The ability of freshwater filamentous sulfur bacteria from the family Beggiatoaceae to assimilate molecular nitrogen: molecular detection and expression of nifH - the marker gene of nitrogen fixation

  • Maria V. Orlova PhD student in Voronezh State Univercity, Voronezh, e-mail: maryorl@mail.ru
  • Nikolay D. Shatskiy student in Voronezh State Univercity, Voronezh
  • Elena V. Belousova PhD, assistant in the Department of Cell Biochemestry and Physiology, Voronezh State Univercity, Voronezh
  • Margarita Yu. Grabovich professor in the Department of Cell Biochemestry and Physiology, Voronezh State Univercity, Voronezh
Keywords: Beggiatoaceae, nitrogenase, nitrogen fixation, nifH.

Abstract

The purpose of this work was to prove the ability of three representatives from the family Beggiatoaceae -Beggiatoa leptomitiformis D-401 and D-402 and “Thioflexothrix psekupsii” gen. nov., sp. nov. – for nitrogen fixation with the help of nitrogenase complex. We used the next methods to achieve this purpose: the cultivation of bacteria on nutrient media with nitrogen and without it, RNA extraction with the help of sorbent microcolumns, reverse transcription, qPCR and genome annotation with the help of an automatical annotator RAST. It was shown that bacteria were able to sustain five passages on the nutrient medium without nitrogen, the whole set of genes of nitrogenase complex was present in the analyzed genomes and there was a significant increase in the expression of the gene nifH in all three strains after cultivation on the medium without nitrogen. All of it demonstrate the ability of the investigated bacteria for molecular nitrogen fixation.

Downloads

Download data is not yet available.

References

1. Rau G.H., Nature, 1981, Vol. 289, pp. 484485.
2.
Brooks J.M., Kennicutt M.C., Fisher C.R. et al. Science, 1987, Vol. 238, pp.1138-1142.
3.
Sarbu S., Kane T., Kinkle B., Science, 1996, Vol. 272, pp. 1953-1955.
4.
Zehr J.P., Waterbury J.B., Turner P.J. et al., Nature, 2001 Vol. 412, pp. 635-638.
5.
Desai M.S., Brune A,. ISME J., 2012, Vol. 6, pp. 1302-1313.
6.
Nelson D.C., Waterbury J.B., Jannasch H.W., Arch. Microbiol., 1982, Vol. 133, pp. 172-177.
7.
Kojima H., Ogura Y., Yamamoto N. et al., ISME J., 2015, Vol. 9, pp. 1166-1176.
8.
Martinez-Romero E., Dinitrogen-Fixing Prokaryotes, The Prokaryotes, 3nd edn et al., 2006, Vol. 2, pp. 793-817.
9.
Fedorov D.N., Ivanova E.G., Doronina N.V., Trocenko Ju.A., Mikrobiologija, 2008, Vol. 77, pp. 286-288.
10.Zehr J.P., Jenkins B.D., Short S.M., Steward G.F., Environ Microbiol., 2003, Vol. 5, pp. 539-54.
11.Grabovich M.Y., Patritskaya V.Y., Muntyan M.S., Dubinina G.A., FEMS Microbiol Lett., 2001, Vol. 204, pp. 341-345.
12.Orlova M.V., Fedonenko Ju.P., Evstigneeva S.S. et al., Sorbtsionnye i khromatograficheskie protsessy, 2015, Vol. 15, No 4, pp. 578-585. 13.Pfenning N.D., Lippert K.D., Arch. Microbiol., 1966, Vol. 55, pp. 245-256.
14.Selemenev V.F., Slavinskaja G.V., Hohlov V.Ju., Chikin G.A., Praktikum po ionnomu obmenu, Voronezh, 1999, 160 p.
15.Selemenev V.F., Rudakov O.E., Slavinskaja G.V., Drozdova N.V., Pigmenty pishhevyh proizvodstv (melanoidiny), M., DeLi print, 2008, 246 p.
16.Fomenkov A., Vincze T., Grabovich M.Y. et al., Genome Announcement, 2015, Vol. 3. e01436-15. doi:10.1128/genomeA.01436-15.
Published
2019-11-15
How to Cite
Orlova, M. V., Shatskiy, N. D., Belousova, E. V., & Grabovich, M. Y. (2019). The ability of freshwater filamentous sulfur bacteria from the family Beggiatoaceae to assimilate molecular nitrogen: molecular detection and expression of nifH - the marker gene of nitrogen fixation. Sorbtsionnye I Khromatograficheskie Protsessy, 16(4). Retrieved from https://journals.vsu.ru/sorpchrom/article/view/1382
Issue
Vol 16 No 4 (2016): Sorbtsionnye i Khromatograficheskie Protsessy
Section
Статьи