about
Osteo-Promoter Database (OPD) -- promoter analysis in skeletal cells.Fast and systematic genome-wide discovery of conserved regulatory elements using a non-alignment based approachARGO: a web system for the detection of degenerate motifs and large-scale recognition of eukaryotic promotersFunctional roles for the striatal-enriched transcription factor, Bcl11b, in the control of striatal gene expression and transcriptional dysregulation in Huntington's diseaseGenome-wide analysis of core promoter elements from conserved human and mouse orthologous pairs.CUBIC: identification of regulatory binding sites through data clustering.Data mining tools for biological sequences.The intronless and TATA-less human TAF(II)55 gene contains a functional initiator and a downstream promoter element.Effective transcription factor binding site prediction using a combination of optimization, a genetic algorithm and discriminant analysis to capture distant interactions.A novel sequence and context based method for promoter recognition.Characterization of the human PANK2 promoter.Characterization of the human ADAMTS-5 (aggrecanase-2) gene promoter.Computational prediction of eukaryotic protein-coding genes.Periodical distribution of transcription factor sites in promoter regions and connection with chromatin structure.Computational approaches to identify promoters and cis-regulatory elements in plant genomes.TAF10 Interacts with the GATA1 Transcription Factor and Controls Mouse Erythropoiesis.Pol II promoter prediction using characteristic 4-mer motifs: a machine learning approachUsing MZEF to find internal coding exons.A general integrative genomic feature transcription factor binding site prediction method applied to analysis of USF1 binding in cardiovascular diseaseFlynet: a genomic resource for Drosophila melanogaster transcriptional regulatory networks.In NF1, CFTR, PER3, CARS and SYT7, alternatively included exons show higher conservation of surrounding intron sequences than constitutive exons.Sequence comparison of the right end of fowl adenovirus genomes.High-resolution human core-promoter prediction with CoreBoost_HM.Promoter prediction on a genomic scale--the Adh experience.Boosting with stumps for predicting transcription start sitesIN-MACA-MCC: Integrated Multiple Attractor Cellular Automata with Modified Clonal Classifier for Human Protein Coding and Promoter Prediction.Analysis of transcriptional regulation of the human miR-17-92 cluster; evidence for involvement of Pim-1.Molecular characterization and promoter analysis of crustacean heat shock protein 10 in Scylla paramemosain.Conserved short sequences in promoter regions of human genome.Using CorePromoter to find human core promoters.Rule-based knowledge acquisition method for promoter prediction in human and Drosophila species.A 38 kb segment containing the cdc2 gene from the left arm of fission yeast chromosome II: sequence analysis and characterization of the genomic DNA and cDNAs encoded on the segment.BROCKMAN: deciphering variance in epigenomic regulators by k-mer factorization.Searching for genes and biologically related signals in DNA sequences
P2860
Q24794534-F77ED90B-BF00-40CD-A186-8CCDFE209FDEQ24796408-25D1193D-C561-401B-A2A9-07475FA605F9Q24813113-8E32B145-E7A6-4F7C-B364-A96CCA0C3D3AQ28507781-6DF67DE2-6D7D-4554-B4F3-2B30BB108753Q30810579-2A692E54-0D30-42F0-B5F2-E4FEA87FD65DQ30950332-0D67E751-C0D6-4E2C-A339-6F8B9100C5AAQ30950339-74F56E46-3A6E-44AE-A4FC-369D4B4AA9C0Q30988768-8E93394C-12C1-4A50-BC05-40E35FB43FE3Q33311392-84C68284-0AFF-499C-8336-5639469EB51AQ33803232-14044EE4-0E44-401F-AFA3-995AEE73888BQ34171882-0EF6D7C3-0E81-4CCB-B10D-B803D5027670Q34599627-67CE9CA7-1D47-4488-B862-49A6CD6C083AQ34810332-E48B9B27-CEC6-4E51-AA80-DE5441AB259BQ35062653-209F69AB-8244-40D6-8BDF-B3BABDA51656Q35176291-F7897F42-4D7E-4B20-A291-8FFFC38A739AQ35626108-10CA4B9A-2EB4-444B-B466-862ACF81F279Q36954302-CF6A9B70-61B8-4311-8709-8D24CCC01E27Q37269318-AD221519-002F-432E-A367-AD77D5C5BB92Q37342721-8E18D844-5E73-464A-ADE1-E24F1173403DQ37411743-2C80B49B-90C9-432A-8655-2289DEE65BBAQ38349212-CF146946-70A1-47AE-ADF5-318CBB69D082Q40023128-69A6E29C-FEF5-4C3D-8D3A-D72FC4444F4BQ40028984-C59ABC97-4194-41F3-9F00-9445566BD535Q40414050-8DC155DD-E163-487F-9F49-7A9AD81D4BC4Q41982886-C6909BCC-D399-498A-8AE0-7BF0611446B5Q42150875-9EDF95EE-B758-4F58-9F00-ECC2E6E9F859Q42154827-47AB727B-A152-45A7-BE09-EFF133C72006Q42604790-DEFF4BC2-E96C-4342-8BA5-552186C07B23Q48066305-67482C2C-72C0-45B6-AE50-6B10FF0CEB7DQ51887996-1BD66963-D3E2-4A54-8A2A-0429D4A173C4Q52774900-E750C713-B271-4D37-936A-F2AF8E525C5BQ53919605-781A5350-AB18-42D6-BA85-C297E5FF422FQ55517950-B10D73A3-D8EB-4E30-8DB9-9DC9D2202B53Q57046400-2531C0B7-031D-4442-BF07-C882278DD094
P2860
description
1998 nî lūn-bûn
@nan
1998 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի մարտին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Identification of human gene core promoters in silico.
@ast
Identification of human gene core promoters in silico.
@en
type
label
Identification of human gene core promoters in silico.
@ast
Identification of human gene core promoters in silico.
@en
prefLabel
Identification of human gene core promoters in silico.
@ast
Identification of human gene core promoters in silico.
@en
P2860
P356
P1433
P1476
Identification of human gene core promoters in silico.
@en
P2093
P2860
P304
P356
10.1101/GR.8.3.319
P577
1998-03-01T00:00:00Z