Table 1 |
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|
Areas of research that should benefit from the P. anserina complete genome sequence |
||
| Original report |
Recent works that have benefited from the genome sequence |
|
|
|
||
| Ageing and cell degeneration |
[40,103] |
[104-106] |
| Cell death |
[79] |
[104,107] |
| Self/non-self recognition (vegetative incompatibility and hyphal interference) |
[76,79] |
[65] |
| Mating type and inter-nuclear recognition |
[108] |
[109] |
| Cell differentiation and cell signaling in filamentous fungi |
[110] |
[111] |
| Sexual reproduction in fungi |
[21] |
[64,111] |
| Mechanism of meiosis |
[22,112] |
|
| Meiotic drive |
[113] |
|
| Translation accuracy determinants and role |
[114] |
[115]; this paper |
| Mitochondrial physiology |
[116,117] |
[105] |
| Peroxisomal physiology and function |
[118] |
[119] |
| Prions and other protein-based inheritance |
[120,121] |
[106] |
| Biomass conversion |
This paper |
|
| Secondary metabolism |
[122] |
|
|
|
||
|
Espagne et al. Genome Biology 2008 9:R77 doi:10.1186/gb-2008-9-5-r77 |
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