Mutations in non-coding regulatory DNA sequences can alter gene expression, organismal phenotype and fitness1-3. Constructing complete fitness landscapes, in which DNA sequences are mapped to fitness, is a long-standing goal in biology, but has remained elusive because it is challenging to generalize reliably to vast sequence spaces4-6. Here we build sequence-to-expression models that capture fitness landscapes and use them to decipher principles of regulatory evolution. Using millions of randomly sampled promoter DNA sequences and their measured expression levels in the yeast Saccharomyces cerevisiae, we learn deep neural network models that generalize with excellent prediction performance, and enable sequence design for expression enginee...
Evolutionary trajectories and phenotypic states available to cell populations are ultimately dictate...
In this chapter, we describe the use of evolutionary methods for the in silico generation of artific...
<div><p>Phenotypic states and evolutionary trajectories available to cell populations are ultimately...
Understanding how cis-regulatory regions function and evolve has been a long-standing challenge. To ...
One of the outstanding challenges in comparative genomics is to interpret the evolutionary importanc...
Evolutionary rewiring of regulatory networks is an important source of diversity among species. Prev...
With the development of next-generation sequencing technologies, many large scale experimental effor...
To gauge the complexity of gene regulation in yeast, it is essential to know how much promoter seque...
Phenotypic variation is the raw material of adaptive Darwinian evolution. The phenotypic variation f...
Understanding the evolution of biological systems involves understanding (i) how mutational changes ...
Cells adapt to familiar changes in their environment by activating predefined regulatory programs th...
Evolutionary rewiring of regulatory networks is an important source of diversity among species. Prev...
2018-10-30Advances in molecular and developmental biology have lead to the understanding that many p...
Gene expression is controlled by networks of regulatory proteins that interact specifically with ext...
The adaptive landscape is an iconic metaphor that pervades evolutionary biology. It was mostly appli...
Evolutionary trajectories and phenotypic states available to cell populations are ultimately dictate...
In this chapter, we describe the use of evolutionary methods for the in silico generation of artific...
<div><p>Phenotypic states and evolutionary trajectories available to cell populations are ultimately...
Understanding how cis-regulatory regions function and evolve has been a long-standing challenge. To ...
One of the outstanding challenges in comparative genomics is to interpret the evolutionary importanc...
Evolutionary rewiring of regulatory networks is an important source of diversity among species. Prev...
With the development of next-generation sequencing technologies, many large scale experimental effor...
To gauge the complexity of gene regulation in yeast, it is essential to know how much promoter seque...
Phenotypic variation is the raw material of adaptive Darwinian evolution. The phenotypic variation f...
Understanding the evolution of biological systems involves understanding (i) how mutational changes ...
Cells adapt to familiar changes in their environment by activating predefined regulatory programs th...
Evolutionary rewiring of regulatory networks is an important source of diversity among species. Prev...
2018-10-30Advances in molecular and developmental biology have lead to the understanding that many p...
Gene expression is controlled by networks of regulatory proteins that interact specifically with ext...
The adaptive landscape is an iconic metaphor that pervades evolutionary biology. It was mostly appli...
Evolutionary trajectories and phenotypic states available to cell populations are ultimately dictate...
In this chapter, we describe the use of evolutionary methods for the in silico generation of artific...
<div><p>Phenotypic states and evolutionary trajectories available to cell populations are ultimately...