Different patterns of transcription from the two Antennapedia promoters during Drosophila embryogenesis (original) (raw)

Structure of Transcripts from the Homeotic Antennapedia Gene of Drosophila melanogaster: Two Promoters Control the Major Protein-Coding Region

John Bermingham Jr

Molecular and Cellular Biology, 1986

View PDFchevron_right

Structure of transcripts from the homeotic Antennapedia gene of Drosophila melanogaster: two promoters control the major protein-coding region

John Bermingham Jr

Molecular and Cellular Biology, 1986

View PDFchevron_right

Transcription Factors Bind Thousands of Active and Inactive Regions in the Drosophila Blastoderm

daniel pollard

PLoS Biology, 2008

View PDFchevron_right

Different patterns of transcription from the two Antennapedia promoters during Drosophila embryogenesis

John Bermingham Jr

Development (Cambridge, England), 1990

View PDFchevron_right

Stochastic model for gene transcription on Drosophila melanogaster embryos

Guilherme Prata

Physical Review E, 2016

View PDFchevron_right

A transcriptional specialist resolved

Keshab Rijal

Nature, 2015

View PDFchevron_right

X-chromosome transcription in Drosophila

John Lucchesi

Chromosoma, 1980

View PDFchevron_right

Large-scale turnover of functional transcription factor binding sites in Drosophila

daniel pollard

PLoS Computational Biology, 2005

View PDFchevron_right

Deciphering a transcriptional regulatory code: modeling short-range repression in the Drosophila embryo

Ahmet Nedim FİDAN

Molecular Systems Biology, 2010

View PDFchevron_right

Developmentally regulated alternative splicing of transcripts from the Drosophila homeotic gene Antennapedia can produce four different proteins

John Bermingham Jr

The EMBO Journal, 1988

View PDFchevron_right

Large-scale turnover of functional transcription factor binding sites in Drosophila - eScholarship

daniel pollard

2006

View PDFchevron_right

The Drosophila developmental gene, engrailed, encodes a sequence-specific DNA binding activity

Claude Desplan

Nature, 1985

View PDFchevron_right

Genome, Evolution, Drosophila and Beyond: The New Dimensions

Subhash Rajpurohit

Fly, 2007

View PDFchevron_right

The Transcription Factor Encyclopedia

Margaret Hough

Genome Biology, 2012

View PDFchevron_right

First Pass Annotation of Promoters on Human Chromosome 22

Matthias Scherf

Genome Research, 2001

View PDFchevron_right

Regulation of promoters by two transcription activators: evidence for a ‘simultaneous touching’ model

Stephen Busby

Biochemical Society Transactions, 1996

View PDFchevron_right

Mutant Drosophila embryos in which all cells adopt a neural fate

Marc Bourouis

Nature, 1989

View PDFchevron_right

Promoter-specific co-activation by Drosophila mastermind

Michael Caudy

Biochemical and Biophysical Research Communications, 2008

View PDFchevron_right

Rac function and regulation during Drosophila development

Barry Dickson

Nature, 2002

View PDFchevron_right

Yeast TATA-box transcription factor gene

Arnold Berk

Proceedings of the National Academy of Sciences of the United States of America, 1989

View PDFchevron_right

Molecular cloning of cDNA encoding the small subunit of Drosophila transcription initiation factor TFIIF

Dawei Gong

Nucleic Acids Research, 1995

View PDFchevron_right

Search of regular sequences in promoters from eukaryotic genomes

Eugene Korotkov

Computational Biology and Chemistry, 2009

View PDFchevron_right

Comparative studies of Drosophila Antennapedia genes

John Bermingham Jr

Genetics, 1992

View PDFchevron_right

Signal transduction in the early Drosophila embryo: when genetics meets biochemistry

Claude Desplan

Trends in Biochemical Sciences, 1994

View PDFchevron_right

Expression of the disconnected gene during development of Drosophila melanogaster

Hermann Steller

The EMBO Journal

View PDFchevron_right

The features of Drosophila core promoters revealed by statistical analysis

Naum Gershenzon

BMC genomics, 2006

View PDFchevron_right

Structural and functional analysis of some moulting hormone-responsive genes from Drosophila

Marc Bourouis

Insect Biochemistry, 1986

View PDFchevron_right

Rrn7 Protein, an RNA Polymerase I Transcription Factor, Is Required for RNA Polymerase II-dependent Transcription Directed by Core Promoters with a HomolD Box Sequence

fabiola urbina

Journal of Biological Chemistry, 2011

View PDFchevron_right

Changes in the chromatin structure of Drosophila glue genes accompany developmental cessation of transcription in wild type and transformed strains

Marc Bourouis

Cell, 1986

View PDFchevron_right

Tracking Components of the Transcription Apparatus in Living Cells

Jose y Eva Segoviano Reyes

Methods, 1999

View PDFchevron_right

A high-throughput method for quantifying gene expression data from early Drosophila embryos

Carlos Vanario-alonso

Development Genes and Evolution, 2005

View PDFchevron_right

Comparative genomics of Drosophila and human core promoters

Peter Fitzgerald

Genome biology, 2006

View PDFchevron_right

Nuclear Matrix Proteome Analysis of Drosophila melanogaster

Rakesh Kumar Mishra

Molecular & Cellular Proteomics, 2010

View PDFchevron_right

A Drosophila RNA helicase gene, pitchoune, is required for cell growth and proliferation and is a potential target of d-Myc

Stéphane Zaffran

Development, 1998

View PDFchevron_right

Developmental Biology of Somatic Embryogenesis

Feky R . Mantiri

Plant Developmental Biology - Biotechnological Perspectives, 2010

View PDFchevron_right