29 research outputs found
Differential Gene Expression in Liver, Gill, and Olfactory Rosettes of Coho Salmon (Oncorhynchus kisutch) After Acclimation to Salinity.
Most Pacific salmonids undergo smoltification and transition from freshwater to saltwater, making various adjustments in metabolism, catabolism, osmotic, and ion regulation. The molecular mechanisms underlying this transition are largely unknown. In the present study, we acclimated coho salmon (Oncorhynchus kisutch) to four different salinities and assessed gene expression through microarray analysis of gills, liver, and olfactory rosettes. Gills are involved in osmotic regulation, liver plays a role in energetics, and olfactory rosettes are involved in behavior. Between all salinity treatments, liver had the highest number of differentially expressed genes at 1616, gills had 1074, and olfactory rosettes had 924, using a 1.5-fold cutoff and a false discovery rate of 0.5. Higher responsiveness of liver to metabolic changes after salinity acclimation to provide energy for other osmoregulatory tissues such as the gills may explain the differences in number of differentially expressed genes. Differentially expressed genes were tissue- and salinity-dependent. There were no known genes differentially expressed that were common to all salinity treatments and all tissues. Gene ontology term analysis revealed biological processes, molecular functions, and cellular components that were significantly affected by salinity, a majority of which were tissue-dependent. For liver, oxygen binding and transport terms were highlighted. For gills, muscle, and cytoskeleton-related terms predominated and for olfactory rosettes, immune response-related genes were accentuated. Interaction networks were examined in combination with GO terms and determined similarities between tissues for potential osmosensors, signal transduction cascades, and transcription factors
Effects of salinity acclimation on the expression and activity of Phase I enzymes (CYP450 and FMOs) in coho salmon (Oncorhynchus kisutch).
Microsomal biotransformation of chlorpyrifos, parathion and fenthion in rainbow trout (Oncorhynchus mykiss) and coho salmon (Oncorhynchus kisutch): Mechanistic insights into interspecific differences in toxicity
Site-Specific Profiles of Estrogenic Activity in Agricultural Areas of California\u27s Inland Waters
On seven undescribed leaf insect species revealed within the recent “Tree of Leaves” (Phasmatodea, Phylliidae)
With the recent advance in molecular phylogenetics focused on the leaf insects (Phasmatodea, Phylliidae), gaps in knowledge are beginning to be filled. Yet, shortcomings are also being highlighted, for instance, the unveiling of numerous undescribed phylliid species. Here, some of these taxa are described, including Phyllium iyadaon sp. nov. from Mindoro Island, Philippines; Phyllium samarense sp. nov. from Samar Island, Philippines; Phyllium ortizi sp. nov. from Mindanao Island, Philippines; Pulchriphyllium heracles sp. nov. from Vietnam; Pulchriphyllium delislei sp. nov. from South Kalimantan, Indonesia; and Pulchriphyllium bhaskarai sp. nov. from Java, Indonesia. Several additional specimens of these species together with a seventh species described herein, Pulchriphyllium anangu sp. nov. from southwestern India, were incorporated into a newly constructed phylogenetic tree. Additionally, two taxa that were originally described as species, but in recent decades have been treated as subspecies, are elevated back to species status to reflect their unique morphology and geographic isolation, creating the following new combinations: Pulchriphyllium scythe (Gray, 1843) stat. rev., comb. nov. from Bangladesh and northeastern India, and Pulchriphyllium crurifolium (Audinet-Serville, 1838) stat. rev., comb. nov. from the Seychelles islands. Lectotype specimens are also designated for Pulchriphyllium scythe (Gray, 1843) stat. rev., comb. nov. and Pulchriphyllium crurifolium (Audinet-Serville, 1838) stat. rev., comb. nov. from original type material
Analytical and Biological Characterization of Halogenated Gemfibrozil Produced through Chlorination of Wastewater
The cholesterol-lowering pharmaceutical gemfibrozil is a relevant
environmental contaminant because of its frequency of detection in
U.S. wastewaters at concentrations which have been shown to disrupt
endocrine function in aquatic species. The treatment of gemfibrozil
solutions with sodium hypochlorite yielded a 4′-chlorinated
gemfibrozil analog (chlorogemfibrozil). In the presence of bromide
ion, as is often encountered in municipal wastewater, hypobromous
acid generated through a halogen exchange reaction produced an additional
4′-brominated gemfibrozil product (bromogemfibrozil). Standards
of chloro- and bromogemfibrozil were synthesized, isolated and characterized
using mass spectrometry and NMR spectroscopy. Mass spectrometry was
used to follow the in situ halogenation reaction of gemfibrozil in
deionized water and wastewater matrices, and to measure levels of
gemfibrozil (254 ± 20 ng/L), chlorogemfibrozil (166 ± 121
ng/L), and bromogemfibrozil (50 ± 11 ng/L) in advanced primary
wastewater treatment effluent treated by chlorination. Chlorogemfibrozil
demonstrated a significant (<i>p</i> < 0.05) reduction
in the levels of 11-ketotestosterone at 55.1 μg/L and bromogemfibrozil
demonstrated a significant (<i>p</i> < 0.05) reduction
in the levels of testosterone at 58.8 μg/L in vivo in Japanese
medaka in a 21 day exposure. These results indicated that aqueous
exposure to halogenated degradates of gemfibrozil enhanced the antiandrogenicity
of the parent compound in a model fish species, demonstrating that
chlorination may increase the toxicity of pharmaceutically active
compounds in surface water
Recommended from our members
Differential Gene Expression in Liver, Gill, and Olfactory Rosettes of Coho Salmon (Oncorhynchus kisutch) After Acclimation to Salinity
Most Pacific salmonids undergo smoltification and transition from freshwater to saltwater, making various adjustments in metabolism, catabolism, osmotic, and ion regulation. The molecular mechanisms underlying this transition are largely unknown. In the present study, we acclimated coho salmon (Oncorhynchus kisutch) to four different salinities and assessed gene expression through microarray analysis of gills, liver, and olfactory rosettes. Gills are involved in osmotic regulation, liver plays a role in energetics, and olfactory rosettes are involved in behavior. Between all salinity treatments, liver had the highest number of differentially expressed genes at 1616, gills had 1074, and olfactory rosettes had 924, using a 1.5-fold cutoff and a false discovery rate of 0.5. Higher responsiveness of liver to metabolic changes after salinity acclimation to provide energy for other osmoregulatory tissues such as the gills may explain the differences in number of differentially expressed genes. Differentially expressed genes were tissue- and salinity-dependent. There were no known genes differentially expressed that were common to all salinity treatments and all tissues. Gene ontology term analysis revealed biological processes, molecular functions, and cellular components that were significantly affected by salinity, a majority of which were tissue-dependent. For liver, oxygen binding and transport terms were highlighted. For gills, muscle, and cytoskeleton-related terms predominated and for olfactory rosettes, immune response-related genes were accentuated. Interaction networks were examined in combination with GO terms and determined similarities between tissues for potential osmosensors, signal transduction cascades, and transcription factors
Recommended from our members
Differential Gene Expression in Liver, Gill, and Olfactory Rosettes of Coho Salmon (Oncorhynchus kisutch) After Acclimation to Salinity.
Most Pacific salmonids undergo smoltification and transition from freshwater to saltwater, making various adjustments in metabolism, catabolism, osmotic, and ion regulation. The molecular mechanisms underlying this transition are largely unknown. In the present study, we acclimated coho salmon (Oncorhynchus kisutch) to four different salinities and assessed gene expression through microarray analysis of gills, liver, and olfactory rosettes. Gills are involved in osmotic regulation, liver plays a role in energetics, and olfactory rosettes are involved in behavior. Between all salinity treatments, liver had the highest number of differentially expressed genes at 1616, gills had 1074, and olfactory rosettes had 924, using a 1.5-fold cutoff and a false discovery rate of 0.5. Higher responsiveness of liver to metabolic changes after salinity acclimation to provide energy for other osmoregulatory tissues such as the gills may explain the differences in number of differentially expressed genes. Differentially expressed genes were tissue- and salinity-dependent. There were no known genes differentially expressed that were common to all salinity treatments and all tissues. Gene ontology term analysis revealed biological processes, molecular functions, and cellular components that were significantly affected by salinity, a majority of which were tissue-dependent. For liver, oxygen binding and transport terms were highlighted. For gills, muscle, and cytoskeleton-related terms predominated and for olfactory rosettes, immune response-related genes were accentuated. Interaction networks were examined in combination with GO terms and determined similarities between tissues for potential osmosensors, signal transduction cascades, and transcription factors
The Effect of Vojta's Reflex Locomotion on the Stability of Patients with Hereditary Polyneuropathy
This thesis deals with the influence of Vojta's reflex locomotion on stability of the pacients suffering from hereditary neuropathy. In the review of knowledges there is presented the part about hereditary neuropathies, it's classification, clinical symptoms and diagnostics. The second part of the review is about the stability and it's determination. The last part is dedicated to Vojta's reflex locomotion. In experimental part, there is presented studies, which evaluates the influence of Vojta's reflex locomotion on the sensitive functiones (discrimination, texture perception, vibration perception) and the postural stability (using Balance Master system) in the two groups of the pacients suffering from hereditary neuropathy. The first groupe was measured before and after Vojta's therapy and the second groupe (control one) was measured in the same way, but without therapy. Consequently, the basic statistic indicators of gained set of data were calculated. As a conclusion, there has been some changes before and after therapy in sensitive functiones (vibrations perception, discrimination) and postural function and one test of postural stability in the group of patients threated with Vojta's reflex therapy, compared to control group. Powered by TCPDF (www.tcpdf.org