about
Systems biology and biomarkers of early effects for occupational exposure limit settingIntegrating Multiscale Modeling with Drug Effects for Cancer TreatmentPersonalized respiratory medicine: exploring the horizon, addressing the issues. Summary of a BRN-AJRCCM workshop held in Barcelona on June 12, 2014Evolution evolves: physiology returns to centre stageDifferential and integral views of genetics in computational systems biologyA theory of biological relativity: no privileged level of causationImages as drivers of progress in cardiac computational modelling.CPT: Pharmacometrics and Systems PharmacologyGiant sucking sound: can physiology fill the intellectual void left by the reductionists?The personal touch: strategies toward personalized vaccines and predicting immune responses to them.How implementation of systems biology into clinical trials accelerates understanding of diseases.Minimum Information about a Cardiac Electrophysiology Experiment (MICEE): standardised reporting for model reproducibility, interoperability, and data sharing.Modeling biology spanning different scales: an open challenge.VDA, a method of choosing a better algorithm with fewer validationsMathematical modeling of physiological systems: an essential tool for discovery.Virtual patients and sensitivity analysis of the Guyton model of blood pressure regulation: towards individualized models of whole-body physiologyThe Proteome of a Healthy Human during Physical Activity under Extreme ConditionsSystems approach to the study of stretch and arrhythmias in right ventricular failure induced in rats by monocrotalineSystems biology: the next frontier for bioinformatics.Neo-Darwinism, the modern synthesis and selfish genes: are they of use in physiology?Bioinformatics approach reveals evidence for impaired endometrial maturation before and during early pregnancy in women who developed preeclampsia.Bioinformatics challenges for personalized medicineThe worm turns: trematodes steering the course of co-infections.Quantitative study of the effect of tissue microstructure on contraction in a computational model of rat left ventricle.Atrial fibrillation: current knowledge and future directions in epidemiology and genomics.Electron tomography of rabbit cardiomyocyte three-dimensional ultrastructure.Systems proteomics for translational network medicine.Application of cardiac electrophysiology simulations to pro-arrhythmic safety testing.Understanding the immune response to seasonal influenza vaccination in older adults: a systems biology approachMechano-sensitivity of cardiac pacemaker function: pathophysiological relevance, experimental implications, and conceptual integration with other mechanisms of rhythmicity.Where gene discovery turns into systems biology: genome-scale RNAi screens in DrosophilaA vision and strategy for the virtual physiological human: 2012 update.Platelet aggregation pathway network-based approach for evaluating compounds efficacy.Current concepts in targeting chronic obstructive pulmonary disease pharmacotherapy: making progress towards personalised management.The new biology: a bridge to clinical cardiology.Predicting complex phenotype-genotype interactions to enable yeast engineering: Saccharomyces cerevisiae as a model organism and a cell factory.Age-dependent diastolic heart failure in an in vivo Drosophila model.'Systems biology' in human exercise physiology: is it something different from integrative physiology?Ten questions about systems biology.Plant systems biology: network matters.
P2860
Q23911416-9DE8E644-8872-4C0A-BA49-67955CF8F8B8Q26770510-3FE9E13E-9EA9-4E20-83BC-1DB0251E274CQ27027259-D1138D71-527A-4078-A33E-42510C70295BQ28241056-6F16493D-9229-40E8-81E1-0690C10F89FAQ28261946-30B1C379-7848-43F8-8C0E-9370EC2A1BEDQ28285040-931DE45E-83A1-49F6-8EF7-08913E8FC973Q28654354-37227672-7C81-4D19-9120-9AF196987509Q28709637-0581AC45-49E8-4580-A3DF-1E15C66FDC5BQ33351391-F89B77BB-A4FD-446C-A025-9205D9E4F4D9Q33813977-462D2E6A-3AC8-4397-9DDA-AA9BC51C3F7FQ33814843-162111B4-0BA3-46C4-99D4-529DCE33F2A0Q33957386-AB3A8485-6B35-41E3-B704-78AC4A78C22FQ34014546-4DB7CA64-61C4-47C3-8F63-D5021840A228Q34064348-CA0EDB88-7343-4D57-9062-CCADA1A8975AQ34089490-2A383D0A-C56E-495D-945C-D31E88C61D58Q34325461-8B4BD5D2-76CD-4E24-B991-C786854E8AE2Q34394285-4BABEEDB-1D6D-4385-B516-E351BDD9B03CQ34410906-5DC774B9-3BE1-496F-BC4D-F902A8F546EFQ34571547-7D3DD6CC-8C33-4083-AE8E-DADDA0999B85Q34625606-9CFB8553-5E76-4420-8815-60DCCA1F8FD4Q34910971-82C40F94-6C98-4BBE-BCED-860E10F3BA9BQ35051893-DB73917D-D164-4170-89BA-6591485A523EQ35103010-820B60B1-852E-46C7-88E7-0DBC9B98C87BQ35138348-B27222D2-D750-4B96-A693-85337BA6A79AQ35526930-DCE997DA-1AE0-4734-A369-6F2D95BBAE6AQ36025682-7D48DA6F-EFA7-4438-97E8-CB99827F36E1Q36303108-B224A563-C6E9-4F48-BD9E-3C1DC379AE0EQ36382928-5A2C4D63-ED10-4C4B-AA9D-11886C42EF05Q36445635-4567006B-4FB5-4FB5-A49C-302035943546Q36479252-21E8FC75-4BA3-4FF3-AD83-438460323C46Q36576333-00B1D3B6-1F48-46C6-9F6E-170A7F29CFF7Q36801475-94FBBD4E-49A9-4042-A565-F7B8D0BA594AQ36801734-9B069137-1A9B-4646-8430-73F89DECAEBDQ36907742-BB631697-C70C-4465-8515-DA2E20C271BEQ37082703-B2974449-81E3-46B5-ACD1-EA970C77C180Q37542238-D669CA49-F1C5-409A-B35C-4DD166FF719AQ37716248-086725A3-D030-4A30-AEAF-9AE14F629489Q37827643-00FD3412-B458-43F1-98FA-2B6CDDD74C32Q37827645-FCD0D273-2861-4D3F-AFCB-3C2E8369AB12Q37839150-8E43D988-11FE-4736-8851-1E22F4AD4E10
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 09 June 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Systems biology: an approach.
@en
Systems biology: an approach.
@nl
type
label
Systems biology: an approach.
@en
Systems biology: an approach.
@nl
prefLabel
Systems biology: an approach.
@en
Systems biology: an approach.
@nl
P2093
P2860
P356
P1476
Systems biology: an approach
@en
P2093
P2860
P356
10.1038/CLPT.2010.92
P407
P50
P577
2010-06-09T00:00:00Z