Isolation and characterization of a sporeless mutant in Pleurotus eryngii

A sporeless mutant dikaryon, completely defective in sporulation, was isolated from mycelial protoplasts of Pleurotus eryngii mutagenized by UV irradiation. Newly established dikaryons between one component monokaryon from the mutant, and 12 different wild type monokaryons from 3 other wild type dikaryons, all exhibited the sporeless phenotype, whereas those between the other monokaryon and the same wild type monokaryons all produced normal fruiting bodies. These results indicated that the sporeless mutation was induced in one of two nuclei of the mutant and was dominant. In the wild type basidia, the pattern of nuclear behavior during sporulation corresponded to the pattern C nuclear behavior as defined by Duncan and Galbraith. Cytological observation revealed that in the sporeless mutant meiosis was blocked at the meta-anaphase I in most basidia and hence basidiospores and sterigmata were not produced. Although fruiting bodies of the sporeless mutant showed a somewhat leaning growth, their gross morphology and its fruiting body productivity were comparable to that of the original wild type strain. Based on these results, it was considered that the sporeless mutant could serve as a potential material in breeding of sporeless P. eryngii commercial strains.     

SC3 and SC4 hydrophobins have distinct roles in formation of aerial structures in dikaryons of Schizophyllum commune

Two monokaryons of Schizophyllum commune can form a fertile dikaryon when the mating-type genes differ. Monokaryons form sterile aerial hyphae, while dikaryons also form fruiting bodies that function in sexual reproduction. The SC3 hydrophobin gene is expressed both in monokaryons and in dikaryons. The SC4 hydrophobin is dikaryon specific. In the monokaryon, SC3 lowers the water surface tension, coats aerial hyphae with a hydrophobic layer and mediates attachment of hyphae to hydrophobic surfaces. The SC4 protein lines gas channels within fruiting bodies with a hydrophobic membrane. Using gene disruptions, in this study, we show that in dikaryons SC3 fulfils the same roles as in monokaryons. SC4, on the other hand, has a role within fruiting bodies. In contrast to gas channels in fruiting bodies of the wild type, those of a DeltaSC4 strain easily filled with water. Thus, SC4 prevents gas channels filling with water under wet conditions, probably serving uninterrupted gas exchange. Other dikaryon-specific hydrophobin genes, SC1 and SC6, apparently do not substitute for the SC4 gene. In addition, by expressing the SC4 gene behind the SC3 promoter in a DeltaSC3 monokaryon, it was shown that SC4 cannot fully substitute for SC3, indicating that both hydrophobins evolved to fulfil specific functions.     

Mutants ofPleurotus florida deficient in sporulation

Summary Inheritable sporulation-deficient dikaryons were obtained through pairing compatible monokaryons. The morphological character of centralized stipes of sporulation-deficient fruit bodies was remarkable and enable them to be distinguished from sporulating ones. Light and electron microscopy showed neither spores nor sterigmata on the surface of most basidia. However, in rare cases, some basidia, always clustering in a number of a few to tens, had one abortive spore on each basidium. No mature spores were found. Genetic analysis of sporulation deficiency was carried out by test-crosses. Results suggest that sporulation-deficient mutant inP. florida is rather complex and might be controlled by two recessive genes. The recovery of four mating types in spores obtained from the dikaryotic fruit body used for test-crosses, and the presence of four nuclei on the apex of basidia of sporulation-deficient strain indicated that the process of meiosis had occurred in this sporulation-deficient mutant.

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Mutants de Pleurotus florida déficients en sporulation

Résumé Des dikaryons à sporulation déficiente héritable ont été obtenus en accouplant des monokaryons compatibles. Le caractère morphologique des tiges centralisées des corps fruitaux déficients en sporulation est remarquable et permet de les distinguer de ceux sporulants. La microscopie optique ou électronique ne montre mi spores ni stérigmates sur la surface de la plupart des basidia. Toutefois, dans quelques rares cas, quelques basidia, toujours agglutinés par groupe de quelques unités à quelques dizaines d'unités, ont une spore avortée sur chaque basidium. On ne trouve pas de spores mûres. L'analyse génétique de la déficience en sporulation a été réalisée par des tests de croisements. Les résultats suggèrent que la mutation de déficience en sporulation chezP. florida est plutôt complexe et pourrait bien être contrôlée par deux gènes récessifs. L'obtention de quatre types d'accouplement chez les spores obtenues du corps fruital dikaryotique utilisé pour les tests de croisements, et la présence de quatre noyaux dans l'apex des basidia de la souche déficiente en sporulation, suggère que le processus de méiose se passe bien chez le mutant déficient en sporulation.

     

Life history and developmental processes in the basidiomycete Coprinus cinereus.

Coprinus cinereus has two main types of mycelia, the asexual monokaryon and the sexual dikaryon, formed by fusion of compatible monokaryons. Syngamy (plasmogamy) and karyogamy are spatially and temporally separated, which is typical for basidiomycetous fungi. This property of the dikaryon enables an easy exchange of nuclear partners in further dikaryotic-monokaryotic and dikaryotic-dikaryotic mycelial fusions. Fruiting bodies normally develop on the dikaryon, and the cytological process of fruiting-body development has been described in its principles. Within the specialized basidia, present within the gills of the fruiting bodies, karyogamy occurs in a synchronized manner. It is directly followed by meiosis and by the production of the meiotic basidiospores. The synchrony of karyogamy and meiosis has made the fungus a classical object to study meiotic cytology and recombination. Several genes involved in these processes have been identified. Both monokaryons and dikaryons can form multicellular resting bodies (sclerotia) and different types of mitotic spores, the small uninucleate aerial oidia, and, within submerged mycelium, the large thick-walled chlamydospores. The decision about whether a structure will be formed is made on the basis of environmental signals (light, temperature, humidity, and nutrients). Of the intrinsic factors that control development, the products of the two mating type loci are most important. Mutant complementation and PCR approaches identified further genes which possibly link the two mating-type pathways with each other and with nutritional regulation, for example with the cAMP signaling pathway. Among genes specifically expressed within the fruiting body are those for two galectins, beta-galactoside binding lectins that probably act in hyphal aggregation. These genes serve as molecular markers to study development in wild-type and mutant strains. The isolation of genes for potential non-DNA methyltransferases, needed for tissue formation within the fruiting body, promises the discovery of new signaling pathways, possibly involving secondary fungal metabolites.     

Growth and ultrastructural studies on the mitochondrial mutant of Coprinus lagopus

The cytoplasmic acu-10 mutant of Corprinus lagopus has a respiratory deficiency due to an altered cytochrome component and is slower growing than wild type. When growth of wild type and acu-10 monokaryons and dikaryons were compared on solid medium and in liquid culture the mutation was found to restrict growth of the dikaryon more severely than that of the monokaryon. Ultrastructural studies revealed that faster growth of the acu-10 monokaryon occurred at the expense of maintaining the cytoplasmic cell contents and with little increase in the numbers of mitochondria. Cells of the acu-10 dikaryon were comparatively unvacuolated and contained greatly increased numbers of mitochondria. Mitochondria in cells of the mutant had a typical orthodox conformation with clear matrix and well defined cristae. In contrast, mitochondria in wild type cells had a more compact and elongated shape with dense matrix and less obvious cristae. The observed difference in mitochondrial ultrastructure is interpreted as one of conformation rather than structure and is attributed to impaired ability of mutant mitochondria to carry out oxidative phosphorylation. In an old cell of the mutant the mitochondria showed signs of recovering the wild type conformation.     

Isolation and characterization of recessive sporeless mutants in the basidiomycete Coprinus cinereus

Summary Twenty-four sporeless mutants were isolated from an Amut Bmut strain (mutant in the incompatibility factors) of the basidiomycete Coprinus cinereus. All the sporeless mutations were recessive to the wild type. These mutants and a previously isolated recessive sporeless strain, N2-7 (Kanda and Ishikawa 1986) were crossed with a wildtype strain. An F1 random spore analysis indicated that sporulation deficiencies in these mutants were caused by single nuclear gene mutations. These mutations were all complementary to each other, thus twenty-five sporulation genes were identified. Five of them were linked to the A incompatibility factor. Cytological observations classified these mutants into the following four types according to the stage of the blockage: (1) meiosis stopped at meta-anaphase I; (2) meiosis was completed, but further basidial development did not occur; (3) basidial development stopped at the sterigma stage; (4) basidial development stopped at the prespore stage.     

Genetical variability of glutamate dehydrogenase activity in monokaryotic and dikaryotic mycelia of the ectomycorrhizal fungus Hebeloma cylindrosporum

Summary Glutamate dehydrogenase (GDH) is the key enzyme of ammonium assimilation by ectomycorrhizal fungi. Its activity might be use as a criterion to select mycelia capable of enhancing the nitrogen nutrition of the host plants. Genetical variability of the GDH activity of the ectomycorrhizal fungus Hebeloma cylindrosporum Romagnési was studied in an attempt to determine if this enzyme activity could be improved by way of chromosomal genetics. The activity of 11 wild strains was compared with that of 70 mycelia obtained as the progeny of a laboratory fruiting strain HC1. These 70 mycelia were 20 monokaryons (5 for each mating type) and the 50 synthesized dikaryons obtained from all the compatible fusions between these monokaryons. The specific GDH activity of the 11 wild strains ranged from 1.5 to 11.6 nkat mg^-1 fungal protein. The activity of the monokaryotic progeny of the HC1 strain was, on average, three times lower (2.85 n kat mg^-1 fungal protein) than that of the parental dikaryon. In contrast, synthesized dikaryons originating from these monokaryons were very variable and had an average values similar to that of the parental dikaryon (9.1 nkat mg^-1 fungal protein). Eighteen of these synthesized dikaryons contained an activity higher than that of the original HC1 strain. The variation of the GDH activity of these dikaryons involves additive and non additive (interactive) components, each of them accounting for ca. 50% of the genetical variation. The non additive variation could not be explained by a model involving only dominance. These results are discussed with reference to the genetical improvement of mycorrhizal fungi in order to enhance nitrogen nutrition of the host plants.Abbreviations GDH glutamate dehydrogenase - IAA indole-3-acetic acid - NADP nicotimamide adenine dinucleotide phosphate     

Development of SCAR Markers to Determine the Mating Types of Lepista nuda Protoplast Monokaryons

Lepista nuda (Bull. ex Fr.) Cooke belongs to Tricholomataceae and is an edible fungus with both economic and medical value. Mycelia were isolated from the fruiting bodies of L. nuda and were used to prepare the protoplast monokaryons. One hundred and fifteen monokaryons were obtained and their mating types were determined using somatic incompatibility tests. Protoplast monokaryons segregated into either the A₁B₁ or the A₂B₂ mating types. Inter-simple sequence repeats and sequence-related amplified polymorphism fingerprinting were used to analyse the mating types of these protoplast monokaryons and 16 sequence-characterised amplified region primers were developed to efficiently differentiate between the monokaryon mating types. Multiplex PCR analyses were also established. The data presented here outline a method for the precise and rapid identification of protoplast monokaryon mating types, which has the promise to shorten the period required for conventional crossbreeding.     

基于等位基因InDel快速检测黑木耳原生质体单核体

以黑木耳 Auricularia auricula-judae栽培菌株Au916三磷酸甘油醛脱氢酶（GAPDH）两个等位基因中的InDel为基础,以原生质体再生菌株为研究材料,建立了基于InDel的黑木耳原生质体单核体检测技术,并采用荧光显微镜检和配对试验对此方法进行了验证。应用InDel能清晰地区分黑木耳双核体和两种原生质体单核体,且不同的单核体之间可以进行交配,其杂交双核体能正常出耳,结果表明基于等位基因InDel标记可以快速准确地检测黑木耳原生质体单核体。在大规模测序获得真菌基因组信息的基础上,InDel标记在原生质体单核体鉴定中的应用将更加普遍。     

Rapid detection for sporeless trait from <Emphasis Type="Italic">Pleurotus pulmonarius</Emphasis> culture extracts by using real-time PCR

The release and spread of a large number of basidiospores from the developing fruiting body cause serious problems in the cultivation of edible mushrooms, including Pleurotus pulmonarius (Fr.) Quel. The P. pulmonarius sporeless mutant, TMIC-30058, has a high potential for breeding sporeless cultivars to reduce these adverse effects. Our previous study (Okuda et al. in Breeding Science 59:315–319, 2009) showed two sequence-tagged site (STS) markers for the sporeless trait from this mutant. Here, using these STS markers we present rapid detection of sporeless trait from P. pulmonarius culture extracts by real-time PCR. This method enables us to cut down time and labor for screening of the sporeless trait, suggesting its availability for efficient breeding of sporeless cultivars.     

The A mating-type genes of the mushroom Coprinus cinereus are not differentially transcribed in monokaryons and dikaryons

Summary The A mating type factor of Coprinus cinereus regulates part of a developmental sequence that leads to the conversion of the asexual monokaryon into the fertile dikaryon. The A42 factor is a complex of seven genes, at least four of which are involved in determining the specificity of mating interactions. In this report we show that the A42 genes are constitutively expressed in both monokaryons and dikaryons. This has important implications with respect to intracellular recognition of a compatible mating, which requires an interaction between proteins already present within the cells of the mating partners, and for the subsequent maintenance of dikaryotic growth.     

Fungal fidelity: Nuclear divorce from a dikaryon by mating or monokaryon regeneration

Basidiomycete fungi perform fertilizations by incorporation of nuclei into a monokaryotic mycelium to establish a dikaryon. The dikaryon cannot incorporate another type of nucleus, but can still act as a nucleus donor in a dikaryon–monokaryon (di–mon) mating, known as the Buller phenomenon. Previously, it has been observed that: (1) in a particular di–mon mating, one of the nuclear types of the dikaryon generally performs better as a donor than the other, and (2) when nuclei from a dikaryon are separated to form monokaryons again (dedikaryotisation), recovery of monokaryons of the two nuclear types is usually unequal. In this study, we investigated if these two observations of asymmetry are functionally related. We tested this hypothesis by performing both di–mon matings and dedikaryotisation of dikaryons derived from five different monokaryons. When a single mechanism controls both processes, the nucleus better at fertilizing a monokaryon in a Buller pairing should also be recovered upon dedikaryotisation with a higher frequency. The results showed a hierarchical structure for recovery among nuclei in dedikaryotisation, but this hierarchy did not correspond to the fertilization success during di–mon mating. These findings thus show that the mechanism causing asymmetric regeneration of nuclei, is most likely not the same as the mechanism responsible for increased chance of fertilization in di–mon matings. We discuss the complexity of the interactions that occur during di–mon matings with regards to the mating type loci.     

人工疏蕾对杏鲍菇产量及品质的影响

【背景】工厂化栽培中,杏鲍菇是不定点出菇,通常采用人工疏蕾的方法来实现对子实体数目的控制,但目前关于人工疏蕾保留子实体的数目无具体的研究。【目的】通过人工疏蕾的方式,研究保留不同子实体数目对杏鲍菇产量及品质的影响。【方法】对各处理组进行基质利用情况测定,对采收后各组子实体进行产量、形态指标及质构特性的测定。【结果】保留3—4个子实体的基质利用率较高,在生产实际中对成本的浪费较少;保留不同子实体数目对子实体形态指标、单菇重量及单包产量都有显著影响,保留1个子实体时,单菇重量最大但单包产量最低,保留4个子实体时,单包产量较高且子实体形态一致;从质构特性来看,保留子实体数目为4个时,杏鲍菇子实体品质最好、口感最佳。【结论】在杏鲍菇工厂化生产的人工疏蕾环节,保留子实体数目为3—4个时可以减少对成本的浪费,获得产量较高、品质较好的产品。     

Influence of activated<Emphasis Type="Italic"> A</Emphasis> and<Emphasis Type="Italic"> B</Emphasis> mating-type pathways on developmental processes in the basidiomycete<Emphasis Type="Italic"> Coprinus cinereus</Emphasis>

The A and B mating type pathways in Coprinus cinereus monokaryons can be activated by transformation with cloned genes from strains of compatible mating types. The presence of heterologous A mating-type genes (Aon) induces production of submerged chlamydospores, hyphal knots and sclerotia in cultures kept in the dark. Upon illumination of transformants of certain strains (218), fruiting body primordia may develop that arrest before karyogamy. Furthermore, formation of aerial spores (oidia) is repressed by the action of A mating type genes in the dark, but light overrides this repression. Heterologous B mating type genes enhance the effects of the A genes on developmental processes, and partially repress the negative action of light on A-mediated regulation of development. Most notably, A-induced fruiting occurs more efficiently and earlier when the B mating type pathway is also active (Bon). However, activation of the B pathway alone is not sufficient to induce fruiting. Unlike A-activated transformants, A+ B-activated transformants of monokaryon 218 form mature fruiting bodies. Therefore, the B genes control fruiting body maturation at the stage of karyogamy. Basidia within the fruiting bodies that were analysed contained four spores in a typical post-meiotic arrangement. In the absence of an activated A mating type pathway, B mating type genes cause deformation and hyperbranching of vegetative hyphae, a reduction in aerial mycelium, and invasion of the agar substrate - a phenotype resembling the "flat" phenotype known from B-activated Schizophyllum commune strains. B-activated transformants usually show enhanced production of chlamydospores and hyphal knots, but maturation of sclerotia is variably efficient. Activation of the B mating type pathway in monokaryons blocked acceptance of nuclei, but not activation of the A mating type pathway.     

Taxonomic position of a Chinese <Emphasis Type="Italic">Pleurotus</Emphasis> “Bai-Ling-Gu”: it belongs to <Emphasis Type="Italic">Pleurotus eryngii</Emphasis> (DC.: Fr.) Quél. and evolved independently in China

The Chinese Bai-Ling-Gu is a mushroom named Pleurotus eryngii var. tuoliensis C.J. Mou. This species has been identified as P. nebrodensis or P. eryngii var. nebrodensis. We examined its taxonomic position by analysis of mating, cultivation, and rDNA sequences, and concluded as follows. (1) Bai-Ling-Gu mated with P. eryngii var. eryngii, and the F₁ and F₂ formed fruit bodies. (2) Bai-Ling-Gu mated with P. eryngii var. ferulae, and the F₁ formed fruit bodies. (3) In the di-mon mating test, P. eryngii var. nebrodensis from Sicily mated with monokaryons of P. eryngii var. eryngii but mated hardly at all with those of Bai-Ling-Gu and P. eryngii var. ferulae. The di-mon mating pattern of Bai-Ling-Gu resembled those of P. eryngii var. ferulae. (4) The partial sequences of rDNA ITS1 and IGS1 from the epitype of P. nebrodensis were identical with those from P. eryngii var. nebrodensis from Sicily but differed from those from Bai-Ling-Gu. (5) The strains of P. eryngii var. eryngii and P. eryngii var. ferulae were in a group, the strains of P. eryngii var. nebrodensis from Sicily were in another group, and the strains of Bai-Ling-Gu were in the other group in both the phylogenetic trees based on the ITS1 and the IGS1 sequences. These results led to the conclusion that Bai-Ling-Gu is a variety of P. eryngii and evolved independently in China. It is satisfactory to identify Bai-Ling-Gu with P. eryngii var. tuoliensis C.J. Mou.     

Improvement of Bioinsecticides Production by Sporeless <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Strains in Response to Various Stresses in Low Cost Medium

The use of bioinsecticides, particularly those produced by sporeless Bacillus thuringiensis strains, has been shown to be a good alternative in pest management. Two types of sporeless mutants were distinguished. The asporogenic mutants which completely lack spores produce a regular bipyramidal crystal inclusion. The oligosporogenic mutants kept the ability to produce insecticidal crystal proteins. However, sporulation in such mutants was not totally blocked and very few of them could still produce spores. In order to improve bioinsecticides production, adaptation of sporeless strains to heat shock and osmotic stress was investigated. Delta-endotoxin production by 78% of sporeless mutants was significantly improved by osmotic stress with an overproduction of about 17%, compared to the wild strain BNS3. However, toxin production was improved by only 21% of mutants after heat shock, in low cost medium. The statistical analysis proved that delta-endotoxin production, cell growth, and spore formation of asporogenic and oligosporogenic mutants depended on the type of applied stress. Each strain has an important potential when applying the adequate stress. Moreover, adaptation of sporeless mutants to NaCl may allow the substitution of all minerals of the medium by diluted sea water which appeared to be a good alternative for the economic production of bioinsecticides at industrial scale which is of great importance from the practical point of view.     

Two genes specifically expressed in fruiting dikaryons of Schizophyllum commune: homologies with a gene not regulated by mating-type genes

The nucleotide (nt) sequences of the Sc3 and Sc4 genes of the filamentous fungus Schizophyllum commune, and the deduced amino acid (aa) sequences, were determined; moreover, the previously published sequence for the ScI gene [Dons et al., EMBO J. 3 (1984) 2101–2106] was corrected. All three independently isolated genes were found to have similar structures and nt sequences of their coding regions. At the aa level the homology is 43–62% (63–69% in the C-terminal parts of the proteins), the hydrophobic aa predominate and the hydrophobicity patterns are similar. All three proteins contain leader sequences and eight cysteines among about 110 aa, conserved at the same positions. Yet these genes are differentially regulated: Sc1 and Sc4 are only expressed at high levels in fruiting dikaryons, whereas Sc3 is highly expressed in both monokaryons and dikaryons, independent from fruiting.     

Changes in isozyme patterns between monokaryons and dikaryons of a bipolar Coprinus

Proteins and isozymes of several different classes of enzymes in partially purified protein extracts of monokaryons, dikaryons, and monokaryon mixtures of a bipolar Coprinus sp. were separated on polyacrylamide gels by slab electrophoresis. Differences in protein and isozyme spectra were correlated with the operation of the incompatibility factors and with the results of Wang and Raper on Schizophyllum. It was concluded that the shift from monokaryon to dikaryon mediated a major change in the nature, quantity, or distribution of the proteins of this Coprinus sp.     

Dikaryotic fruiting body development in a single dikaryon of <Emphasis Type="Italic">Agrocybe aegerita</Emphasis> and the spectrum of monokaryotic fruiting types in its monokaryotic progeny

Using monokaryotic offspring from several dikaryotic parental strains, the phenomenon of monokaryotic fruiting has been previously analysed in the commercially cultivated high-quality edible mushroom Agrocybe aegerita, revealing a variety of monokaryotic fruiting types. Here, we report a single dikaryotic A. aegerita strain, A. aegerita AAE-3, and 40 monokaryons derived from it, which exhibit a wide spectrum of monokaryotic fruiting types, including a rare, previously unknown type. Advantageously, the selected parental strain A. aegerita AAE-3 completes its life cycle within three weeks by the formation of dikaryotic fruiting bodies of typical agaric morphology on malt extract agar plates. In order to morphologically compare normal dikaryotic fruiting to monokaryotic fruiting, histology was performed from all dikaryotic fruiting body development stages and all fruiting types of monokaryotic origin. No clamp connections or dikaryotic hyphae were observed within the plectenchyma of monokaryotic fruiting stages. Among the monokaryotic fruiting types of the A. aegerita AAE-3-derived monokaryons, we also characterised the rare ‘stipe type’ here described as ‘elongated initials type’ as no differentiation into a future cap and stipe was seen. The two mating-compatible monokaryotic strains representing the extremes of the fruiting type spectrum observed, A. aegerita AAE-3-13 (‘mycelium type’) and A. aegerita AAE-3-32 (‘abortive?+?true homokaryotic fruiting fruiter type, AHF?+?THF fruiter type’), were also found to readily produce oidia (arthrospores). In order to obtain a set of mating-compatible monokaryons covering the whole observed spectrum of monokaryotic fruiting, the two monokaryons A. aegerita AAE-3-40 (‘initials type’) and A. aegerita AAE-3-37 (‘elongated initials type’) have been selected for their mating compatibility with A. aegerita AAE-3-32 and A. aegerita AAE-3-13, respectively. Together with the parental dikaryotic strain A. aegerita AAE-3, this set of standard monokaryons could prove useful for studies exploring the factors regulating monokaryotic fruiting in comparison to dikaryotic mushroom formation.     

The evolution of non-reciprocal nuclear exchange in mushrooms as a consequence of genomic conflict

Heterothallic mushrooms accomplish sex by exchanging nuclei without cytoplasm. Hyphal fusions occur between haploid mycelia resulting from germinated spores and subsequent reciprocal nuclear exchange without cytoplasmic mixing. The resulting dikaryon is therefore a cytoplasmic mosaic with uniformly distributed nuclei (two in each cell). Cytoplasmic inheritance is doubly uniparental: both mated monokaryons can potentially transmit their cytoplasm to the sexual spores, but normally only a single type per spore is found.Intracellular competition between mitochondria is thus limited, but at the dikaryon level, the two types of mitochondria compete over transmission. This creates the conditions for genomic conflict: within the dikaryon, a selfish mitochondrial mutant with increased relative transmission can be favoured, but selection between dikaryons will act against such a mitochondrial mutant. Moreover, because nuclear fitness is directly dependent on dikaryon fitness, a reduction in dikaryon fitness directly conflicts with nuclear interests. We propose that genomic conflict explains the frequent occurrence of non-reciprocal nuclear exchange in mushrooms. With non-reciprocal exchange, one monokaryon donates a nucleus and the other accepts it, but not vice versa as in the typical life cycle. We propose a model where non-reciprocal nuclear exchange is primarily driven by mitochondria inducing male sterility and the evolution of nuclear suppressors.