Screening of a Soil Bacteria Collection for the Production of Alkali Thermostable Xylanases

Sampaio, Camila Ramos Pinto; Silva, C. G. S.; Anjos, É. C. T.; Fernandes, Roberta Pereira Miranda; Fernandes, Marcelo Ferreira

doi:10.5539/jas.v10n8p232

JAS

2018

DOI: 10.5539/jas.v10n8p232

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Screening of a Soil Bacteria Collection for the Production of Alkali Thermostable Xylanases

Camila Ramos Pinto Sampaio¹,

C. G. S. Silva²,

É. C. T. Anjos³

et al.

Abstract: This work aimed to evaluate a collection of common and rare soil bacteria regarding to extracellular xylanases production and to characterize the stability in contrasting conditions of temperature and pH of these enzymes. This collection consists of 120 isolates belonging to six phyla that were subjected to screening for xylanase activity in pure cultures and in the extracellular proteic extract (EPE). The ratio between the halos diameters of xylan hydrolysis and in the colonies on solid medium (ratio H:C) was… Show more

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2023

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Cited by 1 publication

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Microbial Cross-Feeding and its Effects on Cowpea (Vigna Unguiculata) Plant Growth Promotion

Silva,

Bandeira,

De Sousa

et al. 2023

RGSA

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Purpose: To evaluate the in vitro metabolic compartmentalization between strains of actinobacteria and rhizobia isolated from Brazilian semiarid soils and observe the effect of their coinoculation on the development of cowpea plants. Theoretical Framework: The study is based on the importance of microbial interactions in soil, such as metabolite and enzyme sharing, for nutrient cycling and plant growth promotion. Method: Twenty-six rhizobial strains and 23 actinobacteria were cocultured in vitro in media containing xylan, pectin and calcium phosphate. Strains were characterized regarding compatibility on different substrates. Two Streptomyces sp. strains and eight Bradyrhizobium sp. strains were selected and coinoculated in cowpea plants in a greenhouse to evaluate plant development and gas exchange. Results: Compatibility between strains varied significantly among the tested substrates, being higher in pectin and phosphate. Coinoculation resulted in increased values of several biometric parameters compared to standard treatments with only rhizobia or nitrogen fertilization. Conclusions: The association of microorganisms with distinct metabolic capabilities, such as enzyme production, promotes bacterial coexistence and facilitates plant development through complementarity mechanisms. Originality: There are scarce studies on metabolic interactions and growth promotion involving actinobacteria and rhizobia from semiarid soils.

show abstract

Microbial Cross-Feeding and its Effects on Cowpea (Vigna Unguiculata) Plant Growth Promotion

Silva,

Bandeira,

De Sousa

et al. 2023

RGSA

View full text Add to dashboard Cite

show abstract

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Screening of a Soil Bacteria Collection for the Production of Alkali Thermostable Xylanases

Cited by 1 publication

References 25 publications

Microbial Cross-Feeding and its Effects on Cowpea (Vigna Unguiculata) Plant Growth Promotion

Microbial Cross-Feeding and its Effects on Cowpea (Vigna Unguiculata) Plant Growth Promotion

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