Abstract
High-affinity hydrogen (H2 )-oxidizing bacteria possessing group 5 [NiFe]-hydrogenase genes are important contributors to atmospheric H2 uptake in soil environments. Although previous studies reported the occurrence of a significant H2 uptake activity in vegetation, there has been no report on the identification and diversity of the responsible microorganisms. Here, we show the existence of plant-associated bacteria with the ability to consume atmospheric H2 that may be a potential energy source required for their persistence in plants. Detection of the gene hhyL - encoding the large subunit of group 5 [NiFe]-hydrogenase - in plant tissues showed that plant-associated high-affinity H2 -oxidizing bacteria are widely distributed in herbaceous plants. Among a collection of 145 endophytic isolates, seven Streptomyces strains were shown to possess hhyL gene and exhibit high- or intermediate-affinity H2 uptake activity. Inoculation of Arabidopsis thaliana (thale cress) and Oryza sativa (rice) seedlings with selected isolates resulted in an internalization of the bacteria in plant tissues. H2 uptake activity per bacterial cells was comparable between plant and soil, demonstrating that both environments are favourable for the H2 uptake activity of streptomycetes. This study first demonstrated the occurrence of plant-associated high-affinity H2 -oxidizing bacteria and proposed their potential contribution as atmospheric H2 sink.
Highlights
Hydrogen (H2) is an important constituent of the atmosphere
Streptomyces isolates possessing group 5 [NiFe]hydrogenase genes exhibited high-affinity H2 uptake activity (apparent Km [(app)Km], < 100 ppmv), which was clearly distinguished from previously reported H2-oxidizing bacteria that are unable to scavenge atmospheric H2 owing to their low affinity for this trace gas ((app)Km, > 1000 ppmv) (Constant et al, 2010)
Epiphytes or endophytes are defined as those microorganisms that live on plant surface or inside plant tissues without infection respectively (Reinhold-Hurek and Hurek, 1998)
Summary
High-affinity hydrogen (H2)-oxidizing bacteria possessing group 5 [NiFe]-hydrogenase genes are important contributors to atmospheric H2 uptake in soil environments. We show the existence of plant-associated bacteria with the ability to consume atmospheric H2 that may be a potential energy source required for their persistence in plants. Detection of the gene hhyL – encoding the large subunit of group 5 [NiFe]hydrogenase – in plant tissues showed that plantassociated high-affinity H2-oxidizing bacteria are widely distributed in herbaceous plants. Among a collection of 145 endophytic isolates, seven Streptomyces strains were shown to possess hhyL gene and exhibit high- or intermediate-affinity H2 uptake activity. This study first demonstrated the occurrence of plant-associated high-affinity H2-oxidizing bacteria and proposed their potential contribution as atmospheric H2 sink
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