Role of Horizontal Gene Transfer in the Evolution of Fungi.
@article{Rosewich2000RoleOH,
title={Role of Horizontal Gene Transfer in the Evolution of Fungi.},
author={U Liane Rosewich and H. Corby Kistler},
journal={Annual review of phytopathology},
year={2000},
volume={38},
pages={
325-363
}
}Although evidence for horizontal gene transfer (HGT) in eukaryotes remains largely anecdotal, literature on HGT in fungi suggests that it may have been more important in the evolution of fungi than in other eukaryotes. Still, HGT in fungi has not been widely accepted because the mechanisms by which it may occur are unknown, because it is usually not directly observed but rather implied as an outcome, and because there are often equally plausible alternative explanations. Despite these…
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References
SHOWING 1-10 OF 169 REFERENCES
Lateral transfer in natural populations of eukaryotes.
- BiologyAnnual review of genetics
- 1993
The importance of lateral transfers for host organisms must await answers to more general questions about the long-term evolutionary significance of mobile elements and the extent to which they can act as vectors for host genomic sequences.
Independent transfer of mitochondrial chromosomes and plasmids during unstable vegetative fusion in Neurospora
- BiologyNature
- 1990
Experimental evidence for transfer of Neurospora mitochondrial plasmids from one mitochondrial genotype to another at high frequency during unstable vegetative cell fusion is reported, suggesting that vegetative fusion may have a more important role in the mitochondrial genetic structure of natural populations than is generally thought.
Horizontal gene transfer among genomes: the complexity hypothesis.
- BiologyProceedings of the National Academy of Sciences of the United States of America
- 1999
It is proposed that a major factor in the more frequent horizontal transfer of operational genes is that informational genes are typically members of large, complex systems, whereas operational genes are not, thereby making horizontalTransfer of informational gene products less probable (the complexity hypothesis).
Genetic exchange between bacteria in the environment.
- BiologyPlasmid
- 1999
Understanding of the role of horizontal gene transfer in the environment is essential for the evaluation of the possible consequences of the deliberate environmental release of natural or recombinant bacteria for agricultural and bioremediation purposes.
Recurrent invasion and extinction of a selfish gene.
- Biology, Environmental ScienceProceedings of the National Academy of Sciences of the United States of America
- 1999
The data support a cyclical model of invasion, degeneration, and loss, followed by reinvasion, and each of these transitions is estimated to occur about once every 2 million years, consistent with the idea that frequent horizontal transmission is necessary for the long-term persistence of homing endonuclease genes.
Transposons in filamentous fungi—facts and perspectives
- BiologyBioEssays : news and reviews in molecular, cellular and developmental biology
- 1998
This work focuses on the potential of transposons for tagging and identifying fungal genes, and presents structural and functional features for such transposon that have been identified so far in filamentous fungi.
Interspecific transfer of mitochondrial genes in fungi and creation of a homologous hybrid gene.
- BiologyProceedings of the National Academy of Sciences of the United States of America
- 1994
It is shown that the mitochondrial genome of a lower fungus has an extra DNA segment not present in a close relative, Allomyces arbusculus, which may have been acquired by interspecific transfer and the possible role of the endonuclease is discussed.
The Concept of Pathogenicity Islands
- Biology
- 1999
It is now accepted that the generation of PAIs often starts with the integration of plasmids, phages, conjugative transposons, or cointegrates of these into specific target genes, preferentially on the chromosomes.
Selfish operons: horizontal transfer may drive the evolution of gene clusters.
- BiologyGenetics
- 1996
A model is presented whereby the formation of gene clusters in bacteria is mediated by transfer of DNA within and among taxa, and predicts a mosaic structure of modern genomes in which ancestral chromosomal material is interspersed with novel, horizontally transferred operons providing peripheral metabolic functions.
Explosive invasion of plant mitochondria by a group I intron.
- BiologyProceedings of the National Academy of Sciences of the United States of America
- 1998
Southern-blot surveys of 335 diverse genera of land plants show that this group I intron is in fact widespread among angiosperm cox1 genes, but with an exceptionally patchy phylogenetic distribution.