AgTHR4, a new selection marker for transformation of the filamentous fungusAshbya gossypii,maps in a four-gene cluster that is conserved betweenA. gossypii andSaccharomyces cerevisiae

Single-read sequence analysis of the termini of eight randomly picked clones ofAshbya gossypii genomic DNA revealed seven sequences with homology toSaccharomyces cerevisiae genes (15% to 69% on the amino acid level). One of these sequences appeared to code for the carboxy-terminus of threonine synthase, the product of theS. cerevisiae THR4 gene (52.4% identity over 82 amino acids). We cloned and sequenced the complete putativeAgTHR4 gene ofA. gossypii. It comprises 512 codons, two less than theS. cerevisiae THR4 gene. Overall identity at the amino acid sequence level is 67.4%. A continuous stretch of 32 amino acids displaying complete identity between these two fungal threonine synthases presumably contains the pyridoxal phosphate attachment site. Disruption of theA. gossypii gene led to threonine auxotrophy, which could be complemented by transformation with replicating plasmids carrying theAgTHR4 gene and variousS. cerevisiae ARS elements. Using these plasmids only very weak complementation of aS. cerevisiae thr4 mutation was observed. Investigation of sequences adjacent to theAgTHR4 gene identified three additional ORFs. Surprisingly, the order and orientation of these four ORFs is conserved inA. gossypii andS. cerevisiae.     

TheCBP2 gene fromSaccharomyces douglasii is a functional homologue of theSaccharomyces cerevisiae gene and is essential for respiratory growth in the presence of a wild-type (intron-containing) mitochondrial genome

InSaccharomyces cerevisiae the only known role of theCBP2 gene is the excision of the fifth intron of the mitochondrialcyt b gene (bI5). We have cloned theCBP2 gene fromSaccharomyces douglasii (a close relative ofS. cerevisiae). A comparison of theS. douglasii andS. cerevisiae sequences shows that there are 14% nucleotide substitutions in the coding region, with transitions being three times more frequent than transversions. At the protein level sequence identity is 87%. We have demonstrated that theS. douglasii CBP2 gene is essential for respiratory growth in the presence of a wild-typeS. douglasii mitochondrial genome, but not in the presence of an intronlessS. cerevisiae mitochondrial genome. Also theS. douglasii andS. cerevisiae CBP2 genes are completely interchangeable, even though the intron bI5 is absent from theS. douglasii mitochondrial genome.     

Sequence and promoter analysis of the highly expressed TEF gene of the filamentous fungus Ashbya gossypii

Ashbya gossypii carries only a single gene (TEF) coding for the abundant translation elongation factor 1. Cloning and sequencing of this gene and deletion analysis of the promoter region revealed an extremely high degree of similarity with the well studied TEF genes of the yeast Saccharomyces cerevisiae including promoter upstream activation sequence (UAS) elements. The open reading frames in both species are 458 codons long and show 88.6% identity at the DNA level and 93.7% identity at the protein level. A short DNA segment in the promoter, between nucleotides -268 and -213 upstream of the ATG start codon, is essential for high-level expression of the A. gossypii TEF gene. It carries two sequences, GCCCATACAT and ATCCATACAT, with high homology to the UAS_rpg sequence of S. cerevisiae, which is an essential promoter element in genes coding for highly expressed components of the translational apparatus. UAS_rpg sequences are binding sites for the S. cerevisiae protein TUF, also called RAP1 or GRF1. In gel retardation with A. gossypii protein extracts we demonstrated specific protein binding to the short TEF promoter segment carrying the UAS_rpg homologous sequences.     

Cloning by functional complementation, and inactivation, of theSchizosaccharomyces pombe homologue of theSaccharomyces cerevisiae geneABC1

TheSaccharomyces cerevisiae geneABC1 is required for the correct functioning of thebc ₁ complex of the mitochondrial respiratory chain. By functional complementation of aS. cerevisiae abc1 ^– mutant, we have cloned aSchizosaccharomyces pombe cDNA, whose predicted product is 50% identical to the Abc1 protein. Significant homology is also observed with bacterial, nematode, and even human amino acid sequences of unknown function, suggesting that the Abc1 protein is conserved through evolution. The cloned cDNA corresponds to a singleS. pombe geneabc1Sp, located on chromosome II, expression of which is not regulated by the carbon source. Inactivation of theabc1Sp gene by homologous gene replacement causes a respiratory deficiency which is efficiently rescued by the expression of theS. cerevisiae ABC1 gene. The inactivated strain shows a drastic decrease in thebc ₁ complex activity, a decrease in cytochromeaa3 and a slow growth phenotype. To our knowledge, this is the first example of the inactivation of a respiratory gene inS. pombe. Our results highlight the fact thatS. pombe growth is highly dependent upon respiration, and thatS. pombe could represent a valuable model for studying nucleo-mitochondrial interactions in higher eukaryotes.     

Two-hybrid interaction of a human UBC9 homolog with centromere proteins ofSaccharomyces cerevisiae

Using a two-hybrid system, we cloned a human cDNA encoding a ubiquitin-conjugating enzyme (UBC), hUBC9, which interacts specifically with all three subunits of theSaccharomyces cerevisiae centromere DNA-binding core complex, CBF3. The hUBC9 protein shows highest homology to a new member of the UBC family: 54% identity toS. cerevisiae Ubc9p and 64% identity toSchizosaccharomyces pombe (Sp) hus5. Overexpression of hUBC9 partially suppresses aS. cerevisiae ubc9 temperature-sensitive mutation, indicating that theUBC9 gene family is also functionally conserved. Like hUBC9, Sphus5 also interacts specifically with all three subunits of the CBF3 complex. However,S. cerevisiae Ubc9p interacts only with the Cbf3p subunit (64 kDa) of the CBF3 complex, indicating the specificity of the interaction betweenS. cerevisiae Ubc9 and Cbf3p proteins. The function of Ubc9p in the G₂/M phase ofS. cerevisiae could be related to regulation of centromere proteins in chromosome segregation in mitosis. Therefore, the ubiquitination process and centromere function may be linked to chromosome segregation. We also provide further in vivo evidence that Mck1p, a protein kinase, is specifically associated with the centromere proteins Cbf2p and Cbf5p, which were previously shown to interact in vitro.     

A multicopy suppressor ofnin1-1 of the yeastSaccharomyces cerevisiae is a counterpart of theDrosophila melanogaster diphenol oxidase A2 gene,Dox-A2

NIN1 is an essential gene for growth of the yeastSaccharomyces cerevisiae and was recently found to encode a component of the regulatory subunit of the 26S proteasome. Thenin1-1 mutant is temperature sensitive and its main defect is in G₁/S progression and G₂/M progression at non-permissive temperatures. One of the two multicopy suppressors ofnin1-1, SUN2 (SUppressor of Nin1-1), was found to encode a protein of 523 amino acids whose sequence is similar to those ofDrosophila melanogaster diphenol oxidase A2 and the mouse mast-cell Tum^– transplantation antigen, P91A. The C-terminal half of Sun2p was found to be functional as Sun2p at 25° C, 30° C, and 34° C but not at 37° C. The open reading frame (ORF) of theDrosophila diphenol oxidase A2 gene (Dox-A2) was obtained from a lambda phage cDNA library using the polymerase chain reaction technique. TheDox-A2 ORF driven by theTDH3 promoter complemented the phenotype of a strain deleted forsun2. ThisDox-A2-dependent strain was temperature sensitive and accumulated dumb-bell-shaped cells, with an undivided nucleus at the isthmus, after temperature upshift. This morphology is similar to that ofnin1-1 cells kept at a restrictive temperature. These results suggest thatSUN2 is a functional counterpart ofDox-A2 and that these genes play a pivotal role in the cell cycle in each organism.     

ThehapC gene ofAspergillus nidulans is involved in the expression of CCAAT-containing promoters

The 5 regulatory region of theamdS gene ofAspergillus nidulans, which encodes an acetamidase required for growth on acetamide as a carbon and nitrogen source, contains a CCAAT sequence which is required for setting the basal level ofamdS expression. Mobility shift studies have identified a factor inA. nidulans nuclear extracts which binds to this CCAAT sequence. InSaccharomyces cerevisiae theHAP3 gene encodes one component of a multisubunit complex that binds CCAAT sequences. A search of the EMBL and SwissProt databases has revealed anA. nidulans sequence with significant homology to theHAP3 gene adjacent to the previously cloned regulatory geneamdR. Sequencing of the remainder of this region has confirmed the presence of a gene, designatedhapC, with extensive homology toHAP3. The predicted amino acid sequence of HapC shows extensive identity to HAP3 in the central conserved domain, but shows little conservation in the flanking sequences. A haploid carrying ahapC deletion has been created and is viable, but grows poorly on all media tested. This null mutant grows especially slowly on acetamide as a sole carbon and nitrogen source, indicating thathapC plays a role inamdS expression. In agreement with this notion, it has been shown that thehapC deletion results in reduced levels of expression of anamdS::lacZ reporter gene and this effect is particularly evident under conditions of carbon limitation. Nuclear extracts prepared from thehapC deletion mutant show no CCAAT binding activity to theamdS orgatA promoters, indicating thathapC may encode a component of the complex binding at this sequence.     

Sequence and characterisation of a ribosomal RNA operon fromAgrobacterium vitis

One of the four ribosomal RNA operons (rrnA) from theAgrobacterium vitis vitopine strain S4 was sequenced.rrnA is most closely related to therrn operons ofBradyrhizobium japonicum andRhodobacter sphaeroides and carries an fMet-tRNA gene downstream of its 5S gene, as in the case ofR. sphaeroides. The 16S rRNA sequence of S4 differs from theA. vitis K309 type strain sequence by only one nucleotide, in spite of the fact that S4 and K309 have very different Ti plasmids. The predicted secondary structure of the S4 23S rRNA shows several features that are specific for the alpha proteobacteria, and an unusual branched structure in the universal B8 stem. The 3 ends of the three otherrrn copies of S4 were also cloned and sequenced. Sequence comparison delimits the 3 ends of the four repeats and defines two groups:rrnA/rrnB andrrnC/rrnD.     

TheCBP2 gene fromSaccharomyces douglasii is a functional homologue of theSaccharomyces cerevisiae gene and is essential for respiratory growth in the presence of a wild-type (intron-containing) mitochondrial genome

InSaccharomyces cerevisiae the only known role of theCBP2 gene is the excision of the fifth intron of the mitochondrialcyt b gene (bI5). We have cloned theCBP2 gene fromSaccharomyces douglasii (a close relative ofS. cerevisiae). A comparison of theS. douglasii andS. cerevisiae sequences shows that there are 14% nucleotide substitutions in the coding region, with transitions being three times more frequent than transversions. At the protein level sequence identity is 87%. We have demonstrated that theS. douglasii CBP2 gene is essential for respiratory growth in the presence of a wild-typeS. douglasii mitochondrial genome, but not in the presence of an intronlessS. cerevisiae mitochondrial genome. Also theS. douglasii andS. cerevisiae CBP2 genes are completely interchangeable, even though the intron bI5 is absent from theS. douglasii mitochondrial genome.     

Cloning and characterisation of the cytochrome c gene of Aspergillus nidulans

The cytochrome c gene (cycA) of the filamentous fungus Aspergillus nidulans has been isolated and sequenced. The gene is present in a single copy per haploid genome and encodes a polypeptide of 112 amino acid residues. The nucleotide sequence of the A. nidulans cycA gene shows 87% identity to the DNA sequence of the Neurospora crassa cytochrome c gene, and approximately 72% identity to the sequence of the Saccharomyces cerevisiae iso-1-cytochrome c gene (CYC1). The S. cerevisiae CYC1 gene was used as a heterologous probe to isolate the homologous gene in A. nidulans. The A. nidulans cytochrome c sequence contains two small introns. One of these is highly conserved in terms of position, but the other has not been reported in any of the cytochrome c genes so far sequenced. Expression of the cycA gene is not affected by glucose repression, but has been shown to be induced approximatly tenfold in the presence of oxygen and three- to fourfold under heatshock conditions.     

Isolation and characterization of a laccase gene fromPodospora anserina

The genome of the filamentous ascomycetePodospora anserina contains at least four non-adjacent regions that are homologous to the laccase gene ofNeurospora crassa. One of these regions contains a gene (lac2) encoding a protein that displays 62% identity with theN. crassa laccase. In shaken cultures,lac2 mRNA is present at low basal levels throughout the growth phase but increases at least 20-fold at the beginning of the autolytic phase and decreases again thereafter. Addition of aromatic xenobiotics (guaiacol, hydroquinone, benzoquinone) to the medium during the growth phase results in a rapid, drastic and temporary increase in the abundance oflac2 mRNA. The promoter region oflac2 contains two sequences which display complete homology with the eukaryotic Xenobiotic Responsive Element and two sequences homologous to the eukaryotic Antioxidant Responsive Element. The identity and function of the laccase encoded bylac2 are discussed.     

ore2, a mutation affecting proline biosynthesis in the yeast Saccharomyces cerevisiae, leads to a cdc phenotype

Summary We report here the isolation of temperature-sensitive mutants of the yeast Saccharomyces cerevisiae which exhibit cdc phenotypes. The recessive mutations defined four complementation groups, named ore1, ore2, ore3 and ore4. At the non-permissive temperature, strains bearing these mutations arrested in the G1 phase of the cell cycle. The wild-type allele of the gene altered in ore2 mutants was cloned. The nucleotide sequence of a fragment which can complement the mutation showed the presence of an open reading frame capable of encoding a protein with 286 amino acid residues. The deduced amino acid sequence showed 25% identity with that of the Escherichia coli 1-pyrroline-5-carboxylate reductase, an enzyme of the pathway for the biosynthesis of proline. The ore2 mutants, correspondingly, were found to be capable of growing at the non-permissive temperature on a synthetic medium supplemented with proline. In addition, the chromosomal location of the gene and its restriction map were compatible with those previously reported for the PRO3 gene which encodes the S. cerevisiae ¹-pyrroline-5-carboxylate reductase.     

TheAspergillus nidulans geneschsA andchsD encode chitin synthases which have redundant functions in conidia formation

We previously isolated three chitin synthase genes (chsA, chsB, andchsC) fromAspergillus nidulans. In the present work, we describe the isolation and characterization of another chitin synthase gene, namedchsD, fromA. nidulans. Its deduced amino acid sequence shows 56.7% and 55.9% amino acid identity, respectively, with Cal1 ofSaccharomyces cerevisiae and Chs3 ofCandida albicans. Disruption ofchsD caused no defect in cell growth or morphology during the asexual cycle and caused no decrease in chitin content in hyphae. However, double disruption ofchsA andchsD caused a remarkable decrease in the efficiency of conidia formation, while double disruption ofchsC andchsD caused no defect. Thus it appears thatchsA andchsD serve redundant functions in conidia formation.     

Characterization of CaGSP1, the Candida albicans RAN/GSP1 homologue

Gsp1p is a small nuclear-located GTP binding protein from the yeast Saccharomyces cerevisiae. It is highly conserved among eucaryotic cells and is involved in numerous cellular processes, including nucleocytoplasmic trafficking of macromolecules. To learn more about the GSP1 structure/function, we have characterized its Candida albicans homologue. CaGsp1p is 214 amino acids long and displays 91% identity to the ScGsp1p. There is functional complementation in S. cerevisiae, and its mRNA is constitutively expressed in the diploid C. albicans grown under various physiological conditions. Disruption of both alleles was not possible, suggesting that it could be an essential gene, but heterozygous mutants exhibited genomic instability.     

A pAO1-encoded molybdopterin cofactor gene (moaA) ofArthrobacter nicotinovorans: characterization and site-directed mutagenesis of the encoded protein

A gene homologous tomoaA, the gene responsible for the expression of a protein involved in an early step in the synthesis of the molybdopterin cofactor ofEscherichia coli, was found to be located 2.7-kb upstream of the nicotine dehydrogenase (ndh) operon on the catabolic plasmid pAO1 ofArthrobacter nicotinovorans. The MoaA protein, containing 354 amino acids, migrated on an SDS-polyacrylamide gel with an apparent molecular weight of 40,000, in good agreement with the predicted molecular weight of 38,880. The pAO1-encodedmoaA gene fromA. nicotinovorans was expressed inE. coli as an active protein that functionally complementedmoaA mutants. Its reduced amino acid sequence shows 43% identity to theE. coli MoaA, 44% to the NarAB gene product fromBacillus subtilis, and 42% to the gene product of two contiguous ORFs fromMethanobacterium formicicum. N-terminal sequences, including the motif CxxxCxYC, are conserved among the MoaA and NarAB proteins. This motif is also present in proteins involved in PQQ cofactor synthesis in almost all the NifB proteins reported so far and in thefixZ gene product fromRhizobium leguminosarum. Mutagenesis of any of these three conserved cysteine residues to serine abolished the biological activity of MoaA, while substitution of the tyrosine by either serine, phenylalanine, or alanine did not alter the capacity of the protein to complement themoaA mutation inE. coli. A second Cys-rich domain with the motif FCxxC(13x)C is found close to the C-terminus of MoaA and NarAB proteins. These two Cys-rich sequences may be involved in the coordination of a metal ions. The pAO1 copy ofmoaA may not be unique in theA. nicotinovorans genome since the molybdopterin cofactor oxidation products were detected in cell extracts from a plasmidless strain.     

chs-4, a class IV chitin synthase gene fromNeurospora crassa

InSaccharomyces cerevisiae, most of the cellular chitin is produced by chitin synthase III, which requires the product encoded by theCSD2/CAL1/DIT101/KT12 gene. We have identified, isolated and structurally characterized aCSD2/CAL1/DIT101/KT12 homologue in the filamentous ascomyceteNeurospora crassa and have used a reverse genetics approach to determine its role in vivo. The yeast gene was used as a heterologous probe for the isolation of aN. crassa gene (designatedchs-4) encoding a polypeptide belonging to a class of chitin synthases which we have designated class IV. The predicted polypeptide encoded by this gene is highly similar to those ofS. cerevisiae andCandida albicans. N. crassa strains in whichchs-4 had been inactivated by the Repeat-Induced Point mutation (RIP) process grew and developed in a normal manner under standard growth conditions. However, when grown in the presence of sorbose (a carbon source which induces morphological changes accompanied by elevated chitin content), chitin levels in thechs-4 ^RIP strain were significantly lower than those observed in the wild type. We suggest that CHS4 may serve as an auxiliary enzyme inN. crassa and that, in contrast to yeasts, it is possible that filamentous fungi may have more than one class IV chitin synthase.A. Beth Din and C. A. Specht contributed equally to this work     

瓜套棉田烟粉虱与棉蚜种群动态及竞争干扰行为研究

【目的】甜瓜和棉花均是棉蚜及烟粉虱的适宜寄主,瓜套棉种植模式为2种害虫混合危害提供了条件,该模式下哪种害虫具有竞争优势值得探讨。【方法】通过田间定点调查和室内行为学观察,研究了吐鲁番地区瓜套棉种植模式下棉蚜和烟粉虱的发生动态及竞争干扰。【结果】田间观察分别于2011和2012年进行,在瓜套棉种植模式棉花、甜瓜上,棉蚜的发生期较烟粉虱早,但随着烟粉虱田间种群数量增加,对棉蚜产生明显的干扰和竞争作用,8月下旬至9月上旬烟粉虱成为田间优势种群。室内行为观察表明,2种害虫共存状态下均表现出以烟粉虱为优势的竞争作用,主要行为表现为通过触角、足的驱赶行为和进入棉蚜活动区域干扰等。当虫量低于4头·皿~(-1)时,无论棉蚜和烟粉虱哪种昆虫先接入,相互间的影响和干扰都很少。当2种昆虫数量均增加到8头·皿~(-1)时,烟粉虱成虫以触角、足等干扰棉蚜的行为频次显著增多。不同的定殖时间下,无论棉蚜和烟粉虱哪种昆虫先接入,随着定殖时间的延长,烟粉虱通过触角、足以及进入棉蚜活动区域驱逐和干扰棉蚜的行为都呈递减的趋势。【结论】在瓜套棉种植模式下,烟粉虱较棉蚜具有显著的竞争优势。     

Cloning of heterologous genes specifying detrimental proteins on pUC-derived plasmids inEscherichia coli

A system is described that enables the cloning of genes specifying detrimental proteins inEscherichia coli. The system is based on pUC plasmids and was developed for the expression of theBacillus subtilis csaA gene, which is lethal when expressed at high levels. Suppressor strains that tolerate the presence of plasmids for high-level expression ofcsaA were isolated, which contained small cryptic deletion variants of the parental plasmid in high copy numbers. The cryptic plasmids consisted mainly of the pUC replication functions and lacked thecsaA region and selectable markers. The co-resident, incompatible, cryptic plasmids enabled the maintenance of thecsaA plasmids by reducing their copy number 20-fold, which resulted in a concomitant 3- to 7-fold reduction in the expression of plasmid-encoded genes. Strains carrying these cryptic endogenous plasmids proved to be useful for the construction of pUC-based recombinant plasmids carrying other genes, such as theskc gene ofStreptococcus equisimilis, which cannot be cloned in high copy numbers inE. coli. Several strategies to reduce production levels of heterologous proteins specified by plasmids are compared.     

Selective cloning of genes encoding RNase H from Salmonella typhimurium, Saccharomyces cerevisiae and Escherichia coli rnh mutant

Summary We have cloned genes encoding RNase H from Escherichia coli rnh mutants, Salmonella typhimurium and Saccharomyces cerevisiae. Selection was accomplished by suppression of the temperature-sensitive growth phenotype of Escherichia coli strains containing the rnh-339::cat and either recB270 (Ts) or recC271 (Ts) mutations. RNases H from E. coli and S. typhimurium contained 155 amino acid residues and differed at only 11 positions. The S. cerevisiae and E. coli RNases H were about 30% homologous. A comparison of the amino acid sequences of several RNases H from cellular and retroviral sources revealed some strongly conserved regions as well as variable regions; the carboxyl-terminus was particularly variable. The overlapping, divergent promoter gene organization found in E. coli was observed to be present in S. typhimurium.