Nd force microscopy. According to the gel of gel permeation chromatography
Nd force microscopy. In line with the gel of gel permeation chromatography, atomic force microscopy. As outlined by the data ofdatapermeation chromatography, a de- a reduce in molecular weight is observed outcome of sulfation, which also indicates side crease in molecular weight is observed as a because of sulfation, which also indicates side hydrolysis reactions. According to thermal evaluation, sulfated xanthan is less thermostable than the hydrolysis reactions. As outlined by thermal analysis, sulfated xanthan is significantly less thermostable parent xanthan; nonetheless, principal weight loss for it happens at temperatures than the parent xanthan; nevertheless, the the main fat reduction for it occursat temperatures above 226 C, which makes it acceptable for use as a biologically active substance. above 226 , which makes it acceptable for use as a biologically active substance. In the future, xanthan sulfates can anticoagulant and hypolipidemic In the future, xanthan sulfates is often applied as an be utilized as an anticoagulant and hypolipidemic substance [63], a also as for the too as for interpolyelectrolyteinterpolyelectrolyte substance [63], a polyanion [64], polyanion [64], preparation from the preparation of comcomplexes [65]. plexes [65].Author Contributions: Conceptualization, A.S.K. (Aleksandr S. Kazachenko) and N.Y.V.; MethAuthor Contributions: Conceptualization, A.S.K. (Aleksandr S. Kazachenko) and N.Y.V.; Meth-ododology, N.Y.V. plus a.S.K.(Aleksandr S. Kazachenko); Software program, N.I.; Validation, Y.N.M., N.Y.V. and ology, N.Y.V. and also a.S.K.(Aleksandr S. Kazachenko); Software, N.I.; Validation, Y.N.M., N.Y.V. along with a.S.K. (Aleksandr S. Kazachenko); Formal analysis, A.S.K. (Anna S. Kazachenko), V.A.I., V.S.B. and a.V.M.; Investigation, A.S.K. (Aleksandr S. Kazachenko), A.M.S., V.S.B., A.S.K. (Anna S. Kazachenko), O.Y.F., E.V.E., A.A.K. and D.V.Z.; Bomedemstat Biological Activity Sources, N.Y.V.; Data curation, Y.N.M., N.Y.V., A.V.M. along with a.S.K. (Aleksandr S. Kazachenko), A.S.K. (Anna S. Kazachenko); Writing–original draft preparation, Y.N.M., N.Y.V. plus a.S.K. (Aleksandr S. Kazachenko); Writing–review and ed-Foods 2021, 10,13 ofA.S.K. (Aleksandr S. Kazachenko); Formal evaluation, A.S.K. (Anna S. Kazachenko), V.A.I., V.S.B. plus a.V.M.; Investigation, A.S.K. (Aleksandr S. Kazachenko), A.M.S., V.S.B., A.S.K. (Anna S. Kazachenko), O.Y.F., E.V.E., A.A.K. and D.V.Z.; Sources, N.Y.V.; Information curation, Y.N.M., N.Y.V., A.V.M. and a.S.K. (Aleksandr S. Kazachenko), A.S.K. (Anna S. Kazachenko); Writing–original draft preparation, Y.N.M., N.Y.V. and a.S.K. (Aleksandr S. Kazachenko); Writing–review and editing, Y.N.M. and N.Y.V.; Visualization, V.S.B., A.V.M., D.V.Z. and N.I.; Supervision, A.S.K. (Aleksandr S. Kazachenko); Thromboxane B2 web Project administration, A.S.K. (Aleksandr S. Kazachenko); Funding acquisition, A.S.K. (Aleksandr S. Kazachenko); All authors have study and agreed towards the published version with the manuscript. Funding: The research was funded by the RFBR, Krasnoyarsk Territory and Krasnoyarsk Regional Fund of Science, project quantity 20-43-243001. Institutional Assessment Board Statement: Not applicable. Informed Consent Statement: Not applicable. Information Availability Statement: All data generated in the course of this study are incorporated within this report. Acknowledgments: This study was carried out within the budget project # 0287-2021-0017 for the Institute of Chemistry and Chemical Technology, Siberian Branch from the Russian Academy of Sciences. The devices in the Krasnoyarsk Regional Center of Research Gear of Federal.