about
The frailty of adaptive hypotheses for the origins of organismal complexityAnABlast: a new in silico strategy for the genome-wide search of novel genes and fossil regionsConnections between alternative transcription and alternative splicing in mammals.Statistical inference on the mechanisms of genome evolution.The plausible reason why the length of 5' untranslated region is unrelated to organismal complexity.The genomic features that affect the lengths of 5' untranslated regions in multicellular eukaryotes.5'-Serial Analysis of Gene Expression studies reveal a transcriptomic switch during fruiting body development in Coprinopsis cinereaThe promoter architectural landscape of the Salmonella PhoP regulon.Fungal genes in context: genome architecture reflects regulatory complexity and function.Current approaches for TYMS polymorphisms and their importance in molecular epidemiology and pharmacogenetics.Genetic polymorphisms in low-dose methotrexate transporters: current relevance as methotrexate therapeutic outcome biomarkers.Three decades of low-dose methotrexate in rheumatoid arthritis: can we predict toxicity?Estimating the parameters of background selection and selective sweeps in Drosophila in the presence of gene conversion.Making sense of nuclear localization: a zinc-finger protein encoded by a cytoplasmically replicating plant RNA virus acts a transcription factor: a novel function for a member of large family of viral proteins.SLC19A1, SLC46A1 and SLCO1B1 polymorphisms as predictors of methotrexate-related toxicity in Portuguese rheumatoid arthritis patients.Relationship between 5' UTR length and gene expression pattern in chicken.Functional 5' UTR mRNA structures in eukaryotic translation regulation and how to find them.Universal power law behaviors in genomic sequences and evolutionary models.Distributions of selectively constrained sites and deleterious mutation rates in the hominid and murid genomes.
P2860
Q22066346-5F16870C-7FE7-410C-B294-FC39358023DCQ28606485-09943656-15EC-43EE-B5DA-C41BC6E6B873Q33708655-CD3A3241-C3DD-432C-A4E6-BC63AA6D0C03Q33939657-D24776EC-D3AD-49A1-BD88-7DDA53D40D29Q34003878-60CD0032-3849-4718-BD44-ED3931EEAB5EQ34094862-E0F51DF5-F6F3-4BA4-8328-6C25F3356273Q34628588-EBD5285F-C8A6-4CBB-9597-55312D550561Q35910863-3DE14B74-6D1D-493C-B693-1E6B7C9DE272Q37061828-EE81619B-92F1-4717-8FA2-9AFDAE86A557Q38127717-69694B36-8C58-4043-A198-ABEEFEB0B855Q38262203-308E05BA-3236-4116-8F9B-0B656A20783BQ38267703-B459CCC4-D406-409D-882E-F9EA3791BFA4Q38755658-8C458BE6-645C-4F41-B3AA-DBF18CAFDF45Q38956205-B9F6C942-A290-4853-A3AB-AB7F97F6CE19Q42199862-F68A143D-AA6D-43C2-ABC3-CC721E388A9CQ44534553-4F884A6A-9B3E-48C2-9822-CD92FB4D08C1Q46856027-05F0C0ED-DEA3-47BD-8595-07CD3526293CQ51904159-9D3B9896-D093-4896-838F-180D78FC89E6Q53060381-5B02EDEA-8CC9-4CD7-83E3-A19344A419CE
P2860
description
im Januar 2005 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published on 02 February 2005
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в січні 2005
@uk
name
The Evolution of Transcription-Initiation Sites
@en
The Evolution of Transcription-Initiation Sites
@nl
type
label
The Evolution of Transcription-Initiation Sites
@en
The Evolution of Transcription-Initiation Sites
@nl
prefLabel
The Evolution of Transcription-Initiation Sites
@en
The Evolution of Transcription-Initiation Sites
@nl
P356
P1476
The evolution of transcription-initiation sites
@en
P2093
Michael Lynch
P304
P356
10.1093/MOLBEV/MSI100
P577
2005-02-02T00:00:00Z