about
Measurement of protein tyrosine phosphatase activity in single cells by capillary electrophoresisSRC kinase regulation in progressively invasive cancerIn vitro methods to study bubble-cell interactions: Fundamentals and therapeutic applicationsHydrodynamic determinants of cell necrosis and molecular delivery produced by pulsed laser microbeam irradiation of adherent cells.Biophysical response to pulsed laser microbeam-induced cell lysis and molecular delivery.Fast-lysis cell traps for chemical cytometry.Characterization and use of laser-based lysis for cell analysis on-chip.Current techniques for single-cell lysis.Single cell responses to spatially controlled photosensitized production of extracellular singlet oxygen.Polymer Coatings in 3D-Printed Fluidic Device Channels for Improved Cellular Adherence Prior to Electrical Lysis.Chemical cytometry on a picoliter-scale integrated microfluidic chip.Pulsed laser microbeam-induced cell lysis: time-resolved imaging and analysis of hydrodynamic effectsDetermination of sphingosine kinase activity for cellular signaling studies.Examination of laser microbeam cell lysis in a PDMS microfluidic channel using time-resolved imaging.Biarsenical-tetracysteine motif as a fluorescent tag for detection in capillary electrophoresis.Quantitative phase evaluation of dynamic changes on cell membrane during laser microsurgery.Manipulation of mammalian cells using a single-fiber optical microbeam.Digital holographic microscopy for quantitative cell dynamic evaluation during laser microsurgery.Microelectrophoresis platform for fast serial analysis of single cells.Red blood cell rheology using single controlled laser-induced cavitation bubbles.Continuous analysis of dye-loaded, single cells on a microfluidic chip.Neuronal growth cones respond to laser-induced axonal damage.Control of the release of freely diffusing molecules in single-cell electroporationSingle-cell sphingosine kinase activity measurements in primary leukemiaDevelopment of a peptidase-resistant substrate for single-cell measurement of protein kinase B activationFemtomole SHAPE reveals regulatory structures in the authentic XMRV RNA genomePronase E-Based Generation of Fluorescent Peptide Fragments: Tracking Intracellular Peptide Fate in Single Cells.Characterization of cell lysis events on a microfluidic device for high-throughput single cell analysis.Recent advances in capillary electrophoretic analysis of individual cells.Myristoyl-based transport of peptides into living cells.Effect of cell size and shape on single-cell electroporation.Automated capillary electrophoresis system for fast single-cell analysis.Metabolism of peptide reporters in cell lysates and single cellsChemistry and biology in femtoliter and picoliter volume dropletsEmerging microfluidic devices for cell lysis: a review.Measurement of protein kinase B activity in single primary human pancreatic cancer cells.β-Turn sequences promote stability of peptide substrates for kinases within the cytosolic environment.Coaxial flow system for chemical cytometry.Single-cell analysis of phosphoinositide 3-kinase and phosphatase and tensin homolog activationMeasurement of kinase activation in single mammalian cells.
P2860
Q28385282-7C0713B1-CE5C-4DEE-A225-0DB7EA7932CBQ28484914-7F5B4C7B-C3C0-49DD-B9D1-A6765E1CFC1DQ30364918-9CBAA0A4-DCF4-4F3C-8769-9627EB9FB82AQ30426671-33480E42-358F-4009-89C8-905F44A1AF9BQ30474534-9C88F158-FECF-4221-B7D4-1DBD9E60D586Q30485111-8D826704-C5F4-487D-80CB-8D299B343920Q30488425-8853D538-A204-487C-99F1-29FA79718A51Q30493631-8EE4670D-863C-42AA-8FB3-4985DEEE8142Q30503940-AEAECEFA-0F65-4E6E-92D3-C1CF0D855D9BQ30842665-2EC2E0C6-767F-4376-9E96-0F0D8EF7203DQ33206225-52D9FE09-CC10-4F0E-9C7F-24826EDF6D6EQ33240019-A0F7205D-1A0A-4B6A-86CC-84F9C387D5BFQ33314947-FCA11EA0-9E3F-4EEB-805A-F92B666DA42DQ33321579-F8D1089A-A4C3-44E2-BE32-7A4FB883DC90Q33340086-EB1F15A0-35DB-4511-A696-8E2A5AC1DF5BQ33385780-3745D1D2-9F01-49E4-AAD1-989FAF238705Q33385818-325F8639-CAD6-4A92-A6ED-61493444A48EQ33479068-33C9E91B-B428-45A8-A24D-002C8E83CA24Q33625754-CA670B06-625A-45FD-8CA1-EBDFCA1CE2A4Q33779966-CA6B1773-3ADD-451D-83E3-3F960D55D036Q33822366-BB5D2FE2-CC2A-469B-9909-463A67CD0F16Q33989759-60091638-FEB0-4CA2-BFD6-4539CE56E16DQ34124500-F6D17686-6FDF-4F0E-B4FA-5F0B3E7A0077Q34345362-32A310F1-5399-4E85-8836-07E59FF16E09Q34375254-8C49FF1D-12CD-415D-ADC3-6BB12B47C531Q35621576-655B1334-EE68-4556-9B44-242655976F9FQ35690494-966E124A-7A64-4995-9CD3-C86FCAA7BFA6Q36453141-A71180FC-EEF9-42DD-A58F-00D88C8BA3B4Q36567403-5FA7F576-C2E7-49B4-84AE-A2E230B627BEQ36692522-AAACF891-26D2-4212-91EB-2B6DF27CE247Q36869210-34D32F26-345D-4A46-B539-2B96CCCC09D8Q36966349-55CDAD02-1CB6-4C8D-9451-2ADBF3C9A171Q36971329-07FBB74F-5DCC-4400-836C-AD6507705F47Q37198261-05559E1B-DF72-4A7A-A070-032133436E9BQ38183637-B5311418-88FC-4486-84E9-14B3D63C461CQ39005983-CF73E724-68A5-4C3D-BAD8-1C7A92669DC9Q39137252-2A396CBA-5858-4CDE-A6DA-032E7E72D34AQ39421975-3523026E-AC0D-44C1-B38A-440F5EFED330Q39609521-BE1954E1-2C34-4492-9A68-E4EDE9418B44Q41722835-E41EA5F4-5388-478A-A441-E87060F9E1D9
P2860
description
1998 nî lūn-bûn
@nan
1998 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Laser-micropipet combination for single-cell analysis.
@ast
Laser-micropipet combination for single-cell analysis.
@en
type
label
Laser-micropipet combination for single-cell analysis.
@ast
Laser-micropipet combination for single-cell analysis.
@en
prefLabel
Laser-micropipet combination for single-cell analysis.
@ast
Laser-micropipet combination for single-cell analysis.
@en
P2093
P356
P1433
P1476
Laser-micropipet combination for single-cell analysis.
@en
P2093
B J Tromberg
G D Meredith
N L Allbritton
T B Krasieva
P304
P356
10.1021/AC9802269
P407
P577
1998-11-01T00:00:00Z