about
Myriads of protein families, and still countingBeyond 100 genomesMolecular evolution of multiple-level control of heme biosynthesis pathway in animal kingdomFunctional analysis of the integration host factor site of the σ(54) Pu promoter of Pseudomonas putida by in vivo UV imprinting.COmplete GENome Tracking (COGENT): a flexible data environment for computational genomics.CoGenT++: an extensive and extensible data environment for computational genomics.BioLayout(Java): versatile network visualisation of structural and functional relationships.Expression systems and physiological control of promoter activity in bacteria.SIREs: searching for iron-responsive elements.The black cat/white cat principle of signal integration in bacterial promoters.CARGO: a web portal to integrate customized biological information.Promoters in the environment: transcriptional regulation in its natural context.Early and late responses of TOL promoters to pathway inducers: identification of postexponential promoters in Pseudomonas putida with lacZ-tet bicistronic reporters.Genetically modified organisms for the environment: stories of success and failure and what we have learned from them.Notch-regulated miR-223 targets the aryl hydrocarbon receptor pathway and increases cytokine production in macrophages from rheumatoid arthritis patientsBionemo: molecular information on biodegradation metabolism.Systemic approaches to biodegradation.Serine/threonine kinases and E2-ubiquitin conjugating enzymes in Planctomycetes: unexpected findings.Emergence and evolutionary analysis of the human DDR network: implications in comparative genomics and downstream analyses.Genetic evidence of distinct physiological regulation mechanisms in the sigma(54) Pu promoter of Pseudomonas putida.Evidence of multiple regulatory functions for the PtsN (IIA(Ntr)) protein of Pseudomonas putida.Role of ptsO in carbon-mediated inhibition of the Pu promoter belonging to the pWW0 Pseudomonas putida plasmid.The IIANtr (PtsN) protein of Pseudomonas putida mediates the C source inhibition of the sigma54-dependent Pu promoter of the TOL plasmid.The phosphotransferase system formed by PtsP, PtsO, and PtsN proteins controls production of polyhydroxyalkanoates in Pseudomonas putida.Gene expression profiling in hearts of diabetic mice uncovers a potential role of estrogen-related receptor γ in diabetic cardiomyopathy.The sigma54 regulon (sigmulon) of Pseudomonas putida.Gene Expression Profiling Supports the Neural Crest Origin of Adult Rodent Carotid Body Stem Cells and Identifies CD10 as a Marker for Mesectoderm-Committed Progenitors.Heavy metal tolerance and metal homeostasis in Pseudomonas putida as revealed by complete genome analysis.The limits to genomic predictions: role of sigma(N) in environmental stress survival of Pseudomonas putida.Design of a solubilization pathway for recombinant polypeptides in vivo through processing of a bi-protein with a viral protease.Involvement of sigma 54 in exponential silencing of the Pseudomonas putida TOL plasmid Pu promoter.Gene order in Prokaryotes: conservation and implicationsThe ancestral role of the phosphoenolpyruvate–carbohydrate phosphotransferase system (PTS) as exposed by comparative genomicsTranscription regulation and environmental adaptation in bacteriaThe grammar of (micro)biological diversityThe genomes of Pseudomonas encode a third HU proteinDeconstruction of DNA Methylation Patterns During Myogenesis Reveals Specific Epigenetic Events in the Establishment of the Skeletal Muscle Lineage
P50
Q21092889-6B0BFCD4-AE08-4BAC-9ACD-F1621EF2392DQ24798843-94A318D8-A4C9-4911-B9AB-B36E11BB10F5Q27329732-0F9EB420-9CD2-42D6-9A08-129CF4B4F46AQ29346853-ABB972D0-54A0-41C6-8621-14922C2A84BFQ30813309-BF4EFAA0-294A-4B8C-B8DF-3B7F3C58FDCBQ31010392-CBEA0FDF-57BC-40CF-98B8-B3BCAF136EF1Q33218316-2EB2261B-1F73-436D-9792-CA3C4917CEFEQ33538615-E1FCFB63-AEBF-4263-A320-FB7FBDE2ED8AQ34114748-AB5AF803-8B6A-4551-ACFB-3F02B63E73DCQ34166888-30DC8DB1-859C-49DA-A283-E19154F55818Q35914044-427FFFB5-F53D-40EF-BD5E-8D3149F17CF1Q36026783-73F5E4B3-E95F-4ACF-ACD2-35398DB84F8FQ36123375-A4363FAA-ED67-499B-811F-09E8EFA94CD7Q36275084-C797E599-1FC8-4C5F-8D8D-814BBFAF3DEFQ36536348-78AD7078-9398-4870-82B0-184E454A75B0Q37202791-DF0CF33E-47DA-45F2-BB3C-84024309A671Q37340603-112D3951-BFEE-4216-8170-34300A7560D7Q37846108-4C6A73DD-2FE5-4927-84E1-4D1B450DC9E3Q38556007-42F72A92-67B3-48E6-A373-5D48CCEBDCDFQ39499005-28590CBD-1B40-479A-9AC5-5C30F2946E70Q39502330-B4A1AB9D-5823-410A-9D3C-8C9473DCEFCDQ39504603-8808F627-1B01-4BD0-8D96-A1C35F0FB4C7Q42602104-DCB68B55-FD49-4D1D-9524-957E13E7EEDDQ42620914-07AE4CB7-97D9-485B-A8D5-9A31660F5925Q45884866-E3729E8E-888C-473C-9518-36EB7A89B8CBQ50102115-D68620A6-CB25-4B41-923A-F1D07C219D54Q50261204-0081BAAA-A901-41BD-9586-21E6C9E707A6Q53852010-7EDBEDF7-8D5E-440A-B1EC-33A41D1B744FQ54013448-2F44381B-FD48-4F64-AB1C-691C58796C60Q54564518-302FD6DC-808B-4147-B6D8-4E7E5FCF47ECQ54596802-F84EA2CD-379F-4F3F-BF3C-C18AD13C8AB2Q57015483-16E9CB3E-B6B3-407A-8649-6FD2D2695BFCQ57935898-B36EAF4F-E270-4772-8A2F-9A865E94DA01Q57936057-1181669C-5BC9-4C30-A614-733E516DFCC6Q57936068-342E2EF4-C51A-459C-B243-BDB78BF3A62CQ57936081-D9648AE8-E579-43DF-9033-6F46E2B69A23Q58109380-B885483D-75C9-4331-BAB3-8E5CC642C510
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Ildefonso Cases
@ast
Ildefonso Cases
@en
Ildefonso Cases
@es
Ildefonso Cases
@fr
Ildefonso Cases
@nl
Ildefonso Cases
@sl
type
label
Ildefonso Cases
@ast
Ildefonso Cases
@en
Ildefonso Cases
@es
Ildefonso Cases
@fr
Ildefonso Cases
@nl
Ildefonso Cases
@sl
prefLabel
Ildefonso Cases
@ast
Ildefonso Cases
@en
Ildefonso Cases
@es
Ildefonso Cases
@fr
Ildefonso Cases
@nl
Ildefonso Cases
@sl
P108
P1053
C-2998-2008
P106
P108
P1153
6603948920
P21
P2456
P31
P3829
P496
0000-0002-8784-5174