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Cellular and Subcellular Nanotechnology

Overview of attention for book
Cover of 'Cellular and Subcellular Nanotechnology'

Table of Contents

  1. Altmetric Badge
    Book Overview
  2. Altmetric Badge
    Chapter 1 Nanoparticle-GFP “Chemical Nose” Sensor for Cancer Cell Identification
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    Chapter 2 A Method to Map Spatiotemporal pH Changes in a Multicellular Living Organism Using a DNA Nanosensor
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    Chapter 3 A Simple Method to Visualize and Assess the Integrity of Lysosomal Membrane in Mammalian Cells Using a Fluorescent Dye
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    Chapter 4 Gold Nanoparticle as a Marker for Precise Localization of Nano-objects Within Intracellular Sub-domains
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    Chapter 5 Immunoisolation of Nanoparticles Containing Endocytic Vesicles for Drug Quantitation
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    Chapter 6 Methods for Isolation and Identification of Nanoparticle-Containing Subcellular Compartments
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    Chapter 7 Permeabilization of Cell Membrane for Delivery of Nano-objects to Cellular Sub-domains
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    Chapter 8 A Method to Encapsulate Molecular Cargo Within DNA Icosahedra
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    Chapter 9 Delivery of plasmid DNA to Mammalian cells using polymer-gold nanorod assemblies.
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    Chapter 10 Lipophilic-Formulated Gold Porphyrin Nanoparticles for Chemotherapy
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    Chapter 11 Mitochondria-Specific Nano-Emulsified Therapy for Myocardial Protection Against Doxorubicin-Induced Cardiotoxicity
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    Chapter 12 Formation of Pit-Spanning Phospholipid Bilayers on Nanostructured Silicon Dioxide Surfaces for Studying Biological Membrane Events
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    Chapter 13 Characterization of Nanoparticle–Lipid Membrane Interactions Using QCM-D
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    Chapter 14 Single-Cell Nanosurgery
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    Chapter 15 Single Quantum Dot Imaging in Living Cells
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    Chapter 16 Fabrication of Fluorescent Silica Nanoparticles with Aggregation-Induced Emission Luminogens for Cell Imaging
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    Chapter 17 Monitoring the Degradation of Reduction-Sensitive Gene Carriers with Fluorescence Spectroscopy and Flow Cytometry
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    Chapter 18 Quantification of intracellular mitochondrial displacements in response to nanomechanical forces.
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    Chapter 19 Imaging Select Mammalian Organelles Using Fluorescent Microscopy: Application to Drug Delivery
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    Chapter 20 Real-Time Particle Tracking for Studying Intracellular Trafficking of Pharmaceutical Nanocarriers
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    Chapter 21 Interactions of Nanoparticles with Proteins: Determination of Equilibrium Constants
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    Chapter 22 Tracing the Endocytic Pathways and Trafficking Kinetics of Cell Signaling Receptors Using Single QD Nanoparticles
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    Chapter 23 Cellular Internalization of Quantum Dots
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    Chapter 24 Electrochemical Scanning Tunneling Microscopy and Spectroscopy for Single-Molecule Investigation
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    Chapter 25 Intracellular Delivery of Biologically Active Proteins with Peptide-Based Carriers
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    Chapter 26 Lipo-oligoarginine-Based Intracellular Delivery.
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    Chapter 27 Fluorescent Spherical Monodisperse Silica Core–Shell Nanoparticles with a Protein-Binding Biofunctional Shell
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    Chapter 28 Direct Quantification of PTD Transduction Using Real-Time Monitoring
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    Chapter 29 Genotoxic Assessment of Carbon Nanotubes
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    Chapter 30 Separation Science: Principles and Applications for the Analysis of Bionanoparticles by Asymmetrical Flow Field-Flow Fractionation (AF4)
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    Chapter 31 Cellular and Subcellular Nanotechnology
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    Chapter 32 Protocol for the Preparation of Stimuli-Responsive Gold Nanoparticles Capped with Elastin-Based Pentapeptides
Attention for Chapter 1: Nanoparticle-GFP “Chemical Nose” Sensor for Cancer Cell Identification
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2 tweeters
1 Facebook page


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Chapter title
Nanoparticle-GFP “Chemical Nose” Sensor for Cancer Cell Identification
Chapter number 1
Book title
Cellular and Subcellular Nanotechnology
Published in
Methods in molecular biology, January 2013
DOI 10.1007/978-1-62703-336-7_1
Pubmed ID
Book ISBNs
978-1-62703-335-0, 978-1-62703-336-7

Daniel F. Moyano, Vincent M. Rotello


Nanoparticle-based sensor arrays have been used to distinguish a wide range of bio-related molecules through pattern recognition. This "chemical nose" approach uses nanoparticles as receptors to selectively identify the analytes, while a transducer reports the binding through a readable signal (fluorescence). Here we describe a procedure that uses functionalized gold nanoparticles as receptors and green fluorescent protein (GFP) as the transducer to identify and differentiate cell state (normal, cancerous, and metastatic), an important tool in early diagnosis and treatment of tumors.

Twitter Demographics

The data shown below were collected from the profiles of 2 tweeters who shared this research output. Click here to find out more about how the information was compiled.

Mendeley readers

The data shown below were compiled from readership statistics for 5 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
United Kingdom 1 20%
Netherlands 1 20%
Unknown 3 60%

Demographic breakdown

Readers by professional status Count As %
Student > Ph. D. Student 3 60%
Researcher 1 20%
Student > Doctoral Student 1 20%
Student > Master 1 20%
Readers by discipline Count As %
Chemistry 3 60%
Agricultural and Biological Sciences 2 40%
Biochemistry, Genetics and Molecular Biology 1 20%

Attention Score in Context

This research output has an Altmetric Attention Score of 1. This is our high-level measure of the quality and quantity of online attention that it has received. This Attention Score, as well as the ranking and number of research outputs shown below, was calculated when the research output was last mentioned on 03 April 2013.
All research outputs
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Outputs from Methods in molecular biology
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Outputs of similar age
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Outputs of similar age from Methods in molecular biology
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Altmetric has tracked 12,107,882 research outputs across all sources so far. This one is in the 23rd percentile – i.e., 23% of other outputs scored the same or lower than it.
So far Altmetric has tracked 8,293 research outputs from this source. They receive a mean Attention Score of 2.0. This one has gotten more attention than average, scoring higher than 56% of its peers.
Older research outputs will score higher simply because they've had more time to accumulate mentions. To account for age we can compare this Altmetric Attention Score to the 132,467 tracked outputs that were published within six weeks on either side of this one in any source. This one is in the 34th percentile – i.e., 34% of its contemporaries scored the same or lower than it.
We're also able to compare this research output to 25 others from the same source and published within six weeks on either side of this one. This one is in the 40th percentile – i.e., 40% of its contemporaries scored the same or lower than it.