Biosynthesis and insecticidal properties of plant cyclotides: the cyclic knotted proteins from Oldenlandia affinis
about
Cyclotide structure-activity relationships: qualitative and quantitative approaches linking cytotoxic and anthelmintic activity to the clustering of physicochemical forcesA continent of plant defense peptide diversity: cyclotides in Australian Hybanthus (Violaceae)Discovery of an unusual biosynthetic origin for circular proteins in legumesCyBase: a database of cyclic protein sequence and structureSolution NMR studies on the orientation of membrane-bound peptides and proteins by paramagnetic probesDisulfide folding pathways of cystine knot proteins. Tying the knot within the circular backbone of the cyclotidesTwists, knots, and rings in proteins. Structural definition of the cyclotide frameworkEnzymatic cyclization of a potent bowman-birk protease inhibitor, sunflower trypsin inhibitor-1, and solution structure of an acyclic precursor peptideCombined X-ray and NMR Analysis of the Stability of the Cyclotide Cystine Knot Fold That Underpins Its Insecticidal Activity and Potential Use as a Drug ScaffoldDespite a Conserved Cystine Knot Motif, Different Cyclotides Have Different Membrane Binding ModesCyclic Peptides Arising by Evolutionary Parallelism via Asparaginyl-Endopeptidase-Mediated BiosynthesisDesign, Synthesis, Structural and Functional Characterization of Novel Melanocortin Agonists Based on the Cyclotide Kalata B1A Synthetic mirror image of kalata B1 reveals that cyclotide activity is independent of a protein receptorStructural Insights into the Role of the Cyclic Backbone in a Squash Trypsin InhibitorSemienzymatic Cyclization of Disulfide-rich Peptides Using Sortase AStructural characterization of Spinacia oleracea trypsin inhibitor III (SOTI-III)Discovery and characterization of pseudocyclic cystine-knot α-amylase inhibitors with high resistance to heat and proteolytic degradationRacemic and quasi-racemic X-ray structures of cyclic disulfide-rich peptide drug scaffoldsVacuolar processing enzyme in plant programmed cell deathConserved structural and sequence elements implicated in the processing of gene-encoded circular proteinsDiscovery of linear cyclotides in monocot plant Panicum laxum of Poaceae family provides new insights into evolution and distribution of cyclotides in plantsNatural products in modern life science.RTD-1mimic containing γPNA scaffold exhibits broad-spectrum antibacterial activitiesGene coevolution and regulation lock cyclic plant defence peptides to their targetsCycloviolacin O2 (CyO2) suppresses productive infection and augments the antiviral efficacy of nelfinavir in HIV-1 infected monocytic cells.Juggling jobs: roles and mechanisms of multifunctional protease inhibitors in plants.NMR and protein structure in drug design: application to cyclotides and conotoxins.Phosphatidylethanolamine binding is a conserved feature of cyclotide-membrane interactions.Homodimeric theta-defensins from rhesus macaque leukocytes: isolation, synthesis, antimicrobial activities, and bacterial binding properties of the cyclic peptides.Discovery of a linear cyclotide from the bracelet subfamily and its disulfide mapping by top-down mass spectrometryDisulfide mapping of the cyclotide kalata B1. Chemical proof of the cystic cystine knot motif.Tissue-specific expression of head-to-tail cyclized miniproteins in Violaceae and structure determination of the root cyclotide Viola hederacea root cyclotide1.A novel suite of cyclotides from Viola odorata: sequence variation and the implications for structure, function and stability.NMRDyn: a program for NMR relaxation studies of protein association.Identification of candidates for cyclotide biosynthesis and cyclisation by expressed sequence tag analysis of Oldenlandia affinisLigand-based peptide design and combinatorial peptide libraries to target G protein-coupled receptorsLysine-scanning mutagenesis reveals an amendable face of the cyclotide kalata B1 for the optimization of nematocidal activityMolecular dynamics exploration of poration and leaking caused by Kalata B1 in HIV-infected cell membrane compared to host and HIV membranesCyclotide interactions with the nematode external surface.Cytotoxic potency of small macrocyclic knot proteins: structure-activity and mechanistic studies of native and chemically modified cyclotides.
P2860
Q21132291-98CA7673-92D0-4639-A52C-A1CD36F65CB0Q24536656-E88C2E75-33BB-4645-9452-226177693B6AQ24607684-74A663C9-2309-4C36-B158-49C89CF06219Q25257489-7A2C0515-2FC5-4088-A1B4-8A5F7438FE9CQ27024724-B46FFA78-37AF-49C8-81DF-B4554A727842Q27640159-D2B9946A-A05A-4FDC-A182-05D14642DA08Q27640161-4C055447-E04D-4CD2-9316-D8CF997C83DBQ27640635-1D7CD5DC-B92E-499E-A21D-9EF593384B32Q27653739-B9702063-2D64-4D10-A954-A62626BACFD2Q27657245-3D629ADB-F136-453E-8156-ECCCD4AA4C84Q27670873-F6832EDB-646C-4BD9-972C-4DF49EA20E7EQ27673637-E2B7C873-1C00-4FD5-8154-F9D9BA89371BQ27674170-575F0EE3-24D1-4F53-8404-75095079B971Q27680481-93A4122A-F379-499C-90A1-691632A66C59Q27681346-C8E717AF-FE77-414B-8F0C-6A6FE90EC9F6Q27683671-F5B8E07A-8E7B-44A0-B58D-750DFEF3CC0EQ27694567-DFF591E9-65D7-40CF-9075-F187511763D9Q27694819-41DF937A-C00F-4712-8435-A4E8BB028025Q28081967-27ED96F5-57E8-4322-86E5-CA6426C51445Q28278694-A728BFEA-1982-4D94-BE88-952E8924CAE4Q28280282-945582DC-5ADA-4CF3-A6BB-1813F72E409FQ28750059-ABE21530-A5CA-4F14-A8C7-84B8B046B1C5Q28834066-1B9DCFAD-0ABC-44A5-AEDC-B1DA1CF2C99CQ29037864-71CEDE56-1BED-48B4-854B-DA2D48C4E2D2Q30352465-442DFC01-2DD1-4A23-A921-A488F6C935B4Q30383793-941F9CDF-532F-4582-8B77-668DF362C1E8Q30399297-2728EBC1-05EA-4724-9D04-68E9129BEADCQ30525336-4413027F-27EB-49EA-88B8-B5F008824E52Q30754864-2C21E995-1AF5-49DC-B9F4-40A7A67FE3DBQ31031875-8EA5ADD9-7693-4A2C-9C77-E0CFE6F623A8Q31156133-0086C554-8671-4FB6-832C-6CCA35CF2AD5Q33205507-76219F40-8035-4306-95F7-C7D74DEC6C36Q33251958-C7279CA7-ECDF-4F0D-AB8B-7CC28A0A862FQ33388229-C00D5331-5E5C-4772-A760-C4BF3D38F163Q33531558-90C5A304-AFD1-4DE3-9432-B24C80C3C930Q33650270-2CCA643F-2BCF-41FD-AF02-91026077672BQ33796227-7E68A0E2-B5CB-4BC2-83E2-2029A1E77C71Q33804191-9AA39048-8DBE-446D-96FF-080E27793E18Q33826390-0282E8F6-9BD9-464C-BAE9-4C06E10A3877Q33872337-34787BBC-CB5C-416F-BF5E-6A6CF452A4A7
P2860
Biosynthesis and insecticidal properties of plant cyclotides: the cyclic knotted proteins from Oldenlandia affinis
description
2001 nî lūn-bûn
@nan
2001 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Biosynthesis and insecticidal ...... teins from Oldenlandia affinis
@ast
Biosynthesis and insecticidal ...... teins from Oldenlandia affinis
@en
Biosynthesis and insecticidal ...... teins from Oldenlandia affinis
@nl
type
label
Biosynthesis and insecticidal ...... teins from Oldenlandia affinis
@ast
Biosynthesis and insecticidal ...... teins from Oldenlandia affinis
@en
Biosynthesis and insecticidal ...... teins from Oldenlandia affinis
@nl
prefLabel
Biosynthesis and insecticidal ...... teins from Oldenlandia affinis
@ast
Biosynthesis and insecticidal ...... teins from Oldenlandia affinis
@en
Biosynthesis and insecticidal ...... teins from Oldenlandia affinis
@nl
P2093
P2860
P3181
P356
P1476
Biosynthesis and insecticidal ...... teins from Oldenlandia affinis
@en
P2093
P2860
P304
P3181
P356
10.1073/PNAS.191366898
P407
P577
2001-09-11T00:00:00Z