The JAK-STAT signaling network in the human B-cell: an extreme signaling pathway analysis.
about
A protocol for generating a high-quality genome-scale metabolic reconstructionUntangling the web of functional and physical interactions in yeastProtein tyrosine phosphatase non-receptor type 2 and inflammatory bowel diseaseMatrix formalism to describe functional states of transcriptional regulatory systems.The signaling petri net-based simulator: a non-parametric strategy for characterizing the dynamics of cell-specific signaling networksIdentification of potential pathway mediation targets in Toll-like receptor signalingMultiscale modeling of cardiac cellular energetics.Dynamic analysis of integrated signaling, metabolic, and regulatory networks.Predicting biological system objectives de novo from internal state measurements.Strategies and Tactics in Multiscale Modeling of Cell-to-Organ Systems.A methodology for the structural and functional analysis of signaling and regulatory networks.Building the power house: recent advances in mitochondrial studies through proteomics and systems biology.Mathematical modeling of intracellular signaling pathways.SigFlux: a novel network feature to evaluate the importance of proteins in signal transduction networks.Sensitivity analysis of intracellular signaling pathway kinetics predicts targets for stem cell fate control.Estimation of the number of extreme pathways for metabolic networks.Exhaustive identification of steady state cycles in large stoichiometric networks.Rapidly exploring structural and dynamic properties of signaling networks using PathwayOracle.Comparative analysis of the JAK/STAT signaling through erythropoietin receptor and thrombopoietin receptor using a systems approach.Comparison on extreme pathways reveals nature of different biological processes.In silico models of cancerControlling the outcome of the Toll-like receptor signaling pathways.Contextualization procedure and modeling of monocyte specific TLR signaling.Computational modeling of mammalian signaling networks.Inferring cell-scale signalling networks via compressive sensing.Computational approaches for translational clinical research in disease progression.Systems biology of host-microbe metabolomics.Mathematical models of specificity in cell signaling.mRNA expression in different developmental stages of the chicken bursa of Fabricius.EGFR Signal-Network Reconstruction Demonstrates Metabolic Crosstalk in EMT.Development of Th17-Associated Interstitial Kidney Inflammation in Lupus-Prone Mice Lacking the Gene Encoding STAT-1.Biochemical and statistical network models for systems biologyComputational models of the JAK1/2-STAT1 signalingMetabolic systems biology.Rule-based modeling: a computational approach for studying biomolecular site dynamics in cell signaling systems.Toward design-based engineering of industrial microbes.Genome-scale metabolic networks.Applying systems biology methods to the study of human physiology in extreme environments.Computational approaches to metabolic engineering utilizing systems biology and synthetic biology.Reconstruction of protein-protein interaction network of insulin signaling in Homo sapiens.
P2860
Q24603373-46CD5F4E-2749-4C30-A401-0CB59F541292Q24812778-F51B5367-B6A2-425D-987F-56FE38173799Q26774570-DA3CF6D6-C859-4B89-8FF3-505E6563BFD0Q28469032-8F943E4B-2EDB-4DAF-97FD-0C3A8BDDE4BEQ28472336-0D27E779-297E-41C4-AFC9-22902141F7A2Q28474725-4103AF57-1728-4638-95CD-6D8D52525E4DQ28752359-62F43ABE-C6D6-4494-B759-863E66E17B91Q30441717-A186D203-0FE1-422D-ACA5-05E75AFB9DE7Q30443523-BC384C27-2A6E-4A02-A9D6-00FBE2F4E712Q30481550-A3328B23-01AD-4B45-A072-8290263ACFC7Q33233350-0FB8C2C8-9635-4E8E-AC01-0C7555F6157CQ33252676-4A0FF7B7-CF15-43ED-967E-8BCD34E9D30EQ33264213-75A67539-66A4-4A57-AB31-A2D54CDB532AQ33264723-F5170CC6-8CFA-45FF-ABA5-FFF0A2C018E3Q33290224-B9EFD00F-6852-4B51-AE29-40F7073E17EFQ33300475-15B9E833-696D-4BF0-8A35-AC1EC511BA33Q33350707-1E658CDA-07D4-4EAB-ABB9-546FF1ED699EQ33361469-6F778198-1538-4996-A3E1-6E71886F54ACQ33407887-C8CD94F6-9A1D-4CEF-A702-537BC50B05E6Q33840569-EC55E7CB-A9CF-4FF6-867A-33C50D6A60C1Q34137584-E50E231C-4AD1-4A6D-B00C-E5C64EAC7980Q34170832-2FEEDF26-C234-4ED2-81BC-C6037C8D621CQ34510293-B396E6E0-6A78-4677-BAD4-5B8D8D7D6CF0Q35018212-21A739FF-92EF-4E07-BA1C-BEC33244FE54Q35152997-A0E1EFDA-EEBF-401A-9C6B-716F5AAC0798Q35388120-C2C6086B-B371-499A-8649-69E789C81559Q35619563-D8476463-EA33-4E3A-A963-C6C4843F4377Q35753811-4CE2D0BF-5036-4185-B37E-746C3EDB0A0EQ35963596-DABAB2F2-A078-4A3D-AEBB-0E1717F23334Q36037821-A591DCB6-F887-4286-9AAA-2FF0DCC3A751Q36844749-C490E80E-C522-49EB-A49A-67F2111E512BQ36903369-BC20DF03-1591-4DA3-8ADB-F739D620C5F8Q37168136-771255D5-A4D9-48CD-A93C-1605A78CFFD3Q37601038-B5E3337D-11D9-4ADC-8CB1-A7C75ECF4D55Q37626541-250F9F61-DB07-4AFF-AF72-1C32FE4CF5F2Q37708521-E7336527-C9A0-415A-A7C3-E3456604E790Q37787963-08E7AA2B-4630-4541-A74E-30F3C0DC2100Q38121257-1C07494B-AECA-4B3B-8852-521AF6D4C832Q38266034-2E196029-31D1-45AA-A3C9-7E9AAACBF7AEQ38503816-C583E613-B936-4D42-B9EB-D10719A7897C
P2860
The JAK-STAT signaling network in the human B-cell: an extreme signaling pathway analysis.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
The JAK-STAT signaling network ...... me signaling pathway analysis.
@en
type
label
The JAK-STAT signaling network ...... me signaling pathway analysis.
@en
prefLabel
The JAK-STAT signaling network ...... me signaling pathway analysis.
@en
P2860
P1433
P1476
The JAK-STAT signaling network ...... me signaling pathway analysis.
@en
P2860
P356
10.1529/BIOPHYSJ.103.029884
P407
P577
2004-07-01T00:00:00Z