Background Cancer has remarkable complexity at the molecular level, with multiple genes, proteins, pathways and regulatory interconnections being affected. We introduce a systems biology approach to study cancer that formally integrates the available genetic, transcriptomic, epigenetic and molecular knowledge on cancer biology and, as a proof of concept, we apply it to colorectal cancer. Results We first classified all the genes in the human genome into cancer-associated and non-cancer-associated genes based on extensive literature mining. We then selected a set of functional attributes proven to be highly relevant to cancer biology that includes protein kinases, secreted proteins, transcription factors, post-translational modifications of ...
[[abstract]]Several of ten thousands functional genes control the growth, genetics, and behavior of ...
This work presents four computational studies for the prediction of cancer genes and pathways and th...
Motivation: Cancer is a complex disease, triggered by mutations in multiple genes and pathways. Ther...
Background: Cancer is a complex disease where molecular mechanism remains elusive. A systems approac...
Abstract Background Biological entities do not perform in isolation, and often, it is the nature and...
Genomic alterations lead to cancer complexity and form a major hurdle for comprehensive understandin...
Advances in the field of molecular biology have resulted in a decent understanding of the causes for...
Colorectal cancer is one of the most common cancer types worldwide and accounts for approximately 60...
Colorectal cancer (CRC) is one of the most common and lethal malignant lesions. Determining how the ...
Cancer is a complex disease driven by somatic genomic alterations (SGAs) that perturb signaling path...
Although genome-wide association studies have identified many risk loci associated with colorectal c...
<div><p>Significantly expressed genes extracted from microarray gene expression data have proved ver...
AIM: This study is aimed to elicit the possible correlation between breast and colon cancer from mol...
Network and systems biology disciplines could revolutionize the study of complex diseases by taking ...
<div><p>For examining the intricate biological processes concerned with colorectal cancer (CRC), a s...
[[abstract]]Several of ten thousands functional genes control the growth, genetics, and behavior of ...
This work presents four computational studies for the prediction of cancer genes and pathways and th...
Motivation: Cancer is a complex disease, triggered by mutations in multiple genes and pathways. Ther...
Background: Cancer is a complex disease where molecular mechanism remains elusive. A systems approac...
Abstract Background Biological entities do not perform in isolation, and often, it is the nature and...
Genomic alterations lead to cancer complexity and form a major hurdle for comprehensive understandin...
Advances in the field of molecular biology have resulted in a decent understanding of the causes for...
Colorectal cancer is one of the most common cancer types worldwide and accounts for approximately 60...
Colorectal cancer (CRC) is one of the most common and lethal malignant lesions. Determining how the ...
Cancer is a complex disease driven by somatic genomic alterations (SGAs) that perturb signaling path...
Although genome-wide association studies have identified many risk loci associated with colorectal c...
<div><p>Significantly expressed genes extracted from microarray gene expression data have proved ver...
AIM: This study is aimed to elicit the possible correlation between breast and colon cancer from mol...
Network and systems biology disciplines could revolutionize the study of complex diseases by taking ...
<div><p>For examining the intricate biological processes concerned with colorectal cancer (CRC), a s...
[[abstract]]Several of ten thousands functional genes control the growth, genetics, and behavior of ...
This work presents four computational studies for the prediction of cancer genes and pathways and th...
Motivation: Cancer is a complex disease, triggered by mutations in multiple genes and pathways. Ther...