Detecting Proteins in Highly Autofluorescent Cells Using Quantum Dot Antibody Conjugates

Detecting Proteins in Highly Autofluorescent Cells Using Quantum Dot Antibody Conjugates

We have applied quantum dot (Qdot) antibody conjugates as a biomolecular probe for cellular proteins important in biogeochemical cycling in the sea. Conventional immunological methods have been hampered by the strong autofluorescence found in cyanobacteria cells. Qdot conjugates provide an ideal alt...

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Bibliographic Details
Main Authors: Karen M. Orcutt, Kjell Gundersen, Shanshan Ren
Format: Article
Language:English
Published: MDPI AG 2009-09-01
Series:Sensors
Subjects:
quantum dot
autofluorescent cells
nitrogen fixation
iron stress
cyanobacteria
Online Access:http://www.mdpi.com/1424-8220/9/9/7540/
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spelling doaj-c306955fda0446a6b7f64631145d8adb2020-11-25T00:19:07ZengMDPI AGSensors1424-82202009-09-01997540754910.3390/s90907540Detecting Proteins in Highly Autofluorescent Cells Using Quantum Dot Antibody ConjugatesKaren M. OrcuttKjell GundersenShanshan RenWe have applied quantum dot (Qdot) antibody conjugates as a biomolecular probe for cellular proteins important in biogeochemical cycling in the sea. Conventional immunological methods have been hampered by the strong autofluorescence found in cyanobacteria cells. Qdot conjugates provide an ideal alternative for studies that require long-term imaging of cells such as detection of low abundance cellular antigens by fluorescence microscopy. The advantage of Qdot labeled probes over conventional immunological methods is the photostability of the probe. Phycoerythrin bleaches in cyanobacterial cells under prolonged UV or blue light excitation, which means that the semiconducting nanocrystal probe, the Qdot, can yield a strong fluorescent signal without interference from cellular pigments. http://www.mdpi.com/1424-8220/9/9/7540/quantum dotautofluorescent cellsnitrogen fixationiron stresscyanobacteria
collection DOAJ
language English
format Article
sources DOAJ
author Karen M. Orcutt
Kjell Gundersen
Shanshan Ren
spellingShingle Karen M. Orcutt
Kjell Gundersen
Shanshan Ren
Detecting Proteins in Highly Autofluorescent Cells Using Quantum Dot Antibody Conjugates
Sensors
quantum dot
autofluorescent cells
nitrogen fixation
iron stress
cyanobacteria
author_facet Karen M. Orcutt
Kjell Gundersen
Shanshan Ren
author_sort Karen M. Orcutt
title Detecting Proteins in Highly Autofluorescent Cells Using Quantum Dot Antibody Conjugates
title_short Detecting Proteins in Highly Autofluorescent Cells Using Quantum Dot Antibody Conjugates
title_full Detecting Proteins in Highly Autofluorescent Cells Using Quantum Dot Antibody Conjugates
title_fullStr Detecting Proteins in Highly Autofluorescent Cells Using Quantum Dot Antibody Conjugates
title_full_unstemmed Detecting Proteins in Highly Autofluorescent Cells Using Quantum Dot Antibody Conjugates
title_sort detecting proteins in highly autofluorescent cells using quantum dot antibody conjugates
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2009-09-01
description We have applied quantum dot (Qdot) antibody conjugates as a biomolecular probe for cellular proteins important in biogeochemical cycling in the sea. Conventional immunological methods have been hampered by the strong autofluorescence found in cyanobacteria cells. Qdot conjugates provide an ideal alternative for studies that require long-term imaging of cells such as detection of low abundance cellular antigens by fluorescence microscopy. The advantage of Qdot labeled probes over conventional immunological methods is the photostability of the probe. Phycoerythrin bleaches in cyanobacterial cells under prolonged UV or blue light excitation, which means that the semiconducting nanocrystal probe, the Qdot, can yield a strong fluorescent signal without interference from cellular pigments.
topic quantum dot
autofluorescent cells
nitrogen fixation
iron stress
cyanobacteria
url http://www.mdpi.com/1424-8220/9/9/7540/
work_keys_str_mv AT karenmorcutt detectingproteinsinhighlyautofluorescentcellsusingquantumdotantibodyconjugates
AT kjellgundersen detectingproteinsinhighlyautofluorescentcellsusingquantumdotantibodyconjugates
AT shanshanren detectingproteinsinhighlyautofluorescentcellsusingquantumdotantibodyconjugates
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