Characteristics of endophytic bacteria, isolated from the roots of  Ipomoea pes-caprae  (L.)

Van Giang Nguyen; Нгуен Ван Жанг; Thi Thu Nguyen; Нгуен Тхи Тьу; Thi Linh Vu; Ву Тьи Линь; E. A. Kalashnikova; Калашникова Е. А.; R. N. Kirakosyan; Киракосян Р. Н.

doi:10.29296/25877313-2022-01-04

Characteristics of endophytic bacteria, isolated from the roots of Ipomoea pes-caprae (L.)

Authors: Nguyen V.G.¹, Nguyen T.T.¹, Vu T.L.¹, Kalashnikova E.A.², Kirakosyan R.N.²
Affiliations:
1. Vietnam National University of agriculture
2. Russian State Agrarian University - Moscow Agricultural Academy named after K.A. Timiryazeva
Issue: Vol 25, No 1 (2022)
Pages: 28-33
Section: Articles
URL: https://journals.eco-vector.com/1560-9596/article/view/112924
DOI: https://doi.org/10.29296/25877313-2022-01-04
ID: 112924

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Abstract
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Abstract

Relevance. Endophytic bacteria live in the internal tissues of healthy plants and do not cause any harm to the host plant. They positively affect plants' growth and development and help them absorb nutrients from the environment. Endophytic bacteria protect plants from various phytopathogens due to the synthesis of phytohormones and contribute to converting insoluble mineral salts into a form accessible to plants. Studies on endophytic bacteria isolated from I.pes-caprae in Vietnam are not yet numerous. Purpose of the study. Isolate and characterize endophytic bacteria from the roots of Ipomoea pes-caprae. Identify promising strains. Material and methods. The objects of the study were I. pes-caprae roots isolated from plants collected in Thang Hai village, Tinh Hai commune, Tinh Gia district, Thanh Hoa province. Before isolating endophytic bacteria strains, root samples were thoroughly washed with distilled water and sterilized with mercuric chloride solution for 5 minutes. The homogenate was cultivated on Luria-Bertani nutrient medium. The IAA concentration from bacterial strains was determined by the method of Glickmann and Dessaux (1995). A quantitative determination of phosphate-dissolving activity was carried out by measuring the phosphate accumulation in the solution in which the strains under study were cultivated. Results. Fifteen strains of endophytic IAA-producing bacteria were isolated on LB nutrient medium supplemented with L-tryptophan. Three (TH10R, TH11T, and TH13T) strains with high IAA synthesizing ability (from 2.53 to 4.19 pg / ml) were selected. The phosphate-dissolving activity of these isolates ranged from 1.06 mg / L to 3.64 mg / L. The TH10R strain was superior to other strains in its ability to synthesize IAA and phosphate solubility and was identified as Bacilus mycoides and named Bacilus mycoides TH10R.

Keywords

Ipomea pes-caprae, siderophore, phosphate solubilizing, IAA production

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About the authors

Van Giang Nguyen

Vietnam National University of agriculture

Email: nvgiang@vnua.edu.vn

Associate Professor, Lecturer of the Microbial Department, Faculty of Biotechnology

Viet Nam,

Thi Thu Nguyen

Vietnam National University of agriculture

Email: thunguyenntc@gmail.com

Mc.S. of the Microbial Department, Faculty of Biotechnology

Viet Nam,

Thi Linh Vu

Vietnam National University of agriculture

Email: linhvt030899@gmail.com

Mc.S. of the Microbial Department, Faculty of Biotechnology

Viet Nam,

E. A. Kalashnikova

Russian State Agrarian University - Moscow Agricultural Academy named after K.A. Timiryazeva

Email: kalash0407@mail.ru

Dr.Sc. (Biol.), Professor, Head of Department of Biotechnology

Russian Federation,

R. N. Kirakosyan

Russian State Agrarian University - Moscow Agricultural Academy named after K.A. Timiryazeva

Author for correspondence.
Email: mia41291@mail.ru

Ph.D. (Biol.), Associate Professor, Head of Department of Biotechnology

Russian Federation,

References

Chebotar V.K. Endophytic bacteria in microbial drugs that improve plant development. Applied Biochemistry and Microbiology. 2015; 51(3): 271-277
Нгуен Ван Жанг, Ле Динь Туан, Фам Хань Хуен, Пыльнев В.В., Попченко М.И. Выделение эффективных штаммов эндофитных бактерий из корней растений чайного куста (Сamellia sinensis (L.) Kuntze). Владимiрскiй зеледъелецъ. 2020; 4(94): 40-46. doi: 10.24411/2225-2584-2020-10144
Glickmann E., Dessaux Y. A critical examination of the specificity of the salkowski reagent for indolic compounds produced by phytopathogenic bacteria. Applied and environmental microbiology. 1995; 61: 793-796.
Maiti S.K. Water and waste water analysis. Handbook of methods in environmental studies. 2004; 1. Jaipur: ABD Publishers. 321 p.
Schwyn B., Neilands J.B. Universal chemical assay for the detection and determination of siderophores. Analytical Biochemistry. 1987; 160(1). P. 47-56.
Nayak B., Roy S., Mitra A., Roy M. Isolation of Multiple Drug Resistant and Heavy Metal Resistant Stenotrophomonas maltophila strain BN1, a Plant Growth Promoting Rhizobacteria, from Mangrove Associate Ipomoea pes-caprae of Indian Sundarbans. Journal of pure and applied microbiology. 2016; 10(4): 3131-3139.
Zhao Y. Auxin biosynthesis and its role in plant development. Annu Rev Plant Biol. 2010; 61: 49-64. doi: 10.1146/annurev-arplant-042809-112308.
Shih-Feng Fu, Jyuan-Yu Wei, Hung-Wei Chen, Yen-Yu Liu, Hsueh-Yu Lu, Jui-Yu Chou. Indole-3-acetic acid: A widespread physiological code in interactions of fungi with other organisms. Plant Signaling & Behavior. 2015; 10: 8. e1048052.
Nath R., Sharma G.D., Barooah M. Screening of endophytic bacterial isolates of tea (Camellia sinensis L.) roots for their multiple plant growth promoting activities.International Journal of Agriculture, Environment and Biotechnology. 2013; 6: 211-215.
Tariq M., Hameed S., Yasmeen T., Zahid M., Zafar M. Molecular characterization and identification of plant growth promoting endophytic bacteria isolated from the root nodules of pea (Pisum sativum L.). World journal of microbiology and biotechnology. 2014; 30: 719-725.