Heterokaryosis, Mating-Type Factors, and Sexual Reproduction in Neurospora

Abstract The heterothallic group of the plant pathogen Phytophthora can sexually reproduce between the cross-compatible mating types A1 and A2. The mating hormone α2, produced by A2 mating type and utilized to promote the sexual reproduction of the partner A1 type, is known to be biosynthesized from phytol. In this study, we identified two biosynthetic intermediates, 11- and 16-hydroxyphytols (1 and 2), for α2 by administering the synthetic intermediates to an A2 type strain to produce α2 and by administering phytol to A2 strains to detect the intermediates in the mycelia. The results suggest that α2 is biosynthesized by possibly two cytochrome P450 oxygenases via two hydroxyphytol intermediates (1 and 2) in A2 hyphae and secreted outside.

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Genomic and Population Analyses of the Mating Type Loci in Coccidioides Species Reveal Evidence for Sexual Reproduction and Gene Acquisition

Eukaryotic Cell ◽

10.1128/ec.00117-07 ◽

2007 ◽

Vol 6 (7) ◽

pp. 1189-1199 ◽

Cited By ~ 65

Author(s):

M. Alejandra Mandel ◽

Bridget M. Barker ◽

Scott Kroken ◽

Steven D. Rounsley ◽

Marc J. Orbach

Keyword(s):

Sexual Reproduction ◽

Mating Type ◽

Mating Types ◽

Coccidioides Immitis ◽

Genome Sequences ◽

Valley Fever ◽

Population Analyses ◽

Gene Acquisition ◽

Close Proximity

ABSTRACT Coccidioides species, the fungi responsible for the valley fever disease, are known to reproduce asexually through the production of arthroconidia that are the infectious propagules. The possible role of sexual reproduction in the survival and dispersal of these pathogens is unexplored. To determine the potential for mating of Coccidioides, we analyzed genome sequences and identified mating type loci characteristic of heterothallic ascomycetes. Coccidioides strains contain either a MAT1-1 or a MAT1-2 idiomorph, which is 8.1 or 9 kb in length, respectively, the longest reported for any ascomycete species. These idiomorphs contain four or five genes, respectively, more than are present in the MAT loci of most ascomycetes. Along with their cDNA structures, we determined that all genes in the MAT loci are transcribed. Two genes frequently found in common sequences flanking MAT idiomorphs, APN2 and COX13, are within the MAT loci in Coccidioides, but the MAT1-1 and MAT1-2 copies have diverged dramatically from each other. Data indicate that the acquisition of these genes in the MAT loci occurred prior to the separation of Coccidioides from Uncinocarpus reesii. An analysis of 436 Coccidioides isolates from patients and the environment indicates that in both Coccidioides immitis and C. posadasii, there is a 1:1 distribution of MAT loci, as would be expected for sexually reproducing species. In addition, an analysis of isolates obtained from 11 soil samples demonstrated that at three sampling sites, strains of both mating types were present, indicating that compatible strains were in close proximity in the environment.

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Comparative Genomics Suggests Primary Homothallism of Pneumocystis Species

mBio ◽

10.1128/mbio.02250-14 ◽

2015 ◽

Vol 6 (1) ◽

Cited By ~ 26

Author(s):

João M. G. C. F. Almeida ◽

Ousmane H. Cissé ◽

Álvaro Fonseca ◽

Marco Pagni ◽

Philippe M. Hauser

Keyword(s):

Comparative Genomics ◽

Sexual Reproduction ◽

Mating Type ◽

Fungal Pathogens ◽

Pneumocystis Carinii ◽

Severe Pneumonia ◽

Genomic Region ◽

Pneumocystis Jirovecii ◽

Content Type

ABSTRACT Pneumocystis species are fungal parasites of mammal lungs showing host specificity. Pneumocystis jirovecii colonizes humans and causes severe pneumonia in immunosuppressed individuals. In the absence of in vitro cultures, the life cycle of these fungi remains poorly known. Sexual reproduction probably occurs, but the system of this process and the mating type (MAT) genes involved are not characterized. In the present study, we used comparative genomics to investigate the issue in P. jirovecii and Pneumocystis carinii, the species infecting rats, as well as in their relative Taphrina deformans. We searched sex-related genes using 103 sequences from the relative Schizosaccharomyces pombe as queries. Genes homologous to several sex-related role categories were identified in all species investigated, further supporting sexuality in these organisms. Extensive in silico searches identified only three putative MAT genes in each species investigated (matMc, matMi, and matPi). In P. jirovecii, these genes clustered on the same contig, proving their contiguity in the genome. This organization seems compatible neither with heterothallism, because two different MAT loci on separate DNA molecules would have been detected, nor with secondary homothallism, because the latter involves generally more MAT genes. Consistently, we did not detect cis-acting sequences for mating type switching in secondary homothallism, and PCR revealed identical MAT genes in P. jirovecii isolates from six patients. A strong synteny of the genomic region surrounding the putative MAT genes exists between the two Pneumocystis species. Our results suggest the hypothesis that primary homothallism is the system of reproduction of Pneumocystis species and T. deformans. IMPORTANCE Sexual reproduction among fungi can involve a single partner (homothallism) or two compatible partners (heterothallism). We investigated the issue in three pathogenic fungal relatives: Pneumocystis jirovecii, which causes severe pneumonia in immunocompromised humans; Pneumocystis carinii, which infects rats; and the plant pathogen Taphrina deformans. The nature, the number, and the organization within the genome of the genes involved in sexual reproduction were determined. The three species appeared to harbor a single genomic region gathering only three genes involved in sexual differentiation, an organization which is compatible with sexual reproduction involving a single partner. These findings illuminate the strategy adopted by fungal pathogens to infect their hosts.

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Mating type segregation in Choanephora cucurbitarum following sexual reproduction

Canadian Journal of Botany ◽

10.1139/b96-114 ◽

1996 ◽

Vol 74 (6) ◽

pp. 919-923 ◽

Cited By ~ 4

Author(s):

M. Q. Yu ◽

W. H. Ko

Keyword(s):

Sexual Reproduction ◽

Mating Type ◽

Long Term Storage ◽

Respective Parent ◽

Choanephora Cucurbitarum ◽

The Cross ◽

Term Storage ◽

Hyphal Fragment

Zygospore progeny from the cross between + and − isolates of Choanephora cucurbitarum consisted of +, −, and ± types. The + and − zygospore isolates were stable, giving rise to hyphal fragment cultures and sporangiospores with the same mating type as their respective parent. However, the ± zygospore isolates were unstable, segregating to +, −, and ± types during asexual propagations. During long-term storage, the + and − isolates were also very stable, but ± isolates were not. All the ± isolates originating from single zygospores, hyphal fragments, or sporangiospores produced azygospores, suggesting that azygospores of this fungus are produced by mating-type heterokaryotic mycelia. Keywords: azygospore, Choanephora cucurbitarum, germsporangiospore, germsporangium, zygospore germination.

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Identification of the Mating-Type (MAT) Locus That Controls Sexual Reproduction of Blastomyces dermatitidis

Eukaryotic Cell ◽

10.1128/ec.00249-12 ◽

2012 ◽

Vol 12 (1) ◽

pp. 109-117 ◽

Cited By ~ 27

Author(s):

Wenjun Li ◽

Thomas D. Sullivan ◽

Eric Walton ◽

Anna Floyd Averette ◽

Sharadha Sakthikumar ◽

...

Keyword(s):

Sexual Reproduction ◽

Mating Type ◽

Genetic Recombination ◽

Sexual Cycle ◽

Blastomyces Dermatitidis ◽

Comparative Genomic ◽

Dimorphic Fungi ◽

Content Type ◽

Long Time ◽

Northern United States

ABSTRACTBlastomyces dermatitidisis a dimorphic fungal pathogen that primarily causes blastomycosis in the midwestern and northern United States and Canada. While the genes controlling sexual development have been known for a long time, the genes controlling sexual reproduction ofB. dermatitidis(teleomorph,Ajellomyces dermatitidis) are unknown. We identified the mating-type (MAT) locus in theB. dermatitidisgenome by comparative genomic approaches. TheB. dermatitidis MATlocus resembles those of other dimorphic fungi, containing either an alpha-box (MAT1-1) or an HMG domain (MAT1-2) gene linked to theAPN2,SLA2, andCOX13genes. However, in some strains ofB. dermatitidis, theMATlocus harbors transposable elements (TEs) that make it unusually large compared to theMATlocus of other dimorphic fungi. Based on theMATlocus sequences ofB. dermatitidis, we designed specific primers for PCR determination of the mating type. TwoB. dermatitidisisolates of opposite mating types were cocultured on mating medium. Immature sexual structures were observed starting at 3 weeks of coculture, with coiled-hyphae-containing cleistothecia developing over the next 3 to 6 weeks. Genetic recombination was detected in potential progeny by mating-type determination, PCR-restriction fragment length polymorphism (PCR-RFLP), and random amplification of polymorphic DNA (RAPD) analyses, suggesting that a meiotic sexual cycle might have been completed. The F1 progeny were sexually fertile when tested with strains of the opposite mating type. Our studies provide a model for the evolution of theMATlocus in the dimorphic and closely related fungi and open the door to classic genetic analysis and studies on the possible roles of mating and mating type in infection and virulence.

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Sexual reproduction between partners of the same mating type in Cryptococcus neoformans

Nature ◽

10.1038/nature03448 ◽

2005 ◽

Vol 434 (7036) ◽

pp. 1017-1021 ◽

Cited By ~ 293

Author(s):

Xiaorong Lin ◽

Christina M. Hull ◽

Joseph Heitman

Keyword(s):

Sexual Reproduction ◽

Cryptococcus Neoformans ◽

Mating Type

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Mating-type specific ribosomal proteins control aspects of sexual reproduction in Cryptococcus neoformans

10.1101/777102 ◽

2019 ◽

Author(s):

Giuseppe Ianiri ◽

Yufeng “Francis” Fang ◽

Tim A. Dahlmann ◽

Shelly Applen Clancey ◽

Guilhem Janbon ◽

...

Keyword(s):

Sexual Reproduction ◽

Cryptococcus Neoformans ◽

Mating Type ◽

Ribosomal Proteins ◽

Gene Replacement ◽

Mutant Strains ◽

Targeted Gene Replacement ◽

Mating Type Genes ◽

Mendelian Analysis ◽

Dependent Mechanism

AbstractThe MAT locus of Cryptococcus neoformans has a bipolar organization characterized by an unusually large structure, spanning over 100 kb. MAT genes have been characterized by functional genetics as being involved in sexual reproduction and virulence. However, classical gene replacement failed to achieve mutants for five MAT genes (RPL22, RPO41, MYO2, PRT1, RPL39), indicating that they are likely essential. In the present study, targeted gene replacement was performed in a diploid strain for both the α and a alleles of the ribosomal genes RPL22 and RPL39. Mendelian analysis of the progeny confirmed that both RPL22 and RPL39 are essential for viability. Ectopic integration of the RPL22 allele of opposite MAT identity in the heterozygous RPL22a/rpl22αΔ or RPL22α/rpl22aΔ mutant strains failed to complement their essential phenotype. Evidence suggests that this is due to differential expression of the RPL22 genes, and an RNAi-dependent mechanism that contributes to control RPL22a expression. Furthermore, via CRISPR/Cas9 technology the RPL22 alleles were exchanged in haploid MATα and MATa strains of C. neoformans. These RPL22 exchange strains displayed morphological and genetic defects during bilateral mating. These results contribute to elucidate functions of C. neoformans essential mating type genes that may constitute a type of imprinting system to promote inheritance of nuclei of both mating types.

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Invasion and extinction dynamics of mating types under facultative sexual reproduction

10.1101/632927 ◽

2019 ◽

Cited By ~ 1

Author(s):

Peter Czuppon ◽

George W. A. Constable

Keyword(s):

Sexual Reproduction ◽

Mating Type ◽

Average Rate ◽

Natural Populations ◽

Null Model ◽

Mating Types ◽

Stationary Probability Distribution ◽

Time To Extinction ◽

Establishment Probability ◽

Mean Time

AbstractIn sexually reproducing isogamous species, syngamy between gametes is generally not indiscriminate, but rather restricted to occurring between complementary self-incompatible mating types. A longstanding question regards the evolutionary pressures that control the number of mating types observed in natural populations, which ranges from two to many thousands. Here, we describe a population genetic null model of this reproductive system and derive expressions for the stationary probability distribution of the number of mating types, the establishment probability of a newly arising mating type and the mean time to extinction of a resident type. Our results yield that the average rate of sexual reproduction in a population correlates positively with the expected number of mating types observed. We further show that the low number of mating types predicted in the rare-sex regime is primarily driven by low invasion probabilities of new mating type alleles, with established resident alleles being very stable over long evolutionary periods. Moreover, our model naturally exhibits varying selection strength dependent on the number of present mating types. This results in higher extinction and lower invasion rates for an increasing number of residents.

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