about
ADAM8 as a drug target in pancreatic cancer.A helical RGD motif promoting cell adhesion: crystal structures of the Helicobacter pylori type IV secretion system pilus protein CagLStructure of a three-dimensional domain-swapped dimer of the Helicobacter pylori type IV secretion system pilus protein CagLAntifreeze glycopeptides: from structure and activity studies to current approaches in chemical synthesisEffector-stimulated single molecule protein-DNA interactions of a quorum-sensing system in Sinorhizobium meliloti.Physicochemical and biological characterization of chitosan-microRNA nanocomplexes for gene delivery to MCF-7 breast cancer cellsHighly potent inhibitors of human cathepsin L identified by screening combinatorial pentapeptide amide collections.Molecular mechanisms and kinetics between DNA and DNA binding ligands.Why structurally different cyclic peptides can be glycomimetics of the HNK-1 carbohydrate antigen.Synthesis of chemically modified bioactive peptides: recent advances, challenges and developments for medicinal chemistry.Enzymatic halogenation of tryptophan on a gram scale.Endiandric Acid Derivatives and Other Constituents of Plants from the Genera Beilschmiedia and Endiandra (Lauraceae).Single molecule force spectroscopy on ligand-DNA complexes: from molecular binding mechanisms to biosensor applications.A High-Throughput Fluorescence Assay to Determine the Activity of Tryptophan Halogenases.An RGD helper sequence in CagL of Helicobacter pylori assists in interactions with integrins and injection of CagAChemical tools for activity-based proteomics.Probing DNA-peptide interaction forces at the single-molecule level.Terpenoid alkaloids of the Buxaceae family with potential biological importance.Binding kinetics of bisintercalator Triostin a with optical tweezers force mechanics.Review and outlook: from single nanoparticles to self-assembled monolayers and granular GMR sensors.Peptide modification by incorporation ofα-trifluoromethyl substituted amino acids.Antibody-drug conjugates in tumor therapy.Cooperative binding of PhoB(DBD) to its cognate DNA sequence-a combined application of single-molecule and ensemble methods.Minor groove recognition is important for the transcription factor PhoB: a surface plasmon resonance study.Cytotoxic Compounds from Aloe megalacantha.Synthesis, biological activity and molecular modeling study of new Schiff bases incorporated with indole moiety.Oxidative burst inhibition, cytotoxicity and antibacterial acriquinoline alkaloids from Citrus reticulate (Blanco).Phytochemistry and pharmacology of the genus Drypetes: A review.Inhibitor-based affinity probes for the investigation of JAK signaling pathways.A new xanthone derivative from twigs of Garcinia nobilis.Probing SH2-domains using Inhibitor Affinity Purification (IAP).Enzymatic Halogenation: A Timely Strategy for Regioselective C-H Activation.Cyclic RGD peptides interfere with binding of the Helicobacter pylori protein CagL to integrins αVβ3 and α5β1.O-prenylated acridone alkaloids from the stems of Balsamocitrus paniculata (Rutaceae).Helicobacter pylori HtrA is a new secreted virulence factor that cleaves E-cadherin to disrupt intercellular adhesion.Efficient synthesis of cryptophycin-52 and novel para-alkoxymethyl unit A analogues.Oxidative burst inhibitory and cytotoxic amides and lignans from the stem bark of Fagara heitzii (Rutaceae).Amides from the stem bark of Fagara macrophylla.Helicobacter exploits integrin for type IV secretion and kinase activation.Reverse engineering of an affinity-switchable molecular interaction characterized by atomic force microscopy single-molecule force spectroscopy.
P50
Q27324447-DB75BF05-9FA7-4B48-9AB8-6D3E69DFEEA8Q27686843-29EA2C4F-DB30-4171-BE05-2979D7F7B8BCQ27690205-60B01430-3D4F-4293-9863-F7F64DAB4C1DQ28817970-EE36D92A-8CBB-40BD-B260-9DB432D6CADCQ29346933-2BDCAA36-67DE-44F1-8819-C91B192D3888Q30663038-2F56B816-7561-4C5F-896A-DFDDB1DD7C0CQ30897474-8E17B005-F582-4316-9303-ACB5DD61B48BQ31123142-3B85FD40-0792-4BB7-8023-5CAA08C62E26Q33517160-B49379E6-DAE5-4E31-B284-69A0768B3AC3Q33852418-68243FE5-AD57-468B-8071-B94BD7C35963Q34447736-0B6260A1-70F2-49DC-AF8F-BC6DDC6FEF8FQ35834030-25FE2341-F39A-4AC4-87A3-8C80D6FF5C34Q35853519-B0E8058F-3DFE-4916-B891-FA7ECD2BC71BQ36130188-9EE28FEE-02F5-45C3-8798-B4FE47554E97Q36159090-2C7E1DFA-AE64-4E57-9222-5652A97EB89AQ36380024-4B226A4C-181D-42BD-A4BB-9DA1B2E2D3B1Q36666612-C329338F-B779-4E8E-9EBC-AAD66B7841D3Q37170780-9DA821B2-6567-40EB-9D34-15BD456C2B2FQ37418787-3680A4BE-55B2-474D-BE0D-F997DC2E36E0Q37942913-48FA16D6-E08C-4F4A-950A-3F7F39CD9F8DQ38157738-5DCF5487-1BC3-4C20-80EE-ADEED25318A2Q38162899-0488EC6B-DD9A-4F2A-A6E6-4974BF98EA7DQ38311417-DD99996F-571A-47FD-818D-DEDA88F9B982Q38331923-07D509EF-3946-4074-979E-1866B667122CQ38689579-5B7CEC5D-A19D-4230-A117-FAEC780AEFDEQ38702907-9530FF75-28A1-4078-844A-25FA31BC9355Q38808362-53727B41-1E35-4EB7-B205-E0AB1455C553Q38847464-87D2F08D-D46B-4580-8D64-2AC2C6823BC7Q38877092-26DFD61E-B208-4126-BE3B-603EA97B0FB5Q39008539-E685B2FA-228C-4176-85F4-34B1EA19D4E2Q39153022-73003D7B-48E1-4E20-B6F7-1D6513500035Q39278644-1B55C753-FCCE-4029-BF28-1EFD83149D32Q39474168-DC182F0F-3523-4D05-A2B0-A6E2441091D2Q39606570-D48C7822-6156-42F0-8D52-CF3AC39DDB03Q39660039-FC41D0E8-0046-4144-A1B8-512902C2D261Q39798475-DB9F563C-227D-4386-8C97-67F8FE0BF9F2Q39800656-0A2C5CBB-3CB1-4732-A41D-773D5FF4752FQ39880875-80C84C3B-974D-42C1-A696-68C6959EE9BBQ40066287-92A476BD-C648-4534-89D2-BF39573B36FAQ40146467-6D9D6C1B-E686-4771-8A1B-912381956CB0
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
scheikundige
@nl
taighdeoir
@ga
հետազոտող
@hy
name
Norbert Sewald
@ast
Norbert Sewald
@en
Norbert Sewald
@es
Norbert Sewald
@nl
Norbert Sewald
@sl
type
label
Norbert Sewald
@ast
Norbert Sewald
@en
Norbert Sewald
@es
Norbert Sewald
@nl
Norbert Sewald
@sl
prefLabel
Norbert Sewald
@ast
Norbert Sewald
@en
Norbert Sewald
@es
Norbert Sewald
@nl
Norbert Sewald
@sl
P1006
P214
P227
P244
P1006
P19
P21
P213
0000 0001 1592 3279
P214
P227
P244
nb2002046178
P31
P496
0000-0002-0309-2655
P569
1961-01-01T00:00:00Z
P691
jx20100128035
P734
P735
P7859
lccn-nb2002046178