about
A modified consumer inkjet for spatiotemporal control of gene expressionA facile system for encoding unnatural amino acids in mammalian cellsSelective labeling of living cells by a photo-triggered click reactionLight-dependent RNA interference with nucleobase-caged siRNAsPhototriggerable 2',7-caged paclitaxelProgrammed activation of cancer cell apoptosis: A tumor-targeted phototherapeutic topoisomerase I inhibitorCaged Protein Prenyltransferase Substrates: Tools for Understanding Protein PrenylationOptogenetic control of cells and circuitsDetermining the Photoisomerization Quantum Yield of Photoswitchable Molecules in Solution and in the Solid StatePhoto-Triggered Click Chemistry for Biological ApplicationsLight-driven liquid metal nanotransformers for biomedical theranostics.Gold nanorods based platforms for light-mediated theranostics.Polymeric micelles in anticancer therapy: targeting, imaging and triggered release.Complete optical neurophysiology: toward optical stimulation and recording of neural tissue.Light-mediated spatial control via photolabile fluorescently quenched peptide cassettes.Photochemically initiated intracellular astrocytic calcium waves in living mice using two-photon uncaging of IP(3).Regulating gene expression with light-activated oligonucleotides.Nucleobase-caged phosphoramidites for oligonucleotide synthesis.RNA aptamers that reversibly bind photoresponsive azobenzene-containing peptides.Gold nanocages covered by smart polymers for controlled release with near-infrared light.In situ assembly of macromolecular complexes triggered by lightLight-mediated remote control of signaling pathways.Controlling the enzymatic activity of a restriction enzyme by light.Improved synthesis of the two-photon caging group 3-nitro-2-ethyldibenzofuran and its application to a caged thymidine phosphoramidite.Targeting gold nanocages to cancer cells for photothermal destruction and drug deliveryActivation and deactivation of DNAzyme and antisense function with light for the photochemical regulation of gene expression in mammalian cellsSingle-stranded DNA as a cleavable linker for bioorthogonal click chemistry-based proteomics.Two-photon sensitive protecting groups operating via intramolecular electron transfer: uncaging of GABA and tryptophan.Photochromic and photophysical properties of new benzo- and naphtho[1,3]oxazine switches.Light-controlled release of caged doxorubicin from folate receptor-targeting PAMAM dendrimer nanoconjugate.Multiphoton molecular photorelease in click-chemistry-functionalized gold nanoparticles.Recent advances in the photochemical control of protein function.Water-soluble o-hydroxycinnamate as an efficient photoremovable protecting group of alcohols with fluorescence reporting.Caged glutathione - triggering protein interaction by light.The effects of H-bonding and sterics on the photoreactivity of a trimethyl butyrophenone derivative.Genetically encoded RNA photoswitches as tools for the control of gene expression.Genetically encoded light-activated transcription for spatiotemporal control of gene expression and gene silencing in mammalian cells.Caged compounds: photorelease technology for control of cellular chemistry and physiologyChemical construction and structural permutation of neurotoxic natural product, antillatoxin: importance of the three-dimensional structure of the bulky side chain.In vitro selection of a photo-responsive peptide aptamer using ribosome display.
P2860
Q21562376-89EE6866-AAF7-4BD4-A9D6-7CC703E92BB2Q24609886-E3AA6472-B1C6-4C52-A688-DF827C8F0CE0Q24657238-36BBBA98-8967-417F-A95B-731F5D0BADE1Q24676555-43E89B85-786A-495E-97D7-EF234E43016FQ27322829-2DCD62E9-9A24-4770-9168-86B9F07E4842Q27333941-2FBC93A2-1F8B-4DBF-9567-A74296D3DE21Q27652462-C0711BA1-9079-4469-855B-483B0C71EF54Q28244951-40E68D66-6CEA-4ED0-859B-56446F404C80Q28818472-AD1CC20F-59ED-4195-9CC4-38FABBBCBAEFQ28831137-57046A2B-7597-4073-862A-AE2298B07658Q30354447-847D7674-9545-4672-9512-F83CA6E4CE4EQ30457568-D965023D-38F5-4E6C-91C7-51B067A56E10Q30478123-6AE0DC7E-2322-41CC-B72C-1F8D922EFE01Q30490262-F729DB44-9538-471D-900F-FBFBA745EAE1Q30493063-A32788F1-3BDD-49C3-B87A-48F9DA719319Q30515041-BB3B9AA0-66B6-458D-A9B4-40AA52AB57C5Q33270099-8CD5703A-0F63-43B9-A0AA-3085A3911B68Q33329984-45138F52-5FCC-4B82-B991-0945472E9F91Q33387354-B65A64BD-4613-4489-A9B8-09406CB2AE5BQ33514283-13FD1B87-B9F4-44BD-9DA0-6A52C8ACA3F5Q33536634-542FE77B-329D-4B9C-A42B-5043483F0A88Q33653942-442B4B8F-03EF-4C0A-95CB-A5FABBB9E490Q33667376-8059D1EC-C89C-4E9A-B949-574772ADA329Q33695714-D1BFF9DC-F090-40BD-8889-C2ECE7998E96Q33805083-66A456F1-D1DB-4C53-9694-82E311948822Q33822273-C18C1516-ACCD-4FF9-BAB2-673614EC60C4Q33835508-6F69E093-7A98-41C8-90F1-8A672FBF1789Q33845878-7277D0B8-33A2-4BAF-BB52-46A03B9E4DC8Q33943348-EAF608C5-8F1E-47DA-9738-3EF22ED794CBQ33983855-B55ED74D-54C5-4AAE-9DF4-9F6CA8C9B222Q34052139-DB77252C-62FF-4664-8933-F9030EA70DDFQ34079616-A2E4AA86-5EB6-4A72-9344-D7850488528CQ34158071-EC19372A-F73B-42F3-9E60-047052511A95Q34185455-E3FFEFEE-8CAA-49B6-A71A-E330279D81FCQ34190951-87DCDC2D-2CDF-4A33-9AF4-D1AD7A05F589Q34289967-70EB4345-AA38-411D-A3C2-DD0A378ECA6CQ34303305-226E2A5F-BEFE-4D4C-B8B3-B11506FC7482Q34392610-3073EA7C-5204-4C3A-BF49-8E7C50D8772FQ34403909-BD25829B-FFC1-4B86-B12C-563E8B09B41BQ34466593-AF0E57A5-631F-4102-9225-F3C0E5124FBE
P2860
description
2006 nî lūn-bûn
@nan
2006 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Biologically active molecules with a "light switch".
@ast
Biologically active molecules with a "light switch".
@en
type
label
Biologically active molecules with a "light switch".
@ast
Biologically active molecules with a "light switch".
@en
prefLabel
Biologically active molecules with a "light switch".
@ast
Biologically active molecules with a "light switch".
@en
P356
P1476
Biologically active molecules with a "light switch".
@en
P2093
Alexander Heckel
Günter Mayer
P2860
P304
P356
10.1002/ANIE.200600387
P407
P577
2006-07-01T00:00:00Z