Photoactivated chemotherapy (PACT): the potential of excited-state d-block metals in medicine.
about
Insights into the acid-base properties of Pt(IV)-diazidodiam(m)inedihyroxido complexes from multinuclear NMR spectroscopy.Photo-aquation of cis-[RuCl2(mPTA)4](CF3SO3)4 in water (mPTA = N-methyl-1,3,5-triaza-7-phosphaadamantane).Rhenium Complexes with Red-Light-Induced Anticancer Activity.[Ru(bpy)2(5-cyanouracil)2]2+ as a potential light-activated dual-action therapeutic agent.NIR-triggered release of caged nitric oxide using upconverting nanostructured materials.Control and utilization of ruthenium and rhodium metal complex excited states for photoactivated cancer therapyVisible light-triggered nitric oxide release from near-infrared fluorescent nanospheric vehicles.Light-activated protein inhibition through photoinduced electron transfer of a ruthenium(II)-cobalt(III) bimetallic complexRed Light Activation of Ru(II) Polypyridyl Prodrugs via Triplet-Triplet Annihilation Upconversion: Feasibility in Air and through Meat.Triplet-triplet annihilation upconversion followed by FRET for the red light activation of a photodissociative ruthenium complex in liposomes.Selective Photodissociation of Acetonitrile Ligands in Ruthenium Polypyridyl Complexes Studied by Density Functional Theory.Rhenium complexes with visible-light-induced anticancer activity.Antimicrobial Activity of the Manganese Photoactivated Carbon Monoxide-Releasing Molecule [Mn(CO)3(tpa-κ(3)N)](+) Against a Pathogenic Escherichia coli that Causes Urinary Infections.Ultrafast in cellulo photoinduced dynamics processes of the paradigm molecular light switch [Ru(bpy)2dppz](2.).Metallic nanoparticles: technology overview & drug delivery applications in oncology.Inorganic nanoparticles in cancer therapy.Targeted and multifunctional arene ruthenium chemotherapeutics.Quantum dot photosensitizers. Interactions with transition metal centers.Recent advances in the development of 1,8-naphthalimide based DNA targeting binders, anticancer and fluorescent cellular imaging agents.Photoactivatable metal complexes: from theory to applications in biotechnology and medicine.Zinc complexes as fluorescent chemosensors for nucleic acids: new perspectives for a "boring" element.A Photoactivatable Platinum(IV) Anticancer Complex Conjugated to the RNA Ligand Guanidinoneomycin.Phototoxicity of strained Ru(ii) complexes: is it the metal complex or the dissociating ligand?Platinum complexes as light promoted anticancer agents: a redefined strategy for controlled activation.Photoactivated inhibition of cathepsin K in a 3D tumor model.Cobalt(III) Chaperone Complexes of Curcumin: Photoreduction, Cellular Accumulation and Light-Selective Toxicity towards Tumour Cells.Photoswitching the cytotoxic properties of platinum(II) compounds.Fusion of photodynamic therapy and photoactivated chemotherapy: a novel Ru(II) arene complex with dual activities of photobinding and photocleavage toward DNA.Cellular accumulation, lipophilicity and photocytotoxicity of diazido platinum(IV) anticancer complexes.An Overview Of Photosubstitution Reactions Of Ru(II) Imine Complexes And Their Application In Photobiology And Photodynamic Therapy.Photodynamic effect in near-IR light by a photocytotoxic iron(III) cellular imaging agent.Impact of metal on the DNA photocleavage activity and cytotoxicity of ferrocenyl terpyridine 3d metal complexes.Studies on the photoactivation of two cytotoxic trans,trans,trans-diazidodiaminodihydroxo-Pt(IV) complexes.Rhenium(IV) compounds inducing apoptosis in cancer cells.High cytotoxicity of dihalo-substituted 8-quinolinolato-lanthanides.Antiproliferative activity of chelating N,O- and N,N-ruthenium(II) arene functionalised poly(propyleneimine) dendrimer scaffolds.Photocrosslinking between peptide-peptide or peptide-oligonucleotide by Ru(II)-TAP complexes.Comprehensive Vibrational Spectroscopic Investigation of trans,trans,trans-[Pt(N3)2(OH)2(py)2], a Pt(IV) Diazido Anticancer Prodrug Candidate.Luminescent europium and terbium complexes of dipyridoquinoxaline and dipyridophenazine ligands as photosensitizing antennae: structures and biological perspectives.d- Versus l-Glucose Conjugation: Mitochondrial Targeting of a Light-Activated Dual-Mode-of-Action Ruthenium-Based Anticancer Prodrug.
P2860
Q30450733-9F3BF6A8-2D1C-4BE2-A551-E94C70CAC9C3Q33764252-C53092EE-3617-4073-9623-0C19F699606DQ33919088-7FA8FBF9-81BC-451D-9A86-259A3541C1E9Q34006324-1B2C8D6E-6D0E-4A93-9EE9-6EC8A81EED58Q34350725-48800E82-CB71-4026-AB74-A78076BBAD45Q35128594-882691B0-7271-4FB4-BDEC-34CAEF9B4816Q35168694-DF15B42D-96A1-4CA9-B0BE-EAB51ABB81F8Q35805471-81827C46-18A6-4DDB-96D5-88B1D92C2331Q36181076-CD3EB495-942A-4DE3-BA59-98E6B2E32D13Q36272376-C4C0FFC8-CC4C-4B66-A430-7DE55BAFB421Q36549488-D975916E-96D4-4883-B914-7757F3DC864FQ36881314-91E9A279-A581-4B6D-AB13-6FE29990556BQ36925719-39347EF4-5C5D-42BD-9ADE-AD6581F2A041Q37267323-5FEC803C-AC38-434F-A877-2FB8916A50ECQ37774342-FE5950B4-AA58-4524-AC37-BD985F233833Q37812005-4900C24F-D3ED-4C4F-9EAC-D30AE3F7612CQ37920741-C22F05D7-ED43-468A-BE2B-561A9CBD3899Q38046074-A5D61BAD-9F5D-4AE2-91FB-54C9D2CF202AQ38074601-B140A05F-A9CB-4762-A009-12E535A1011CQ38115294-FEA45C33-FB5D-4594-93D3-970C2D26E784Q38265666-29B7D67B-47C2-46D8-874D-814C2236C099Q38294800-6D43CB23-5C47-4FF8-B212-7E8406508EFDQ38696298-10A819E8-F819-41C4-9662-56305686240DQ38791247-6093BE97-A1D4-4155-9FCB-A4D7B5116760Q38791995-BBA8F121-9514-4037-B565-3C06138198A1Q38827618-BE16D3A7-E32D-4502-8F0C-6FE8F5763726Q38908754-CD617BA6-7172-4973-ABCE-EA99FC12F5DDQ38959861-701F9DE6-924C-4E54-B8E5-54ECD53434CFQ38993842-3ADBD6C1-DB5B-4082-BA57-A431973DAF7EQ39064315-685850F2-D78E-4418-B848-EE1F43E98C80Q39404000-F536B297-0725-4995-8256-7D3DF79FE350Q39462812-D7513A84-E49F-4F19-8E86-FD1782835194Q39565270-73DFFE76-ECC8-4203-9AED-2BD216922979Q39568547-7C47AF81-BDBC-4F1A-BC03-4338D7FBC942Q39604034-E3035995-F612-4849-AF52-EE6864500605Q39619138-FD88B896-1AC5-475E-9633-DF840423FFB0Q39679661-B96C7468-2CC8-4E1E-804C-3985AC0218D6Q39712535-858AEBFC-2388-4B75-B105-2CEBFCDB4915Q40385855-DCEC979B-5604-44CB-B062-76F87273499CQ40777943-26F97448-7A12-41A5-83FA-6F9FE61DD182
P2860
Photoactivated chemotherapy (PACT): the potential of excited-state d-block metals in medicine.
description
2009 nî lūn-bûn
@nan
2009 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Photoactivated chemotherapy (P ...... te d-block metals in medicine.
@ast
Photoactivated chemotherapy (P ...... te d-block metals in medicine.
@en
Photoactivated chemotherapy
@nl
type
label
Photoactivated chemotherapy (P ...... te d-block metals in medicine.
@ast
Photoactivated chemotherapy (P ...... te d-block metals in medicine.
@en
Photoactivated chemotherapy
@nl
prefLabel
Photoactivated chemotherapy (P ...... te d-block metals in medicine.
@ast
Photoactivated chemotherapy (P ...... te d-block metals in medicine.
@en
Photoactivated chemotherapy
@nl
P2860
P356
P1433
P1476
Photoactivated chemotherapy (P ...... ate d-block metals in medicine
@en
P2093
Peter J Sadler
P2860
P304
10690-10701
P356
10.1039/B917753A
P407
P577
2009-11-11T00:00:00Z