about
Evolutionary cores of domain co-occurrence networksThe activity reaction core and plasticity of metabolic networksDynamics of information access on the webComparative genome-scale metabolic reconstruction and flux balance analysis of multiple Staphylococcus aureus genomes identify novel antimicrobial drug targetsGlobal organization of metabolic fluxes in the bacterium Escherichia coliHypothetical biomolecular probe based on a genetic switch with tunable symmetry and stabilityGenome-level transcription data of Yersinia pestis analyzed with a new metabolic constraint-based approach.Genetic noise control via protein oligomerizationDifferences in human and chimpanzee gene expression patterns define an evolving network of transcription factors in brainStrategies for structuring interdisciplinary education in Systems Biology: an European perspective.Peeling the yeast protein network.Predicting synthetic rescues in metabolic networksNon-Invasive Analysis of Recombinant mRNA Stability in Escherichia coli by a Combination of Transcriptional Inducer Wash-Out and qRT-PCR.Population-specific renal proteomes of marine and freshwater three-spined sticklebacks.Biological impacts and context of network theory.Alginate Biosynthesis Factories in Pseudomonas fluorescens: Localization and Correlation with Alginate Production Level.Robust Analysis of Fluxes in Genome-Scale Metabolic PathwaysComplex network analysis in microbial systems: theory and examples.Genome-scale reconstruction of the metabolic network in Yersinia pestis, strain 91001.A composite network of conserved and tissue specific gene interactions reveals possible genetic interactions in glioma.Do genome-scale models need exact solvers or clearer standards?Optimal flux patterns in cellular metabolic networks.Comparative analysis of weighted gene co-expression networks in human and mouse.Identifying dynamic network modules with temporal and spatial constraints.Systems biology of microbial communities.Two-component genetic switch as a synthetic module with tunable stability.The role of PCNA as a scaffold protein in cellular signaling is functionally conserved between yeast and humans.wTO: an R package for computing weighted topological overlap and a consensus network with integrated visualization toolAutomated generation of genome-scale metabolic draft reconstructions based on KEGGModelExplorer - software for visual inspection and inconsistency correction of genome-scale metabolic reconstructionsAssessment of weighted topological overlap (wTO) to improve fidelity of gene co-expression networksExact results and scaling properties of small-world networksScaling properties of random walks on small-world networksStatistics of weighted treelike networkss-core network decomposition: a generalization of k-core analysis to weighted networksPredicting Strain Engineering Strategies Using iKS1317: A Genome-Scale Metabolic Model of Streptomyces coelicolorErrorTracer: an algorithm for identifying the origins of inconsistencies in genome-scale metabolic modelsGREM1 is associated with metastasis and predicts poor prognosis in ER-negative breast cancer patients
P50
Q24792821-0F16F7FD-3633-4A54-A8D5-2852B4C41AA0Q24811413-9998A266-E292-4E59-8DAA-7C13548DC8C3Q27349788-D826F90E-78D1-4617-B7A3-67BCE17B47DDQ28241802-5A6270BC-260D-4FBC-A366-C32BFE7BFDA7Q28247038-C7642F40-73A6-473A-ACE2-ECE392F37F66Q28828779-A95A5003-E3D8-4EB3-B473-3A7242609B1FQ30580389-23040B88-1E7A-4ADE-8ECB-2DA210B6CCBFQ33382294-DEA1C183-0986-4446-993A-580D46F0E9C3Q33564055-BCDBF468-457F-40B6-A2B0-F1048A7B43F6Q33917829-B964A88C-419C-4D10-AB0B-62AE68704C53Q34380924-25C6FA92-70B5-4549-8CAA-0E6793047328Q34750436-B61C3709-844F-47D4-8FC5-B465AE9FC056Q34805431-A8E61D0C-FC2C-46EE-8A6C-20A139EAB94AQ35805370-14293DD8-584E-4E5E-BFDB-15881733EC2FQ36798117-5C0B39A0-A7B7-4F56-A7B4-BBE9A1C4DE7EQ38387583-714ADBB5-053C-4234-8AE9-9BFF950E17DBQ38888646-613ADAD4-46E3-4CC2-A094-91151343A390Q41414240-DDABE7D7-7142-42DE-84F2-598AE38B5569Q41439159-96D6E396-6C71-4800-83B2-B6120FCC217FQ42515905-B67CCE89-EA96-40D9-823C-D16F4072888CQ42608902-39F4F4C9-9E2E-4152-9E3D-DC8DAF6415D8Q46094087-EA9697EE-3DF2-4340-8510-73F8494CAF5AQ46257071-23CD145E-FF59-4A85-BD6C-8E11A1610966Q51827592-796B8559-C1D8-4836-BE39-9D7BAB9F4DE2Q51835818-14A388FC-D2DC-4195-9C6E-4F4ED06CF133Q51891278-8089D034-F58F-467B-AD79-17D58878845FQ55516387-A8E2ADEE-CB07-4E37-9C43-84E272379EEDQ57790155-F7009674-CA40-4A42-BA50-D33C9BD05ECAQ59793038-B88765AD-D0ED-4940-887F-B5EB6AFBF5B5Q61443161-8C3F3705-9B00-4F78-80FB-028731CF94F0Q61807714-FB12A43D-B962-4687-8D06-A1D672E762D1Q73214964-2251BCAA-DFC8-4833-8F26-34B479A557BFQ75188067-7F7A0241-2EAD-4BD9-AD93-A41D85B80055Q81762624-B9721984-3456-48D8-81BD-463A33CDFCB8Q87206364-9A4C2F3A-0B8B-4698-A12D-ABE81638D9F9Q90329167-FD936B59-ED3E-4F26-8C58-ED868CF73DA2Q90621728-89B8E8A0-D516-43E7-A5DB-93104BB85F25Q91149499-416AC8CA-4D38-4487-8FC5-5F523F51D7FB
P50
description
Noors onderzoeker
@nl
forsker
@nb
hulumtues
@sq
researcher
@en
ricercatore
@it
taighdeoir
@ga
հետազոտող
@hy
name
E Almaas
@ast
E Almaas
@es
E Almaas
@nl
E Almaas
@sl
Eivind Almaas
@da
Eivind Almaas
@de
Eivind Almaas
@en
Eivind Almaas
@fr
Eivind Almaas
@ga
Eivind Almaas
@nb
type
label
E Almaas
@ast
E Almaas
@es
E Almaas
@nl
E Almaas
@sl
Eivind Almaas
@da
Eivind Almaas
@de
Eivind Almaas
@en
Eivind Almaas
@fr
Eivind Almaas
@ga
Eivind Almaas
@nb
altLabel
E Almaas
@en
prefLabel
E Almaas
@ast
E Almaas
@es
E Almaas
@nl
E Almaas
@sl
Eivind Almaas
@da
Eivind Almaas
@de
Eivind Almaas
@en
Eivind Almaas
@fr
Eivind Almaas
@ga
Eivind Almaas
@nb
P106
P1153
6602858032
P2038
Eivind_Almaas
P21
P214
299149294232580521159
P2456
P27
P31
P496
0000-0002-9125-326X
P734
P735
P7859
viaf-299149294232580521159