Coprinus cinereus Mer3 is required for synaptonemal complex formation during meiosis

Sugawara, Hiroko; Iwabata, Kazuki; Koshiyama, Akiyo; Yanai, Takuro; Daikuhara, Yoko; Namekawa, Satoshi H.; Hamada, Fumika N.; Sakaguchi, Kengo

doi:10.1007/s00412-008-0185-1

Cited by 19 publications

(18 citation statements)

References 48 publications

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“…Of the 74 S. cerevisiae and/or S. pombe meiotic genes surveyed, 57 were found to have homologs in the A. cinnamomea genome (SI Appendix, Table S6 and Dataset S1), including those that are "meiosisspecific" and hypothesized to be present only in organisms with sexual reproduction or with sexual ancestry. The A. cinnamomea genome encodes several evolutionarily conserved proteins required for assembling the synaptonemal complex, e.g., mer3 (ACg003801), msh4 (ACg005375), msh5 (ACg002475), and zip4/spo22 (ACg005454) (SI Appendix, Table S6 and Dataset S1), suggesting that A. cinnamomea, like most sexually reproductive organisms, forms the synaptonemal complex to mediate chromosomal synapsis, allowing interacting homologous chromosomes to complete their crossover activities during meiosis (25).…”

Section: Resultsmentioning

confidence: 99%

Genomic and transcriptomic analyses of the medicinal fungusAntrodia cinnamomeafor its metabolite biosynthesis and sexual development

Fan

Wang

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Antrodia cinnamomea, a polyporus mushroom of Taiwan, has long been used as a remedy for cancer, hypertension, and hangover, with an annual market of over $100 million (US) in Taiwan. We obtained a 32.15-Mb genome draft containing 9,254 genes. Genome ontology enrichment and pathway analyses shed light on sexual development and the biosynthesis of sesquiterpenoids, triterpenoids, ergostanes, antroquinonol, and antrocamphin. We identified genes differentially expressed between mycelium and fruiting body and 242 proteins in the mevalonate pathway, terpenoid pathways, cytochrome P450s, and polyketide synthases, which may contribute to the production of medicinal secondary metabolites. Genes of secondary metabolite biosynthetic pathways showed expression enrichment for tissuespecific compounds, including 14-α-demethylase (CYP51F1) in fruiting body for converting lanostane to ergostane triterpenoids, coenzymes Q (COQ) for antroquinonol biosynthesis in mycelium, and polyketide synthase for antrocamphin biosynthesis in fruiting body. Our data will be useful for developing a strategy to increase the production of useful metabolites.medicinal fungus | fruiting body | triterpenes | meiosis | P450

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Section: Resultsmentioning

confidence: 99%

Genomic and transcriptomic analyses of the medicinal fungusAntrodia cinnamomeafor its metabolite biosynthesis and sexual development

Fan

Wang

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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“…The mer3 mutant reduces the frequency of crossovers, and the remaining crossovers are distributed randomly along the chromosomes. Recently, homologs of MER3 were identified from Arabidopsis (Mercier et al 2005), humans (Tanaka et al 2006), Coprinus cinereus (Sugawara et al 2009) and rice (Wang et al 2009). In Arabidopsis, the Atmer3 mutation leads to defective crossover formation (Mercier et al 2005).…”

Section: Discussionmentioning

confidence: 97%

“…In Arabidopsis, the Atmer3 mutation leads to defective crossover formation (Mercier et al 2005). Sugawara et al (2009) reported that SC formation was defective although AEs were present in the Ccmer3 mutant of C. cinereus. Therefore, CcMER3 is required for the formation of SC after the AEs become aligned and is essential for the homologous synapsis.…”

Section: Discussionmentioning

confidence: 98%

OsSPO11-1 is essential for both homologous chromosome pairing and crossover formation in rice

Wang

Tang

et al. 2010

Chromosoma

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Spo11 is a homolog of a subunit of archaebacterial topoisomerase, which catalyzes DNA double-strand breaks and initiates homologous chromosome recombination. In the present study, we silenced the SPO11-1 gene in rice (Oryza sativa) using RNAi. Rice plants with loss-of-function of OsSPO11-1 have no apparent growth defects during vegetative development, but homologous chromosome pairing and recombination are significantly obstructed. Telomeres can be assembled as bouquet during the zygotene stage of the OsSPO11-1-deficient plants, just as that in wild type. Although the two axial-associated proteins, REC8 and PAIR2, are loaded onto the chromosomes, the depletion of PAIR2 from the chromosomes is much later than in wild type. The central element of the synaptonemal complex (SC), ZEP1, does not load onto the chromosomes normally, implying that SC formation is disturbed severely. The crossover protein, MER3, isn't efficiently assembled onto chromosomes and the lack of bivalent suggests that crossovers are also affected in the absence of OsSPO11-1. Thus, OsSPO11-1 is essential for both homologous chromosomes pairing and crossover formation during meiosis in rice.

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“…Notably, meiosis and basidiospore formation is not required for fruiting body maturation. Defects in meiosis or in subsequent sporulation leads still to fully erected, normal-shaped mushrooms that however have caps of whitish appearance ('white caps') due to lack of spore formation or coloration and such white caps still may undergo autolysis (Zolan et al, 1988;Kanda et al, 1989;Lu et al, 2003;Namekawa et al, 2005;Sugawara et al, 2008).…”

Section: Coprinopsis Cinerea Psathyralleceae Agaricales Agaricomycmentioning

confidence: 98%

How do Agaricomycetes shape their fruiting bodies? 1. Morphological aspects of development

Kües

Navarro-González

2015

Fungal Biology Reviews

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Coprinus cinereus Mer3 is required for synaptonemal complex formation during meiosis

Cited by 19 publications

References 48 publications

Genomic and transcriptomic analyses of the medicinal fungusAntrodia cinnamomeafor its metabolite biosynthesis and sexual development

Genomic and transcriptomic analyses of the medicinal fungusAntrodia cinnamomeafor its metabolite biosynthesis and sexual development

OsSPO11-1 is essential for both homologous chromosome pairing and crossover formation in rice

How do Agaricomycetes shape their fruiting bodies? 1. Morphological aspects of development

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