Naringenin Modulates Adenylate Cyclase Activity in Planktonic Culture and Biofilm  Rhizobium leguminоsarum  bv.  viciae

A. M. Goncharova; Гончарова А. М.; L. A. Lomovatskaya; Ломоватская Л. А.; A. S. Romanenko; Романенко А. С.

doi:10.31857/S0555109923030078

Naringenin Modulates Adenylate Cyclase Activity in Planktonic Culture and Biofilm Rhizobium leguminоsarum bv. viciae

Authors: Goncharova A.M.¹, Lomovatskaya L.A.¹, Romanenko A.S.¹
Affiliations:
1. Siberian Institute of Plant Physiology and Biochemistry, Siberian Branch of the Russian Academy of Sciences (SIFIBR SB RAS)
Issue: Vol 59, No 3 (2023)
Pages: 275-280
Section: Articles
URL: https://journals.rcsi.science/0555-1099/article/view/138773
DOI: https://doi.org/10.31857/S0555109923030078
EDN: https://elibrary.ru/AZRTOB
ID: 138773

Cite item

Full Text

Open Access
Restricted Access

Access granted
Restricted Access

Subscription Access

Abstract
About the authors
References
Supplementary files
Statistics

Abstract

The effect of naringenin on the growth of plankton culture, biofilm density, and activity of the transmembrane form of adenylate cyclase in the cells of Rhizobium leguminosarum bv. viciae has been studied. The studies performed showed that naringenin had practically no effect on the growth of the planktonic culture of these bacteria, while the density of biofilms decreased as the concentration of naringenin increased. It was shown that naringenin activated the transmembrane form of adenylate cyclase in planktonic culture cells and biofilms. Moreover, in the planktonic culture, this effect was more significanted. It is assumed that the activation of rhizobial transmembrane adenylate cyclase by naringenin is carried out using a receptor mechanism.

Keywords

naringenin, cAMP, adenylate cyclase, biofilm, Rhizobium leguminоsarum bv. viciae

References

Вейко А.Г. // Вестник Витебского государственного медицинского университета. 2020. Т. 19. № 5. С. 27–39.
Цыганова А.В., Цыганов В.Е. // Сельскохозяйственная биология. 2018. Т. 53. № 1. С. 3–14.
Ломоватская Л.А., Романенко А.С., Рыкун О.В. // Микробиология. 2015. Т. 84. № 4. С. 404–404.
Green J., Stapleton M.R., Smith L.J., Artymiuk P.J., Kahramanoglou C., Hunt D.M., Buxton R.S. // Microbiology. 2014. V. 18. P. 1–7.
Tian C.F., Garnerone A.M., Mathieu–Demazière C., Masson–Boivin C., Batut J. // Proc. Natl. Acad. Sci. USA. 2012. V. 109. № 17. P. 6751–6756.
Stoodley P., Sauer K., Davies D.G., Costerton J.W. // Annual Rev. Microbiol. 2002. V. 56. № 1. P. 187–209.
Плакунов В.К., Журина М.В., Беляев С.С. // Микробиология. 2008. Т. 77. № 5. С. 581–589.
Lomovatskaya L.A., Romanenko A.S., Filinova N.V., Dudareva L.V. // Plant Cell Rep. 2011. V. 30. № 1. P. 125–132.
Bradford M.M. //Anal. Biochem. 1976. V. 72. № 1–2. P. 248–254.
Rao J.R., Cooper J.E. // J. Bacteriol. 1994. V. 176. № 17. P. 5409–5413.
Деркач К.В., Шпаков А.О., Кузнецова Л.А., Плеснева С.А., Успенская З.И., Перцева М.Н. // Цитология. 2002. Т. 44. С. 1129–1133.
Dessauer C.W. // Trends Pharmacol. Sci. 1999. V. 20. № 5. P. 205–210.
Bundles A.N.V. // Biology of the Rhizobiaceae: International Review Cytology. V. 13. 2013. P. 247.
Meneses N., Taboada H., Dunn M.F., Vargas M.D.C., Buchs N., Heller M., Encarnación S. // Archives Microbiol. 2017. V. 199. № 5. P. 737–755.
Овцына А.О., Тихонович И.А. // Экологическая генетика. 2004. Т. 2. № 3. С. 14–24.
Tsvetkova G., Teofilova T., Georgiev G.I. // Gen. Appl. Plant Physiol. 2006. Special is. P. 67–71.
Recourt K., Van Brussel A.A., Driessen A.J., Lugtenberg B.J. // J. Bacteriol. 1989. V. 171. № 8. P. 4370–4377.
Novak K., Chovanec P., Škrdleta V., Kropáčová M., Lisá L., Němcová M. // J. Exper. Bot. 2002. V. 53. № 375. P. 1735–1745.
Fuqua W.C., Parsec M.R., Greenberg E.P. // Annu. Rev. Gen. 2001. V. 35. P. 439–468.
Ono K., Oka R., Toyofuku M., Sakaguchi A., Hamada M., Yoshida S., Nomura N. // Microbes Environ. 2014. V. 29. № 1. P. 104–106.
Lory S., Wolfgang M., Lee V., Smith R. // International J. Medical Microbiology. 2004. V. 293. № 7–8. P. 479–482.
Waters C.M., Bassler B.L. // Ann. Rev. Cell Dev. Biol. 2005. V. 21. № 1. P. 319–346.
Lomovatskaya L.A., Romanenko A.S., Kuzakova O.V. // Yale Review Edification Sci. 2015. V. 6. P. 522–539.
Al-Younis I., Moosa B., Kwiatkowski M., Jaworski K., Wong A., Gehring C. // Frontiers Plant Science. 2021. P. 1709.
Ломоватская Л.А., Гончарова А.М., Макарова Л.Е., Филинова Н.В., Романенко А.С. // Прикл. биохимия и микробиология. 2018. Т. 54. № 3. С. 313–319.