Atomic structure of anthrax protective antigen pore elucidates toxin translocationEvidence for a common mechanism of SIRT1 regulation by allosteric activatorsSalt Effect Accelerates Site-Selective Cysteine BioconjugationΠ-Clamp-mediated cysteine conjugationA functional role of Rv1738 in Mycobacterium tuberculosis persistence suggested by racemic protein crystallographyRapid flow-based peptide synthesis.Blood-brain-barrier spheroids as an in vitro screening platform for brain-penetrating agents.Delivery of mirror image polypeptides into cellsConvergent diversity-oriented side-chain macrocyclization scan for unprotected polypeptides.Enzyme-catalyzed macrocyclization of long unprotected peptides.Delivery of antibody mimics into mammalian cells via anthrax toxin protective antigenTranslocation of Non-Canonical Polypeptides into Cells Using Protective AntigenFollowing Natures Lead: On the Construction of Membrane-Inserted Toxins in Lipid Bilayer Nanodiscs.Protein thioester synthesis enabled by sortase.A d-Amino Acid at the N-Terminus of a Protein Abrogates Its Degradation by the N-End Rule Pathway.Organometallic palladium reagents for cysteine bioconjugationA perfluoroaryl-cysteine S(N)Ar chemistry approach to unprotected peptide stapling.Enzymatic "click" ligation: selective cysteine modification in polypeptides enabled by promiscuous glutathione S-transferase.Rapid total synthesis of DARPin pE59 and barnase.A structural and mechanistic study of π-clamp-mediated cysteine perfluoroarylationDivergent unprotected peptide macrocyclisation by palladium-mediated cysteine arylation.An Umpolung Approach for the Chemoselective Arylation of Selenocysteine in Unprotected Peptides.ATPS-08DISCOVERY OF NOVEL GLIOMA-TARGETING PEPTIDES USING A HIGH-THROUGHPUT MICROFLUIDIC MAGNETIC-ACTIVATED SORTER.Heterochiral Knottin Protein: Folding and Solution Structure.Nitrogen Arylation for Macrocyclization of Unprotected Peptides.Discovery of a 29-Amino-Acid Reactive Abiotic Peptide for Selective Cysteine Arylation.Cholesterol-binding site of the influenza M2 protein in lipid bilayers from solid-state NMR.Perfluoroarene-Based Peptide Macrocycles to Enhance Penetration Across the Blood-Brain Barrier.Library Design-Facilitated High-Throughput Sequencing of Synthetic Peptide Libraries.A fully automated flow-based approach for accelerated peptide synthesis.Substrate Recognition of MARTX Ras/Rap1-Specific Endopeptidase.d-Amino Acid Scan of Two Small Proteins.Total synthesis and biochemical characterization of mirror image barnase.Palladium Oxidative Addition Complexes for Peptide and Protein Crosslinking.Water-Soluble Palladium Reagents for Cysteine S-Arylation under Ambient Aqueous Conditions.Flow-based enzymatic ligation by sortase A.Perfluoroaryl Bicyclic Cell-Penetrating Peptides for Delivery of Antisense Oligonucleotides.Palladium-Mediated Arylation of Lysine in Unprotected Peptides.Machine Learning To Predict Cell-Penetrating Peptides for Antisense Delivery.Mucosal absorption of therapeutic peptides by harnessing the endogenous sorting of glycosphingolipids.
P50
Q27317051-9B8F84CE-17DF-4CBC-860D-825C46590DC8Q28286859-9BF26B3A-43EC-4206-BEFB-A3D34C87ABB3Q28828315-2F8050DB-06D6-40A5-A5B2-D7A65ED45C6BQ28833204-8FEBB923-0207-4732-ABCB-99EEEB77FD43Q30373301-7185E393-3AC4-4E25-810E-F7A2FA7988FAQ33711833-8BCD2FCA-FB90-41C6-9418-4E26028BC83FQ33786343-BF13E39A-9CDA-4E9A-B5D7-D21CBD3148A5Q33856364-34AA27DD-46CE-4CD2-A11F-A5C6C03AB165Q35059832-69885AA1-744C-4568-8EB3-8FD45A3D548FQ35213008-B6E7231F-6B46-4F28-97E6-C918AE7BF122Q35838335-954215B4-EDBF-4F98-BF45-D8E0976D1878Q35856399-DC02FEFD-EC51-451B-8975-453732D3CA06Q36086428-BB1AAEBC-BB88-4C0F-A66F-AB771FE03EE7Q36301648-C54AAAB6-51BD-4590-8706-18DC653116DCQ36458568-98136B5A-1059-422E-8BD3-18109725F045Q36733631-08495C73-45CB-4F26-A476-6DA3331879B9Q36911032-C6DE8276-D1B1-4863-BD37-9B08ABC243EDQ37604278-2507BAE3-2171-4389-9C06-7EC7A47A4D8FQ40314531-C2923635-B33C-4C7C-8523-4AB1D4B1179EQ41366908-BDC965FD-70CE-498E-9AA4-847DD7795075Q42705688-CC71B43D-EF0E-45C7-A700-0002DC3B1EF9Q43208498-404B085E-CDF2-486F-9940-16FE44CD45B5Q45830086-DBF29785-A54F-4024-8C1A-8C77A614F31FQ46036466-15A86BB1-D9E4-42F2-B930-2745A373A2AFQ46528923-B548EE45-F264-48B5-94A9-D22078F3419AQ47250091-8A641933-02F5-4743-87B4-2E87D622BCA5Q47381386-371A0667-4FB1-4D58-A4EA-4DBC207ACA16Q47676287-320B8FB5-E032-44CE-863C-0EAA93817E2AQ48003652-888FECE9-2834-4581-98B4-46667C7C577EQ48185377-A4C50108-BF6E-4AA5-AAA5-EB201F46AE4DQ48212809-3F4237BF-6210-4748-88B1-E2B852ED3DF3Q49135438-A3D5F137-8A87-46AE-83DA-5DD241FB4D6CQ49538202-03BF83D1-57E1-4873-82A8-427C7BCF69E5Q50182042-0100B018-BAE0-41A1-A712-B2B348820E83Q50858780-EC7787B1-C279-4102-98DD-C3BBE2F2B59BQ51070451-D41D3E3A-F48B-4D1F-B97D-9F721F0ABB99Q52685816-B9160354-0CAB-4C32-A51A-5CFC440E9B19Q52720422-9866ECA9-9DB5-4998-88BE-3AB4BBBC00A5Q55145552-144564E1-8A5A-4BF2-8984-3DCE8F4E41E7Q55149464-8E9BE631-BCF9-4685-B0BB-C027FD53FB0F
P50
description
biochemicus
@nl
biochemist
@en
name
Bradley L. Pentelute
@ast
Bradley L. Pentelute
@en
Bradley L. Pentelute
@es
Bradley L. Pentelute
@nl
type
label
Bradley L. Pentelute
@ast
Bradley L. Pentelute
@en
Bradley L. Pentelute
@es
Bradley L. Pentelute
@nl
altLabel
Bradley L Pentelute
@en
Bradley Lether Pentelute
@en
prefLabel
Bradley L. Pentelute
@ast
Bradley L. Pentelute
@en
Bradley L. Pentelute
@es
Bradley L. Pentelute
@nl
P1477
Bradley Lether Pentelute
@en
P21
P31
P496
0000-0002-7242-801X
P5008
P569
1976-12-05T00:00:00Z