PURPOSE: The AVSS with 3-D HMD is considered to provide a more realistic image and more comfortable circumstances in which the subjects are absorbed in the stimulation. We investigated the efficacy of using 3-D combined with oral medication and a stimulation (COS) test for the evaluation of vasculogenic erectile dysfunction (ED). MATERIALS AND METHODS: 66 patients with complaints of ED, 28 patients diagnosed with vasculogenic ED and 38 patients diagnosed with psychogenic ED were included in this study. The patients were randomly divided into the 2-D group and the 3-D group. The 2-D group patients were examined with using 2-D combined an injection and a stimulation (CIS) test. The 3-D group patients were examined with 3-D CIS test. Then a week later, the patients underwent the AVSS with 3-D HMD 1 hour after oral PDE 5 inhibitor medication. The degree of erection was monitored using the Nocturnal Electrobioimpedance Volumetric Assessment (NEVA) system. RESULTS: On the 2-D CIS tests, 12 of 27 patients showed normal erection, and this resulted in a sensitivity and specificity of 72.7% and 56.3%, respectively. On the 3-D CIS tests, 20 of 39 patients showed normal erection and on the 3-D COS tests, 17 patients showed normal erection and this resulted in a sensitivity and specificity of 88.2% and 81.8%, and 94.1% and 72.7%, respectively. No significant difference were present in the results of the diagnosis between the 3-D CIS and 3-D COS tests. CONCLUSIONS: Both the 3-D CIS and 3-D COS tests offer the advantage of higher sensitivity and specificity than the conventional CIS test. The 3-D COS test may be used as a substitute for the conventional CIS test due to its simplicity and less invasive nature.
Diagnosis* ; Erectile Dysfunction* ; Genetic Complementation Test ; Humans ; Male ; Photic Stimulation ; Sensitivity and Specificity ; Vardenafil Dihydrochloride

OBJECTIVETo establish a method for gene complementation in Vibrio parahaemolyticus using the plasmid pBAD33.

METHODSThe entire coding region of opaR or aphA was amplified by PCR and cloned into pBAD33. The recombinant plasmid was transformed into δopaR and δaphA (the opaR or aphA null mutant strain, respectively) separately to construct the complemented mutant strain C-δaphA and C-δopaR, respectively. RT-PCR was used to verify the transcription of opaR and aphA in the corresponding complemented mutant strains. Primer extension experiments were performed to determine the relative mRNA levels of mfpA (a gene previously characterized to be negatively regulated by AphA and positively by OpaR) in the wild-type strain, δopaR, δaphA, C-δaphA, and C-δopaR.

RESULTSopaR and aphA were transcribed in the corresponding complemented mutant strains, and their mRNA levels were comparable to those detected in the wild-type strains.

CONCLUSIONA method has been established for gene complementation in Vibrio parahaemolyticus using the plasmid pBAD33.

Bacterial Proteins ; genetics ; Gene Expression ; Genetic Complementation Test ; methods ; Plasmids ; genetics ; Promoter Regions, Genetic ; Vibrio parahaemolyticus ; genetics

OBJECTIVETo perform the genetic identification of cloche(172) mutant zebrafish.

METHODSThe chemical mutagen N-ethyl-N-nitrosourea (ENU) was used to treat the AB stain male fish. Large-scale forward genetic screening was carried out to search for lyC-deficient zebrafish mutant by WISH. The morphology changes of the embryos at 3 days postfertilization (3dpf) stage were observed and the cloche(172) gene was identified by mapping and complementation test.

RESULTSWe selected 4 lyC-deficient zebrafish by WISH. cloche(172) mutant showed morphological changes similar to cloche mutant in 3dpf stage. One fourth of the embryos showed cloche phenotype as found in complementation test, and the cloche(172) gene was mapped on the telomere of zebrafish 13 chromosome where cloche gene was located. Numerous red blood cells were observed in the cloche(172) mutant, while only a few cells were found in the cloche mutant in the tail region by o-dianisdine staining.

CONCLUSIONcloche(172) gene which is responsible for the phenotype of cloche mutant may be a novel point mutation allele of the cloche mutant.

Alleles ; Animals ; Chromosome Mapping ; Cloning, Molecular ; Embryo, Nonmammalian ; embryology ; metabolism ; Ethylnitrosourea ; toxicity ; Genetic Complementation Test ; Male ; Muramidase ; genetics ; Mutation ; Zebrafish ; embryology ; genetics ; Zebrafish Proteins ; genetics

Although cultured myoblast transplantation has been extensively studied as a gene complementation approach to muscular dystrophy treatment, clinical success has still been limited. The inability to adequately isolate and purify myoblasts presents a major limitation to the production of sufficient myoblasts for engrafting purposes. This study attempted to purify myoblasts from primary culture by magnetic-activated cell sorting (MACS), complement-mediated cytotoxicity, and a preplating technique. As a result of positive myoblasts selection by MACS, the average percentage of myoblasts in mixed culture was increased from 30.0% to 41.7%. We observed both myoblast lysis and fibroblast lysis after complement-mediated cytotoxicity. Enrichment of myoblasts in mixed culture was found to increase to 83.1% by using the preplating technique. In addition, higher purification (92.8%) was achieved by following the preplating technique with MACS. Thus, preplating in combination with magnetic-activated cell sorting allows for a rapid and effective isolation of myoblasts from human muscle tissue.
Time Factors ; Myoblasts/*cytology ; Muscle, Skeletal/*cytology ; Models, Statistical ; Magnetics ; Immunomagnetic Separation/methods ; Immunohistochemistry ; Humans ; Genetic Complementation Test ; Fibroblasts/cytology ; Complement System Proteins ; Cells, Cultured ; Cell Separation/*methods ; Cell Differentiation

MicroRNAs (miRNAs) constitute a novel, extensive class of small RNAs (approximately 21 nucleotides), and play important gene-regulation roles during growth and development in various organisms. Here we conducted a homology search to identify homologs of previously validated miRNAs from silkworm genome. We identified 24 potential miRNA genes, and gave each of them a name according to the common criteria. Interestingly, we found that a great number of newly identified miRNAs were conserved in silkworm and Drosophila, and family alignment revealed that miRNA families might possess single nucleotide polymorphisms. miRNA gene clusters and possible functions of complement miRNA pairs are discussed.
Animals ; Base Sequence ; Bombyx ; Cluster Analysis ; Computational Biology ; methods ; Drosophila melanogaster ; Genetic Complementation Test ; Genome ; MicroRNAs ; metabolism ; Molecular Sequence Data ; Multigene Family ; Polymorphism, Single Nucleotide ; Sequence Homology, Nucleic Acid ; Software ; Thermodynamics

The null mutation of cardiac Na+-Ca2+ exchanger (NCX1) gene in mice caused death of embryo in utero at embryonic day (ED) 9.0-9.5 and this embryonic lethality appears resulted from abnormal heart development. In the present study, we investigated whether transgenic re-expression of NCX1 in mutant cardiac myocytes could rescue these lethal defects. Transgenic mice expressing the canine NCX1 in a cardiac specific manner were bred into the NCX1 knock-out background but did not prevent the fetal lethality associated with the NCX1 null allele. However, the NCX1 knock-out embryos with an NCX1 transgene survived with heart beatings until ED 10.5 which was one day longer than the survival of the NCX1 knock-out embryos (ED 9.5). At ED 10.5, however, the partially rescued NCX1 embryos might have succumbed to the lack of an organized vasculature in the yolk sacs. The placental labyrinth layer was reduced in size and largely avascular. The transgenic re-expression of NCX1 rescued heart beatings and survived longer, but was still insufficient for the mice to be completely rescued. Importantly, NCX1 was observed to express in the yolk sac and the placenta of wild type mice. The results suggest that defects in extra-embryonic compartments are causal to the lethality, and that NCX1 may play an important role in establishing vascularization in extra-embryonic tissues.
Animals ; Embryo/*metabolism/pathology ; Embryo Loss ; Female ; Gene Deletion ; *Gene Expression ; Genetic Complementation Test ; Mice ; Mice, Knockout ; Mice, Transgenic ; Myocytes, Cardiac/metabolism ; Phenotype ; Placenta/metabolism/pathology ; Sodium-Calcium Exchanger/*genetics/*metabolism ; Survival Rate ; Yolk Sac/embryology/metabolism/pathology

BACKGROUND AND OBJECTIVES: Deafness is the most common sensory deficit and hereditary defect in human populations. The present study investigated the causative gene in circling mice using the complementation test. In addition, the phenotypes and histopathologic findings in circler mice, spinner mice, and compound heterozygote mice were analyzed to elucidate the mechanism of causative gene in inner ear deafness. MATERIALS AND METHOD: In order to analyze inner ear pathology in time sequence for the circler mice, spinner mice, and compound heterozygote, five groups of the homozygous mutants of different ages were used: 10, 18, 21, 35, and 90 days old. The organs of Corti and spiral ganglion neurons in the basal and middle turns were included for quantification. For the preparation of genomic DNA, tail tissues were used. RESULTS: The hair cells in the organ of Corti degenerated in a time-dependent manner. In the basal and middle turns, the volume ratio of spiral ganglion neurons significantly decreased as the mutant aged. RT-PCR analysis indicated that transmembrane inner ear (Tmie) was absent in the case of circler mice, similar to spinner mouse of which is defective Tmie gene. Therefore the variations may be a result from strain-specific allelic differences of the Chr 9 Tmie gene itself (allelic heterogeneity). CONCLUSION: The cir mutant is a suitable mouse model for neuroepithelial defects. PCR and RT-PCR analyses suggest that the Tmie transcript is absent in circler mice. This model represents another candidate for human genetic hearing loss.
Animals ; Deafness* ; DNA ; Ear, Inner ; Genes, Recessive ; Genetic Complementation Test ; Hair ; Hearing Loss ; Heterozygote ; Humans ; Mice* ; Models, Animal ; Neurons ; Organ of Corti ; Pathology ; Phenotype ; Polymerase Chain Reaction ; Spiral Ganglion ; Tail

Listeria monocytogenes is an important zoonotic foodborne pathogen that can tolerate a number of environmental stresses. RsbR, an upstream regulator of the sigma B (SigB) factor, is thought to sense environmental challenges and trigger the SigB pathway. In Bacillus subtilis, two phosphorylation sites in RsbR are involved in activating the SigB pathway and a feedback mechanism, respectively. In this study, the role of RsbR in L. monocytogenes under mild and severe stresses was investigated. Strains with genetic deletion (ΔrsbR), complementation (C-ΔrsbR), and phosphorylation site mutations in the rsbR (RsbR-T175A, RsbR-T209A, and RsbR-T175A-T209A) were constructed to evaluate the roles of these RsbR sequences in listerial growth and survival. SigB was examined at the transcriptional and translational levels. Deletion of rsbR reduced listerial growxth and survival in response to acidic stress. Substitution of the phosphorylation residue RsbR-T175A disabled RsbR complementation, while RsbR-T209A significantly upregulated SigB expression and listerial survival. Our results provide clear evidence that two phosphorylation sites of RsbR are functional in L. monocytogenes under acidic conditions, similar to the situation in B. subtilis.
Alanine/genetics* ; Bacillus subtilis ; Bacterial Proteins/metabolism* ; Binding Sites ; Gene Deletion ; Gene Expression Regulation, Bacterial ; Genetic Complementation Test ; Homeostasis ; Hydrogen-Ion Concentration ; Listeria monocytogenes/metabolism* ; Listeriosis/microbiology* ; Mutation ; Phenotype ; Phosphoproteins/metabolism* ; Phosphorylation ; Sigma Factor/metabolism* ; Stress, Physiological

An increasing body of evidence shows that the lipid droplet, a neutral lipid storage organelle, plays a role in lipid metabolism and energy homeostasis through its interaction with mitochondria. However, the cellular functions and molecular mechanisms of the interaction remain ambiguous. Here we present data from transmission electron microscopy, fluorescence imaging, and reconstitution assays, demonstrating that lipid droplets physically contact mitochondria in vivo and in vitro. Using a bimolecular fluorescence complementation assay in Saccharomyces cerevisiae, we generated an interactomic map of protein-protein contacts of lipid droplets with mitochondria and peroxisomes. The lipid droplet proteins Erg6 and Pet10 were found to be involved in 75% of the interactions detected. Interestingly, interactions between 3 pairs of lipid metabolic enzymes were detected. Collectively, these data demonstrate that lipid droplets make physical contacts with mitochondria and peroxisomes, and reveal specific molecular interactions that suggest active participation of lipid droplets in lipid metabolism in yeast.
Animals ; Cell Line ; Genetic Complementation Test ; Lipid Metabolism ; Lipids ; Microscopy, Electron, Transmission ; Microscopy, Fluorescence ; Mitochondria ; metabolism ; Muscle Cells ; metabolism ; Muscle, Skeletal ; cytology ; metabolism ; Oncogene Proteins ; genetics ; metabolism ; Peroxisomes ; metabolism ; Plasmids ; Protein Binding ; Protein Interaction Mapping ; methods ; Rats ; Recombinant Fusion Proteins ; genetics ; metabolism ; Saccharomyces cerevisiae ; Transcription Factors ; genetics ; metabolism ; Transformation, Genetic

Animals ; COS Cells ; Cercopithecus aethiops ; Endoplasmic Reticulum ; GTP Phosphohydrolases ; antagonists & inhibitors ; chemistry ; genetics ; metabolism ; GTP-Binding Proteins ; antagonists & inhibitors ; chemistry ; genetics ; metabolism ; Gene Expression ; Genetic Complementation Test ; HeLa Cells ; Humans ; Kinetics ; Membrane Fusion ; genetics ; Membrane Proteins ; antagonists & inhibitors ; chemistry ; genetics ; metabolism ; Protein Multimerization ; RNA, Small Interfering ; genetics ; metabolism ; Recombinant Proteins ; chemistry ; genetics ; metabolism ; Saccharomyces cerevisiae ; genetics ; metabolism ; Saccharomyces cerevisiae Proteins ; genetics ; metabolism ; Vesicular Transport Proteins ; genetics ; metabolism