Genetics of host specificy in Epichloe typhina

Epichloe typhina perennially and systemically infects grass plants, causing choke disease in which maturation of host inflorescences is suppressed. In seedling-inoculation tests, isolate E8 from perennial ryegrass established and maintained infection in this host but not in orchardgrass. In contrast...

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Veröffentlicht in:Phytopathology 1997-06, Vol.87 (6)
Hauptverfasser: Chung, K.R. (University of Kentucky, Lexington, KY.), Hollin, W, Siegel, M.R, Schardl, C.L
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container_issue 6
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container_title Phytopathology
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creator Chung, K.R. (University of Kentucky, Lexington, KY.)
Hollin, W
Siegel, M.R
Schardl, C.L
description Epichloe typhina perennially and systemically infects grass plants, causing choke disease in which maturation of host inflorescences is suppressed. In seedling-inoculation tests, isolate E8 from perennial ryegrass established and maintained infection in this host but not in orchardgrass. In contrast, isolates E469, E2466, and E2467 from orchardgrass varied in infection frequency and stability in orchardgrass, but all were unable to establish stable infections in perennial ryegrass. To investigate the genetics of host specificity, isolate E8 was crossed with each of the isolates from orchardgrass. Seedlings of parental host species were inoculated with F1 progeny, and the frequencies of seedling infection and stability in adult plants were assessed. In the E8 X E2466 cross, the F1 progeny exhibited a wide range of infection frequency and stability in each parental host. In crosses E8 X E469 and E8 X E2467, where the orchardgrass-derived parents infected 5 to 13% of inoculated perennial ryegrass seedlings, the distributions of infection frequencies for the F1 progeny were skewed toward levels comparable to that of the parent from perennial ryegrass. In all crosses, most progeny had low frequencies of infection in orchardgrass. However, transgression was evident in a cross of E8 with E469, an isolate that infected orchardgrass seedlings at a low frequency (2 to 3%). The E8 X E469 cross had a few F1 progeny that infected orchardgrass at high efficiency (up to 81%). A Spearman rank correlation applied to the E8 X E2466 progeny indicated a significant negative correlation between infection frequencies in perennial ryegrass and orchardgrass. Also, there was a significant correlation of infection frequency and stability in perennial ryegrass but not in orchardgrass. To test whether only a few genes governed infection frequency in perennial ryegrass, an E8 X E2466 F1 progeny (designated E386.04), which had intermediate compatibility with this host, was backcrossed to E8. The
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In crosses E8 X E469 and E8 X E2467, where the orchardgrass-derived parents infected 5 to 13% of inoculated perennial ryegrass seedlings, the distributions of infection frequencies for the F1 progeny were skewed toward levels comparable to that of the parent from perennial ryegrass. In all crosses, most progeny had low frequencies of infection in orchardgrass. However, transgression was evident in a cross of E8 with E469, an isolate that infected orchardgrass seedlings at a low frequency (2 to 3%). The E8 X E469 cross had a few F1 progeny that infected orchardgrass at high efficiency (up to 81%). A Spearman rank correlation applied to the E8 X E2466 progeny indicated a significant negative correlation between infection frequencies in perennial ryegrass and orchardgrass. Also, there was a significant correlation of infection frequency and stability in perennial ryegrass but not in orchardgrass. To test whether only a few genes governed infection frequency in perennial ryegrass, an E8 X E2466 F1 progeny (designated E386.04), which had intermediate compatibility with this host, was backcrossed to E8. 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Seedlings of parental host species were inoculated with F1 progeny, and the frequencies of seedling infection and stability in adult plants were assessed. In the E8 X E2466 cross, the F1 progeny exhibited a wide range of infection frequency and stability in each parental host. In crosses E8 X E469 and E8 X E2467, where the orchardgrass-derived parents infected 5 to 13% of inoculated perennial ryegrass seedlings, the distributions of infection frequencies for the F1 progeny were skewed toward levels comparable to that of the parent from perennial ryegrass. In all crosses, most progeny had low frequencies of infection in orchardgrass. However, transgression was evident in a cross of E8 with E469, an isolate that infected orchardgrass seedlings at a low frequency (2 to 3%). The E8 X E469 cross had a few F1 progeny that infected orchardgrass at high efficiency (up to 81%). A Spearman rank correlation applied to the E8 X E2466 progeny indicated a significant negative correlation between infection frequencies in perennial ryegrass and orchardgrass. Also, there was a significant correlation of infection frequency and stability in perennial ryegrass but not in orchardgrass. To test whether only a few genes governed infection frequency in perennial ryegrass, an E8 X E2466 F1 progeny (designated E386.04), which had intermediate compatibility with this host, was backcrossed to E8. 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In seedling-inoculation tests, isolate E8 from perennial ryegrass established and maintained infection in this host but not in orchardgrass. In contrast, isolates E469, E2466, and E2467 from orchardgrass varied in infection frequency and stability in orchardgrass, but all were unable to establish stable infections in perennial ryegrass. To investigate the genetics of host specificity, isolate E8 was crossed with each of the isolates from orchardgrass. Seedlings of parental host species were inoculated with F1 progeny, and the frequencies of seedling infection and stability in adult plants were assessed. In the E8 X E2466 cross, the F1 progeny exhibited a wide range of infection frequency and stability in each parental host. 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To test whether only a few genes governed infection frequency in perennial ryegrass, an E8 X E2466 F1 progeny (designated E386.04), which had intermediate compatibility with this host, was backcrossed to E8. The</abstract></addata></record>
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recordid cdi_fao_agris_US1997049498
source American Phytopathological Society; Alma/SFX Local Collection; EZB Electronic Journals Library
subjects ACREMONIUM
ACREMONIUM COENOPHIALUM
COMPATIBILITY
DACTYLIS GLOMERATA
ENDOFITAS
ENDOPHYTE
ENDOPHYTES
GENETIC REGULATION
GENETIC VARIATION
GENETICA
GENETICS
GENETIQUE
GENOTIPOS
GENOTYPE
GENOTYPES
HOST PARASITE RELATIONS
HOST SPECIFICITY
INCOMPATIBILITY
LOLIUM PERENNE
RELACIONES HUESPED PARASITO
RELATION HOTE PARASITE
SIMBIOSIS
SYMBIOSE
SYMBIOSIS
VARIACION GENETICA
VARIATION GENETIQUE
title Genetics of host specificy in Epichloe typhina
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