TWO-DIMENSIONAL AND THREE-DIMENSIONAL RAMAN SPECTROSCOPIC IMAGING OF Spirulina platensis CELLS

Two-dimensional (2D) and 3D Raman spectroscopic imaging of Spirulina platensis was carried out to investigate its applicability in studying the chemical distribution and morphology of algal cells. The Spirulina trichome was easily damaged by laser illumination unless the laser parameters were properly adjusted. Raman spectra exhibited an evident sign of fluorescence, which changed during cumulative laser illumination on the same spot. Six peaks were selected from the spectra for chemical mapping, which showed distinct cellular features, including the central and peripheral parts of the cytoplasm, cell wall, sheath, and medium residues. Possible chemicals/organelles in these parts and mechanisms were discussed.

1. A. Kulshreshtha, A. Z. Jarouliya, U. Jarouliya, P. Bhadauriya, G. B. K. S. Prasad, P. S. Bisen, Curr. Pharm. Biotech., 9, 400–405 (2008).

2. Z. Ma, F. Ahmed, B. Yuan, W. Zhang, Trends Food Sci. Tech., 88, 439–444 (2019).

3. R. A. Soni, K. Sudhakar, R. S. Rana, Trends Food Sci. Tech., 69, 157–171 (2017).

4. A. Niccolai, G. Chini Zittelli, L. Rodolfi, N. Biondi, M. R. Tredici, Algal Res., 42, 101617 (2019).

5. H. Qiao, D. Hu, J. Ma, X. Wang, H. Wu, J. Wang, Algal Res., 41, 101540 (2019).

6. A. Rempel, F. de Souza Sossella, A. C. Margarites, A. L. Astolfi, R. L. R. Steinmetz, A. Kunz, H. Treichel, L. M. Colla, Bioresour. Tech., 288, 121588 (2019).

7. H.-M. D. Wang, C.-C. Chen, P. Huynh, J.-S. Chang, Bioresour. Tech., 184, 355–362 (2015).

8. W. Zhou, Y. Li, Y. Gao, H. Zhao, Bioresour. Tech., 245, 10–17 (2017).

9. Y. Li, C. Lammi, G. Boschin, A. Arnoldi, G. Aiello, J. Agric. Food Chem., 67, 11825–11838 (2019).

10. P. T. Scaglioni, M. Blandino, V. Scarpino, D. Giordano, G. Testa, E. Badiale-Furlong, J. Agric. Food Chem., 66, 4835–4841 (2018).

11. G. Usharani, P. Saranraj, D. Kanchana, Int. J Pharm. Biol. Arch., 3, 1327–1341 (2012).

12. X. Cao, Y. Xi, J. Liu, Y. Chu, P. Wu, M. Yang, Z. Chi, S. Xue, Algal Res., 38, 101370 (2019).

13. C. Liu, D. Zou, Y. Yang, B. Chen, H. Jiang, J. Appl. Phycol., 29, 983–991 (2017).

14. S. White, A. Anandraj, F. Bux, Bioresour. Tech., 102, 1675–1682 (2011).

15. C.-J. Kim, Y.-H. Jung, H.-M. Oh, J. Microbiol., 45, 122–127 (2007).

16. S. Rajagopal, C. Sicora, Z. Várkonyi, L. Mustárdy, P. Mohanty, Photosynth. Res., 85, 181–189 (2005).

17. C. van Eykelenburg, Antonie van Leeuwenhoek, 45, 369–390 (1979).

18. C. van Eykelenburg, Antonie van Leeuwenhoek, 46, 113–127 (1980).

19. H. Wu, K. Gao, V. E. Villafañe, T. Watanabe, E. W. Helbling, Appl. Environ. Microbiol., 71, 5004–5013 (2005).

20. A. Braz, M. López-López, C. García-Ruiz, Forens. Sci. Int., 249, 92–100 (2015).

21. J. Bueno, I. K. Lednev, Anal. Bioanal. Chem., 406, 4595–4599 (2014).

22. G. Montalvo, L. López-Melero, F. Ortega-Ojeda, M. Á. Peña, C. García-Ruiz, Anal. Methods, 6, 9536–9546 (2014).

23. T. Yang, B. Zhao, R. Hou, Z. Zhang, A. J. Kinchla, J. M. Clark, L. He, J. Food Sci., 81, 2891–2901 (2016).

24. Y. Yang, X. Wang, C. Zhao, G. Tian, H. Zhang, H. Xiao, L. He, J. Zheng, J. Food Sci., 82, 2840–2846 (2017).

25. C. Kallepitis, M. S. Bergholt, M. M. Mazo, V. Leonardo, S. C. Skaalure, S. A. Maynard, M. M. Stevens, Nat. Commun., 8, 14843 (2017).

26. H. Zhang, J. Zheng, A. Liu, H. Xiao, L. He, J. Agric. Food Chem., 64, 9708–9713 (2016).

27. B. Durrant, M. Trappett, D. Shipp, I. Notingher, Curr. Opin. Chem. Biol., 51, 138–145 (2019).

28. M. Hosokawa, M. Ando, S. Mukai, K. Osada, T. Yoshino, H.-O. Hamaguchi, T. Tanaka, Anal. Chem., 86, 8224–8230 (2014).

29. D. T. P. Niranjan, T. Vikas, J. Nanomed. Nanotech., 3, 1000131 (2012).

30. O. Samek, A. Jonáš, Z. Pilát, P. Zemánek, L. Nedbal, J. Tříska, P. Kotas, M. Trtílek, Sensors, 10, 8635–8651 (2010).

31. K. T. Schomacker, Y. Domankevitz, T. J. Flotte, T. F. Deutsch, Lasers Surg. Med., 11, 141–151 (1991).

32. V. Venugopalan, N. S. Nishioka, B. B. Mikič, J. Biomech. Eng., 116, 62–70 (1994).

33. G. Hedenskog, A. V. Hofsten, Physiol. Plant., 23, 209–216 (1970).

34. C. Van Eykelenburg, Antonie van Leeuwenhoek, 43, 89–99 (1977).

35. L. Tomaselli, In Spirulina Platensis Arthrospira: Physiology, Cell-Biology and Biotechnology, Taylor & Francis (1997).