High-throughput screening
Salmonella survival
High-throughput screening to determine the genetic requirements for Salmonella survival under different growth conditions
from Mollie Megan Reynolds, Rocio Canals, Michael McClelland and Helene Andrews-Polymenis writing in Salmonella: From Genome to Function
Salmonella species are capable of survival in a wide range of niches, both in the environment and in an infected host. Genetic requirements for survival of Salmonella in different niches have traditionally been identified using gene expression and forward genetics. The availability of complete genome sequences, microarray technology, and cost-effective new sequencing capabilities enabled increasingly efficient high-throughput analyses of Salmonella genomes to identify elements that contribute to survival in these niches. A recent review describes many of the high-throughput tools that have been developed over the past two decades, and the genetic requirements for Salmonella survival that have been identified using these techniques.
Further reading: Salmonella: From Genome to Function
from Mollie Megan Reynolds, Rocio Canals, Michael McClelland and Helene Andrews-Polymenis writing in Salmonella: From Genome to Function
Salmonella species are capable of survival in a wide range of niches, both in the environment and in an infected host. Genetic requirements for survival of Salmonella in different niches have traditionally been identified using gene expression and forward genetics. The availability of complete genome sequences, microarray technology, and cost-effective new sequencing capabilities enabled increasingly efficient high-throughput analyses of Salmonella genomes to identify elements that contribute to survival in these niches. A recent review describes many of the high-throughput tools that have been developed over the past two decades, and the genetic requirements for Salmonella survival that have been identified using these techniques.
Further reading: Salmonella: From Genome to Function