Rapid sequence and expression divergence suggest selection for novel function in primate-specific KRAB-ZNF genes.
about
MicroRNA-driven developmental remodeling in the brain distinguishes humans from other primatesCoevolution of retroelements and tandem zinc finger genesTransposable Elements, Polydactyl Proteins, and the Genesis of Human-Specific Transcription NetworksSpotting the enemy within: Targeted silencing of foreign DNA in mammalian genomes by the Krüppel-associated box zinc finger protein familyKAP1 regulates gene networks controlling T-cell development and responsiveness.Epigenetic regulation of puberty via Zinc finger protein-mediated transcriptional repressionGene-pseudogene evolution: a probabilistic approachREVIGO summarizes and visualizes long lists of gene ontology termsDecoding human gene expression signatures in the brainGain, loss and divergence in primate zinc-finger genes: a rich resource for evolution of gene regulatory differences between speciesWidespread establishment and regulatory impact of Alu exons in human genes.New genes as drivers of phenotypic evolution.19q13.11 microdeletion concomitant with ins(2;19)(p25.3;q13.1q13.4)dn in a boy: potential role of UBA2 in the associated phenotypePervasive variation of transcription factor orthologs contributes to regulatory network evolution.Genetic correlates of the evolving primate brain.The evolution of gene expression and binding specificity of the largest transcription factor family in primatesKRAB-Zinc Finger Proteins: A Repressor Family Displaying Multiple Biological Functions.Recurrent Gene Duplication Diversifies Genome Defense Repertoire in Drosophila.Deep vertebrate roots for mammalian zinc finger transcription factor subfamilies.KAP1 protein: an enigmatic master regulator of the genome.Evolutionary impact of transposable elements on genomic diversity and lineage-specific innovation in vertebrates.Human Lineage-Specific Transcriptional Regulation through GA-Binding Protein Transcription Factor Alpha (GABPa).CTRL+INSERT: retrotransposons and their contribution to regulation and innovation of the transcriptomeThe complexity of TRIM28 contribution to cancer.Evolution and quantitative comparison of genome-wide protein domain distributions.Silencing of Repetitive DNA Is Controlled by a Member of an Unusual Caenorhabditis elegans Gene Family.KRAB zinc finger proteins.Targeting and silencing of rhodopsin by ectopic expression of the transcription factor KLF15.The Role of KRAB-ZFPs in Transposable Element Repression and Mammalian Evolution.Mammalian transposable elements and their impacts on genome evolution.
P2860
Q21145751-D7315058-E564-4113-8627-3E9C6C2BF734Q24632903-941C5829-E68B-478A-877F-DAB1C86348CAQ26772090-78DE149D-E9DD-45E9-A5DB-5D508F8E4424Q26782206-2608FD47-D6D8-42D9-AA0E-89A0024195B1Q27319505-917F8B1E-5260-44C7-963B-960D96D9FB64Q28602979-DC3DE81B-B603-4E7D-A887-D15A96E60B79Q28606486-7FC11F50-8E84-4309-BCEA-7AC379E430F1Q29614817-B1EA5490-E102-4093-9B71-D6F189FA9620Q33702797-5E6C445B-F8A2-4AAD-A353-E9EB87100B87Q33955054-8B60EF58-9241-4FFB-84F9-6803E2C1987CQ34161812-F7471D00-5857-4BFB-9D5E-5F676254A361Q34535226-91FD6AA2-6DB7-4639-9A12-34C2BD3FFB5EQ34707139-8E6A9B92-6FDD-4083-A5E1-FA3FB54B706BQ35573179-A5DC16E2-511C-42A3-944F-61BE5573ADCBQ36445279-3BC08DE3-BC7B-4763-8915-EFC5AFBD3735Q36972707-EA134486-4D72-409C-85D2-C1C3EF17EFA3Q37065382-4598E9C3-5129-4B7C-B96F-1CF2F514F4CCQ37229520-EF165FAA-5F7F-4BCA-9EB7-DB41D8D72055Q37677291-6548F732-52CE-4BAF-BEFD-69C6CA696FEEQ37886421-15072B4C-4C62-42E0-B49A-EFBFA92E40A8Q38591291-FE7E123D-F77E-41F6-A157-99901156F639Q38799244-D1A1AB51-155F-4DE0-BFCD-702352EE7CEDQ38893405-3F78F816-5EB7-491C-A732-9BB19913EC4DQ41542786-E4917098-C35D-4995-8CBC-5361C5FBAF86Q41962436-8E1B65C9-F0AA-4C08-9AFC-6CE5DD3B17F9Q46322055-237EEEAD-B1AF-4246-AF5A-48778713CAA5Q46327518-5BA28528-3CB4-4066-8CEE-B41FB822F2BDQ47562546-4D6AD0EC-6351-4D68-A332-B987F7064EF2Q47765950-5F91EB78-3BC1-48CF-AB2A-71CAB9EB4EF6Q50214966-B4005E41-6939-4569-B447-3A86C15509A3
P2860
Rapid sequence and expression divergence suggest selection for novel function in primate-specific KRAB-ZNF genes.
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Rapid sequence and expression ...... imate-specific KRAB-ZNF genes.
@ast
Rapid sequence and expression ...... imate-specific KRAB-ZNF genes.
@en
Rapid sequence and expression ...... imate-specific KRAB-ZNF genes.
@nl
type
label
Rapid sequence and expression ...... imate-specific KRAB-ZNF genes.
@ast
Rapid sequence and expression ...... imate-specific KRAB-ZNF genes.
@en
Rapid sequence and expression ...... imate-specific KRAB-ZNF genes.
@nl
prefLabel
Rapid sequence and expression ...... imate-specific KRAB-ZNF genes.
@ast
Rapid sequence and expression ...... imate-specific KRAB-ZNF genes.
@en
Rapid sequence and expression ...... imate-specific KRAB-ZNF genes.
@nl
P2093
P2860
P356
P1476
Rapid sequence and expression ...... imate-specific KRAB-ZNF genes.
@en
P2093
Aaron T Hamilton
Huimin Zhang
Katja Nowick
P2860
P304
P356
10.1093/MOLBEV/MSQ157
P50
P577
2010-06-23T00:00:00Z