sequence of the domestic dog is reported, together with a dense map of single nucleotide polymorphisms (SNPs) across breeds, to shed light on the structure and evolution of genomes and genes.
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Initial sequence of the chimpanzee genome and comparison with the human genome

Tarjei S. Mikkelsen, +66 more
- 01 Sep 2005 - 
TL;DR: It is found that the patterns of evolution in human and chimpanzee protein-coding genes are highly correlated and dominated by the fixation of neutral and slightly deleterious alleles.
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Evolution of genes and genomes on the Drosophila phylogeny.

Andrew G. Clark, +429 more
- 08 Nov 2007 - 
TL;DR: These genome sequences augment the formidable genetic tools that have made Drosophila melanogaster a pre-eminent model for animal genetics, and will further catalyse fundamental research on mechanisms of development, cell biology, genetics, disease, neurobiology, behaviour, physiology and evolution.
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The genome sequence of the filamentous fungus Neurospora crassa

James E. Galagan, +77 more
- 24 Apr 2003 - 
TL;DR: A high-quality draft sequence of the N. crassa genome is reported, suggesting that RIP has had a profound impact on genome evolution, greatly slowing the creation of new genes through genomic duplication and resulting in a genome with an unusually low proportion of closely related genes.