Ribosomal DNA inheritance and recombination in Neurospora crassa

Summary The genetic segregation of ribosomal DNA (rDNA) in Neurospora crassa was analyzed by exploiting restriction fragment length polymorphisms in the nontranscribed spacer (NTS) sequences of nine laboratory wild-type strains and wild-collected strains. In an analysis of random spore progeny from seven crosses, and of ordered tetrads from two of those crosses the rDNA was shown to be inherited in a simple, stable Mendelian fashion, exhibiting an approximately 1:1 ratio of the two parental rDNA types. No meiotic recombinants were detected among the progeny, indicating that non-sister-chromatid crossing over is highly suppressed in the rDNA region. The basis for this suppression of meiotic recombination is not known.     

Purification and properties of a low molecular weight DNA polymerase from Neurospora crassa

A third DNA polymerase ‘C’ with low molecular weight was isolated and purified 3700-fold from ground hyphae of Neurospora crassa WT 74 A, which shows similarities to β- and γ-polymerases from higher eukaryotes: preference for poly(rA)(dT) as a template/primer, inhibition by p-chloromercuribenzoate, resistance against N-ethylmaleimide up to 10 mmol/l, and molecular weight of about 40 000. This polymerase elutes as a distinct peak from DEAE-cellulose at 0.60 mol/l KCl and has an optimum for K⁺ at 2–20 mmol/l, for Mn²⁺ at 0.8 mmol/l, for Mg²⁺ at 4.0 mmol/l, the pH optimum is 8.0. Its K_m is 1.5 μmol/l using dTTP as substrate. The enzyme activity described here is free of endonuclease but contains detectable amounts of exonuclease.     

Premeiotic disruption of the Neurospora crassa malate synthase gene by native and divergent DNAs

Summary Repeat-induced point mutation (RIP) has been used to generate new mutations in the previously uncharacterised gene for malate synthase in Neurospora crassa. Molecular clones carrying the am (NADP-glutamate dehydrogenase) gene and the malate synthase gene from either N. crassa or Aspergillus nidulans have been introduced into Neurospora as ectopic duplicate copies by transformation, selecting for the am function in a deletion host. A number of meiotic progeny derived from these transformants were unable to use acetate as sole carbon source, yielded no detectable malate synthase activity and demonstrated extensive cytosine methylation of their duplicated sequences. The new locus has been designated acu-9 and has been assigned to linkage group VII.     

Reversible inactivation of a foreign gene, hph, during the asexual cycle in Neurospora crassa transformants

Summary A plasmid construct carrying the hygromycin phosphotransferase (hph) gene fused to the expression elements of the trpC gene of Aspergillus nidulans was used to obtain hygromycin B (Hyg)-resistant transformants of Neurospora crassa. The plasmid does not have any homology with the N. crassa genome. Here we demonstrate that most of the transformants arise from integration of the transforming DNA into only one of the nuclei present in the protoplasts. Furthermore, in most of the transformants the integrated transforming DNA is physically stable after growth of the transformants for about 25 nuclear divisions without Hyg selection, in spite of being present in multiple copies. In transformants carrying only a single insertion, phenotypic expression of the hph gene remains unaltered in conidial isolates obtained withoug Hyg selection. On the other hand, about 40% of transformants harbouring plasmid DNA integrated at more than one location yield conidial isolates showing reversible inactivation of the hph genes. Interestingly, the presence of methylated cytosine residues in the integrated DNA is strongly correlated with the number of plasmid copies. The hph genes are heavily methylated in transformants harbouring multiple copies but not in those harbouring only one copy of the plasmid. Phenotypic expression of the inactive hph genes can be restored by growing the transformants either under Hyg selection pressure or in the presence of 5-azacytidine. In the first case the hph genes are again inactivated when Hyg selection pressure is removed, while the activation of the hph gene by 5-azacytidine gives stable Hyg^r strains.Dedicated to Dr. T.A. Trautner on the occasion of his 60^th birthday     

Estimating the total mouse DNA methylation according to the B1 repetitive elements

Measuring the degree of methylation of the B1 element in mouse may represent the global DNA methylation status because about 30,000 copies of the B1 element are randomly dispersed in the total mouse genome. Six CpG dinucleotides are located within each 163 bp size of B1 element, and each CpG dinucleotide was partially methylated. We quantitated the DNA methylation of the B1 repetitive elements by performing PCR for the methylation specific PCR (MSP) and also by the pyrosequencing. Each CpG dinucleotide was methylated at an average of 9% in the mouse genome by the pyrosequencing and MSP. Especially, we checked whether CpG methylation of the B1 element could respond to a treatment of the DNA methylation inhibitor, 5-azacytidine (5-AzaC). Consequently, the calibration graph resulting from measuring the relative CpG methylation percentage of the B1 element is linearly decreased with the increasing amount of 5-AzaC (up to 50 ng/ml concentration) in the NIH3T3 cells with a standard deviation of only 1.73% between three independent assays. Our methods can be applied to the routine analysis of the global DNA methylation changes in mouse in vivo and in vitro in pharmaceuticals and basic epigenetic research with efforts being less labor-intensive.     

综述: 表观遗传学研究的模式生物——粗糙脉孢菌

丝状真菌粗糙脉孢菌是一种作为遗传学研究的经典模式生物．通过对粗糙脉孢菌5S rRNA基因的组成和在染色体上分布的研究,揭示了丝状真菌中存在的一种基因组防御机制——重复序列诱导的DNA点突变(RIP)．通过对发生突变的5S rRNA假基因的研究还发现,粗糙脉孢菌中存在一种重要的表观遗传修饰——DNA甲基化,随后的深入研究使粗糙脉孢菌成为解析DNA甲基化机制的最重要模式生物之一．粗糙脉孢菌基因转化操作引起的营养生长阶段同源基因的沉默(quelling)是由RNAi途径调控的,同时该途径也是调控减数分裂过程中非配对DNA诱发的基因沉默(meiotic silencing)的关键．由于粗糙脉孢菌基因组简单,且存在与高等真核生物相同的DNA甲基化和多种组蛋白的修饰,使其成为今后深入研究组蛋白修饰与染色质重塑等表观遗传现象参与基因表达调控和基因组稳定性维持的重要模式生物之一．     

Molecular cloning and characterization of alc the gene encoding allantoicase of Neurospora crassa

Summary Purrtins can be utilized as a secondary nitrogen source by Neurospora crassa during conditions of nitrogen limitation. The expression of purine catabolic enzymes is governed by the nitrogen regulatory circuit and requires induction by uric acid. The major positive-acting nitrogen regulatory gene, nit-2, turns on the expression of the purine catabolic enzymes, which may also be subject to negative regulation by a second control gene, nmr. We have cloned alc, the structural gene which encodes allantoicase, an inducible enzyme of the purine degradative pathway. The identity of the alc clone was confirmed by restriction fragment length polymorphism analysis and by repeat-induced mutation. The alc gene is transcribed to give a single messenger RNA, approximately 1.2 kb in length. The negative-acting nmr gene affects the expression of alc in the expected manner. Both the nit-2 and the nmr control genes affect alc mRNA levels and allantoicase enzyme activity in both the induced and nitrogen-repressed conditions.     

Production of ethanol from wood and agricultural residues by Neurospora crassa

The feasibility of utilizing the rapidly growing tropical woods for ethanol production by Neurospora crassa has been studied. Hydrolysis of cold alkali pretreated wood gave a saccharification of 68% based on the available carbohydrate. The direct fermentation of pretreated wood (20 g l^?1) by Neurospora crassa gave quantitative conversion of available hemicellulose/cellulose to ethanol in 5 days. Increasing the substrate concentration to 50 g l^?1lowered the conversion to 40–60% yielding 12 g l^?1of ethanol. Fermentation of wood (50 g l^?1) pretreated with hot 1 m NaOH followed by neutralization with HCl gave only 6 g l^?1of ethanol.     

Isolation and characterization of the krev-1 gene, a novel member of ras superfamily in Neurospora crassa : involvement in sexual cycle progression

Genes belonging to the ras superfamily encode low-molecular-weight GTP/GDP-binding proteins that are highly conserved in wide variety of organisms. We used the polymerase chain reaction (PCR) to isolate a novel member of the ras superfamily from the filamentous fungus Neurospora crassa and obtained a mammalian Krev-1 homolog. We named the gene krev-1 and analyzed its structure and function. The krev-1 gene encodes a polypeptide of 225 amino acids, which is nearly 60% homologous to the mammalian Krev-1 p21. The krev-1 gene product (KREV1) is functionally analogous to mammalian Krev-1 p21 and Rsr1p/Bud1p, a Krev-1 homolog from the yeast Saccharomyces cerevisiae. GAL1-driven expression of KREV1 in a wild-type yeast strain resulted in a random budding pattern, as did its mammalian counterpart Krev-1 p21. We disrupted the krev-1 gene by RIP (repeat-induced point mutation), but the krev-1 disruptants showed no abnormalities. By in vitro mutagenesis, we constructed several mutant krev-1 genes (G21V, A68T, and D128A) which mimic constitutively active mutants of Ha-ras, and the krev-1 (K25N) mutant which is analogous to a dominant-negative mutant of Ha-ras. Each mutant gene was introduced into the wild-type strain and the phenotypes were analyzed. We could not observe any difference in vegetative growth between these transformants. When each strain was used as the female in mating tests, the development of perithecia from protoperithecia was inhibited in all cases. The results indicate that the krev-1 gene may be involved in sexual cycle progression. Received: 28 January 1997 / Accepted: 3 April 1997     

DNA methylation levels in porcine fetal fibroblasts induced by an inhibitor of methylation, 5-azacytidine

Removal of the somatic DNA methylation pattern from donor cells and remodeling of embryonic status have been suggested as integral processes for successful nuclear transfer (NT) reprogramming. This study has investigated the effects of 5-azacytidine (5-azaC), a DNA methylation inhibitor, on global methylation changes in porcine fetal fibroblasts (PFF); this may improve NT attributable to the potential reprogramming of the methyl groups. PFF in 5th passage cultures were treated with 0, 0.5, 1.0, 2.0, and 3.0 μM 5-azaC for 96 h; 5-azaC inhibited the growth at all tested concentrations. At the higher concentrations of 5-azaC used, cells appeared to exhibit morphological changes and to become apoptotic as observed by TUNEL assay. Thus, cells were negatively affected by 5-azaC. Differences in cellular ploidy were also observed at higher concentrations. Analysis showed no considerable changes in the proportion of cells at the G₁-phase of the cell cycle with 5-azaC concentrations. The fractional part of the methylated DNA of these cells was significantly reduced by 5-azaC treatment. Confocal microscopy confirmed the inhibition of methylation levels in PFF with increased concentrations of 5-azaC. Exposure to 5-azaC altered the expression of genes involved in imprinting (IGF2) or pro-apoptosis (BAX), whereas there was a reduction in the expression of the main enzyme responsible for replicating the DNA methylation pattern (DNMT1) and anti-apoptosis (BCL2L1). Therefore, 5-azaC induces a relative reduction in methylation in PFF, and cells treated with 0.5 μM 5-azaC may have enhanced potential for porcine NT.The financial support of BioGreen 21 (grant no. 100052004002000) and KOSEF (grant no. R05-2004-000-10702-0) in Korea is gratefully acknowledged.     

Formation of embryogenic cell clumps from carrot epidermal cells is suppressed by 5-azacytidine, a DNA methylation inhibitor

Using a direct somatic embryogenesis system in carrot, we examined the role of DNA methylation in the change of cellular differentiation state, from somatic to embryogenic. 5-Azacytidine (aza-C), an inhibitor of DNA methylation suppressed the formation of embryogenic cell clumps from epidermal carrot cells. Aza-C also downregulated the expression of DcLEC1c, a LEC1-like embryonic gene in carrot, during morphogenesis of embryos. A carrot DNA methyltransferase gene, Met1-5 was expressed transiently after the induction of somatic embryogenesis by 2,4-dichlorophenoxyacetic acid (2,4-D), before the formation of embryogenic cell clumps. These findings suggested the significance of DNA methylation in acquiring the embryogenic competence in somatic cells in carrot.     

Effect of anti-DNA methylation drugs on growth, level of methylated DNA, peroxidase activity and ethylene production of Bryonia dioica internodes

A previous paper (Galaud et al. 1993. Physiol. Plant. 87: 25–30) reported a rapid demethylation of DNA after mechanical rubbing of young Bryonia dioica internodes, leading to growth inhibition. In order to assess an eventual causative role of DNA demethylation in the mechanisms underlying thigmomorphogenesis, the effects of the anti-DNA methylation drugs, 5-azacytosine (5-azacyt) and 5-azacytidine (5-azacyd) were investigated. Treatment with 5-azacyd induced a decrease of the methylated DNA level. This was accompanied by an increase of peroxidase activity and of ethylene production. On the contrary, 5-azacyt had no significant effect on growth, peroxidase activity and ethylene production. The use of 5-azacyd as an inducer of DNA demethylation is discussed in relation to the control of gene expression     

A ras homologue of Neurospora crassa regulates morphology

In order to study the role of signal transduction pathways in the regulation of morphology in Neurospora crassa, we cloned and characterized a ras homologue, termed NC-ras2. The predicted protein product of this gene is composed of 229 amino acid residues and contains all the consensus sequences shared by the ras protein family. The gene is located in linkage group V. An NC-ras2 disruptant showed morphological characteristics very similar to those of the smco7 mutant, which also maps to linkage group V. Nucleotide sequence analysis revealed that the smco7 mutant harbored a single base deletion in the NC-ras2 gene, which is predicted to result in the truncation of the protein product. Introduction into the smco7 mutant of an NC-ras2 clone yielded stable transformants with a wild-type phenotype. The smco7 mutant exhibited very slow hyphal growth and the rate of conidial formation was approximately one two-hundredth of wild type. The smco7 mutation causes both the changes in the pattern of hyphal growth and the defects in cell wall synthesis. Both the diameter and the length of the apical compartment were shorter in the hyphae of the smco7 mutant. These results suggest that NC-ras2 is identical to smco7, and that the signal transduction pathway mediated by the NC-ras2 protein regulates the apical growth of hyphae, cell wall synthesis, and conidial formation in N. crassa. Received: 1 October 1996 / Accepted: 9 December 1996     

模式生物粗糙脉孢菌光受体的研究进展

粗糙脉孢菌是一种重要的模式生物,在遗传调节机制、昼夜节律运行以及真菌光应答反应研究中起重要的作用.本综述主要介绍粗糙脉孢菌光受体WC-1和VVD的结构与功能,以及它们参与调节昼夜节律和光适应机制方面的研究进展.在该真菌中,所有已知的光应答反应都受蓝光调节,由光受体WC-1和VVD介导.WC-1是该真菌的转录因子,介导最初的光反应过程,产生VVD等多种光反应蛋白,而VVD通过负反馈机制抑制WC-1的转录作用.此外,vvd基因已经用于构建在哺乳动物中表达的光调节基因元件.