Parallel evolution of conserved non-coding elements that target a common set of developmental regulatory genes from worms to humans.
about
Exonic remnants of whole-genome duplication reveal cis-regulatory function of coding exonsUltraconserved elements: analyses of dosage sensitivity, motifs and boundariesComplex architecture and regulated expression of the Sox2ot locus during vertebrate developmentGenomic regulatory blocks underlie extensive microsynteny conservation in insectsConserved Noncoding Elements in the Most Distant Genera of Cephalochordates: The Goldilocks PrincipleLineage-specific conserved noncoding sequences of plant genomes: their possible role in nucleosome positioningToward 959 nematode genomesComputational analysis and characterization of UCE-like elements (ULEs) in plant genomesHuman developmental enhancers conserved between deuterostomes and protostomesAn ancient genomic regulatory block conserved across bilaterians and its dismantling in tetrapods by retrogene replacementEvolution of gene regulatory networks controlling body plan developmentIn search of a unifying theory of complex brain evolution.GC Content Heterogeneity Transition of Conserved Noncoding Sequences Occurred at the Emergence of VertebratesGenome-scale identification of Caenorhabditis elegans regulatory elements by tiling-array mapping of DNase I hypersensitive sites.Conserved noncoding elements follow power-law-like distributions in several genomes as a result of genome dynamics.Vertebrate conserved non coding DNA regions have a high persistence length and a short persistence time.Association of the matrix attachment region recognition signature with coding regions in Caenorhabditis elegans.Genomic complexity of the variable region-containing chitin-binding proteins in amphioxusOHMM: a Hidden Markov Model accurately predicting the occupancy of a transcription factor with a self-overlapping binding motif.Early evolution of conserved regulatory sequences associated with development in vertebratesLandscape of histone modifications in a sponge reveals the origin of animal cis-regulatory complexity.Two lamprey Hedgehog genes share non-coding regulatory sequences and expression patterns with gnathostome Hedgehogs.Fragile regions and not functional constraints predominate in shaping gene organization in the genus Drosophila.Binding site number variation and high-affinity binding consensus of Myb-SANT-like transcription factor Adf-1 in Drosophilidae.Dynamic epigenetic control of highly conserved noncoding elements.Genome-wide mapping of DNase I hypersensitive sites and association analysis with gene expression in MSB1 cells.The hourglass and the early conservation models--co-existing patterns of developmental constraints in vertebratesConservation of shh cis-regulatory architecture of the coelacanth is consistent with its ancestral phylogenetic position.Drosophila functional elements are embedded in structurally constrained sequences.Parallel evolution of chordate cis-regulatory code for development.Comparison of ultra-conserved elements in drosophilids and vertebratesTransphyletic conservation of developmental regulatory state in animal evolution.A Simple Predictive Enhancer Syntax for Hindbrain Patterning Is Conserved in Vertebrate Genomes.Comparative genomics using Fugu reveals insights into regulatory subfunctionalizationAncora: a web resource for exploring highly conserved noncoding elements and their association with developmental regulatory genesVertebrate paralogous conserved noncoding sequences may be related to gene expressions in brain.Genome-Level Analysis of Selective Constraint without Apparent Sequence Conservation.The animal in the genome: comparative genomics and evolutionGenic regions of a large salamander genome contain long introns and novel genes.The mystery of extreme non-coding conservation.
P2860
Q24634097-EBFB7E0E-AA33-41FC-8DE3-35419A8A63E6Q24646304-D6F2A7A4-034F-43B0-8F60-0F77A5B94EB7Q24651231-985167C8-96AE-433B-BD86-C2DC605DA8AAQ24684539-37047043-9446-4E35-9D76-6EB81D64AC91Q28596350-8269D23B-37FF-4924-88B7-ABB93E2EF6A4Q28654571-FA651BF8-39C5-4019-AE2A-483C0ACB0BB5Q28682854-67618F5C-C02B-4277-AE53-CA0C0E01EE00Q28710416-75266F53-73E9-4CE0-B288-C80782E0A10DQ28728622-1F7E7C04-AD2B-477A-990D-17C9C50014A9Q28730815-615FF1D4-6E2F-4358-94DF-5C0ED9829AA4Q28741140-88989CFB-F1E3-490A-BE78-88B5A21F6E71Q28754790-5CECEEA8-8448-4FA6-8837-0DC63EE4FD14Q28818311-B8829A36-A15B-436B-ACF8-5DAE60AC4717Q30440067-175A0BBE-BB00-4156-8ABF-DA67A96EF287Q30577485-6235ED4F-DEE4-4A92-A51E-136A6C1458B0Q30835406-618B5884-0732-4E2A-8C09-ECCF060C939AQ33305692-1B3F5BAE-83BC-4557-952F-6E3EAE7047CEQ33388551-AAF16A57-8D27-4847-A64E-E780DC201A46Q33479333-2EDDA25A-2AB5-45CC-8A34-F27C7B1C1210Q33518467-803310B1-BCFA-4F5A-BBBE-9533069C8731Q33675663-E6426797-C6EF-4E99-A58C-91B5EAE6D6C6Q33725443-ABB73EE1-B3E6-408C-9394-3D22B8FD95EAQ34018323-625C0004-A81F-4605-84CA-505059F40824Q34246714-28DF728D-0F46-4174-BFB2-6D1189FCD6ECQ34301719-6BB9BC95-762E-40AF-8899-A6CD05D1E0F6Q34330567-5B40ED1F-5E90-46F2-93BD-4BC7D093DEC6Q34342479-3A7E4038-61CD-404D-869F-A78FDB93E8DCQ34350972-AE3D369B-3CBF-43E9-8922-B83992E76A0BQ34764038-A84CF4D9-64DF-47B3-AB24-82328BBEA253Q35054959-9627A73E-9470-4F09-8EF4-18CE9DBB33BAQ35070206-590401AE-B86C-4B36-BC6E-6076BBC2B72FQ35180621-4D082B31-7EB2-4C09-A884-6B2051F0A7D9Q35679694-94C72A66-FA58-460B-A28E-9443C1164B0FQ35850331-7B359DC7-AB21-461B-A98B-880610D6286FQ36642418-AE79F9C1-02AA-45DA-902C-D8C74B19EA41Q36676955-0CDE1D30-46FF-439B-8D7C-F124C31BE591Q36754731-FFD612A0-CF6D-44C5-9C9E-B0E49DC55609Q37037870-5EBA045B-AC5F-4D0F-8D07-A413AD0DA19FQ37077693-0DF78B01-5D28-4C4E-9111-0FCC8056D1F5Q37304866-3A66B531-724E-4A50-8FDC-177947C40673
P2860
Parallel evolution of conserved non-coding elements that target a common set of developmental regulatory genes from worms to humans.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Parallel evolution of conserve ...... ry genes from worms to humans.
@ast
Parallel evolution of conserve ...... ry genes from worms to humans.
@en
type
label
Parallel evolution of conserve ...... ry genes from worms to humans.
@ast
Parallel evolution of conserve ...... ry genes from worms to humans.
@en
prefLabel
Parallel evolution of conserve ...... ry genes from worms to humans.
@ast
Parallel evolution of conserve ...... ry genes from worms to humans.
@en
P2860
P50
P356
P1433
P1476
Parallel evolution of conserve ...... ry genes from worms to humans.
@en
P2093
Walter R Gilks
P2860
P2888
P356
10.1186/GB-2007-8-2-R15
P577
2007-01-01T00:00:00Z