Grognet_2014_Genetics_197_421

Reference

Title : Maintaining two mating types: structure of the mating type locus and its role in heterokaryosis in Podospora anserina - Grognet_2014_Genetics_197_421
Author(s) : Grognet P , Bidard F , Kuchly C , Tong LC , Coppin E , Benkhali JA , Couloux A , Wincker P , Debuchy R , Silar P
Ref : Genetics , 197 :421 , 2014
Abstract :

Pseudo-homothallism is a reproductive strategy elected by some fungi producing heterokaryotic sexual spores containing genetically different but sexually compatible nuclei. This lifestyle appears as a compromise between true homothallism (self-fertility with predominant inbreeding) and complete heterothallism (with exclusive outcrossing). However, pseudohomothallic species face the problem of maintaining heterokaryotic mycelia to fully benefit from this lifestyle, as homokaryons are self-sterile. Here, we report on the structure of chromosome 1 in mat+ and mat- isolates of strain S of the pseudohomothallic fungus Podospora anserina. Chromosome 1 contains either one of the mat+ and mat- mating types of P. anserina, which is mostly found in nature as a mat+/mat- heterokaryotic mycelium harboring sexually compatible nuclei. We identified a "mat" region approximately 0.8 Mb long, devoid of meiotic recombination and containing the mating-type idiomorphs, which is a candidate to be involved in the maintenance of the heterokaryotic state, since the S mat+ and S mat- strains have different physiology that may enable hybrid-vigor-like phenomena in the heterokaryons. The mat region contains 229 coding sequences. A total of 687 polymorphisms were detected between the S mat+ and S mat- chromosomes. Importantly, the mat region is colinear between both chromosomes, which calls for an original mechanism of recombination inhibition. Microarray analyses revealed that 10% of the P. anserina genes have different transcriptional profiles in S mat+ and S mat-, in line with their different phenotypes. Finally, we show that the heterokaryotic state is faithfully maintained during mycelium growth of P. anserina, yet mat+/mat+ and mat-/mat- heterokaryons are as stable as mat+/mat- ones, evidencing a maintenance of heterokaryosis that does not rely on fitness-enhancing complementation between the S mat+ and S mat- strains.

PubMedSearch : Grognet_2014_Genetics_197_421
PubMedID: 24558260
Gene_locus related to this paper: podan-a0a090d4h4 , podan-a0a090ccl8 , podan-b2azp1 , podan-b2af75 , podan-b2alm5 , podan-b2ass5 , podan-b2aez8 , podan-kex1 , podan-cbpya

Related information

Gene_locus podan-a0a090d4h4    podan-a0a090ccl8    podan-b2azp1    podan-b2af75    podan-b2alm5    podan-b2ass5    podan-b2aez8    podan-kex1    podan-cbpya

Citations formats

Grognet P, Bidard F, Kuchly C, Tong LC, Coppin E, Benkhali JA, Couloux A, Wincker P, Debuchy R, Silar P (2014)
Maintaining two mating types: structure of the mating type locus and its role in heterokaryosis in Podospora anserina
Genetics 197 :421

Grognet P, Bidard F, Kuchly C, Tong LC, Coppin E, Benkhali JA, Couloux A, Wincker P, Debuchy R, Silar P (2014)
Genetics 197 :421