Isolation of phytase-producing bacteria from Himalayan soils and their effect on growth and phosphorus uptake of Indian mustard (Brassica juncea)

Kumar, Vinod; Singh, Prashant; Jorquera, Milko A.; Sangwan, Punesh; Kumar, P. V. Hareesh; Verma, Ashok Kumar; Agrawal, Sanjeev

doi:10.1007/s11274-013-1299-z

Cited by 105 publications

(56 citation statements)

References 39 publications

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“…This is produced by bacteria [95], fungi [96], and plants [97] with tremendous diversity in various agro-climatic and environmental conditions. Four classes of phytases, namely, (HAPhy), (BPPhy), (PAPhy), and (CPhy), have been reported in the literature based on catalytic and sequence features [98].…”

Section: Beneficial Microbes For Sustainable Agriculturementioning

confidence: 99%

“…Several applications of phytases and phytaseproducing microbes have been reported leading to tremendous opportunities in using these microbes for beneficial purposes. Bacterial isolates and their consortiums for PGP have been well documented in several reports [95,100]. Although microbes promote the growth of plants by different means, the presence of enough organic phosphorus (as phytate) in soil increases the significance of phytate-hydrolyzing microbes in soil for efficient utilization of this source of phosphorus by plants as it is a major element determining proper health of plant.…”

Section: Beneficial Microbes For Sustainable Agriculturementioning

confidence: 99%

“…has been resulted in improved growth of plants. Studies on potential PGP attributes in phytase-positive bacterial isolates have revealed multiple attributes of PGP including the production of plant growth hormones and siderophores, solubilization of phosphorus, and inhibition of plant pathogenic fungal growth [95,100]. These attributes with additional phytase production potential make these microbes more useful as they also reduce the use of phosphorus fertilizers, thereby decreasing environmental phosphorus pollution and contribute toward sustainable agriculture.…”

Section: Beneficial Microbes For Sustainable Agriculturementioning

confidence: 99%

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Beneficial microbiomes: Biodiversity and potential biotechnological applications for sustainable agriculture and human health

Yadav¹,

Kumar²,

Kumar³

et al. 2017

J App Biol Biotech

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The beneficial microbes plays an important role in medical, industrial, and agricultural processes. The precious microbes belong to different groups including archaea, bacteria, and fungi which can be sort out from different habitat such as extreme environments (acidic, alkaline, drought, pressure, salinity, and temperatures) and associated with plants (epiphytic, endophytic, and rhizospheric) and human. The beneficial microbes exhibited multifunctional plant growth promoting (PGP) attributes such as N 2 -fixation, solubilization of micronutrients (phosphorus, potassium and zinc), and production of siderophores, antagonistic substances, antibiotic, auxin, and gibberellins. These microbes could be applied as biofertilizers for native as well as crops growing at diverse extreme habitat. Microbes with PGP attributes of N 2 -fixation, P-, and K-solubilization could be used at a place of NPK chemical fertilizers. Agriculturally, important microbes with Fe-and Zn-solubilizing attributes can be used for biofortification of micronutrients in different cereal crops. The biofertilizers are an eco-friendly technology and bioresources for sustainable agriculture and human health. In general, the concentrations of micronutrient in different crops are not adequate for human nutrition in diets. Hence, consumption of such cereal-based diet may result in micronutrient malnutrition and related severe health complications. The biofortification approach is getting much attention to increase the availability of micronutrients, especially Fe and Zn in the major food crops. The beneficial microbes can be used as probiotic as functional foods for human health. Probiotics microbes such as Bifidobacterium, Lactobacillus, Methanobrevibacter, Methanosphaera, and Saccharomyces are increasingly being used as dietary supplements in functional food products. The microbes with beneficial properties could be utilized for sustainable agriculture and human health.

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Section: Beneficial Microbes For Sustainable Agriculturementioning

confidence: 99%

Section: Beneficial Microbes For Sustainable Agriculturementioning

confidence: 99%

Section: Beneficial Microbes For Sustainable Agriculturementioning

confidence: 99%

See 1 more Smart Citation

Beneficial microbiomes: Biodiversity and potential biotechnological applications for sustainable agriculture and human health

Yadav¹,

Kumar²,

Kumar³

et al. 2017

J App Biol Biotech

View full text Add to dashboard Cite

show abstract

“…For efficient industrial application, a phytase which has high production, good activity at 37 °C, high activity and stability at broad pH range and ability to tolerate the high temperature are desirable characteristics. Therefore, most of the research on phytase has been focused on isolation and characterization of novel phytase with desirable characteristics from different sources (Huang et al 2009;Kalsi et al 2016;Kumar et al 2013;Mullaney et al 2010). Penicillium oxalicum has been reported as a promising phytase producing fungi with reports on characterization, heterogeneous expression and engineering of phytase from this fungi are available (Lee et al 2007;Lee et al 2015;Zhao et al 2010).…”

Section: Introductionmentioning

confidence: 99%

Production and characterization of a neutral phytase of Penicillium oxalicum EUFR-3 isolated from Himalayan region

et al. 2017

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Abstract. Kaur R, Saxena A, Sangwan P, Yadav AN, Kumar V, Dhaliwal HC. 2017. Production and characterization of a neutral phytase of Penicillium oxalicum EUFR-3 isolated from Himalayan region. Nusantara Bioscience 9: 68-76. Micronutrient bioavailability from cereals is poor to monogastric animals due to presence of phytate as a chelating agent in seeds and an exogenous application of phytases is required to overcome antinutritional effect of phytate. In the present investigation, 40 fungal isolates including Aspergillus, Penicillium, Trichoderma, Toliposporium, Cladosporium, Talaromyces etc. from different habitats were screened positive for phytase activity on specific media. On the basis of phytase production potential in solid state fermentation conditions, plant epiphytic fungi Penicillium oxalicum strain EUFR-3 has been observed with maximum phytase activity of 12.8 U/g. The biochemical properties i.e. activity and stability under optimum pH and temperature, and effect of modulators on phytase activity from this isolate were studied for its prospective application in human food. The P. oxalicum EUFR-3 phytase (PhyP-EUFR3) had maximum activity at pH 7.0 and temperature 40 °C. It was stable in pH range of 3-8 with more than 60 % activity throughout investigation. The thermostability of PhyP-EUFR3 was about 30 % residual activities after 10 min at 80 °C. Further purification, characterization and study of catalytic mechanism will be useful in better utilization of this phytase in human food for increased bioavailability of important metal ions.

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“…Phytases are widely distributed among plants and microbial cells (Hegeman and Grabau 2001;Kumar et al 2013;Singh et al 2014;Lei et al 2013). To develop a suitable phytase for above applications and better understand the catalytic mechanism of diverse groups of phytases, large number of such organisms has been studied in detail for their phytase gene sequences and biochemical properties.…”

Section: Introductionmentioning

confidence: 99%

An insight into protein sequences of PTP-like cysteine phytases

2014

Nus Biosci

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Abstract. Kumar V, Agrawal S. 2014. An insight into protein sequences of PTP-like cysteine phytases. Nusantara Bioscience 6: 102-106. Protein tyrosine phosphatase like cysteine phytases (CPhy) are novel phytases reported in the ruminant microbial community and suggested to play major role in phytate-phosphorus hydrolysis in animal feed. These phytases are very promising to be used in animal feed applications for monogastric animals. Present study deals with utilization of sequence information of 40 CPhy reference protein sequences for their sequential characterization for conserved regions, phylogenetic relationship, biochemical features, superfamily and functional motifs therein. The study reveals that CPhy, not well characterized class of phytases, contains conserved sequence feature which may be important catalytic residues. Five major clusters observed in phylogenetic tree with Clostridium sp. as largest cluster. Reported motifs might be used for diversity and expression analysis of CPhy enzymes.

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Isolation of phytase-producing bacteria from Himalayan soils and their effect on growth and phosphorus uptake of Indian mustard (Brassica juncea)

Cited by 105 publications

References 39 publications

Beneficial microbiomes: Biodiversity and potential biotechnological applications for sustainable agriculture and human health

Beneficial microbiomes: Biodiversity and potential biotechnological applications for sustainable agriculture and human health

Production and characterization of a neutral phytase of Penicillium oxalicum EUFR-3 isolated from Himalayan region

An insight into protein sequences of PTP-like cysteine phytases

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