The human Shwachman-Diamond syndrome (SDS) is an autosomal recessive disease caused by mutations in a highly conserved ribosome assembly factor SBDS. The functional role of SBDS is to cooperate with another assembly factor, elongation factor 1-like (Efl1), to promote the release of eukaryotic initiation factor 6 (eIF6) from the late-stage cytoplasmic 60S precursors. In the present work, we characterized, both biochemically and structurally, the interaction between the 60S subunit and SBDS protein (Sdo1p) from yeast. Our data show that Sdo1p interacts tightly with the mature 60S subunit in vitro through its domain I and II, and is capable of bridging two 60S subunits to form a stable 2:2 dimer. Structural analysis indicates that Sdo1p bind to the ribosomal P-site, in the proximity of uL16 and uL5, and with direct contact to H69 and H38. The dynamic nature of Sdo1p on the 60S subunit, together with its strategic binding position, suggests a surveillance role of Sdo1p in monitoring the conformational maturation of the ribosomal P-site. Altogether, our data support a conformational signal-relay cascade during late-stage 60S maturation, involving uL16, Sdo1p, and Efl1p, which interrogates the functional P-site to control the departure of the anti-association factor eIF6.
Crystallography, X-Ray ; GTP Phosphohydrolases ; chemistry ; metabolism ; Humans ; Protein Domains ; Ribosome Subunits, Large, Eukaryotic ; chemistry ; metabolism ; Saccharomyces cerevisiae ; chemistry ; metabolism ; Saccharomyces cerevisiae Proteins ; chemistry ; metabolism

A seed-borne fungus, Curvularia sp. EML-KWD01, was isolated from an indigenous wheat seed by standard blotter method. This fungus was characterized based on the morphological characteristics and molecular phylogenetic analysis. Phylogenetic status of the fungus was determined using sequences of three loci: rDNA internal transcribed spacer, large ribosomal subunit, and glyceraldehyde 3-phosphate dehydrogenase gene. Multi loci sequencing analysis revealed that this fungus was Curvularia spicifera within Curvularia group 2 of family Pleosporaceae.
Classification* ; DNA, Ribosomal ; Fungi ; Glyceraldehyde 3-Phosphate ; Humans ; Oxidoreductases ; Ribosome Subunits, Large ; Triticum

The in vivo assembly of ribosomal subunits is a highly complex process, with a tight coordination between protein assembly and rRNA maturation events, such as folding and processing of rRNA precursors, as well as modifications of selected bases. In the cell, a large number of factors are required to ensure the efficiency and fidelity of subunit production. Here we characterize the immature 30S subunits accumulated in a factor-null Escherichia coli strain (∆rsgA∆rbfA). The immature 30S subunits isolated with varying salt concentrations in the buffer system show interesting differences on both protein composition and structure. Specifically, intermediates derived under the two contrasting salt conditions (high and low) likely reflect two distinctive assembly stages, the relatively early and late stages of the 3' domain assembly, respectively. Detailed structural analysis demonstrates a mechanistic coupling between the maturation of the 5' end of the 17S rRNA and the assembly of the 30S head domain, and attributes a unique role of S5 in coordinating these two events. Furthermore, our structural results likely reveal the location of the unprocessed terminal sequences of the 17S rRNA, and suggest that the maturation events of the 17S rRNA could be employed as quality control mechanisms on subunit production and protein translation.
Cryoelectron Microscopy ; Escherichia coli ; metabolism ; Escherichia coli Proteins ; genetics ; metabolism ; GTP Phosphohydrolases ; genetics ; metabolism ; Mass Spectrometry ; Protein Structure, Secondary ; Protein Structure, Tertiary ; RNA, Ribosomal ; analysis ; metabolism ; Ribosomal Proteins ; chemistry ; genetics ; metabolism ; Ribosome Subunits, Small, Bacterial ; chemistry ; metabolism ; ultrastructure ; Salts ; chemistry

BACKGROUND: Onychomycosis has become one of the common fungal infection. However, highly reliable and sensitive methods of detecting and identifying causative fungi of onychomycosis are not established yet. Polymerase chain reaction (PCR) analysis of clinical specimens including blood, sputum, urine, and cerebrospinal fluid collected from patient systemically infected fungus is known as a sensitive diagnostic method. But it has been questionable whether PCR analysis is also applicable to onychomycosis. OBJECTIVE: The purpose of this study was to develop a DNA-based diagnostic method to improve the sensitivity and specificity of detection and identification of pathogenic fungi of onychomycosis. METHODS: To detect the fungi in the nail, PCR was performed by using 4 sets of primer (TR1 & TR2, NS5 & NS6, B2F & B4R and CA1 & CA2) designed in conserved sequences of the small ribosomal subunit (185-rRNA) genes and restriction enzyme analysis of amplified product by Hae III was done to identify species. Nail specimens were obtained from 19 cases of onychomycosis confirm by fungus culture. RESULTS: 1. Preparation of nail powder, which is necessary for removal of keratin, and composition of lysis buffer with guanidinium thiocyanate, Tris-HCl, and beta -mercaptoethanol are the most proper modalities for isolation of fungal DNA from fungus-infesting nails. 2. Specific fragments of the 18S-rRNA gene of fungi, 581 bp, 308 bp, 688 bp and 1106 bp were amplified respectively. From sequences of 18S-rRNA gene of fungi by universal primers, dermatophytes (Trichophyton rubrum, Trichophyton mentagrophytes) and yeast (Candida albicans) yielded identical products. 3. Using Hae III endonuclease, digested patterns of fragment of Trichophyton rubrum and Candida albicans resulted in different pattern. CONCLUSION: This method released enough DNA from fungus-infected nails to result in proper amplification and it can be possible to differentiate dermatophytes, yeasts, and molds using Hae III endonuclease. The present study is the first one to demonstrate the feasibility of this molecular biologic approach to identify fungi in the infected nail. Therefore, precise detection and identification of the causative fungi would be of help in investigating distribution of the causative fungi of onychomycosis as well as appropriate treatment of the disease.
Arthrodermataceae ; Candida albicans ; Cerebrospinal Fluid ; Conserved Sequence ; Diagnosis* ; DNA ; DNA, Fungal ; Fungi* ; Guanidine ; Humans ; Onychomycosis* ; Polymerase Chain Reaction* ; Restriction Mapping* ; Ribosome Subunits, Small ; Sensitivity and Specificity ; Sputum ; Trichophyton ; Yeasts

Six genes for nucleoprotein, phosphoprotein, matrix protein, hemagglutinin neuramindase protein, fusion protein and large protein were obtained by reverse transcription and PCR methods based on our previous work of sequencing full length genome of sendai virus BB1 strain (DQ219803 in GenBank). Sequencing showed the six genes were completely identical to that we reported. In order to supply the function necessary for rescuing and packaging of sendai virus vector in trans, the N, P, M, F, HN and L genes were separately cloned into an adenoviral shuttle expression vector pDC316 resulting in six recombinant adenoviral plasimds. Six replicating defective recombinant adenoviruses Ad5-N, Ad5-P, Ad5-M, Ad5-F, Ad5-HN and Ad5-L were obtained by separately cotransfection of pDC316 carrying N, P, M, F, HN and L genes with the adenoviral genomic plasmid pBHGloxdeltaE1, 3Cre into HEK293cells. Restrictive enzymatic results indicated that the six recombinant plasmids were correctly constructed. PCR results showed the recombinant adenoviruses contained the respective SeV genes . Western blotting as well as immunofluorescence assay indicated the expression of the corresponding proteins of sendai virus. These work laid the basis for the construction of the full length genome plasmid of sendai virus BB1 strain and the setup of SeV virus vector system based on SeV BB1 strain.
Adenoviridae ; genetics ; Animals ; Cell Line ; Cloning, Molecular ; Gene Expression Regulation, Viral ; Genetic Vectors ; genetics ; HN Protein ; genetics ; metabolism ; Humans ; Macaca mulatta ; Nucleoproteins ; genetics ; metabolism ; Phosphoproteins ; genetics ; metabolism ; Reverse Transcriptase Polymerase Chain Reaction ; Ribosome Subunits, Large ; genetics ; metabolism ; Sendai virus ; genetics ; metabolism ; Viral Fusion Proteins ; genetics ; metabolism ; Viral Matrix Proteins ; genetics ; metabolism ; Viral Proteins ; genetics ; metabolism

Aminoglycosides are one of the clinically relevant antibiotics. They kill bacteria by binding to bacterial 30S subunit of ribosome. Resistance to aminoglycosides occurs by three different mechanisms: 1. Production of an enzyme that modifies aminoglycosides, 2. Impaired entry of aminoglycoside into the cell by altering the OMP permeability, decreasing inner membrane transport, or active efflux, 3. The receptor protein on the 30S ribosomal subunit may be deleted or altered as a result of a mutation. By far, enzymatic modification has been the most important mechanism. In this review, the mechanisms of action and resistance, and the prevalence of resistance due to acquisition of enzymes are briefly described.
Aminoglycosides ; Anti-Bacterial Agents ; Bacteria ; Membranes ; Permeability ; Prevalence ; Ribosome Subunits ; Ribosomes

Analysis of phylogenetic relationship was performed among Phellinus species based on 18S ribosomal subunit sequence data. Twenty-five strains of 19 Phellinus species including P. linteus were examined in this study. Regions of 18S ribosomal subunit were very conserved, but some variable regions between Phellinus species were observed. The species-specific detection primers, modified by 2 or 3 nucleotides in sense primer were designed based on 18S ribosomal DNA (rDNA) sequence data. The 210 bp PCR bands were detected with annealing temperature 48degrees C. The 18S 2F-18S 4R detection primer set distinguished P. linteus from various Phellinus species but some species like P. baumii, P. weirianius, P. rhabarberinus and P. pomaceus also had weak reactivity on this primer set. The 18S 3F-18S 4R primer set distinguished only P. linteus from various Phellinus species, although sensitivity with this primer set was lower than that of 18S 2F-18 4R primer set. These primer sets would be useful for the detection of only P. linteus among unknown Phellinus species rapidly.
Base Sequence* ; DNA, Ribosomal ; Nucleotides ; Phylogeny ; Polymerase Chain Reaction ; Ribosome Subunits ; RNA, Ribosomal, 18S*

The lipid droplet (LD) is a unique multi-functional organelle that contains a neutral lipid core covered with a phospholipid monolayer membrane. The LDs have been found in almost all organisms from bacteria to humans with similar shape. Several conserved functions of LDs have been revealed by recent studies, including lipid metabolism and trafficking, as well as nucleic acid binding and protection. We summarized these findings and proposed a hypothesis that the LD is a conserved organelle.
Animals ; Bacteria ; metabolism ; ultrastructure ; Biological Evolution ; Cholesterol Esters ; metabolism ; Humans ; Lipid Droplets ; chemistry ; metabolism ; ultrastructure ; Lipid Metabolism ; genetics ; Nucleic Acids ; metabolism ; Peptide Initiation Factors ; chemistry ; metabolism ; Protein Binding ; RNA-Binding Proteins ; chemistry ; metabolism ; Ribosome Subunits ; chemistry ; metabolism ; Triglycerides ; metabolism