Title :
Using Qdot conjugates to detect proteins in situ in highly autofluorescent cyanobacterial cells
Author :
Ren, Shanshan ; Orcutt, Karen M. ; Gundersen, Kjell
Author_Institution :
Dept. of Marine Sci., Univ. of Southern Mississippi, Stennis Space Center, MS, USA
Abstract :
Due to the low photostability of conventional organic fluorophores, their effectiveness in detecting proteins in highly autofluorescent cyanobacterial cells is limited. However, the inorganic fluorescent nanocrystal (Quantum Dot or Qdot) conjugates have the capability to overcome the limitation of organic fluorophores, and provide a promising tool for long-term imaging studies. In this study, we applied Qdot conjugated secondary antibodies associated with specific primary antibodies, and successfully detected nitrogenase and IdiA proteins in situ in highly autofluorescent cyanobacterial cells of the unicellular Crocosphaera watsonii (WH8501) and the non-heterocystous Trichodesmium erythraeum (IMS101).
Keywords :
bio-optics; biochemistry; biological techniques; biosensors; cellular biophysics; fluorescence; microorganisms; molecular biophysics; nanostructured materials; proteins; semiconductor quantum dots; IdiA proteins; Qdot conjugated secondary antibodies; highly autofluorescent cyanobacterial cells; inorganic fluorescent nanocrystal; nitrogenase; nonheterocystous Trichodesmium erythraeum; organic fluorophores; photostability; quantum dot conjugates; unicellular Crocosphaera watsonii; Biochemistry; Fluorescence; Immune system; Iron; Microscopy; Nitrogen; Oceans; Pigments; Productivity; Proteins;
Conference_Titel :
OCEANS 2009, MTS/IEEE Biloxi - Marine Technology for Our Future: Global and Local Challenges
Conference_Location :
Biloxi, MS
Print_ISBN :
978-1-4244-4960-6
Electronic_ISBN :
978-0-933957-38-1
