Methods to explore cellular uptake of ruthenium complexes
about
Label-free determination of the number of biomolecules attached to cells by measurement of the cell's electrophoretic mobility in a microchannelBinding of a designed anti-cancer drug to the central cavity of an RNA three-way junctionMonitoring one-electron photo-oxidation of guanine in DNA crystals using ultrafast infrared spectroscopyTransition Metal Intercalators as Anticancer Agents-Recent AdvancesChiral ruthenium(II) polypyridyl complexes: stabilization of g-quadruplex DNA, inhibition of telomerase activity and cellular uptakeTargeting the endoplasmic reticulum with a membrane-interactive luminescent ruthenium(ii) polypyridyl complex†Electronic supplementary information (ESI) available: Experimental details, characterization of 2 and Fig. S1-S6. See DOI: 10.1039/c3sc5172DNA binding properties, histidine interaction and cytotoxicity studies of water soluble ruthenium(ii) terpyridine complexes.Time-resolved and two-photon emission imaging microscopy of live cells with inert platinum complexesLuminescent cyclometallated iridium(III) bis(quinolylbenzaldehyde) diimine complexes--synthesis, photophysics, electrochemistry, protein cross-linking properties, cytotoxicity and cellular uptake.Cellular and cell-free studies of catalytic DNA cleavage by ruthenium polypyridyl complexes containing redox-active intercalating ligands.Effect of lanthanide complex structure on cell viability and association.Photoexpulsion of surface-grafted ruthenium complexes and subsequent release of cytotoxic cargos to cancer cells from mesoporous silica nanoparticles.Targeting a ruthenium complex to the nucleus with short peptides.Exploring the cellular accumulation of metal complexes.Enhanced Cytotoxicity through Conjugation of a "Clickable" Luminescent Re(I) Complex to a Cell-Penetrating LipopeptideEffects of chirality on the intracellular localization of binuclear ruthenium(II) polypyridyl complexes.Modifying charge and hydrophilicity of simple Ru(II) polypyridyl complexes radically alters biological activities: old complexes, surprising new tricks.Multifaceted interplay between lipophilicity, protein interaction and luminescence parameters of non-intercalative ruthenium(II) polypyridyl complexes controlling cellular imaging and cytotoxic properties.Phosphorescent imaging of living cells using a cyclometalated iridium (III) complexCellular responses of BRCA1-defective and triple-negative breast cancer cells and in vitro BRCA1 interactions induced by metallo-intercalator ruthenium(II) complexes containing chloro-substituted phenylazopyridineBioorthogonal Labeling, Bioimaging, and Photocytotoxicity Studies of Phosphorescent Ruthenium(II) Polypyridine Dibenzocyclooctyne Complexes.Reversal of a Single Base-Pair Step Controls Guanine Photo-Oxidation by an Intercalating Ruthenium(II) Dipyridophenazine ComplexParameters influencing the photo-induced electron transfer from tryptophan-containing peptides to a Ru(II) complex: a systematic study.Monitoring guanine photo-oxidation by enantiomerically resolved Ru(II) dipyridophenazine complexes using inosine-substituted oligonucleotides.Luminogenic iridium azide complexesRuthenium(II) Complexes with 2-Phenylimidazo[4,5-f][1,10]phenanthroline Derivatives that Strongly Combat Cisplatin-Resistant Tumor CellsRuthenium(III) Complexes of Heterocyclic Tridentate (ONN) Schiff Base: Synthesis, Characterization and its Biological Properties as an Antiradical and Antiproliferative AgentLight-Sensitive Ruthenium Complex-Loaded Cross-linked Polymeric Nanoassemblies for the Treatment of CancerMetallo-intercalators and metallo-insertorsCell-selective biological activity of rhodium metalloinsertors correlates with subcellular localizationIn vitro effects of novel ruthenium complexes in Neospora caninum and Toxoplasma gondii tachyzoites.Ultrafast in cellulo photoinduced dynamics processes of the paradigm molecular light switch [Ru(bpy)2dppz](2.).Mechanism of cellular uptake of a ruthenium polypyridyl complex.Insertion of a bulky rhodium complex into a DNA cytosine-cytosine mismatch: an NMR solution study.Application of metal coordination chemistry to explore and manipulate cell biology.Complexes in context: attempting to control the cellular uptake and localisation of rhenium fac-tricarbonyl polypyridyl complexes.Applications of luminescent inorganic and organometallic transition metal complexes as biomolecular and cellular probes.Ruthenium(II) polypyridyl complexes and DNA--from structural probes to cellular imaging and therapeutics.Fluorescence in nanobiotechnology: sophisticated fluorophores for novel applications.When self-assembly meets biology: luminescent platinum complexes for imaging applications.
P2860
Q21562128-67F55857-7F12-40FD-9079-DED4B8EADB95Q27686681-34F47AE6-E04A-45B2-81CB-E6A5E4C6A974Q27702796-9C70C929-3A08-4E98-9623-DBC7804A828AQ28077365-D1D97866-6ACD-421B-97B4-3FFBB8C2D405Q28484250-574C578D-2557-4E99-9923-D65EAC97C35AQ30884078-F5919C26-F32E-4386-B2AC-C84909CA55A6Q31043552-47889E9D-7A56-45BD-84D0-E391AE61479EQ33375595-0249EDC7-3CE2-4E09-B2AA-8C44F0D2373BQ33662101-93E92C58-B8F0-4D17-9E08-FC3754BD6E4DQ33670035-9559DBD8-C574-4036-B3AB-D48CAB1A52DEQ33767273-2BFA5D8C-4E1E-4A3B-9242-97367B0D5C06Q33862903-D6A65115-E638-4078-9B27-E2CC30A8C29FQ33865968-50A37005-61E7-4038-8CFB-81B5CE07B8A1Q33866011-5D671B8D-29B9-4FE5-A02C-8D0033293AEAQ33889086-A207B4CE-9A63-4C02-9ED8-A6820366C54EQ34152263-7AF329C3-1ED3-4F43-ADCE-CBF860CC7920Q34293548-E1ABA8C8-DBEA-489D-83A9-F1973631AABFQ34558869-DF8F3FEB-DB6E-4A9D-ABF2-BC8B1A3CBEA3Q34606373-EE0F9F7D-CA26-4E6B-9C3A-7C5498EC4998Q35089211-19FEE072-CB79-499C-AC27-9F9B6BFAC583Q35669944-B680326D-6584-4144-94CE-B4EBD265BEAAQ35670039-2DE6D4A8-09C4-4FD0-9EBB-87FCAD5A2E45Q35784195-81D0A5DF-19EA-4D50-8A73-8938B0EBA145Q35795092-B1307790-C111-4CB5-BB3D-F1EC00662FBFQ36113795-6077C223-D287-4404-A599-C93A96B06FA8Q36499563-BA41266A-F36A-4B2A-81A5-915411663DCDQ36512527-96E25919-C3CA-46A2-B964-9575E777E445Q36539791-DAC6B2E2-8E2A-45CB-8C89-8CD4FFB2BED5Q36996160-1DA16608-D8D1-44FF-9FEB-62F690898B21Q37087781-9F1FB1BE-B3AF-44AB-867B-D32D16FCFAD3Q37263372-8696B7A4-C5D7-4312-833E-3E83FF183F68Q37267323-89236CB8-534B-4CB9-8BCE-8ED0F9ED51C6Q37354918-FA9419E7-4110-4EF3-AEC0-03BEC129CB96Q37357433-4F2D082F-1E1A-4ED8-943B-D3AD7646B058Q37387617-189DF1FF-785B-4F26-953D-3DC24FBE4FB3Q37928483-74A78454-CA81-4737-9579-26B7A1C92B37Q37975450-8B6EC232-F3E8-4827-9D1B-A7C07A85D9EBQ37982323-166EA1FA-B9E6-460F-90CF-BFC1E2E3292AQ38017153-F451410F-B5A4-4B98-9DE1-E01D33C51EE3Q38197086-C2B4A53D-528D-4D18-A04F-8CD8222B012B
P2860
Methods to explore cellular uptake of ruthenium complexes
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Methods to explore cellular uptake of ruthenium complexes
@en
Methods to explore cellular uptake of ruthenium complexes
@nl
type
label
Methods to explore cellular uptake of ruthenium complexes
@en
Methods to explore cellular uptake of ruthenium complexes
@nl
prefLabel
Methods to explore cellular uptake of ruthenium complexes
@en
Methods to explore cellular uptake of ruthenium complexes
@nl
P2860
P356
P1476
Methods to explore cellular uptake of ruthenium complexes
@en
P2093
Cindy A Puckett
Jacqueline K Barton
P2860
P356
10.1021/JA0677564
P407
P577
2007-01-01T00:00:00Z