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Literature DB >> 23501726

Optical trapping of microalgae at 735-1064 nm: photodamage assessment.

Z Pilát¹, J Ježek, M Šerý, M Trtílek, L Nedbal, P Zemánek.

Abstract

Living microalgal cells differ from other cells that are used as objects for optical micromanipulation, in that they have strong light absorption in the visible range, and by the fact that their reaction centers are susceptible to photodamage. We trapped cells of the microalga Trachydiscus minutus using optical tweezers with laser wavelengths in the range from 735 nm to 1064 nm. The exposure to high photon flux density caused photodamage that was strongly wavelength dependent. The photochemical activity before and after exposure was assessed using a pulse amplitude modulation (PAM) technique. The photochemical activity was significantly and irreversibly suppressed by a 30s exposure to incident radiation at 735, 785, and 835 nm at a power of 25 mW. Irradiance at 885, 935 and 1064 nm had negligible effect at the same power. At a wavelength 1064 nm, a trapping power up to 218 mW caused no observable photodamage.

Entities: Species

Mesh：

Year: 2013 PMID： 23501726 DOI： 10.1016/j.jphotobiol.2013.02.006

Source DB: PubMed Journal: J Photochem Photobiol B ISSN： 1011-1344 Impact factor: 6.252

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Cited

7 in total

1. Up-converted fluorescence from photosynthetic light-harvesting complexes linearly dependent on excitation intensity.

Authors: Kristjan Leiger; Arvi Freiberg
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2. Evaluating the toxic effect of an antimicrobial agent on single bacterial cells with optical tweezers.

Authors: Akbar Samadi; Chensong Zhang; Joseph Chen; S N S Reihani; Zhigang Chen
Journal: Biomed Opt Express Date: 2014-12-11 Impact factor: 3.732

Review 3. Algal biomass analysis by laser-based analytical techniques--a review.

Authors: Pavel Pořízka; Petra Prochazková; David Prochazka; Lucia Sládková; Jan Novotný; Michal Petrilak; Michal Brada; Ota Samek; Zdeněk Pilát; Pavel Zemánek; Vojtěch Adam; René Kizek; Karel Novotný; Jozef Kaiser
Journal: Sensors (Basel) Date: 2014-09-23 Impact factor: 3.576

Optical trapping of microalgae at 735-1064 nm: photodamage assessment.

1. Up-converted fluorescence from photosynthetic light-harvesting complexes linearly dependent on excitation intensity.

2. Evaluating the toxic effect of an antimicrobial agent on single bacterial cells with optical tweezers.

Review 3. Algal biomass analysis by laser-based analytical techniques--a review.

4. Effects of Infrared Optical Trapping on Saccharomyces cerevisiae in a Microfluidic System.

Review 5. Direct ¹O₂ optical excitation: A tool for redox biology.

6. Microfluidic Cultivation and Laser Tweezers Raman Spectroscopy of E. coli under Antibiotic Stress.

7. Detachment of Dunaliella tertiolecta Microalgae from a Glass Surface by a Near-Infrared Optical Trap.

Optical trapping of microalgae at 735-1064 nm: photodamage assessment.

1. Up-converted fluorescence from photosynthetic light-harvesting complexes linearly dependent on excitation intensity.

2. Evaluating the toxic effect of an antimicrobial agent on single bacterial cells with optical tweezers.

Review 3. Algal biomass analysis by laser-based analytical techniques--a review.

4. Effects of Infrared Optical Trapping on Saccharomyces cerevisiae in a Microfluidic System.

Review 5. Direct 1O2 optical excitation: A tool for redox biology.

6. Microfluidic Cultivation and Laser Tweezers Raman Spectroscopy of E. coli under Antibiotic Stress.

7. Detachment of Dunaliella tertiolecta Microalgae from a Glass Surface by a Near-Infrared Optical Trap.

Review 5. Direct ¹O₂ optical excitation: A tool for redox biology.