Nome |
# |
The genome of the vervet (Chlorocebus aethiops sabaeus), file dd9e0c66-56ea-1e9c-e053-3a05fe0a45ef
|
109
|
null, file dd9e0c66-46d1-1e9c-e053-3a05fe0a45ef
|
67
|
Refinement of Bos taurus sequence assembly based on BAC-FISH experiments, file dd9e0c63-3038-1e9c-e053-3a05fe0a45ef
|
58
|
Evolutionary formation of new centromeres in macaque, file dd9e0c68-9225-1e9c-e053-3a05fe0a45ef
|
41
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Genomic organization and evolution of double minutes/homogeneously staining regions with MYC amplification in human cancer, file dd9e0c63-0f55-1e9c-e053-3a05fe0a45ef
|
38
|
The comparative genomics and complex population history of Papio baboons, file dd9e0c65-8ab6-1e9c-e053-3a05fe0a45ef
|
35
|
Rapid emergence of independent "chromosomal lineages" in silvered-leaf monkey triggered by Y/autosome translocation, file dd9e0c64-d679-1e9c-e053-3a05fe0a45ef
|
16
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Papio baboon species indicative Alu elements, file dd9e0c65-8e27-1e9c-e053-3a05fe0a45ef
|
15
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Unraveling the internal structure of neocentromeres in ring chromosomes harboring genomic amplification in soft tissue tumors, file dd9e0c64-f574-1e9c-e053-3a05fe0a45ef
|
10
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Genome characterization and CRISPR-Cas9 editing of a human neocentromere, file ad623b95-20c9-4ec9-b582-e1146be873fb
|
9
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Gibbon genome and the fast karyotype evolution of small apes, file dd9e0c63-0626-1e9c-e053-3a05fe0a45ef
|
8
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Comparative and demographic analysis of orang-utan genomes, file dd9e0c63-0820-1e9c-e053-3a05fe0a45ef
|
5
|
New Insights into Centromere Organization and Evolution from the White-cheeked Gibbon and Marmoset, file dd9e0c66-0124-1e9c-e053-3a05fe0a45ef
|
5
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null, file dd9e0c62-45d3-1e9c-e053-3a05fe0a45ef
|
4
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A comprehensive molecular cytogenetic analysis of chromosome rearrangements in gibbons, file dd9e0c63-02eb-1e9c-e053-3a05fe0a45ef
|
4
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Centromere remodeling in Hoolock leuconedys (Hylobatidae) by a new transposable element unique to the gibbons, file dd9e0c63-0eb2-1e9c-e053-3a05fe0a45ef
|
4
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Punctuated duplication seeding events during the evolution of human chromosome 2p11, file dd9e0c62-67fc-1e9c-e053-3a05fe0a45ef
|
3
|
Human paralogs of KIAA0187 were created through independent pericentromeric-directed and chromosome-specific duplication mechanisms, file dd9e0c62-7cf3-1e9c-e053-3a05fe0a45ef
|
3
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Independent centromere formation in a capricious, gene-free domain of chromosome 13q21 in Old World monkeys and pigs, file dd9e0c62-7d84-1e9c-e053-3a05fe0a45ef
|
3
|
The common marmoset genome provides insight into primate biology and evolution, file dd9e0c63-0bd8-1e9c-e053-3a05fe0a45ef
|
3
|
Great ape Y Chromosome and mitochondrial DNA phylogenies reflect subspecies structure and patterns of mating and dispersal, file dd9e0c63-6a90-1e9c-e053-3a05fe0a45ef
|
3
|
Progressive proximal expansion of the primate X chromosome centromere, file dd9e0c65-cb45-1e9c-e053-3a05fe0a45ef
|
3
|
null, file dd9e0c68-424a-1e9c-e053-3a05fe0a45ef
|
3
|
The Hidden Genomic and Transcriptomic Plasticity of Giant Marker Chromosomes in Cancer, file dd9e0c69-b04b-1e9c-e053-3a05fe0a45ef
|
3
|
Concomitant tetrasomy 3q and trisomy 18 in CD5- CD13+ chronic lymphocytic leukemia, file dd9e0c62-46f1-1e9c-e053-3a05fe0a45ef
|
2
|
Evolutionary new centromeres in primates, file dd9e0c62-516a-1e9c-e053-3a05fe0a45ef
|
2
|
Hominoid chromosomal rearrangements on 17q map to complex regions of segmental duplication RID E-6420-2011, file dd9e0c62-67f9-1e9c-e053-3a05fe0a45ef
|
2
|
An analysis of segmental duplications and genome assembly in the mouse, file dd9e0c62-7451-1e9c-e053-3a05fe0a45ef
|
2
|
A preliminary comparative analysis of primate segmental duplications shows elevated substitution rates and a great-ape expansion of intrachromosomal duplications, file dd9e0c62-7a29-1e9c-e053-3a05fe0a45ef
|
2
|
null, file dd9e0c62-7aca-1e9c-e053-3a05fe0a45ef
|
2
|
Sequencing human-gibbon breakpoints of synteny reveals mosaic new insertions at rearrangement sites, file dd9e0c62-8984-1e9c-e053-3a05fe0a45ef
|
2
|
t(3;12)(q26;q14) in polycythemia vera is associated with upregulation of the HMGA2 gene, file dd9e0c66-1a8f-1e9c-e053-3a05fe0a45ef
|
2
|
Evolutionary descent of a human chromosome 6 neocentromere: a jump back to 17 million years ago, file dd9e0c68-878a-1e9c-e053-3a05fe0a45ef
|
2
|
Alu insertion polymorphisms shared by Papio baboons and Theropithecus gelada reveal an intertwined common ancestry, file dd9e0c68-9939-1e9c-e053-3a05fe0a45ef
|
2
|
A panel of radiation hybrids and YAC clones specific for human chromosome 5, file dd9e0c62-46aa-1e9c-e053-3a05fe0a45ef
|
1
|
Evolutionary history of chromosome 11 featuring four distinct centromere repositioning events in Catarrhini RID E-6420-2011, file dd9e0c62-5563-1e9c-e053-3a05fe0a45ef
|
1
|
A genome-wide comparison of recent chimpanzee and human segmental duplications, file dd9e0c62-5564-1e9c-e053-3a05fe0a45ef
|
1
|
Primate chromosome evolution: Ancestral karyotypes, marker order and neocentromeres, file dd9e0c62-5565-1e9c-e053-3a05fe0a45ef
|
1
|
Human chromosome 16 conservation in primates, file dd9e0c62-5664-1e9c-e053-3a05fe0a45ef
|
1
|
Complex events in the evolution of the human pseudoautosomal region 2 (PAR2), file dd9e0c62-5665-1e9c-e053-3a05fe0a45ef
|
1
|
Centromere emergence in evolution, file dd9e0c62-5666-1e9c-e053-3a05fe0a45ef
|
1
|
Deletions on der(9) chromosome in adult Ph-positive acute lymphoblastic leukemia occur with a frequency similar to that observed in chronic myeloid leukemia, file dd9e0c62-5db3-1e9c-e053-3a05fe0a45ef
|
1
|
Localization of a new highly repeated DNA sequence of Lemur cafta (Lemuridae, Strepsirhini), file dd9e0c62-65ef-1e9c-e053-3a05fe0a45ef
|
1
|
Characterization of a highly repeated DNA sequence family in five species of the genus Eulemur, file dd9e0c62-65f1-1e9c-e053-3a05fe0a45ef
|
1
|
Analysis of chromosome conservation in Lemur catta studied by chromosome paints and BAC/PAC probes RID E-6420-2011, file dd9e0c62-7cf1-1e9c-e053-3a05fe0a45ef
|
1
|
Using a pericentromeric interspersed repeat to recapitulate the phylogeny and expansion of human centromeric segmental duplications, file dd9e0c62-7ded-1e9c-e053-3a05fe0a45ef
|
1
|
A novel chromosomal translocation t(3;7)(q26;q21)in myeloid leukemia resulting in overexpression of EVI1, file dd9e0c62-82b6-1e9c-e053-3a05fe0a45ef
|
1
|
Heterozygous submicroscopic inversions involving olfactory receptor-gene clusters mediate the recurrent t(4;8)(p16;p23 ) translocation, file dd9e0c62-8448-1e9c-e053-3a05fe0a45ef
|
1
|
Molecular structure and evolution of DNA sequences located at the alpha satellite boundary of chromosome 20, file dd9e0c62-8455-1e9c-e053-3a05fe0a45ef
|
1
|
reated glass coverslips for in situ culture of amniotic cells: better cell adhesion and growth than on plastic., file dd9e0c62-8804-1e9c-e053-3a05fe0a45ef
|
1
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Initial sequence of the chimpanzee genome and comparison with the human genome, file dd9e0c62-89f7-1e9c-e053-3a05fe0a45ef
|
1
|
null, file dd9e0c62-e1ac-1e9c-e053-3a05fe0a45ef
|
1
|
Genomic deletions on other chromosomes involved in variant t(9;22) chronic myeloid leukemia cases, file dd9e0c63-9817-1e9c-e053-3a05fe0a45ef
|
1
|
Genomic segmental duplications on the basis of the t(9;22) rearrangement in chronic myeloid leukemia, file dd9e0c63-988d-1e9c-e053-3a05fe0a45ef
|
1
|
Characterization of a recurrent translocation t(2;3)(p15–22;q26) occurring in acute myeloid leukaemia, file dd9e0c63-991e-1e9c-e053-3a05fe0a45ef
|
1
|
A computational reconstruction of Papio phylogeny using Alu insertion polymorphisms, file dd9e0c65-84c6-1e9c-e053-3a05fe0a45ef
|
1
|
Alu insertion polymorphisms as evidence for population structure in baboons, file dd9e0c65-84cc-1e9c-e053-3a05fe0a45ef
|
1
|
Eight million years of maintained heterozygosity in chromosome homologs of cercopithecine monkeys, file dd9e0c66-8b82-1e9c-e053-3a05fe0a45ef
|
1
|
null, file dd9e0c67-61bb-1e9c-e053-3a05fe0a45ef
|
1
|
Totale |
497 |