@ARTICLE{TreeBASE2Ref26204,
author = {Justin P Shaffer and Carolina Sarmiento and Paul-Camilo Zalamea and Rachel Elizabeth Gallery and Adam S Davis and David A Baltrus and A. Elizabeth Arnold},
title = {Diversity, specificity, and phylogenetic relationships of endohyphal bacteria in fungi that inhabit tropical seeds and leaves},
year = {2016},
keywords = {Ascomycota, Barro Colorado Island, Cecropia, endobacteria, phylogenetic diversity, pioneers, symbiosis},
doi = {10.3389/fevo.2016.00116},
url = {http://},
pmid = {},
journal = {Frontiers in Ecology and Evolution},
volume = {4},
number = {116},
pages = {},
abstract = {Interactions between fungi and tropical trees are responsible for some of the most biodiverse communities on earth. These interactions occur in the presence of additional microbes that can modify fungal phenotypes, such as endohyphal bacteria. Here we examine the occurrence, diversity, and composition of endohyphal bacteria (EHB) in fungi that colonize seeds and leaves of plants in tropical forests. We use PCR and visual fluorescence to detect EHB among fungi, and a phylogenetic approach to explore the evolutionary relationships among seed- and leaf-inhabiting fungi and their bacterial partners. Analyses focusing on two prevalent orders of fungi (Hypocreales and Xylariales) revealed that seed- and leaf-inhabiting fungi have a shared evolutionary history, yet differ in the prevalence, richness, and composition of their endohyphal symbionts. Phylogenetic analyses detected that the EHB habit is widespread, here encompassing members of seven phyla of bacteria (including three classes of Proteobacteria). Occurring in seed- vs. leaf-associated fungi has not resulted in detectable structure in the evolution of EHB, and no congruence was observed in the phylogenetic relationships of these apparently facultative, horizontally transmitted symbionts. Our results are consistent with multiple origins of fungus-bacterium associations and argue for evaluating focal pairs to determine how particular EHB affect the establishment or maintenance of fungal symbioses in seeds and leaves.}
}
Taxa for tree 98756 of Study 19714
Citation title:
"Diversity, specificity, and phylogenetic relationships of endohyphal bacteria in fungi that inhabit tropical seeds and leaves".
Study name:
"Diversity, specificity, and phylogenetic relationships of endohyphal bacteria in fungi that inhabit tropical seeds and leaves".
This study is part of submission 19714
(Status: Published).
Taxa
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ID |
Taxon Label |
NCBI taxid |
uBIO namebankID |
2454042 |
Calonectria ilicicola CBS.190.50 GQ280605 |
182845
|
3175999
|
2454050 |
Calonectria naviculata CBS.101121 GQ280600 |
182846
|
3279739
|
2454039 |
Curvicladiella cignea CBS.101411 KM231744 |
|
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2454049 |
Curvicladiella cignea CBS.109168 KM231745 |
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2454046 |
Fusarium Annona spraguei BCI Drayton NE t1 JX243941 PS1001 |
|
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2454040 |
Fusarium C. insignis BCI Pearson NW t3 JX243941 PS0427 |
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2454045 |
Fusarium Cochlospermum vitifolium BCI Zetek NW t1 JX243941 PS0221 |
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2454041 |
Fusarium Trema micrantha bl BCI Armour SE t6 JX243941 PS0768 |
|
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2454051 |
Fusarium Trema micrantha bl BCI Armour SE t6 JX243941 PS0772 |
|
|
2454048 |
Gliocephalotrichum bulbilium CPC.23333 KF513275 |
358600
|
3209243
|
2454052 |
Gliocephalotrichum cylindrosporum CBS.903.70 KF513277 |
370296
|
3194137
|
2454043 |
Gliocephalotrichum longibrachium MUCL.46693 DQ278422 |
|
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2454044 |
Gliocladiopsis irregularis CBS.111131 JQ666061 |
147883
|
3278269
|
2454047 |
Gliocladiopsis pseudotenuis CBS.114763 JQ666062 |
|
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2454053 |
Gliocladiopsis sagariensis CBS.199.55 JQ666063 |
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2454038 |
Xenocylindrocladium guianense STE.U.3497 AF317349 |
149382
|
3368950
|
2454037 |
Xenocylindrocladium serpens STE.U.1144 AF220982 |
137510
|
3279178
|