The emergence of high-throughput technologies for measuring biological systems has introduced problems for data interpretation that must be addressed for proper inference. First, analysis techniques need to be matched to the biological system, reflecting in their mathematical structure the underlying behavior being studied. When this is not done, mathematical techniques will generate answers, but the values and reliability estimates may not accurately reflect the biology. Second, analysis approaches must address the vast excess in variables measured (e.g. transcript levels of genes) over the number of samples (e.g. tumors, time points), known as the ‘large-p, small-n ’ problem. In large-p, small-n paradigms, standard statistical techniques ...
We highlight the role of statistical inference techniques in providing biological insights from anal...
Despite our improved ability to probe biological systems at a higher spatio-temporal resolution, the...
High-throughput technologies are now widely used in the life sciences field and are producing ever-i...
The emergence of high-throughput technologies for measuring biological systems has introduced proble...
Abstract Results of high throughput experiments can be challenging to interpret. Current approaches ...
Within the last decade molecular biology has progressed to become a data rich science, driven by the...
Life sciences are experiencing a historical shift towards a quantitative, data-rich regime. This tra...
The acquisition and measurement of biological data have dramatically changed in the recent years. In...
Molecular biology is a highly complicated subject due to the complexity of cells and organisms as sy...
<p>The advent of multiple new technologies for measuring many components in biological systems offer...
Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2003.Includes...
Innovations in the design and implementation of high-throughput technologies has shifted biological ...
The advent of high throughput technologies has enabled large-scale measurements of the genome, trans...
The big questions in cell biology increasingly require quantitative approaches to get answers. A typ...
Biomedical sciences have seen radical growth in recent decades, inspired by a plethora of technologi...
We highlight the role of statistical inference techniques in providing biological insights from anal...
Despite our improved ability to probe biological systems at a higher spatio-temporal resolution, the...
High-throughput technologies are now widely used in the life sciences field and are producing ever-i...
The emergence of high-throughput technologies for measuring biological systems has introduced proble...
Abstract Results of high throughput experiments can be challenging to interpret. Current approaches ...
Within the last decade molecular biology has progressed to become a data rich science, driven by the...
Life sciences are experiencing a historical shift towards a quantitative, data-rich regime. This tra...
The acquisition and measurement of biological data have dramatically changed in the recent years. In...
Molecular biology is a highly complicated subject due to the complexity of cells and organisms as sy...
<p>The advent of multiple new technologies for measuring many components in biological systems offer...
Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2003.Includes...
Innovations in the design and implementation of high-throughput technologies has shifted biological ...
The advent of high throughput technologies has enabled large-scale measurements of the genome, trans...
The big questions in cell biology increasingly require quantitative approaches to get answers. A typ...
Biomedical sciences have seen radical growth in recent decades, inspired by a plethora of technologi...
We highlight the role of statistical inference techniques in providing biological insights from anal...
Despite our improved ability to probe biological systems at a higher spatio-temporal resolution, the...
High-throughput technologies are now widely used in the life sciences field and are producing ever-i...