How can a large number of different phenotypes be generated by a limited number of genotypes? Promiscuity between different, structurally related and/or unrelated proteins seems to provide a plausible explanation to this pertinent question. Strategies able to predict such functional interrelations between different proteins are important to restrict the number of putative candidate proteins, which can then be subjected to time-consuming functional tests. Here we describe the use of the operon structure of the nematode genome to identify partner proteins in human cells. In this work we focus on ion channels proteins, which build an interface between the cell and the outside world and are responsible for a growing number of diseases in humans...
Information about functional connections between genes can be derived from patterns of coupled loss ...
Abstract Background Understanding gene function and genetic relationships is fundamental to our effo...
Background: Almost half of the Caenorhabditis elegans genome encodes proteins with either a signal p...
Abstract: How can a large number of different phenotypes be generated by a limited number of genotyp...
How can a large number of different phenotypes be generated by a limited number of genotypes? Promis...
One of the most pressing challenges in the post genomic era is the identification and characterizati...
Background: The complete genome sequences for human and the nematode Caenorhabditiselegans offer an ...
Background: Many aspects of the nematode Caenorhabditis elegans biology are conservedbetween inverte...
Understanding gene function and genetic relationships is elemental in our efforts to better understa...
Genetic interaction and synthetic lethality are important tools that can be utilized to study the or...
Metabolic networks are the collections of all cellular activities taking place in a living cell and ...
In the development of genome-wide databases of model organisms, non-traditional approaches to study ...
Most common genetic disorders have a complex inheritance and may result from variants in many genes,...
To obtain a global view of functional interactions among genes in a metazoan genome, we computationa...
Abstract Background Understanding gene function and g...
Information about functional connections between genes can be derived from patterns of coupled loss ...
Abstract Background Understanding gene function and genetic relationships is fundamental to our effo...
Background: Almost half of the Caenorhabditis elegans genome encodes proteins with either a signal p...
Abstract: How can a large number of different phenotypes be generated by a limited number of genotyp...
How can a large number of different phenotypes be generated by a limited number of genotypes? Promis...
One of the most pressing challenges in the post genomic era is the identification and characterizati...
Background: The complete genome sequences for human and the nematode Caenorhabditiselegans offer an ...
Background: Many aspects of the nematode Caenorhabditis elegans biology are conservedbetween inverte...
Understanding gene function and genetic relationships is elemental in our efforts to better understa...
Genetic interaction and synthetic lethality are important tools that can be utilized to study the or...
Metabolic networks are the collections of all cellular activities taking place in a living cell and ...
In the development of genome-wide databases of model organisms, non-traditional approaches to study ...
Most common genetic disorders have a complex inheritance and may result from variants in many genes,...
To obtain a global view of functional interactions among genes in a metazoan genome, we computationa...
Abstract Background Understanding gene function and g...
Information about functional connections between genes can be derived from patterns of coupled loss ...
Abstract Background Understanding gene function and genetic relationships is fundamental to our effo...
Background: Almost half of the Caenorhabditis elegans genome encodes proteins with either a signal p...