Sequence-specific peptide synthesis by an artificial small-molecule machine.
about
Protein Calligraphy: A New Concept Begins To Take ShapeArtificial Molecular MachinesFuel-Controlled Reassembly of Metal-Organic ArchitecturesHigh-speed DNA-based rolling motors powered by RNase H.Long-range movement of large mechanically interlocked DNA nanostructuresCANDO and the infinite drug discovery frontierAn autonomous chemically fuelled small-molecule motorPick-up, transport and release of a molecular cargo using a small-molecule robotic armChemical consequences of mechanical bonding in catenanes and rotaxanes: isomerism, modification, catalysis and molecular machines for synthesisIterative exponential growth of stereo- and sequence-controlled polymers.Orthogonal Click Postfunctionalization of Alternating Copolymers Prepared by Nitroxide-Mediated Polymerization.Molecular computing: paths to chemical Turing machines.Relative contractile motion of the rings in a switchable palindromic [3]rotaxane in aqueous solution driven by radical-pairing interactions.Sequence-controlled polymers.Aperiodic Copolymers.Towards design principles for determining the mechanical stability of proteins.An efficient and modular route to sequence-defined polymers appended to DNA.Localized template-driven functionalization of nanoparticles by dynamic combinatorial chemistry.Mechanically selflocked chiral gemini-catenanesA Stimuli-Responsive Rotaxane-Gold Catalyst: Regulation of Activity and Diastereoselectivity.Asymmetric Catalysis with a Mechanically Point-Chiral Rotaxane.An Artificial Molecular Transporter.Formation of a series of stable pillar[5]arene-based pseudo[1]-rotaxanes and their [1]rotaxanes in the crystal state.Crystal Fluidity Reflected by Fast Rotational Motion at the Core, Branches, and Peripheral Aromatic Groups of a Dendrimeric Molecular RotorEfficient and directed peptide bond formation in the gas phase via ion/ion reactions.Diversity of Secondary Structure in Catalytic Peptides with β-Turn-Biased Sequences25th anniversary article: reversible and adaptive functional supramolecular materials: "noncovalent interaction" matters.What molecular assembly can learn from catalytic chemistry.Functional interlocked systems.Light to investigate (read) and operate (write) molecular devices and machines.Processive catalysis.The polar side of polyphenylene dendrimers.Reading polymers: sequencing of natural and synthetic macromolecules.Synthetic strategies for polypeptides and proteins by chemical ligation.Artificial switchable catalysts.A rotaxane turing machine for peptides.Nanoscale Ion Pump Derived from a Biological Water Channel.From dynamic self-assembly to networked chemical systems.Catalysts Encapsulated in Molecular Machines.Ferrocene-containing non-interlocked molecular machines.
P2860
Q26738358-22CE428D-C071-4ECC-B22B-077C6F059819Q26783064-CBD34EDA-D5A0-46CC-A38C-B43556D5B2A7Q27300746-4B22F62B-7525-44DD-8818-EE6A8323C69EQ27311390-81097B26-390E-472A-B51C-CE7D0EF9876CQ27333725-48E3845B-559E-4BEE-9F8B-D176AB8707A5Q28543019-67219B17-BC07-4119-9172-795E3FE0D371Q29011653-87A51ED9-0951-47DA-A5CD-DF489062B38DQ29027367-16531941-FD2C-4D11-8DE9-4994B98E1119Q29040277-15B447B6-2386-48A0-8C3C-81C308D831ECQ30995154-40D80465-20B8-45D3-8C7A-48A860F310D8Q31164783-74388069-8894-49A4-8CC1-85E7C8A7364AQ33892107-E8693059-A763-4336-A458-DE89B8976741Q33946537-6C4E0960-DC69-4C51-9032-E0FA0C8527EDQ34362903-89B504ED-0BA5-4ABC-8E30-4995FC176B6FQ34531561-A382D082-9FD5-47E5-817F-7D8C47521178Q34976764-399FFC18-B587-46F5-B1E6-10AD7E0EE4A9Q35134113-D4F5B549-3A64-4EBC-A693-3B004B3F2374Q35557937-1B750395-89F4-454C-8D52-E8BC35F574ACQ35863418-B4B71748-794A-48C8-AFE0-C282446D084CQ36369933-8060C0A6-BE8F-43EC-8094-0BD285CEED10Q36722665-96798091-1C82-4A7C-9098-4BD3FC08A5E5Q37000765-27830873-7E98-4E99-AF7E-9A361E4E990CQ37044384-D2AD7EB9-F331-41BB-88AC-76B89E0BBF68Q37502118-7F186282-654E-4FFC-99DF-A999B0BAB5F2Q37544064-7BC724AC-A464-4EAE-B530-0AD099577FEEQ37646524-6E385937-8530-4FA8-BFD0-B8E2C6F0C3C4Q38137885-84622404-0B82-48C0-8E0A-636B37DF7A25Q38141728-1A1DC47E-3414-4D8B-9FFC-EDAD94F29858Q38144664-0CB314E4-90E9-41AF-BF66-3745C48F8F78Q38192910-21D6933B-822A-4EEF-916C-26F12BB9EA0AQ38253158-0E92E407-FAF1-4498-8A06-51C29BF14275Q38254302-6FCAC15D-3966-43A8-855D-9BF292FA84A2Q38256769-C20C666E-03B4-466C-B36B-69E0257F254DQ38430880-E21A8787-ECA7-4CBF-BC44-22E68575AD65Q38472793-B81E2AFA-280E-495E-9343-28D3DA42C180Q38565430-8DEEFD4C-5406-4213-BE0C-C2DC9446CE5CQ38651668-040EEE41-051F-48E4-9F8B-67C0F9CE0E48Q38658247-1521B84C-834F-4258-A3FE-ECAD5E0E7649Q38674094-A785AAAD-7D12-4BD2-80F0-815CE21A10B8Q38688208-D9AFEBEC-64D9-4649-A6A5-4288585BA468
P2860
Sequence-specific peptide synthesis by an artificial small-molecule machine.
description
2013 nî lūn-bûn
@nan
2013 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
name
Sequence-specific peptide synthesis by an artificial small-molecule machine.
@ast
Sequence-specific peptide synthesis by an artificial small-molecule machine.
@en
Sequence-specific peptide synthesis by an artificial small-molecule machine.
@nl
type
label
Sequence-specific peptide synthesis by an artificial small-molecule machine.
@ast
Sequence-specific peptide synthesis by an artificial small-molecule machine.
@en
Sequence-specific peptide synthesis by an artificial small-molecule machine.
@nl
prefLabel
Sequence-specific peptide synthesis by an artificial small-molecule machine.
@ast
Sequence-specific peptide synthesis by an artificial small-molecule machine.
@en
Sequence-specific peptide synthesis by an artificial small-molecule machine.
@nl
P2093
P50
P356
P1433
P1476
Sequence-specific peptide synthesis by an artificial small-molecule machine.
@en
P2093
Bartosz Lewandowski
Daniel M D'Souza
Dominik Heckmann
Marcus Papmeyer
María J Aldegunde
Philipp M E Gramlich
Sonja Kuschel
P304
P356
10.1126/SCIENCE.1229753
P407
P577
2013-01-01T00:00:00Z