Technological developments such as microarray‐based DNA, RNA and protein detection have opened new fields in genomics and proteomics. This review aims to highlight the potential value and limitation of this methodology to design and extract signature‐based diagnostic markers for infectious disease
pathogen to show a disease/pathogen relationship, was seldom questioned and was considered the basic...
1. Microarrays, a recent development, provide a revolutionary platform to analyse thousands of genes...
Viruses are major factors of human infectious diseases. They not only threaten the public health but...
Technological developments such as microarray‐based DNA, RNA and protein detection have opened new f...
Molecular diagnostics comprises a main analytical division in clinical laboratory diagnostics. The a...
Protein microarrays are powerful tools that are widely used in systems biology research. For infecti...
This chapter will address some of the many issues associated with the identification of signatures b...
Pathogens pose a significant threat to humans, animals, and plants. Consequently, a considerable eff...
Advances in molecular methods for analyzing DNA, RNA and proteins in humans as well as in other anim...
Genomics provided biomedical scientists an inventory of all genes and sequences present in a living ...
Infectious agents have traditionally been detected in clinical samples by microscopic identification...
Fast and accurate identification of pathogenic microorganisms in complex clinical and environmental ...
Microarrays can be used as diagnostic clinical tools, providing a global overview of gene transcript...
Microarray technologies have been a major research tool in the last decades. In addition they have b...
Microarray technology allows the simultaneous analysis of up to thousands of different genes in hist...
pathogen to show a disease/pathogen relationship, was seldom questioned and was considered the basic...
1. Microarrays, a recent development, provide a revolutionary platform to analyse thousands of genes...
Viruses are major factors of human infectious diseases. They not only threaten the public health but...
Technological developments such as microarray‐based DNA, RNA and protein detection have opened new f...
Molecular diagnostics comprises a main analytical division in clinical laboratory diagnostics. The a...
Protein microarrays are powerful tools that are widely used in systems biology research. For infecti...
This chapter will address some of the many issues associated with the identification of signatures b...
Pathogens pose a significant threat to humans, animals, and plants. Consequently, a considerable eff...
Advances in molecular methods for analyzing DNA, RNA and proteins in humans as well as in other anim...
Genomics provided biomedical scientists an inventory of all genes and sequences present in a living ...
Infectious agents have traditionally been detected in clinical samples by microscopic identification...
Fast and accurate identification of pathogenic microorganisms in complex clinical and environmental ...
Microarrays can be used as diagnostic clinical tools, providing a global overview of gene transcript...
Microarray technologies have been a major research tool in the last decades. In addition they have b...
Microarray technology allows the simultaneous analysis of up to thousands of different genes in hist...
pathogen to show a disease/pathogen relationship, was seldom questioned and was considered the basic...
1. Microarrays, a recent development, provide a revolutionary platform to analyse thousands of genes...
Viruses are major factors of human infectious diseases. They not only threaten the public health but...