Abstract Background The regulatory information encoded in the DNA of promoter regions usually enforces a minimal, non-zero distance between the coding regions of neighboring genes. However, the size of this minimal regulatory space is not generally known. In particular, it is unclear if minimal promoter size differs between species and between uni- and bi-directionally acting regulatory regions. Results Analyzing the genomes of 11 yeasts, we show that the lower size limit on promoter-containing regions is species-specific within a relatively narrow range (80-255 bp). This size limit applies equally to regions that initiate transcription on one or both strands, indicating that bi-directional promoters and uni-directional promoters are constr...
Chromatin organization plays a major role in gene regulation and can affect the function and evoluti...
Transcription factors control gene expression by binding to short specific DNA sequences, called tra...
Gene expression is the most fundamental biological process, which is essential for phenotypic variat...
To gauge the complexity of gene regulation in yeast, it is essential to know how much promoter seque...
Transcription factors govern gene expression by binding to short DNA sequences called cis-regulatory...
Abstract Background How the transcription factor binding sites (TFBSs) are distributed in the promot...
The genome of eukaryotic microbes is usually quite compacted. The yeast Saccharomyces cerevisiae is ...
Despite the availability of whole-genome sequences for almost all model organisms, making faithful p...
The short length and high degeneracy of sites recognized by DNA-binding transcription factors limit ...
A central challenge to post-genomic biology is to elucidate the cellular networks that underlie biol...
ABSTRACT Balancing gene expression is a fundamental challenge of all cell types. To properly regulat...
The short length and high degeneracy of sites recognized by DNA-binding transcription factors limit ...
Genetic material in eukaryotes is tightly packaged in a hierarchical manner into multiple linear chr...
Chromatin organization plays a major role in gene regulation and can affect the function and evoluti...
Eukaryotic transcription occurs within a chromatin environment, whose organization plays an importan...
Chromatin organization plays a major role in gene regulation and can affect the function and evoluti...
Transcription factors control gene expression by binding to short specific DNA sequences, called tra...
Gene expression is the most fundamental biological process, which is essential for phenotypic variat...
To gauge the complexity of gene regulation in yeast, it is essential to know how much promoter seque...
Transcription factors govern gene expression by binding to short DNA sequences called cis-regulatory...
Abstract Background How the transcription factor binding sites (TFBSs) are distributed in the promot...
The genome of eukaryotic microbes is usually quite compacted. The yeast Saccharomyces cerevisiae is ...
Despite the availability of whole-genome sequences for almost all model organisms, making faithful p...
The short length and high degeneracy of sites recognized by DNA-binding transcription factors limit ...
A central challenge to post-genomic biology is to elucidate the cellular networks that underlie biol...
ABSTRACT Balancing gene expression is a fundamental challenge of all cell types. To properly regulat...
The short length and high degeneracy of sites recognized by DNA-binding transcription factors limit ...
Genetic material in eukaryotes is tightly packaged in a hierarchical manner into multiple linear chr...
Chromatin organization plays a major role in gene regulation and can affect the function and evoluti...
Eukaryotic transcription occurs within a chromatin environment, whose organization plays an importan...
Chromatin organization plays a major role in gene regulation and can affect the function and evoluti...
Transcription factors control gene expression by binding to short specific DNA sequences, called tra...
Gene expression is the most fundamental biological process, which is essential for phenotypic variat...