Rapid Isolation and Detection of Exosomes and Associated Biomarkers from Plasma.
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Bob S. Carter | Sadik C. Esener | Michael J. Heller | Stuart Ibsen | Sejung Kim | S. Esener | M. Heller | J. Akers | B. Carter | Clark C. Chen | S. Ibsen | Sejung Kim | Jennifer Wright | Johnny C. Akers | Jean M Lewis | Sareh Manouchehri | Jennifer Wright | Jean M. Lewis | Seo Yeon Ko | Jiye Ong | Sareh Manouchehri | Ankit D. Vyas | S. Ko | Jiye Ong
[1] Sadik C Esener,et al. Interaction of Nanoparticles at the DEP Microelectrode Interface under High Conductance Conditions. , 2009, Electrochemistry communications.
[2] Graça Raposo,et al. Exosomes--vesicular carriers for intercellular communication. , 2009, Current opinion in cell biology.
[3] Christian Pilarsky,et al. Glypican-1 identifies cancer exosomes and detects early pancreatic cancer , 2015, Nature.
[4] D. Tollervey,et al. The Many Pathways of RNA Degradation , 2009, Cell.
[5] Michael J Heller,et al. Dielectrophoretic recovery of DNA from plasma for the identification of chronic lymphocytic leukemia point mutations. , 2016, International journal of hematologic oncology.
[6] Michael J Heller,et al. Dielectrophoretic isolation and detection of cfc‐DNA nanoparticulate biomarkers and virus from blood , 2013, Electrophoresis.
[7] Hakho Lee,et al. Acoustic purification of extracellular microvesicles. , 2015, ACS nano.
[8] Daniel B. Martin,et al. Circulating microRNAs as stable blood-based markers for cancer detection , 2008, Proceedings of the National Academy of Sciences.
[9] Jameel Inal,et al. A filtration-based protocol to isolate human plasma membrane-derived vesicles and exosomes from blood plasma. , 2011, Journal of immunological methods.
[10] Simon C Watkins,et al. Isolation of biologically-active exosomes from human plasma. , 2014, Journal of immunological methods.
[11] Hamid Cheshmi. Glioblastoma microvesicles transport RNA and proteins that promote tumour growth and provide diagnostic biomarkers , 2011 .
[12] Graça Raposo,et al. Exosomal-like vesicles are present in human blood plasma. , 2005, International immunology.
[13] S. Thibodeau,et al. Characterization of human plasma-derived exosomal RNAs by deep sequencing , 2013, BMC Genomics.
[14] Michael J Heller,et al. Rapid electrokinetic isolation of cancer-related circulating cell-free DNA directly from blood. , 2014, Clinical chemistry.
[15] Y. Lo,et al. Stability of endogenous and added RNA in blood specimens, serum, and plasma. , 2002, Clinical chemistry.
[16] Jongmin Park,et al. Integrated Magneto-Electrochemical Sensor for Exosome Analysis. , 2016, ACS nano.
[17] B. Wolpin,et al. Circulating Exosomes in Pancreatic Cancer: Will They Succeed on the Long, Littered Road to Early Detection Marker? , 2016, Clinical chemistry.
[18] Guido Jenster,et al. Exosomes as biomarker treasure chests for prostate cancer. , 2011, European urology.
[19] Yang Yang,et al. A microfluidic ExoSearch chip for multiplexed exosome detection towards blood-based ovarian cancer diagnosis. , 2016, Lab on a chip.
[20] G. Illei,et al. The Majority of MicroRNAs Detectable in Serum and Saliva Is Concentrated in Exosomes , 2012, PloS one.
[21] Michael J Heller,et al. Detecting cancer biomarkers in blood: challenges for new molecular diagnostic and point-of-care tests using cell-free nucleic acids , 2015, Expert review of molecular diagnostics.
[22] S. Mathivanan,et al. Exosomes: extracellular organelles important in intercellular communication. , 2010, Journal of proteomics.
[23] P. Seeman,et al. STRUCTURE OF MEMBRANE HOLES IN OSMOTIC AND SAPONIN HEMOLYSIS , 1973, The Journal of cell biology.
[24] Sadik Esener,et al. Recovery of Drug Delivery Nanoparticles from Human Plasma Using an Electrokinetic Platform Technology. , 2015, Small.
[25] Hakho Lee,et al. Label-free detection and molecular profiling of exosomes with a nano-plasmonic sensor , 2014, Nature Biotechnology.
[26] Michael J. Heller,et al. Dielectrophoretic isolation and detection of cancer‐related circulating cell‐free DNA biomarkers from blood and plasma , 2014, Electrophoresis.
[27] R. Setterquist,et al. Exosomes: current knowledge of their composition, biological functions, and diagnostic and therapeutic potentials. , 2012, Biochimica et biophysica acta.
[28] T. Whiteside,et al. The potential of tumor-derived exosomes for noninvasive cancer monitoring , 2015, Expert review of molecular diagnostics.
[29] Michael Liem,et al. Comparative proteomics evaluation of plasma exosome isolation techniques and assessment of the stability of exosomes in normal human blood plasma , 2013, Proteomics.
[30] Sadik C Esener,et al. Alternating current electrokinetic separation and detection of DNA nanoparticles in high‐conductance solutions , 2008, Electrophoresis.
[31] Per-Uno Malmström,et al. Impact of Thawing on RNA Integrity and Gene Expression Analysis in Fresh Frozen Tissue , 2009, Diagnostic molecular pathology : the American journal of surgical pathology, part B.
[32] R. Simpson,et al. Proteomic profiling of exosomes: Current perspectives , 2008, Proteomics.
[33] N. Kosaka,et al. Functional analysis of exosomal microRNA in cell-cell communication research. , 2013, Methods in molecular biology.
[34] Sahil D. Shah,et al. Methods of isolating extracellular vesicles impact down-stream analyses of their cargoes. , 2015, Methods.
[35] Michael J Heller,et al. Dielectrophoretic isolation of DNA and nanoparticles from blood , 2012, Electrophoresis.
[36] G. Stolovitzky,et al. Nanoscale lateral displacement arrays for the separation of exosomes and colloids down to 20 nm. , 2016, Nature nanotechnology.
[37] H. Morgan,et al. Ac electrokinetics: a review of forces in microelectrode structures , 1998 .
[38] Andrew F. Hill,et al. Minimal experimental requirements for definition of extracellular vesicles and their functions: a position statement from the International Society for Extracellular Vesicles , 2014, Journal of extracellular vesicles.
[39] Wei Zhu,et al. Circulating RNA as a novel tumor marker: an in vitro study of the origins and characteristics of extracellular RNA. , 2008, Cancer letters.