Add to ORKGAbstract. Discovering all the genetic causes of a phenotype is an important goal in functional ge-nomics. In this paper we combine an experimental design for multiple independent detections of the genetic causes of a phenotype, with a high-throughput sequencing analysis that maximizes sensitivity for comprehensively identifying them. Testing this approach on a set of 24 mutant strains generated for a metabolic phenotype with many known genetic causes, we show that this pathway-based phe-notype sequencing analysis greatly improves sensitivity of detection compared with previous methods, and reveals a wide range of pathways that can cause this phenotype. We demonstrate our approach on a metabolic re-engineering phenotype, the PEP/OAA metaboli...
The phenotype-genotype landscape is a projection coming from detailed phenotypic and genotypic data ...
The goal of this research is to directly highlight the simultaneous occurrence of several phenotypes...
Selections with collections (libraries) of synthetically engineered microbes can rapidly identify mu...
Discovering all the genetic causes of a phenotype is an important goal in functional genomics. We co...
Random mutagenesis and phenotype screening provide a powerful method for dissecting microbial functi...
Random mutagenesis and phenotype screening provide a powerful method for dissecting microbial functi...
Highly ethanol-tolerant bacteria for the production of biofuels, bacterial pathogenes which are resi...
Highly ethanol-tolerant bacteria for the production of biofuels, bacterial pathogenes which are resi...
The genomic revolution of the last twenty years has launched the biosciences into a new frontier. Fo...
BACKGROUND: Linking phenotypes to high-throughput molecular biology information generated by ~omics ...
The genotype -phenotype relationship is fundamental to biology. For decades this relationship has be...
With mounting availability of genomic and phenotypic databases, data integration and mining become i...
Background: Phenotypes exhibited by microorganisms can be useful for several purposes, e.g., ethanol...
Abstract Background Linking phenotypes to high-throughput molecular biology information generated by...
SummaryThe explosion of sequence information in bacteria makes developing high-throughput, cost-effe...
The phenotype-genotype landscape is a projection coming from detailed phenotypic and genotypic data ...
The goal of this research is to directly highlight the simultaneous occurrence of several phenotypes...
Selections with collections (libraries) of synthetically engineered microbes can rapidly identify mu...
Discovering all the genetic causes of a phenotype is an important goal in functional genomics. We co...
Random mutagenesis and phenotype screening provide a powerful method for dissecting microbial functi...
Random mutagenesis and phenotype screening provide a powerful method for dissecting microbial functi...
Highly ethanol-tolerant bacteria for the production of biofuels, bacterial pathogenes which are resi...
Highly ethanol-tolerant bacteria for the production of biofuels, bacterial pathogenes which are resi...
The genomic revolution of the last twenty years has launched the biosciences into a new frontier. Fo...
BACKGROUND: Linking phenotypes to high-throughput molecular biology information generated by ~omics ...
The genotype -phenotype relationship is fundamental to biology. For decades this relationship has be...
With mounting availability of genomic and phenotypic databases, data integration and mining become i...
Background: Phenotypes exhibited by microorganisms can be useful for several purposes, e.g., ethanol...
Abstract Background Linking phenotypes to high-throughput molecular biology information generated by...
SummaryThe explosion of sequence information in bacteria makes developing high-throughput, cost-effe...
The phenotype-genotype landscape is a projection coming from detailed phenotypic and genotypic data ...
The goal of this research is to directly highlight the simultaneous occurrence of several phenotypes...
Selections with collections (libraries) of synthetically engineered microbes can rapidly identify mu...