Showing Results for
- Academic Journals (135)
Search Results
- 135
Academic Journals
- 135
- Search Terms:
- 1From: BMC Systems Biology. (Vol. 6) Peer-ReviewedBackground Marek's Disease (MD) is a hyperproliferative, lymphomatous, neoplastic disease of chickens caused by the oncogenic Gallid herpesvirus type 2 (GaHV-2; MDV). Like several human lymphomas the neoplastic MD...
- 2From: BMC Systems Biology. (Vol. 6) Peer-ReviewedBackground The field of synthetic biology has greatly evolved and numerous functions can now be implemented by artificially engineered cells carrying the appropriate genetic information. However, in order for the cells...
- 3From: BMC Systems Biology. (Vol. 6) Peer-ReviewedAuthors: Pablo Carbonell [1]; Davide Fichera [1]; Shashi B Pandit [1]; Jean-Loup Faulon (corresponding author) [1] Background Metabolism is the process of synthesis and degradation of molecules occurring in living...
- 4From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground As protein-protein interactions connect proteins that participate in either the same or different functions, networks of interacting and functionally annotated proteins can be converted into process graphs...
- 5From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Network motifs provided a "conceptual tool" for understanding the functional principles of biological networks, but such motifs have primarily been used to consider static network structures. Static...
- 6From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Ordinary differential equations are widely-used in the field of systems biology and chemical engineering to model chemical reaction networks. Numerous techniques have been developed to estimate parameters...
- 7From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Yarrowia lipolytica is an oleaginous yeast which has emerged as an important microorganism for several biotechnological processes, such as the production of organic acids, lipases and proteases. It is also...
- 8From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Circadian rhythm pathways influence the expression patterns of as much as 31% of the Arabidopsis genome through complicated interaction pathways, and have been found to be significantly disrupted by biotic...
- 9From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground The three layer mitogen activated protein kinase (MAPK) signaling cascade exhibits different designs of interactions between its kinases and phosphatases. While the sequential interactions between the...
- 10From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground CD4.sup.+ T cells have several subsets of functional phenotypes, which play critical yet diverse roles in the immune system. Pathogen-driven differentiation of these subsets of cells is often heterogeneous...
- 11From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Spirulina (Arthrospira) platensis is a well-known filamentous cyanobacterium used in the production of many industrial products, including high value compounds, healthy food supplements, animal feeds,...
- 12From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Colon crypts, a single sheet of epithelia cells, consist of a periodic pattern of stem cells, transit-amplifying cells, and terminally differentiated cells that constantly renew and turnover. Experimental...
- 13From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Graph-based modularity analysis has emerged as an important tool to study the functional organization of biological networks. However, few methods are available to study state-dependent changes in network...
- 14From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Models of cellular molecular systems are built from components such as biochemical reactions (including interactions between ligands and membrane-bound proteins), conformational changes and active and...
- 15From: BMC Systems Biology. (Vol. 6) Peer-ReviewedBackground Control of growth rate is mediated by tight regulation mechanisms in all free-living organisms since long-term survival depends on adaptation to diverse environmental conditions. The yeast, Saccharomyces...
- 16From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Both transcriptional control and microRNA (miRNA) control are critical regulatory mechanisms for cells to direct their destinies. At present, the combinatorial regulatory network composed of...
- 17From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Biological pathways are important for understanding biological mechanisms. Thus, finding important pathways that underlie biological problems helps researchers to focus on the most relevant sets of genes....
- 18From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground The i JO1366 reconstruction of the metabolic network of Escherichia coli is one of the most complete and accurate metabolic reconstructions available for any organism. Still, because our knowledge of even...
- 19From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground The skeleton of complex systems can be represented as networks where vertices represent entities, and edges represent the relations between these entities. Often it is impossible, or expensive, to...
- 20From: BMC Systems Biology. (Vol. 6, Issue 1) Peer-ReviewedBackground Engineering genetic Boolean logic circuits is a major research theme of synthetic biology. By altering or introducing connections between genetic components, novel regulatory networks are built in order to...