PRELIMINARY RESULTS OF INFRARED SPECTROSCOPY INVESTIGATION OF THE DRY RESIDUE RHIZOSTOMA PULMO (MACRI, 1778) JELLYFISH
DOI:
https://doi.org/10.47143/1684-1557/2021.2.09Keywords:
medusa, IR-spectroscopy, collagen, extractionAbstract
Number of reports of the jellyfish potential use in different fields: pharmacy, medical sciences, cosmetology, agriculture, biotechnology and nutrition currently increase. Thus, dry jellyfish residue of Rhizostoma pulmo (Macri, 1778) was investigated by infrared spectral analysis. As a result, collagen, which is similar to the collagen of other species of jellyfish and some fish, was found.
References
Choudhary I., Hwang D.H., Lee H., Yoon W.D., Chae J., Han C.H., Yum S., Kang C., Kim E. Proteomic Analysis of Novel Components of Nemopilema nomurai Jellyfish Venom: Deciphering the Mode of Action. Toxins. 2019. 11(3):153.
Leung T.C.N., Qu Z., Nong W., Hui J.H.L., Ngai S.M. Proteomic Analysis of the Venom of Jellyfishes Rhopilema esculentum and Sanderia malayensis. Marine Drugs. 2020. 18(12):655.
Emadodin I., Reinsch T., Ockens R-R., Taube F. Assessing the Potential of Jellyfish as an Organic Soil Amendment to Enhance Seed Germination and Seedling Establishment in Sand Dune Restoration. Agronomy. 2020. 10(6):863.
Felician F.F., Yu R.H., Li M.Z., Li C.J., Chen H.Q., Jiang Y., Tang T., Qi W.Y., Xu H.M. The wound healing potential of collagen peptides derived from the jellyfish Rhopilema esculentum. Chinese Journal of Traumatology. 2019. 22(1):12–20.
Krishnamoorthi J., Ramasamy P., Shanmugam V., Shanmugam A. Isolation and partial characterization of collagen from outer skin of Sepia pharaonis (Ehrenberg, 1831) from Puducherry coast. Biochemistry and Biophysics Reports. 2017. 10:39–45.
