An enzymatically activated fluorescence probe for targeted tumor imaging.
about
In vivo molecular imaging of cancer with a quenching near-infrared fluorescent probe using conjugates of monoclonal antibodies and indocyanine greenBright ideas for chemical biologyCytokine reporter mice: the special case of IL-10Current Multistage Drug Delivery Systems Based on the Tumor Microenvironment.New strategies for fluorescent probe design in medical diagnostic imaging.H-type dimer formation of fluorophores: a mechanism for activatable, in vivo optical molecular imagingFluorophore-quencher based activatable targeted optical probes for detecting in vivo cancer metastases.Synthesis and photophysics of a new family of fluorescent 9-alkyl-substituted xanthenones.Development of a General Aza-Cope Reaction Trigger Applied to Fluorescence Imaging of Formaldehyde in Living Cells.Aptamers from cell-based selection for bioanalytical applicationsNanotechnology applications in surgical oncology.Synthesis and spectroscopy of near infrared fluorescent dyes for investigating dichromic fluorescence.Development of fluorescent probes for bioimaging applicationsNear-infrared pH-activatable fluorescent probes for imaging primary and metastatic breast tumors.Synthesis and evaluation of self-calibrating ratiometric viscosity sensors.Activatable Dendritic (19)F Probes for Enzyme Detection.Rational chemical design of the next generation of molecular imaging probes based on physics and biology: mixing modalities, colors and signalsFluorogenic azidofluoresceins for biological imaging.Activatable Optical Probes for the Detection of Enzymes.Pre-clinical whole-body fluorescence imaging: Review of instruments, methods and applicationsNovel Fe(3+)-Based (1)H MRI β-Galactosidase Reporter Molecules**Radiosynthesis and evaluation of 5-[125I]iodoindol-3-yl-beta-D-galactopyranoside as a beta-galactosidase imaging radioligandDelivery of optical contrast agents using Triton-X100, part 2: enhanced mucosal permeation for the detection of cancer biomarkers.Dual-modality molecular imaging using antibodies labeled with activatable fluorescence and a radionuclide for specific and quantitative targeted cancer detection.Selective molecular imaging of viable cancer cells with pH-activatable fluorescence probes.Strategies for in vivo imaging of enzyme activity: an overview and recent advances.Optical imaging for the new grammar of drug discovery.Design strategy for photoinduced electron transfer-based small-molecule fluorescent probes of biomacromolecules.Recent advances in the development of synthetic chemical probes for glycosidase enzymes.A versatile two-photon fluorescent probe for ratiometric imaging E. coliβ-galactosidase in live cells and in vivo.Fluorescent In Situ Targeting Probes for Rapid Imaging of Ovarian-Cancer-Specific γ-Glutamyltranspeptidase.Molecular logistics using cytocleavable polyrotaxanes for the reactivation of enzymes delivered in living cells.Dual 19F/1H MR gene reporter molecules for in vivo detection of β-galactosidase.Development of membrane type-1 matrix metalloproteinase-specific activatable fluorescent probe for malignant tumor detection.Specific detection and imaging of enzyme activity by signal-amplifiable self-assembling (19)F MRI probes.Small quinolinium-based enzymatic probes via blue-to-red ratiometric fluorescence.Cell imaging using red fluorescent light-up probes based on an environment-sensitive fluorogen with intramolecular charge transfer characteristics.Redox-responsive nanoparticles with Aggregation-Induced Emission (AIE) characteristic for fluorescence imaging.Activatable fluorescent probes in fluorescence-guided surgery: Practical considerations.A dual-functional lanthanide nanoprobe for both living cell imaging and ICP-MS quantification of active protease.
P2860
Q24645538-3819E83C-5DA0-419E-A3EF-D3B823669E78Q24650191-107671BE-3890-4843-BDAA-B81A0B1015D8Q27007128-2DBB9098-A93A-484F-B620-729D8FBCE579Q30362001-895F7BB1-807B-4E25-9C08-7358B6C7BB20Q30472058-4EAF2404-30E6-40C8-89C4-8B72F994A1E7Q30490185-9F4DD7F7-45EF-49D0-B348-53B79EB1939AQ30495113-FE69E396-767F-430E-8CA7-4700402A0B26Q30703809-926F778A-5FF7-4ED4-B1C0-A9412E971B61Q33883494-963358F5-26A6-489A-B02F-CAFC3495D403Q33920514-81C1D87E-1689-48FB-8926-FDA6D48B0465Q34035668-B35E368A-765C-4E4D-AB70-793A69442AF3Q34440751-7545A2EB-2CB0-4812-8B0D-FE039FD2685CQ34567951-61586444-DB48-4D7B-A7D5-5C9FCEF7D834Q34827237-D6BA037B-D74A-45F6-BEE5-7D003261E83BQ35169466-12614948-A21A-4329-A093-5C55227ED5D8Q35559859-7EA7FAA5-CD54-415E-B6E2-EB42BE4611ACQ36158324-2D12B917-16F5-4D30-AF9A-8B952CE0427AQ36680157-59962DDC-55B4-49A0-A30F-6C86838D4DF1Q36697462-8A9B0CF8-6462-48AC-93C4-5B9B0D59FC1CQ36919600-94059466-57DB-4EB9-9DE2-B9795E98B199Q36953313-92AEBF30-E009-4F5F-8AB3-97B4151881BCQ37346807-1050A23C-E9AE-4F21-B86B-9D07A73D707AQ37353336-16C6B5E7-4053-48F5-ABC3-D3CB49E0357DQ37435631-8EABF694-B5D6-4580-B29E-057C7FC790FBQ37465185-406810D5-2CD2-4F6F-9F53-55F18F891C8BQ37873318-F0218880-484A-48FC-9BFC-2F8DABC8C73BQ37946850-3E1ECADA-90B8-4298-B604-B8D4507BEBBAQ38206354-F3475727-AC6E-409C-A916-0470633B66A0Q38519593-7143742E-5C06-4A3A-BF12-AAF15AC28B17Q38854440-AE91B278-71BC-4914-A6B8-94243E7520AAQ38879129-9F8790D9-76B4-4EBB-A702-383F4F01FECAQ39122756-8D208A75-C41A-4FE1-98EE-03DFD1550FB9Q39392969-D0BB8975-D72C-4E83-BFD0-4A1D39F4D11EQ39515304-B319CBA0-DC84-4133-9631-65A01D6A5A38Q43874065-C551DF57-B107-4AB6-B5E5-ED6A6581A7F4Q46608142-65C40B4A-E4D7-41D1-9A48-471226795059Q50466383-2BBFCA65-7428-47A0-8A27-9A4416CBC544Q50472784-D7039D97-37EB-4AAB-BF4E-9B4DEBF1CA32Q52740018-A942B6E2-ECFD-4E5D-A37C-AF40832E14DBQ55170789-2CC1970E-20BD-40BA-831A-7579A1F4D418
P2860
An enzymatically activated fluorescence probe for targeted tumor imaging.
description
2007 nî lūn-bûn
@nan
2007 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի մարտին հրատարակված գիտական հոդված
@hy
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
name
An enzymatically activated fluorescence probe for targeted tumor imaging.
@ast
An enzymatically activated fluorescence probe for targeted tumor imaging.
@en
type
label
An enzymatically activated fluorescence probe for targeted tumor imaging.
@ast
An enzymatically activated fluorescence probe for targeted tumor imaging.
@en
prefLabel
An enzymatically activated fluorescence probe for targeted tumor imaging.
@ast
An enzymatically activated fluorescence probe for targeted tumor imaging.
@en
P2093
P2860
P356
P1476
An enzymatically activated fluorescence probe for targeted tumor imaging.
@en
P2093
Hisataka Kobayashi
Mako Kamiya
Marcelino Bernardo
Peter L Choyke
Tetsuo Nagano
Yasuteru Urano
Yoshinori Koyama
Yukihiro Hama
P2860
P304
P356
10.1021/JA067710A
P407
P577
2007-03-13T00:00:00Z