Numerical Analysis of the Taxonomy of Nocardiae and Rhodococci

The genera Nocardia and Rhodococcus were clearly differentiated in the present study. Eleven characteristics were shown to be useful for differentiation between these two genera. Nocardia asteroides sunsu stricto previously defined by Tsukamura was divided into two taxa. One contained the type strain and was considered to retain the name Nocardia asteroides in a new sense. Another was named in the present study as Nocardia nova sp. nov. Tsukamura. The type strain of this species is ATCC 33726. The following seven characters were useful for differentiating N. nova from newly defined N. asteroides: 1) arylsulfatase activity after 14 days; 2) catalase activity (semiquantitative); 3) β-esterase activity; 4) pyrazinamidase activity; 5) utilization of citrate as a sole source of carbon; 6) utilization of 2,3-butylene glycol as a sole carbon source; and 7) resistance to 5-fluorouracil (20 μg/ml). The name Nocardia farcinica for Tsukamura's Kyoto-I group should be rejected. This taxon has been named Nocardia paratuberculosis sp. nov. Tsukamura. The type strain is ATCC 23826. Three new species of the genus Rhodococcus were proposed: Rhodococcus aichiensis sp. nov. Tsukamura (type strain, ATCC 33611); Rhodococcus chubuensis sp. nov. Tsukamura (type strain, ATCC 33609); Rhodococcus obuensis sp. nov. Tsukamura (type strain, ATCC 33610).     

Bioprospecting the<Emphasis Type="Italic">lat</Emphasis> gene in soil samples

Twenty soil communities from the northeastern forests (Assam) and the Western Ghats (Maharashtra) were screened for the presence of the lysine aminotransferase (lat) gene fromNocardia. Hybridization probes and primers were synthesized in accordance with the reported sequence of theNocardia lat gene from GenBank (number: G1 49355). Seven positives were obtained from the 20 soils. Six of the seven positive were from the Western Ghats and one from the northeast Assam forests. Eighteen actinomycete isolates from the 7 positive soils showed the presence of thelat gene. Only 9 isolates actually produced an antibiotic. These results are discussed.     

Molecular Identification of Nocardia Isolates from Clinical Samples and an Overview of Human Nocardiosis in Brazil

Background

Nocardia sp. causes a variety of clinical presentations. The incidence of nocardiosis varies geographically according to several factors, such as the prevalence of HIV infections, transplants, neoplastic and rheumatic diseases, as well as climate, socio-economic conditions and laboratory procedures for Nocardia detection and identification. In Brazil the paucity of clinical reports of Nocardia infections suggests that this genus may be underestimated as a cause of human diseases and/or either neglected or misidentified in laboratory specimens. Accurate identification of Nocardia species has become increasingly important for clinical and epidemiological investigations. In this study, seven clinical Nocardia isolates were identified by multilocus sequence analysis (MLSA) and their antimicrobial susceptibility was also determined. Most Nocardia isolates were associated to pulmonary disease.

Methodology/Principal Findings

The majority of Brazilian human isolates in cases reported in literature were identified as Nocardia sp. Molecular characterization was used for species identification of Nocardia nova, Nocardia cyriacigeorgica, Nocardia asiatica and Nocardia exalbida/gamkensis. Data indicated that molecular analysis provided a different Nocardia speciation than the initial biochemical identification for most Brazilian isolates. All Nocardia isolates showed susceptibility to trimethoprim-sulfamethoxazole, the antimicrobial of choice in the treatment nocardiosis. N. nova isolated from different clinical specimens from one patient showed identical antimicrobial susceptibility patterns and two distinct clones.

Conclusions/Significance

Although Brazil is the world''s fifth-largest country in terms of land mass and population, pulmonary, extrapulmonary and systemic forms of nocardiosis were reported in only 6 of the 26 Brazilian states from 1970 to 2013. A least 33.8% of these 46 cases of nocardiosis proved fatal. Interestingly, coinfection by two clones may occur in patients presenting nocardiosis. Nocardia infection may be more common throughout the Brazilian territory and in other developing tropical countries than is currently recognized and MLSA should be used more extensively as an effective method for Nocardia identification.     

Brassinosteroids, microtubules and cell elongation in Arabidopsis thaliana. I. Molecular, cellular and physiological characterization of the Arabidopsis bul1 mutant, defective in the Δ7-sterol-C5-desaturation step leading to brassinosteroid biosynthesis

Although cell elongation is a basic function of plant morphogenesis, many of the molecular events involved in this process are still unknown. In this work an extremely dwarf mutant, originally named bul, was used to study one of the main processes of plant development, cell elongation. Genetic analyses revealed that the BUL locus was linked to the nga172 marker on chromosome 3. Recently, after mapping the new dwf7 mutation of Arabidopsis, which is allelic to ste1, it was reported that dwf7 is also linked to the same marker. Sterol analyses of the bul1-1 mutant indicated that bul1-1 is defective in the Δ⁷-sterol-C5-desaturation step leading to brassinosteroid biosynthesis. Considering these findings, we designated our bul mutant as bul1-1/dwf7-3/ste1-4. The bul1-1 mutant was characterized by a very dwarf phenotype, with delayed development and reduced fertility. The mutant leaves had a dark-green colour, which was probably due to continuous stomatal closure. The bul1-1 mutant showed a partially de-etiolated phenotype in the dark. Cellular characterization and rescue experiments with brassinosteroids demonstrated the involvement of the BUL1-1 protein in brassinosteroid-dependent plant growth processes. Received: 28 April 2000 / Accepted: 6 October 2000     

7-Hydroxyphthalide: A New Natural Salicylaldehyde Analog from Oulenzia sp. (Astigmata: Winterschmitiidae)

A new salicy lactone was detected from the unidentified Oulenzia sp. and its chemical structure was elucidated as 7-hydroxyphthalide (7-hydroxy-3 H-isobenzofuran-1-one), based on its GC/MS and GC/FT-IR data and SiO₂ column behavior. The compound was synthesized by NaBH₄ reduction of 3-hydroxyphthalic anhydride. The GC/MS and GC/FT-IR spectra of the natural compound were consistent with those of the synthetic product. Although the compound is known as a medical material, this is the first example of its presence in nature.     

Characterization of a novel DNA damage-inducible gene of Saccharomyces cerevisiae , DIN7 , which is a structural homolog of the RAD2 and RAD27 DNA repair genes

A number of DNA damage-inducible genes (DIN) have been identified in Saccharomyces cerevisiae. In the present study we describe isolation of a novel gene, Din7, the expression of which is induced by exposure of cells to UV light, MMS (methyl methanesulfonate) or HU (hydoxyurea). The DNA sequence of DIN7 was determined. By comparison of the predicted Din7 amino acid sequence with those in databases we found that it belongs to a family of proteins which includes S. cerevisiae Rad2 and its Schizosaccharomyces pombe and human homologs Rad13 and XPGC; S. cerevisiae Rad27 and its S. pombe homolog Rad2, and S. pombe Exo I. All these proteins are endowed with DNA nuclease activity and are known to play an important function in DNA repair. The strongest homology to Din7 was found with the Dhs1 protein of S.␣cerevisiae, the function of which is essentially unknown. The expression of the DIN7 gene was studied in detail using a DIN7-lacZ fusion integrated into a chromosome. We show that the expression level of DIN7 rises during meiosis at a time nearly coincident with commitment to recombination. No inducibility of DIN7 was found after treatment with DNA-damaging agents of cells bearing the rad53-21 mutation. Surprisingly, a high basal level of DIN7 expression was found in strains in which the DUN1 gene was inactivated by transposon insertion. We suggest that a form of Dun1 may be a negative regulator of the DIN7 gene expression. Received: 30 May 1996 / Accepted: 26 September 1996     

Expression of bacterial hemoglobin genes to improve astaxanthin production in a methanotrophic bacterium Methylomonas sp

Astaxanthin has been widely used as a feed supplement in poultry and aquaculture industries. One challenge for astaxanthin production in bacteria is the low percentage of astaxanthin in the total carotenoids. An obligate methanotrophic bacterium Methylomonas sp. 16a was engineered to produce astaxanthin. Astaxanthin production appeared to be dramatically affected by oxygen availability. We examined whether astaxanthin production in Methylomonas could be improved by metabolic engineering through expression of bacterial hemoglobins. Three hemoglobin genes were identified in the genome of Methylomonas sp. 16a. Two of them, thbN1 and thbN2, belong to the family of group I truncated hemoglobins. The third one, thbO, belongs to the group II truncated hemoglobins. Heterologous expression of the truncated hemoglobins in Escherichia coli improved cell growth under microaerobic conditions by increasing final cell densities. Co-expression of the hemoglobin genes along with the crtWZ genes encoding astaxanthin synthesis enzymes in Methylomonas showed higher astaxanthin production than expression of the crtWZ genes alone on multicopy plasmids. The hemoglobins likely improved the activity of the oxygen-requiring CrtWZ enzymes for astaxanthin conversion. A plasmid-free production strain was constructed by integrating the thbN1–crtWZ cassette into the chromosome of an astaxanthin-producing Methylomonas strain. It showed higher astaxanthin production than the parent strain.     

Mitochondrial perturbation,oxidative stress and lysosomal destabilization are involved in 7β-hydroxysitosterol and 7β-hydroxycholesterol triggered apoptosis in human colon cancer cells

We reported previously that 7β-hydroxysitosterol and 7β-hydroxycholesterol induced apoptosis in Caco-2 cells. Apoptosis caused by 7β-hydroxysitosterol but not by 7β-hydroxycholesterol was related to a caspase-dependent process. In the present report, we compared the effects of both compounds on mitochondria integrity and on various modulators of apoptosis. When Caco-2 cells were exposed to both hydroxysterols, no changes in Bcl-2 and Bax expressions were detected indicating a Bcl-2/Bax-independent cell death pathway, whereas loss of mitochondrial membrane potential and cytochrome c release were observed. Endonuclease G expression and enhanced production of reactive oxygen species were detected in 7β-hydroxycholesterol treated cells, but not with 7β-hydroxysitosterol. Loss of mitochondrial membrane potential and cell death produced by both hydroxysterols were prevented by vitamin C. Lysosomal membrane integrity was altered with both hydroxysterols, but 7β-hydroxysitosterol was significantly more active on than 7β-hydroxycholesterol. Both hydroxysterols induced apoptosis by mitochondrial membrane permeabilization. However, 7β-hydroxycholesterol exhibited a specific enhancement of oxidative stress and of endonuclease G expression despite its closely related chemical structure with 7β-hydroxysitosterol. The two hydroxysterols exhibit different lipophilic properties which may explain their different biological effects.     

Characterization of β -Carotene Ketolases, CrtW, from Marine Bacteria by Complementation Analysis in Escherichia coli

A complementation analysis was performed in Escherichia coli to evaluate the efficiency of β-carotene ketolases (CrtW) from the marine bacteria Brevundimonas sp. SD212, Paracoccus sp. PC1 (Alcaligenes PC-1), and Paracoccus sp. N81106 (Agrobacterium aurantiacum), for astaxanthin production. Each crtW gene was expressed in Escherichia coli synthesizing zeaxanthin due to the presence of plasmid pACCAR25ΔcrtX. Carotenoids that accumulated in the resulting E. coli transformants were examined by chromatographic and spectroscopic analyses. The transformant carrying the Paracoccus sp. PC1 or N81106 crtW gene accumulated high levels of adonixanthin, which is the final astaxanthin precursor for CrtW, and astaxanthin, while the E. coli transformant with crtW from Brevundimonas sp. SD212 did not accumulate any adonixanthin and produced a high level of astaxanthin. These results show efficient conversion by CrtW of Brevundimonas sp. SD212 from adonixanthin to astaxanthin, which is a new-found characteristic of a bacterial CrtW enzyme. The phylogenetic positions between CrtW of the two genera, Brevundimonas and Paracoccus, are distant, although they fall into α-Proteobacteria.     

Spatiotemporal distribution of fruitbodies of ectomycorrhizal fungi in an Abies firma forest

 Spatial associations between ectomycorrhizal (ECM) fungi and their presumed host trees, and spatiotemporal associations among ECM fungi were surveyed for 3 years in an Abies firma-dominated forest in central Japan. A total of 39 species in 13 genera of ECM fungi were recorded, with more species in the Russulaceae than any other family. Russula ochroleuca, Russula sp.1 and Strobilomyces confusus tended to produce their fruitbodies on the forest floor directly under the crown of A. firma, whereas those of Inocybe cincinnata, Gomphus floccosus and G. fujisanensis were aggregated in limited areas outside the A. firma crown. Interspecific spatial associations were analysed for Russula sp.1, which was the most dominant species, and three other frequent species, I. cincinnata, S. confusus and R. ochroleuca. Pairwise, Russula sp.1 with I. cincinnata, with S. confusus or with R. ochroleuca showed an association which was exclusive, overlapping or independent, respectively. Fruiting phenologies differed in that S. confusus showed a peak density in the summer, whereas the other three species peaked in the autumn. These results suggest that the formation of ECM fruitbodies can be partitioned among the species both spatially and temporally. Accepted: 7 July 1998     

Ophiostomatoid fungi associated with the northern spruce engraver, <Emphasis Type="Italic">Ips perturbatus</Emphasis>, in western Canada

A number of ophiostomatoid fungi were isolated from the spruce-infesting bark beetle, Ips perturbatus and its galleries collected from felled spruce trees and logs in northern BC and the Yukon Territory. Isolates were identified to species using morphological characteristics, nuclear ribosomal DNA and partial β-tubulin gene sequences. Thirteen morphological and phylogenetic species were identified among the isolates. Leptographium fruticetum, Leptographium abietinum, Ophiostoma bicolor, Ophiostoma manitobense, O. piceaperdum, and eight undescribed species of the genus Ophiostoma and the anamorph genera Leptographium, Hyalorhinocladiella, Ambrosiella and Graphium. A number of these species, i.e. L. fruticetum, Hyalorhinocladiella sp. 2, O. bicolor and O. manitobense, were isolated repeatedly from I. perturbatus, while others, i.e. Graphium sp. 1 and O. piceaperdum, seemed to be␣sporadic associates. Among all the isolates, L. fruticetum had the highest relative dominance in this survey. A high frequency of occurrence of this species with the beetle may indicate a specific relationship between the two partners.     

Evaluation of 28 marine algae from the Qingdao coast for antioxidative capacity and determination of antioxidant efficiency and total phenolic content of fractions and subfractions derived from Symphyocladia latiuscula (Rhodomelaceae)

The extracts obtained from 28 species of marine algae were evaluated for their antioxidant activity (AA) versus the positive controls butylated hydroxytoluene (BHT), gallic acid (GA), and ascorbic acid (AscA). Most of the tested samples displayed antioxidant activity to various degrees. Among them, the extract of Symphyocladia latiuscula exhibited the strongest AA, which was comparable to BHT, GA, and AscA in radical scavenging activity, as shown in the DPPH (α,α-diphenyl-β-picrylhydrazyl) assay, and higher than those of the positive controls in β-carotene-linoleate assay system. In addition, the ethyl acetate-soluble fraction isolated from the crude extract of S. latiuscula exhibited the highest antioxidant activity in both assay systems. This fraction was further fractionated into seven subfractions (F1-F7) by vacuum liquid chromatography (VLC). F1 and F4 were found to be the most effective subfractions in scavenging DPPH radical assay and in the β-carotene-linoleate assay, respectively. The total phenolic content (TPC) and reducing power (RP) for all of the extracts, fractions, and subfractions (F1–F7) were also determined. The TPC of the 28 extracts ranged from 0.10 to 8.00 gallic acid equivalents (mg/g seaweed dry weight) while the RP ranged from 0.07 to 11.60 ascorbic acid equivalents (mg·g⁻¹ seaweed dry weight). Highly positive relationships between AA and TPC as well as between AA and RP were found for the extracts and fractions, while for the subfractions F1–F7 only weak or no such relations were found. The results obtained from this study indicate that further analysis is needed of those marine algal species that contain the most antioxidant activity in order to identify the active principles.     

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     

A Caenorhabditis elegans homeobox gene expressed in the male tail, a link between pattern formation and sexual dimorphism?

 ceh-7 is a small Caenorhabditis elegans homeobox gene. We have shown that this gene is transcribed. Examination of the expression pattern of ceh-7 using reporter constructs revealed that it is expressed in a few cells of the male tail, which form a ring around the rectum. The most posterior member of the C. elegans Hox cluster, egl-5, an Abd-B homologue, has previously been shown to be required for the proper development of several blast cells in the male tail. We have examined the expression of ceh-7 in mutant backgrounds of egl-5 and also mab-5, an Antp/Ubx/Abd-A homologue. We find that ceh-7 is not expressed in egl-5 mutants, but is still expressed in mab-5 mutants. Received: 16 March 1998 / Accepted: 4 September 1998     

Herbicidal inhibitors of amino acid biosynthesis and herbicide-tolerant crops

Summary. Acetohydroxyacid synthase (AHAS) inhibitors interfere with branched-chain amino acid biosynthesis by inhibiting AHAS. Glyphosate affects aromatic amino acid biosynthesis by inhibiting 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS). Glufosinate inhibits glutamine synthetase and blocks biosynthesis of glutamine. AHAS gene variants that confer tolerance to AHAS inhibitors have been discovered in plants through selection or mutagenesis. Imidazolinone-tolerant crops have been commercialized based on these AHAS gene variants. A modified maize EPSPS gene and CP4-EPSPS gene from Agrobacterium sp. have been used to transform plants for target-based tolerance to glyphosate. A gox gene isolated from Ochrobactrum anthropi has also been employed to encode glyphosate oxidoreductase to detoxify glyphosate in plants. Glyphosate-tolerant crops with EPSPS transgene alone or both EPSPS and gox transgenes have been commercialized. Similarly, bar and pat genes isolated from Streptomyces hygroscopicus and S. viridochromogenes, respectively, have been inserted into plants to encode phosphinothricin N-acetyltransferase to detoxify glufosinate. Glufosinate-tolerant crops have been commercialized using one of these two transgenes.     

Morphology,Ontogeny, and Phylogeny of Two Brackish Urostylid Ciliates (Protist,Ciliophora, Hypotricha)

The diversity of hypotrichous ciliates has encouraged numerous researchers to use a combination of morphological, morphogenetic, and phylogenetic data to provide a better understanding of the evolutionary relationships within this complex group. In this study, we investigate the morphology and morphogenesis of Pseudourostyla subtropica sp. nov., isolated from mangrove wetland. The new species can be distinguished from its congeners by the huge body size, many more adoral membranelles and marginal cirral rows, and numerous macronuclear nodules. In addition, we provide a morphological characterization of a population of Pseudourostyla nova Wiackowski 1988 from an estuarine habitat. The main events during binary fission of P. subtropica sp. nov. and the Chinese population of P. nova are also revealed to be conservative. The morphological, ontogenetic, and phylogenetic analyses based on the SSU rDNA sequences corroborate the monophyly of Pseudourostyla Borror, 1972, which corresponds well with previous research. The phylogenetic analyses also show that Pseudourostyla and Hemicycliostyla Stokes, 1886, both of which are assigned to the family Pseudourostylidae based on morphological and morphogenetic data, in fact fall into separated clades. The approximately unbiased tests, however, do not reject the possibility that the family Pseudourostylidae is a monophyletic lineage.     

Molecular characterization of Pseudomonas sp. LDC-5 involved in accumulation of poly 3-hydroxybutyrate and medium-chain-length poly 3-hydroxyalkanoates

Polyhydroxyalkanoates (PHAs) are biological polyesters, of which, Short-Chain-Length-Medium-Chain-Length (SCL-MCL) PHA copolymers are important because of their wide range of applications. The present study focused on molecular characterization of Pseudomonas sp. LDC-5 that is identified as SCL-MCL producer. Phase contrast, fluorescent and electron microscopic observation confirmed the presence of PHA granules in Pseudomonas sp. LDC-5. PCR analysis indicated the presence of expected amplicon for SCL phaC gene (∼500 bp), MCL phaC1 with phaZ (∼1.3), and phaC2 with phaZ (∼1.5 kb). Sequence analysis of the PHA synthase gene of Pseudomonas sp. LDC-5 revealed significant differences in phaC1 and phaC2 which were further confirmed by recombinant studies. Recombinant Escherichia coli harboring the partial phaC1 gene was able to accumulate PHA, whereas E. coli with phaC2 did not accumulate PHA as verified by fold analysis, immunoblotting, Gas Chromatography (GC), Differential scanning calorimetry (DSC), and FTIR studies. The predicted theoretical three-dimensional structure revealed that PhaC1 is consistent with α/β hydrolase fold. Monomer composition showed the presence of monomer ranging from C4 to C12: 1 when glucose and sodium octanoate fed as the carbon source. DSC revealed melting temperature peak at 153.12°C and glass transition (T_g) peaks at −0.37°C. Thermogravimetric analysis revealed that the polymer was stable up to 276°C. Fourier Transform Infrared Spectroscopy (FT-IR) spectral analysis showed the PHA specific wave number at 1,739.67 and 1,161.07 cm⁻¹. The potential of Pseudomonas sp. LDC-5 and its properties are discussed.     

Phylogenetic Relationships Among Hypotrichous Ciliates Determined with the Macronuclear Gene Encoding the Large, Catalytic Subunit of DNA Polymerase α

The complete macronuclear DNA polymerase α gene, previously sequenced in Oxytricha nova, has been cloned from a genomic macronuclear library and sequenced for the hypotrich O. trifallax. Macronuclear DNA clones of DNA polymerase α encoding ∼1000 amino acids, or approximately two-thirds of the open reading frame, have been obtained by PCR and sequenced for Halteria grandinella, Holosticha species, Paraurostyla viridis, Pleurotricha lanceolata, Stylonychia lemnae Teller, Sty. mytilus, Uroleptus gallina, and Urostyla grandis. Phylogenetic relationships inferred from DNA polymerase α amino acid sequences have been used to clarify taxonomic relationships previously determined by morphology of the cell cortex. Hypotrich phylogenies based on DNA polymerase α amino acid sequences are incongruent with morphological and other molecular phylogenies. Based upon these data, we assert that, contrary to morphological data, O. nova and O. trifallax are different species, and we propose that the oligotrich Halteria grandinella be reclassified as a hypotrich. This work also extends the available data base of eukaryotic DNA polymerase α sequences, and suggests new amino acid sequence targets for mutagenesis experiments to continue the functional dissection of DNA pol α biochemistry at the molecular level. Received: 7 January 1997 / Accepted: 7 April 1997     

Studies on the mechanism of the selenite-induced decrease in cell attachment

We previously reported that exposure of HeLa cells to selenite for 2 h results in a decrease in their ability to attach to fibronectin (Yan and Frenkel,Cancer Res. 52, 5803–5807 [1992]), as well as a decrease in the level of fibronectin receptor (α5β1 integrin) at the cell surface (Yan and Frenkel,Biol. Trace Element Res. 46, 79–89 [1994]). We have now found that after exposure to selenite, there was a decrease in the total cellular content of the receptor protein, as well as in the level of the mRNAs for both of the subunits. Exposure of cells to actinomycin D (an inhibitor of RNA synthesis) also resulted in a decrease in the level of these mRNAs, suggesting that the effect of selenite is the result of its known inhibitory effect on RNA synthesis (Frenkel,Toxicol. Lett. 25, 219–223 [1985]). Exposure of cells to actinomycin D for 2 h also resulted in a decrease in the ability of cells to attach to fibronectin. Furthermore, both selenite and actinomycin D caused a decrease in integrin mRNA levels and in cell attachment to fibronectin only when high-density cells were exposed to the agents. In contrast, when low-density cells were exposed,neither agent had any detectable effect on mRNA levels or on cell attachment. These results have suggested the following scheme for the mechanism of the inhibition of cell attachment by selenite: After exposure to selenite for 2 h, there is a significant inhibition of cellular RNA synthesis, which results in a general decrease in the cellular level of those mRNAs with relatively short half-lives, including in particular those of the fibronectin receptor. This leads to a decrease in the intracellular level of the receptor protein and, consequently, in its level at the cell surface, which in turn causes a decrease in the rate of cell attachment to fibronectin.     

A novel yeast gene, RHK1 , is involved in the synthesis of the cell wall receptor for the HM-1 killer toxin that inhibits β-1,3-glucan synthesis

The HM-1 killer toxin from Hansenula mrakii is known to inhibit cell wall β-1,3-glucan synthase of Saccharomyces cerevisiae and other sensitive strains of yeast. A number of mutants of Saccharomyces cerevisiae that show resistance to this toxin were isolated in order to clarify the killing mechanism of the toxin. These mutants, designated rhk (resistant to Hansenula killer), were classified into three complementation groups. A novel gene RHK1, which complements the killer-resistant phenotype of the largest complementation group rhk1, was isolated. DNA sequence analysis revealed an open reading frame that encodes a hydrophobic protein composed of 458 amino acids. Gene disruption followed by tetrad analysis showed that RHK1 is not essential and loss of RHK1 function endowed S. cerevisiae cells with complete killer resistance. A biochemical analysis suggested that RHK1 does not participate directly in the synthesis of β-1,3-glucan but is involved in the synthesis of the receptor for the HM-1 killer toxin. Received: 27 June 1996 / Accepted: 14 October 1996