Frankia Populations in Soil and Root Nodules of Sympatrically Grown Alnus Taxa

The genetic diversity of Frankia populations in soil and in root nodules of sympatrically grown Alnus taxa was evaluated by rep-polymerase chain reaction (PCR) and nifH gene sequence analyses. Rep-PCR analyses of uncultured Frankia populations in root nodules of 12 Alnus taxa (n = 10 nodules each) g...

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Published in:	Microbial ecology Vol. 61; no. 1; pp. 92 - 100
Main Authors:	Pokharel, Anita, Mirza, Babur S, Dawson, Jeffrey O, Hahn, Dittmar
Format:	Journal Article
Language:	English
Published:	New York New York : Springer-Verlag 01-01-2011 Springer Science + Business Media Springer-Verlag Springer Springer Nature B.V
Subjects:	Alluvial soils Alnus Alnus - microbiology Alnus glutinosa Alnus incana Alnus japonica Alnus maritima Alnus rhombifolia Alnus serrulata Biological and medical sciences Biomedical and Life Sciences Clay loam soils Ecology Environmental conditions Frankia Frankia - classification Frankia - genetics Frankia - isolation & purification Fundamental and applied biological sciences. Psychology Genes, Bacterial - genetics Genetic diversity Genetic Variation Geoecology/Natural Processes Infections Libraries Life Sciences Microbial Ecology Microbiology Molecular Sequence Data Nature Conservation Nodules Oxidoreductases - genetics Phylogeny PLANT MICROBE INTERACTIONS Plant Roots - microbiology Plants Population growth Root nodules Soil Microbiology Soils Taxa Water Quality/Water Pollution Comparative Sequence Analysis nifH Gene Frankia Strain Root Nodule Root Nodule Formation Alnus Sympatry Frankiaceae Ecology Plant nodule Woody plant Frankia Actinomycetales Soils Geographic distribution Dicotyledones Angiospermae Bacteria Actinomycetes Spermatophyta Betulaceae
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Abstract	The genetic diversity of Frankia populations in soil and in root nodules of sympatrically grown Alnus taxa was evaluated by rep-polymerase chain reaction (PCR) and nifH gene sequence analyses. Rep-PCR analyses of uncultured Frankia populations in root nodules of 12 Alnus taxa (n = 10 nodules each) growing sympatrically in the Morton Arboretum near Chicago revealed identical patterns for nodules from each Alnus taxon, including replicate trees of the same host taxon, and low diversity overall with only three profiles retrieved. One profile was retrieved from all nodules of nine taxa (Alnus incana subsp. incana, Alnus japonica, Alnus glutinosa, Alnus incana subsp. tenuifolia, Alnus incana subsp. rugosa, Alnus rhombifolia, Alnus mandshurica, Alnus maritima, and Alnus serrulata), the second was found in all nodules of two plant taxa (A. incana subsp. hirsuta and A. glutinosa var. pyramidalis), and the third was unique for all Frankia populations in nodules of A. incana subsp. rugosa var. americana. Comparative sequence analyses of nifH gene fragments in nodules representing these three profiles assigned these frankiae to different subgroups within the Alnus host infection group. None of these sequences, however, represented frankiae detectable in soil as determined by sequence analysis of 73 clones from a Frankia-specific nifH gene clone library. Additional analyses of nodule populations from selected alders growing on different soils demonstrated the presence of different Frankia populations in nodules for each soil, with populations showing identical sequences in nodules from the same soil, but differences between plant taxa. These results suggest that soil environmental conditions and host plant genotype both have a role in the selection of Frankia strains by a host plant for root nodule formation, and that this selection is not merely a function of the abundance of a Frankia strain in soil.
AbstractList	The genetic diversity of Frankia populations in soil and in root nodules of sympatrically grown Alnus taxa was evaluated by rep-polymerase chain reaction (PCR) and nifH gene sequence analyses. Rep-PCR analyses of uncultured Frankia populations in root nodules of 12 Alnus taxa (n=10 nodules each) growing sympatrically in the Morton Arboretum near Chicago revealed identical patterns for nodules from each Alnus taxon, including replicate trees of the same host taxon, and low diversity overall with only three profiles retrieved. One profile was retrieved from all nodules of nine taxa (Alnus incana subsp. incana, Alnus japonica, Alnus glutinosa, Alnus incana subsp. tenuifolia, Alnus incana subsp. rugosa, Alnus rhombifolia, Alnus mandshurica, Alnus maritima, and Alnus serrulata), the second was found in all nodules of two plant taxa (A. incana subsp. hirsuta and A. glutinosa var. pyramidalis), and the third was unique for all Frankia populations in nodules of A. incana subsp. rugosa var. americana. Comparative sequence analyses of nifH gene fragments in nodules representing these three profiles assigned these frankiae to different subgroups within the Alnus host infection group. None of these sequences, however, represented frankiae detectable in soil as determined by sequence analysis of 73 clones from a Frankia-specific nifH gene clone library. Additional analyses of nodule populations from selected alders growing on different soils demonstrated the presence of different Frankia populations in nodules for each soil, with populations showing identical sequences in nodules from the same soil, but differences between plant taxa. These results suggest that soil environmental conditions and host plant genotype both have a role in the selection of Frankia strains by a host plant for root nodule formation, and that this selection is not merely a function of the abundance of a Frankia strain in soil. The genetic diversity of Frankia populations in soil and in root nodules of sympatrically grown Alnus taxa was evaluated by rep-polymerase chain reaction (PCR) and nif H gene sequence analyses. Rep-PCR analyses of uncultured Frankia populations in root nodules of 12 Alnus taxa ( n = 10 nodules each) growing sympatrically in the Morton Arboretum near Chicago revealed identical patterns for nodules from each Alnus taxon, including replicate trees of the same host taxon, and low diversity overall with only three profiles retrieved. One profile was retrieved from all nodules of nine taxa ( Alnus incana subsp. incana , Alnus japonica , Alnus glutinosa , Alnus incana subsp. tenuifolia , Alnus incana subsp. rugosa , Alnus rhombifolia , Alnus mandshurica , Alnus maritima , and Alnus serrulata ), the second was found in all nodules of two plant taxa ( A. incana subsp. hirsuta and A. glutinosa var. pyramidalis) , and the third was unique for all Frankia populations in nodules of A. incana subsp. rugosa var . americana . Comparative sequence analyses of nif H gene fragments in nodules representing these three profiles assigned these frankiae to different subgroups within the Alnus host infection group. None of these sequences, however, represented frankiae detectable in soil as determined by sequence analysis of 73 clones from a Frankia -specific nif H gene clone library. Additional analyses of nodule populations from selected alders growing on different soils demonstrated the presence of different Frankia populations in nodules for each soil, with populations showing identical sequences in nodules from the same soil, but differences between plant taxa. These results suggest that soil environmental conditions and host plant genotype both have a role in the selection of Frankia strains by a host plant for root nodule formation, and that this selection is not merely a function of the abundance of a Frankia strain in soil. The genetic diversity of Frankia populations in soil and in root nodules of sympatrically grown Alnus taxa was evaluated by rep-polymerase chain reaction (PCR) and nifH gene sequence analyses. Rep-PCR analyses of uncultured Frankia populations in root nodules of 12 Alnus taxa (n=10 nodules each) growing sympatrically in the Morton Arboretum near Chicago revealed identical patterns for nodules from each Alnus taxon, including replicate trees of the same host taxon, and low diversity overall with only three profiles retrieved. One profile was retrieved from all nodules of nine taxa (Alnus incana subsp. incana, Alnus japonica, Alnus glutinosa, Alnus incana subsp. tenuifolia, Alnus incana subsp. rugosa, Alnus rhombifolia, Alnus mandshurica, Alnus maritima, and Alnus serrulata), the second was found in all nodules of two plant taxa (A. incana subsp. hirsuta and A. glutinosa var. pyramidalis), and the third was unique for all Frankia populations in nodules of A. incana subsp. rugosa var. americana. Comparative sequence analyses of nifH gene fragments in nodules representing these three profiles assigned these frankiae to different subgroups within the Alnus host infection group. None of these sequences, however, represented frankiae detectable in soil as determined by sequence analysis of 73 clones from a Frankia-specific nifH gene clone library. Additional analyses of nodule populations from selected alders growing on different soils demonstrated the presence of different Frankia populations in nodules for each soil, with populations showing identical sequences in nodules from the same soil, but differences between plant taxa. These results suggest that soil environmental conditions and host plant genotype both have a role in the selection of Frankia strains by a host plant for root nodule formation, and that this selection is not merely a function of the abundance of a Frankia strain in soil.[PUBLICATION ABSTRACT]
Author	Hahn, Dittmar Pokharel, Anita Mirza, Babur S. Dawson, Jeffrey O.
Author_xml	– sequence: 1 fullname: Pokharel, Anita – sequence: 2 fullname: Mirza, Babur S – sequence: 3 fullname: Dawson, Jeffrey O – sequence: 4 fullname: Hahn, Dittmar
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Keywords	Comparative Sequence Analysis nifH Gene Frankia Strain Root Nodule Root Nodule Formation Alnus Sympatry Frankiaceae Ecology Plant nodule Woody plant Frankia Actinomycetales Soils Geographic distribution Dicotyledones Angiospermae Bacteria Actinomycetes Spermatophyta Betulaceae
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PublicationTitle	Microbial ecology
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Snippet	The genetic diversity of Frankia populations in soil and in root nodules of sympatrically grown Alnus taxa was evaluated by rep-polymerase chain reaction (PCR)... The genetic diversity of Frankia populations in soil and in root nodules of sympatrically grown Alnus taxa was evaluated by rep-polymerase chain reaction (PCR)...
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SubjectTerms	Alluvial soils Alnus Alnus - microbiology Alnus glutinosa Alnus incana Alnus japonica Alnus maritima Alnus rhombifolia Alnus serrulata Biological and medical sciences Biomedical and Life Sciences Clay loam soils Ecology Environmental conditions Frankia Frankia - classification Frankia - genetics Frankia - isolation & purification Fundamental and applied biological sciences. Psychology Genes, Bacterial - genetics Genetic diversity Genetic Variation Geoecology/Natural Processes Infections Libraries Life Sciences Microbial Ecology Microbiology Molecular Sequence Data Nature Conservation Nodules Oxidoreductases - genetics Phylogeny PLANT MICROBE INTERACTIONS Plant Roots - microbiology Plants Population growth Root nodules Soil Microbiology Soils Taxa Water Quality/Water Pollution
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Title	Frankia Populations in Soil and Root Nodules of Sympatrically Grown Alnus Taxa
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