The high failure rate of therapeutics showing promise in mouse models to translate to patients is a pressing challenge in biomedical science. Though retrospective studies have examined the fidelity of mouse models to their respective human conditions, approaches for prospective translation of insights from mouse models to patients remain relatively unexplored. Here, we develop a semi-supervised learning approach for inference of disease-associated human differentially expressed genes and pathways from mouse model experiments. We examined 36 transcriptomic case studies where comparable phenotypes were available for mouse and human inflammatory diseases and assessed multiple computational approaches for inferring human biology from mouse data...
Despite significant computational challenges, a number of tools have been developed recently to leve...
Mouse models are vital for preclinical research on Alzheimer’s disease (AD) pathobiology. Many tradi...
Mouse models have been instrumental in understanding human disease biology and proposing possible ne...
The high failure rate of therapeutics showing promise in mouse models to translate to patients is a ...
The high failure rate of therapeutics showing promise in mouse models to translate to patients is a ...
Cross-species differences form barriers to translational research that ultimately hinder the succes...
<div><p>Murine models are an essential tool to study human immune responses and related diseases. Ho...
Despite their utility as models for human systems, intrinsic differences between mouse and human bio...
Semi-supervised learning begins by training an initial supervised model on the mouse data alone and ...
Generalizing results from animal models to human patients is a critical biomedical challenge. This p...
The mouse is the main model organism used to study the functions of human genes because most biologi...
With the increase in knowledge resulting from the sequencing of the human genome, the genetic basis ...
This dissertation is the culmination of my graduate studies in the laboratory of Jake Lusis at UCLA....
Motivation: Inferring how humans respond to external cues such as drugs, chemicals, viruses or hormo...
Motivation: Gene regulation is responsible for controlling numerous physiological functions and dyna...
Despite significant computational challenges, a number of tools have been developed recently to leve...
Mouse models are vital for preclinical research on Alzheimer’s disease (AD) pathobiology. Many tradi...
Mouse models have been instrumental in understanding human disease biology and proposing possible ne...
The high failure rate of therapeutics showing promise in mouse models to translate to patients is a ...
The high failure rate of therapeutics showing promise in mouse models to translate to patients is a ...
Cross-species differences form barriers to translational research that ultimately hinder the succes...
<div><p>Murine models are an essential tool to study human immune responses and related diseases. Ho...
Despite their utility as models for human systems, intrinsic differences between mouse and human bio...
Semi-supervised learning begins by training an initial supervised model on the mouse data alone and ...
Generalizing results from animal models to human patients is a critical biomedical challenge. This p...
The mouse is the main model organism used to study the functions of human genes because most biologi...
With the increase in knowledge resulting from the sequencing of the human genome, the genetic basis ...
This dissertation is the culmination of my graduate studies in the laboratory of Jake Lusis at UCLA....
Motivation: Inferring how humans respond to external cues such as drugs, chemicals, viruses or hormo...
Motivation: Gene regulation is responsible for controlling numerous physiological functions and dyna...
Despite significant computational challenges, a number of tools have been developed recently to leve...
Mouse models are vital for preclinical research on Alzheimer’s disease (AD) pathobiology. Many tradi...
Mouse models have been instrumental in understanding human disease biology and proposing possible ne...