Development of a microscopic dynamic light scattering system for the detection of minute biological samples

FAN Yanping1; LI Changle1; ZHANG Pengcheng2; HU Shi2; WU Jiandong2; YANG Hui2.

Optical Technique, Volume. 50, Issue 4, 399(2024)

FAN Yanping1¹, LI Changle1¹, ZHANG Pengcheng2², HU Shi2², WU Jiandong2², and YANG Hui2.^2、*

Author Affiliations

¹[in Chinese]

²[in Chinese]

show less

References(27)

[1] [1] Berne B J, Pecora R. Dynamic light scattering: with applications to chemistry, biology, and physics[M]. Courier Corporation,2000.

[2] [2] Stetefeld J R, Mckenna S A, Patel T R. Dynamic light scattering: a practical guide and applications in biomedical sciences[J].Biophys Rev,2016,8(4):409-427.

[3] [3] Clark N A, Lunacek J H, Benedek G B. A study of Brownian motion using light scattering[J]. American Journal of Physics,1970,38(5):575-585.

[4] [4] Bhattacharjee S. DLS and zeta potential-What they are and what they are not? [J]. Journal of Controlled Release, 2016,235(100):337-351.

[5] [5] Li S X, Xing D, Li J F. Dynamie light scattering application to study protein interactions in electrolyte solutions[J]. Journal of Biological Physics,2004,30(4):313-324.

[7] [7] Yu Z, Reid J C, Yang Y P. Utilizing dynamic light scattering as a process analytical technology for protein folding and aggregation monitoring in vaccine manufacturing[J]. Journal of Pharmaceutical Sciences,2013,102(12):4284-4290.

[8] [8] Li Y, Lubchenko V, Vekilov P G. The use of dynamic light scattering and Brownian microscopy to characterize protein aggregation[J]. Review of Scientific Instruments,2011,82(5),8.

[9] [9] Wang W. Protein aggregation and its inhibition in biopharmaceutics[J]. International Journal of Pharmaceutics,2005,289(1-2):1-30.

[10] [10] Lewis E N, Qi W, Kidder L H, et al. Combined dynamic light scattering and raman spectroscopy approach for characterizing the aggregation of therapeutic proteins[J]. Molecules,2014,19(12):20888-20905.

[11] [11] Shen H, Tauzin L J, Baiyasi R, et al. Single particle tracking:from theory to biophysical applications[J]. Chemical Reviews,2017,117(11):7331-7376.

[12] [12] Aleandri S, Vaccaro A, Armenta R, et al. Dynamic light scattering of biopharmaceutics-can analytical performance be enhanced by laser power? [J]. Pharmaceutics,2018,10(3):94.

[13] [13] Cai P C, Krajina B A, Kratochvil M J, et al. Dynamic light scattering microrheology for soft and living materials[J]. Soft Matter,2021,17(7):1929-1939.

[14] [14] Velichko E, Makarov S, Nepomnyashchaya E, et al. Molecular aggregation in immune system activation studied by dynamic light scattering[J]. Biology-Basel,2020,9(6):123.

[15] [15] Hiroi T, Shibayama M. Dynamic light scattering microscope:Accessing opaque samples with high spatial resolution[J]. Optics Express,2013,21(17):20260-20267.

[16] [16] Johnstone R M, Adam M, Hammond J R, et al. Vesicle formation during reticulocyte maturation. Association of plasma membrane activities with released vesicles (exosomes) [J].Journal of Biological Chemistry, 1987,262(19):9412-9420.

[17] [17] Kosaka N, Yoshioka Y, Fujita Y, et al. Versatile roles of extracellular vesicles in cancer[J]. Journal of Clinical Investigation,2016,126(4):1163-1172.

[18] [18] Liu Y F, Gu Y, Cao X T. The exosomes in tumor immunity[J]. Oncoimmunology,2015,4(9):1-8.

[19] [19] Wijenayake S, Eisha S, Tawhidi Z, et al. Comparison of methods for pre-processing, exosome isolation, and RNA extraction in unpasteurized bovine and human milk[J]. Plos One,2021,16(9):31.

[20] [20] Brown R G. Dynamic light scattering using monomode optical fibers[J]. Applied Optics, 1987,26(22):4846-4851.

[21] [21] Chen Z M, Hu P B, Meng Q Q, et al. Novel optical fiber dynamic light scattering measurement system for nanometer particle size[J]. Advances in Materials Science and Engineering,2013,2013(250121),1-4.

[22] [22] Zhang P, Xiao L, Yang J X, et al. A fiber DLS system based on microfluidics technology for particle size measurements[C]// proceedings of the International Applied-Computational-Electromagnetics-Society Symposium - China (ACES), Nanjing, CHINA, IEEE:2019:1-2

[23] [23] Yi X, Zhou W, Cai X, et al. Measurable range of nanoparticle concentration using optical fiber backward dynamic light scattering[J]. CIESC Journal,2023,74(8):3320-3328.

[25] [25] Dzakpasu R, Axelrod D. Dynamic light scattering microscopy.A novel optical technique to image submicroscopic motions.I : Theory[J]. Biophysical Journal,2004,87(2):1279-1287.

[26] [26] Dzakpasu R, Axelrod D. Dynamic light scattering microscopy.A novel optical technique to image submicroscopic motions. II :Experimental applications[J]. Biophysical Journal,2004,87(2):1288-1297.

[27] [27] Hiroi T, Shibayama M. Measurement of particle size distribution in turbid solutions by dynamic light scattering microscopy[J]. JoveJournal of Visualized Experiments,2017,119(1):54885.

[28] [28] Pecora R. Dynamic light scattering: applications of photon correlation spectroscopy [M]. New York: Springer Science & Business Media, 1985.

[29] [29] Volpe G, Volpe G. Simulation of a Brownian particle in an optical trap[J]. American Journal of Physics,2013,81(3):224-230.

Tools

Get Citation

Copy Citation Text

FAN Yanping1, LI Changle1, ZHANG Pengcheng2, HU Shi2, WU Jiandong2, YANG Hui2.. Development of a microscopic dynamic light scattering system for the detection of minute biological samples[J]. Optical Technique, 2024, 50(4): 399

Download Citation

EndNote(RIS)BibTex Plain Text

Set citation alerts for article

Save article for my favorites

Paper Information

Category:

Received: Feb. 23, 2024

Accepted: --

Published Online: Aug. 16, 2024

The Author Email: Hui2. YANG (hui.yang@siat.ac.cn)

DOI:

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology