Abstract
To overcome the issue of interferences by salt and compactness in release of bacterial cell required for lysis, method described by Yeates et al. (1998), was optimized for isolation of genomic material (Deoxyribo Nucleic Acid, DNA) from soil microbial community by addition of Al(NH4)SO4. Very low total viable count was observed in the samples tested and hence use of higher amount of soil is required primarily for DNA isolation from wasteland soils. The method proves itself efficient where commercially available bead beating and enzymatic lysis methods could not give isolation of any amount of community genomic DNA due to compact nature and salt concentrations present in soil.•The protocol was found efficient for soil samples with high clay content for microbial community DNA extraction.•Variation in lysis incubation and amount of soil may help with soil samples containing low microbial population.•Addition of Al(NH4)SO4 is crucial step in humic acid removal from extracted DNA samples for soil samples containing high salinity and clay particles.
Highlights
GRAPHICAL ABSTRACTABSTRACT To overcome the issue of interferences by salt and compactness in release of bacterial cell required for lysis, method described by Yeates et al (1998), was optimized for isolation of genomic material (Deoxyribo Nucleic Acid, DNA) from soil microbial community by addition of Al(NH4)SO4
Method described by [1] for community DNA isolation from various types of soil samples was modified for wasteland soil samples collected from coastal areas of Gujarat
Low microbial population (
Summary
ABSTRACT To overcome the issue of interferences by salt and compactness in release of bacterial cell required for lysis, method described by Yeates et al (1998), was optimized for isolation of genomic material (Deoxyribo Nucleic Acid, DNA) from soil microbial community by addition of Al(NH4)SO4. The method proves itself efficient where commercially available bead beating and enzymatic lysis methods could not give isolation of any amount of community genomic DNA due to compact nature and salt concentrations present in soil. The protocol was found efficient for soil samples with high clay content for microbial community DNA extraction. Addition of Al(NH4)SO4 is crucial step in humic acid removal from extracted DNA samples for soil samples containing high salinity and clay particles. ARTICLE INFO Method name: Community DNA isolation from wasteland soil Keywords: Wasteland, Compact saline soil, Community DNA isolation, Modified enzymatic lysis method, Aluminium ammonium sulphate, Humic acid Article history: Received 7 November 2016; Accepted 13 January 2017; Available online 17 January 2017
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