SYNBIOCHEM-a SynBio foundry for the biosynthesis and sustainable production of fine and speciality chemicalsSizing and Discovery of Nanosized Polyoxometalate Clusters by Mass SpectrometryCharge Mediated Compaction and Rearrangement of Gas-Phase Proteins: A Case Study Considering Two Proteins at Opposing Ends of the Structure-Disorder ContinuumQuantitative data describing the impact of the flavonol rutin on in-vivo blood-glucose and fluid-intake profiles, and survival of human-amylin transgenic mice.Isoleucine/leucine2 is essential for chemoattractant activity of beta-defensin Defb14 through chemokine receptor 6.Peptide fragments of a beta-defensin derivative with potent bactericidal activity.Design and synthesis of conformationally constrained cyclophilin inhibitors showing a cyclosporin-A phenotype in C. elegans.Defensin-related peptide 1 (Defr1) is allelic to Defb8 and chemoattracts immature DC and CD4+ T cells independently of CCR6.Partial deletion of chromosome 8 β-defensin cluster confers sperm dysfunction and infertility in male mice.A kinetic study of ovalbumin fibril formation: the importance of fragmentation and end-joiningIdentification and proteomic profiling of exosomes in human cerebrospinal fluid.The photochemical mechanism of a B12-dependent photoreceptor proteinThe Use of UVPD coupled with Ion Mobility Mass Spectrometry to determine structure and sequence from drift time selected peptides and proteins.Real-Time Screening of Biocatalysts in Live Bacterial Colonies.Making hybrid [n]-rotaxanes as supramolecular arrays of molecular electron spin qubitsStructure-activity relationships in beta-defensin peptides.How useful is ion mobility mass spectrometry for structural biology? The relationship between protein crystal structures and their collision cross sections in the gas phase.Ion mobility mass spectrometry for peptide analysis.Mass spectrometry based tools to investigate protein-ligand interactions for drug discovery.Intrinsic disorder in proteins: a challenge for (un)structural biology met by ion mobility-mass spectrometry.Mass spectrometry methods for intrinsically disordered proteins.Relating gas phase to solution conformations: Lessons from disordered proteinsOrthogonal Assessment of Biotherapeutic Glycosylation: A Case Study Correlating N-Glycan Core Afucosylation of Herceptin with Mechanism of Action.Interaction of human β-defensin 2 (HBD2) with glycosaminoglycans.Binding a heparin derived disaccharide to defensin inspired peptides: insights to antimicrobial inhibition from gas-phase measurements.Uncoupling conformational states from activity in an allosteric enzyme.Applications of ion mobility mass spectrometry for high throughput, high resolution glycan analysis.The formation of a complex between calmodulin and neuronal nitric oxide synthase is determined by ESI-MS.Mass spectrometry locates local and allosteric conformational changes that occur on cofactor bindingConformational preferences of linear beta-defensins are revealed by ion mobility-mass spectrometry.Development of an ion mobility quadrupole time of flight mass spectrometer.GnRH-mediated DAN production regulates the transcription of the GnRH receptor in gonadotrope cells.Epoxyqueuosine Reductase Structure Suggests a Mechanism for Cobalamin-dependent tRNA Modification.Early stages of insulin fibrillogenesis examined with ion mobility mass spectrometry and molecular modelling.Effect of Protonation State on the Stability of Amyloid Oligomers Assembled from TTR(105-115).The use of ion mobility mass spectrometry to probe modulation of the structure of p53 and of MDM2 by small molecule inhibitorsConsequences of point mutations in melanoma-associated antigen 4 (MAGE-A4) protein: Insights from structural and biophysical studiesDistinguishing Loss of Structure from Subunit Dissociation for Protein Complexes with Variable Temperature Ion Mobility Mass Spectrometry.Electron capture dissociation and drift tube ion mobility-mass spectrometry coupled with site directed mutations provide insights into the conformational diversity of a metamorphic protein.Conformational dynamics of α-synuclein: insights from mass spectrometry.
P50
Q26747232-850A0BAC-7C2C-4E53-8002-FDD47FDC64BCQ28829298-8714310F-06F7-42A0-A7DC-5F1627F96998Q30402767-9D48FAAE-C4F6-4E6C-A800-BDCD91CED51DQ31150143-DC4FAF72-171E-491B-9DD2-05C2A91E33BDQ33519783-39DF31BA-8FEE-47BF-AE96-EEAFCB18A2B3Q33533544-8E9E26A9-DD01-4848-9FD9-6BA304BCA1B2Q33825486-6E582BA2-3AD8-4B3F-B77D-D28BB2170740Q33903419-F2135C5C-0487-4558-AF15-07181BB4C6BFQ35034293-6159E330-6015-4E36-93B8-C1EEF9DFCD75Q35578928-D17858A8-CFED-47DB-95BE-80DDBFDF9284Q35744824-9ED1804E-45C7-414F-AC78-5FAC1B622778Q36018319-FCEB82D8-D9C7-4A8C-B30A-CF21FED33A14Q36133835-D86130D5-FABB-4C27-9664-DF0EA998BC56Q36248496-7B8CDA9E-C6ED-4B2D-BE16-661415A34B9DQ36511149-EF96CFA3-0F0C-4840-B164-3A170910CFAFQ37015645-7F44BD92-B707-4E3A-B9D1-A103454FA924Q37785763-4759237E-427C-4387-B365-07FEB7A1F016Q37888870-F5561056-1E0B-49A9-BE77-C1C97000E369Q38005330-067BC9B4-D6EA-4CD8-9B38-2092E402B96CQ38044422-636EE2D6-32D5-4A34-81FF-1F02A39C9BABQ38056343-BED63EB6-0C05-42BB-AB16-8CE710DCB52FQ38276676-43BD5F44-AC2F-4754-A3FC-DEA73F29448CQ38290620-3FB106D2-AC6A-4832-A1AD-5CE01C18DDD4Q38339525-2AE683D9-2B23-436D-B4D7-A4BFBEA1004DQ38345454-722E7855-0D3F-412F-8227-EF7BC91E5164Q38638225-E0A8A4EE-2DC4-439B-AD50-A8EF81FF3FC5Q38725929-2E452734-F086-47A9-A48E-7C51EDDCD786Q38780427-CB985780-1893-406C-A17F-EDA505DD5D7FQ39600066-73FBD71E-E8E8-4F6A-AA51-D1AC429D25A4Q39747823-89696430-A7CD-4AD7-A6AA-484E9EF8E5EDQ40070845-821C39ED-342B-4724-AF88-F2A619C2E94EQ40072356-7B29E1DC-62A8-49FA-81AC-8A71C07637E3Q40531149-1C5ED59B-44E8-4FC4-B981-339B423FBA07Q40540564-3D09F6E9-85B6-4AD5-98B2-19565F782832Q40634233-D3269CB2-339E-420D-8AD3-A621C6777292Q40688335-AE5C481E-1D42-4305-B6CF-18A15FCB79F1Q40738333-9B221463-EEE3-4EDB-8565-5AEEF94605C3Q40919191-A511753B-4903-4B8E-AD81-BFCBC2F58631Q41169029-55E96AEC-95CC-4B73-861C-964A307B7B3DQ41256282-42FED68D-EB87-4227-A7D6-6531EAEA180D
P50
description
Brits scheikundige
@nl
Chemist
@en
química y profesora británica
@es
name
Perdita E Barran
@es
Perdita E Barran
@nl
Perdita E Barran
@sl
Perdita E. Barran
@en
type
label
Perdita E Barran
@es
Perdita E Barran
@nl
Perdita E Barran
@sl
Perdita E. Barran
@en
altLabel
Perdita Barran
@en
Perdita Elizabeth Barran
@en
prefLabel
Perdita E Barran
@es
Perdita E Barran
@nl
Perdita E Barran
@sl
Perdita E. Barran
@en
P108
P101
P106
P1153
6603059440
P1960
8mOEDVIAAAAJ
P2002
P21
P213
0000 0001 3447 2928
P31
P3835
perdita-barran1
P496
0000-0002-7720-586X
P569
2000-01-01T00:00:00Z