about
PhyloScan: identification of transcription factor binding sites using cross-species evidenceA phylogenetic Gibbs sampler that yields centroid solutions for cis-regulatory site predictionIdentification of a Mycobacterium tuberculosis putative classical nitroreductase gene whose expression is coregulated with that of the acr aene within macrophages, in standing versus shaking cultures, and under low oxygen conditions.Characterization of Mycobacterium tuberculosis Rv3676 (CRPMt), a cyclic AMP receptor protein-like DNA binding protein.Fluctuations in species-level protein expression occur during element and nutrient cycling in the subsurfaceGeoarchaeota: a new candidate phylum in the Archaea from high-temperature acidic iron mats in Yellowstone National ParkSoil Respiration and Bacterial Structure and Function after 17 Years of a Reciprocal Soil Transplant ExperimentIdentification of co-regulated genes through Bayesian clustering of predicted regulatory binding sites.Comparative bacterial proteomics: analysis of the core genome concept.Measuring global credibility with application to local sequence alignment.Comparative systems biology across an evolutionary gradient within the Shewanella genus.Combined statistical analyses of peptide intensities and peptide occurrences improves identification of significant peptides from MS-based proteomics data.The tricarboxylic acid cycle in Shewanella oneidensis is independent of Fur and RyhB controlMaking connections between novel transcription factors and their DNA motifs.Fnr (EtrA) acts as a fine-tuning regulator of anaerobic metabolism in Shewanella oneidensis MR-1.Identification and characterization of a developmentally regulated protein, EshA, required for sporogenic hyphal branches in Streptomyces griseus.VESPA: software to facilitate genomic annotation of prokaryotic organisms through integration of proteomic and transcriptomic dataThe relative inefficiency of sequence weights approaches in determining a nucleotide position weight matrix.Linking microbial community structure to β-glucosidic function in soil aggregates.SPOCS: software for predicting and visualizing orthology/paralogy relationships among genomes.A family of acr-coregulated Mycobacterium tuberculosis genes shares a common DNA motif and requires Rv3133c (dosR or devR) for expression.Factors influencing the identification of transcription factor binding sites by cross-species comparison.The Gibbs Centroid Sampler.Identification of mobile elements and pseudogenes in the Shewanella oneidensis MR-1 genome.A model of cyclic transcriptomic behavior in the cyanobacterium Cyanothece sp. ATCC 51142.Rhodopseudomonas palustris regulons detected by cross-species analysis of alphaproteobacterial genomes.Soluble expression and complex formation of proteins required for HCMV DNA replication using the SFV expression system.Proteomic profiles of five strains of oxygenic photosynthetic cyanobacteria of the genus Cyanothece.Using the Gibbs Motif Sampler for Phylogenetic FootprintingSoftware to perform automated comparisons of pair-wise percent identities for microbial speciesAnalytics challenge---High-throughput visual analytics biological sciencesLet the Data Do the Talking: Hypothesis Discovery from Large-Scale Data Sets in Real TimeUsing the Gibbs Motif Sampler to Find Conserved Domains in DNA and Protein SequencesFunctional Classification of cNMP-binding Proteins and Nucleotide Cyclases with Implications for Novel Regulatory Pathways in Mycobacterium tuberculosisftmsRanalysis: An R package for exploratory data analysis and interactive visualization of FT-MS datapmartR: Quality Control and Statistics for Mass Spectrometry-Based Biological Data
P50
Q21203111-3A041AEE-6F6F-4109-8F88-D86F06DD4F98Q24653758-C3060427-22B2-4F0A-9F12-E9E5CCD528CAQ28486565-ED171C82-90C5-4A70-8EB9-3CB99929D009Q28487330-B2ECC48A-C4C6-46AD-A2FE-1BBD537EEE6AQ28487664-E62687CC-4EF4-4F0D-8A00-A8C588B29349Q28707997-F08FE76C-1911-413D-8206-DA5A47F951C4Q31051560-6D4A04CE-EDAE-46FB-AF54-206BA8C80A54Q31134615-A36FE38F-B9E2-4BFF-8B2E-931478E7AFC9Q33318455-87F851AA-5BD8-47C0-8C1B-02AC36ECD2A0Q33332599-4844D8B3-7B9C-4401-9BB5-63A37DA8615AQ33508751-CCD026E2-28E5-41FD-840E-F7D153221131Q33689805-C62D979B-8A1B-4BAC-82FB-60D433F1E304Q33719984-FA8874A0-0AF6-451D-9F7E-BED5692B3647Q33780899-BAA87ED8-63F2-44D0-80B7-7D63B6560435Q33857730-C01F84EA-CD2B-4961-85C0-FF85DD04FE71Q33996144-C2F33CE8-AA48-4D0D-8811-3C8CB2688E72Q34222990-371A6734-F2A3-4CFD-B696-3F1A1F6DEFD5Q34682258-CCD2163D-2529-4447-AD8E-559BBAE62E6FQ34747067-4229D689-8467-47DD-9C50-98F4CD2C556EQ34954977-CCE05629-3A44-4B75-8131-957DE4A38AE4Q35802673-DB188C98-D331-417E-94B3-D2C969AEEE2CQ35805952-669960A9-9658-4CF9-ADE3-B34753735264Q35914181-11D47BE1-5F3C-46BE-848F-1CCF75CFDECBQ36672730-6B3F30EF-74EA-4F6D-B97D-47909E95F5ABQ39519702-70E811ED-B811-44B7-B3E3-6F98C73944B0Q39798908-9619B774-7E5F-4ED0-99C6-480B11F0C1FAQ41019203-BCA5878C-03EF-429F-9C35-BC82251B8158Q46891905-7B7E9AAB-7D20-425B-A270-1DD2E9D035AAQ57196072-3C6D279C-7823-49CB-B717-55C6E1023135Q57196075-D87AB9C4-F387-4C2B-827A-D1C5FA2E4BBAQ58049052-6044B620-F29C-480D-83C4-CB614D783673Q58889007-E1F11DF4-CE12-4A2E-A378-8B305A68A6E1Q58889018-CB24F27C-AAC8-47C9-B361-33231B4DB4B2Q58889023-F07E2B97-ABD8-489A-ADB8-92E18F5A6C08Q90356385-F5A2CF1D-A6AA-42B3-8DD1-F500ABAC7DC1Q91025882-C04CAACE-8F55-4AA5-B3DB-E0509F338B66
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Lee Ann McCue
@ast
Lee Ann McCue
@en
Lee Ann McCue
@es
Lee Ann McCue
@nl
type
label
Lee Ann McCue
@ast
Lee Ann McCue
@en
Lee Ann McCue
@es
Lee Ann McCue
@nl
prefLabel
Lee Ann McCue
@ast
Lee Ann McCue
@en
Lee Ann McCue
@es
Lee Ann McCue
@nl
P106
P1153
6603195245
P21
P31
P496
0000-0003-4456-517X