@ARTICLE{TreeBASE2Ref16728,
author = {Christina D. Moon and Barry Scott and Christopher Lewis Schardl and Michael J. Christensen},
title = {The evolutionary origins of Epichlo? endophytes from annual ryegrasses.},
year = {2000},
keywords = {?-tubulin gene; interspecific hybridization; Lolium; molecular systematics; Neotyphodium endophytes; rDNA-ITS; symbiosis },
doi = {},
url = {http://www.jstor.org/stable/3761478},
pmid = {},
journal = {Mycologia},
volume = {92},
number = {6},
pages = {1103--1118},
abstract = {The annual Lolium (ryegrass) species were surveyed for seedborne, asexual Epichlo? endophytes (ie. Neotyphodium spp.). Extremely slow growing endophytes were isolated from all seven annual ryegrass spp. Sequences of ?-tubulin gene (tub2) introns and the internal transcribed spacers of the nuclear ribosomal RNA (rDNA-ITS) were determined, as were fingerprints based on five microsatellite loci. Two taxonomic groups of annual ryegrass endophytes were distinguishable by morphology, culturability and genotypes. One group, for which the name Neotyphodium occultans is proposed, was comprised solely of isolates that could not by subcultured on potato dextrose agar medium. These isolates contained multiple tub2 genes and multiple alleles at microsatellite loci, suggestive of an interspecific hybrid origin. The results of phylogenetic analysis implied that the ancestors of N. occultans included Epichlo? baconii and Epichlo? bromicola, or close relatives. The second taxonomic group of annual ryegrass endophytes, exemplified by isolate Lc4, was found only in L. canariense. This taxon had a single tub2 sequence and microsatellite genotype that was nearly identical to those of extant Epichlo? typhina isolates that infect Poa nemoralis. Therefore, it is proposed that Lc4 is an asexual derivative of an E. typhina genotype closely related to extant strains from P. nemoralis. We propose the name Neotyphodium typhinum var. canariense for this form. These two new endophyte taxa from the annual ryegrasses are further examples of asexual Neotyphodium species that have arisen from sexual Epichlo? spp. either directly by loss of the sexual state, or by interspecific hybridization events.}
}
Citation for Study 648
Citation title:
"The evolutionary origins of Epichlo? endophytes from annual ryegrasses.".
This study was previously identified under the legacy study ID S482
(Status: Published).
Citation
Moon C., Scott B., Schardl C.L., & Christensen M. 2000. The evolutionary origins of Epichlo? endophytes from annual ryegrasses. Mycologia, 92(6): 1103-1118.
Authors
-
Moon C.
-
Scott B.
-
Schardl C.L.
859-218-0730
-
Christensen M.
Abstract
The annual Lolium (ryegrass) species were surveyed for seedborne, asexual Epichlo? endophytes (ie. Neotyphodium spp.). Extremely slow growing endophytes were isolated from all seven annual ryegrass spp. Sequences of ?-tubulin gene (tub2) introns and the internal transcribed spacers of the nuclear ribosomal RNA (rDNA-ITS) were determined, as were fingerprints based on five microsatellite loci. Two taxonomic groups of annual ryegrass endophytes were distinguishable by morphology, culturability and genotypes. One group, for which the name Neotyphodium occultans is proposed, was comprised solely of isolates that could not by subcultured on potato dextrose agar medium. These isolates contained multiple tub2 genes and multiple alleles at microsatellite loci, suggestive of an interspecific hybrid origin. The results of phylogenetic analysis implied that the ancestors of N. occultans included Epichlo? baconii and Epichlo? bromicola, or close relatives. The second taxonomic group of annual ryegrass endophytes, exemplified by isolate Lc4, was found only in L. canariense. This taxon had a single tub2 sequence and microsatellite genotype that was nearly identical to those of extant Epichlo? typhina isolates that infect Poa nemoralis. Therefore, it is proposed that Lc4 is an asexual derivative of an E. typhina genotype closely related to extant strains from P. nemoralis. We propose the name Neotyphodium typhinum var. canariense for this form. These two new endophyte taxa from the annual ryegrasses are further examples of asexual Neotyphodium species that have arisen from sexual Epichlo? spp. either directly by loss of the sexual state, or by interspecific hybridization events.
Keywords
?-tubulin gene; interspecific hybridization; Lolium; molecular systematics; Neotyphodium endophytes; rDNA-ITS; symbiosis
External links
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- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S648
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref16728,
author = {Christina D. Moon and Barry Scott and Christopher Lewis Schardl and Michael J. Christensen},
title = {The evolutionary origins of Epichlo? endophytes from annual ryegrasses.},
year = {2000},
keywords = {?-tubulin gene; interspecific hybridization; Lolium; molecular systematics; Neotyphodium endophytes; rDNA-ITS; symbiosis },
doi = {},
url = {http://www.jstor.org/stable/3761478},
pmid = {},
journal = {Mycologia},
volume = {92},
number = {6},
pages = {1103--1118},
abstract = {The annual Lolium (ryegrass) species were surveyed for seedborne, asexual Epichlo? endophytes (ie. Neotyphodium spp.). Extremely slow growing endophytes were isolated from all seven annual ryegrass spp. Sequences of ?-tubulin gene (tub2) introns and the internal transcribed spacers of the nuclear ribosomal RNA (rDNA-ITS) were determined, as were fingerprints based on five microsatellite loci. Two taxonomic groups of annual ryegrass endophytes were distinguishable by morphology, culturability and genotypes. One group, for which the name Neotyphodium occultans is proposed, was comprised solely of isolates that could not by subcultured on potato dextrose agar medium. These isolates contained multiple tub2 genes and multiple alleles at microsatellite loci, suggestive of an interspecific hybrid origin. The results of phylogenetic analysis implied that the ancestors of N. occultans included Epichlo? baconii and Epichlo? bromicola, or close relatives. The second taxonomic group of annual ryegrass endophytes, exemplified by isolate Lc4, was found only in L. canariense. This taxon had a single tub2 sequence and microsatellite genotype that was nearly identical to those of extant Epichlo? typhina isolates that infect Poa nemoralis. Therefore, it is proposed that Lc4 is an asexual derivative of an E. typhina genotype closely related to extant strains from P. nemoralis. We propose the name Neotyphodium typhinum var. canariense for this form. These two new endophyte taxa from the annual ryegrasses are further examples of asexual Neotyphodium species that have arisen from sexual Epichlo? spp. either directly by loss of the sexual state, or by interspecific hybridization events.}
}
- Show RIS reference
TY - JOUR
ID - 16728
AU - Moon,Christina D.
AU - Scott,Barry
AU - Schardl,Christopher Lewis
AU - Christensen,Michael J.
T1 - The evolutionary origins of Epichlo? endophytes from annual ryegrasses.
PY - 2000
KW - ?-tubulin gene; interspecific hybridization; Lolium; molecular systematics; Neotyphodium endophytes; rDNA-ITS; symbiosis
UR - http://www.jstor.org/stable/3761478
N2 - The annual Lolium (ryegrass) species were surveyed for seedborne, asexual Epichlo? endophytes (ie. Neotyphodium spp.). Extremely slow growing endophytes were isolated from all seven annual ryegrass spp. Sequences of ?-tubulin gene (tub2) introns and the internal transcribed spacers of the nuclear ribosomal RNA (rDNA-ITS) were determined, as were fingerprints based on five microsatellite loci. Two taxonomic groups of annual ryegrass endophytes were distinguishable by morphology, culturability and genotypes. One group, for which the name Neotyphodium occultans is proposed, was comprised solely of isolates that could not by subcultured on potato dextrose agar medium. These isolates contained multiple tub2 genes and multiple alleles at microsatellite loci, suggestive of an interspecific hybrid origin. The results of phylogenetic analysis implied that the ancestors of N. occultans included Epichlo? baconii and Epichlo? bromicola, or close relatives. The second taxonomic group of annual ryegrass endophytes, exemplified by isolate Lc4, was found only in L. canariense. This taxon had a single tub2 sequence and microsatellite genotype that was nearly identical to those of extant Epichlo? typhina isolates that infect Poa nemoralis. Therefore, it is proposed that Lc4 is an asexual derivative of an E. typhina genotype closely related to extant strains from P. nemoralis. We propose the name Neotyphodium typhinum var. canariense for this form. These two new endophyte taxa from the annual ryegrasses are further examples of asexual Neotyphodium species that have arisen from sexual Epichlo? spp. either directly by loss of the sexual state, or by interspecific hybridization events.
L3 -
JF - Mycologia
VL - 92
IS - 6
SP - 1103
EP - 1118
ER -
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