Activity of acidic and alkaline phosphatases in mycorrhizal tomato plants

Authors

  • S. B. Orazova Казахский национальный университет им. аль-Фараби
  • A. A. Tashenova НИИ проблем экологии
        85 38

Keywords:

acid phosphatase, alkaline phosphatase, mycorrhiza, cyanobacteria

Abstract

The article shows the influence of the 8 strains cyanobacteria (Anabaenopsis sp. (T1), Anabaenopsis sp. (D6), Anabaena laxa, Amorphonostoc paludosum, Spheronostoc coeruleum, Oscillatoria willei, Calotrhix (B1), Anabaena constricta) on the activity of acidic and alkaline phosphatase in the roots of mycorrhizal plant tomato (Lycopersicon esculentum Mill.) varieties of Red cherry. It is established that the activity of acidic and alkaline phosphatase increased in the presence of Anabaena laxa, and on the contrary decreases with action D6 Anabaenopsis.

References

1 BarretLennard E.D., Robson A.D., Greenway H. Effect of phosphorus deficiency and water deficit on phosphatase activities
from wheat leaves // J. Exp. Bot. – 1982. – V. 33. – P.682-693.

2 Sharma A.D., Thakur M., Rana M., Singh K. Effect of plant growth hormones and abiotic stresses on germination, growth and
phosphatase activities in Sorghum bicolor (L.) Moench seeds // Afr. J. Biotechnol. 2004. – V. 3. – P. 308-312.

3 Asmar F., Gahoonia T., Nielsen N. Barley genotypes differ in activity of soluble extracellular phosphatase and depletion of
organic phosphorous in the rhizosphere soil // Plant Soil. – 1995. – V. 172. – P.117-122.

4 Duff S.M.G., Sarath G., Plaxton W.C. The role of acid phosphatase in plant phosphorus metabolism // Physiol. Plant. – 1994. –
V. 90. – P. 791-800.

5 Tabaldi L.A., Ruppenthal R., Cargnelutti D., Morsch V.M., Pereira L.B., Schetinger M.R.C. Effects of metal elements on acid
phosphatase activity in cucumber (Cucumis sativus L.) seedlings // Environ. Exp. Bot. – 2007. – V. 59. – P. 43-48.

6 Mishra S., Dubey R.S. Changes in phosphate content and phosphatase activities in rice seedlings exposed to arsenite // Braz. J.
Plant. Physiol. – 2007. – V. 20. – P. 19-28.

7 Turner W.L., Plaxton W.C. Purification and Characterization of banana fruit acid phosphatase // Planta. – 2001. – V. 214. –
P. 243-249.

8 Ganjewala D., Nagaraja C., Nayak M.R., Devi S.A. Effects of sodium nitroprusside on activity of acid and alkaline invertases
and alkaline phosphatase in lemongrass (Cymbopogon flexuosus Steud) Wats. // International Journal of Plant Biology. – 2010. –
V. 1. – P. 9-12.

9 Julie E.H., Simpson R.J., Richardson A.E. The growth and phosphorus utilization of plants in sterile media when supplied with
inositol hexaphosphate, glucose-1-phosphate or inorganic phosphate // Plant Soil. – 2010. – V. 220. – P. 165-174.

10 Bozzo G.G., Raghothama K.G., Plaxton W.C. Purification and characterization of two secreted purple acid phosphatase
isozymes from phosphate starved tomato (Lycopersicon esculentum) cell cultures // Eur J. Biochem. – 2002. – V. 269. – P. 6278-6280.

11 Smith S.E., Read D.J. Mycorrhizal Symbiosis. - San Diego: Academic Press, 1997. – 405 p.

12 Harrison M.J., van Buuren M.L. A phosphate transporter from the mycorrhizal fungus Glomus versiforme // Nature. – 1995. – V.
378. – P. 626-629.

13 Sikes B.A., Cottenie K., Klironomos J.N. Plant and fungal identity determines pathogen protection of plant roots by arbuscular
mycorrhizas // J. Ecol. – 2009. – V. 97. – P. 1274-1280.

14 Sbrana C., Giovannetti M. Chemotropism in the arbuscular mycorrhizal fungus Glomus mosseae // Mycorrhiza. -2005. –
V. 15. – P. 539-545.

15 Hampp R., Ecke M., Schaeffer C., Wallenda T., Wingler A., Kottke I., Sundberg B. Axenic mycorrhization of wild type and
transgenic hybrid aspen expressing T-DNA indolacetic acidbiosynthesis genes // Trees. – 1996. – V. 11. – P. 59-64.

16 Ермаков А.И., Арасимович В.В., Смирнова-Иконникова М.И., Ярош Н.П., Луковникова Г.А. Методы биохимического
исследования растений. – Л.: Колос, 1972. – Изд. 2-е. – 456 с.

Downloads

How to Cite

Orazova, S. B., & Tashenova, A. A. (2015). Activity of acidic and alkaline phosphatases in mycorrhizal tomato plants. Experimental Biology, 58(2), 42–46. Retrieved from https://bb.kaznu.kz/index.php/biology/article/view/463

Most read articles by the same author(s)

1 2 > >>