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2. Pharmaceutical concentrations in screened municipal wastewaters in Victoria, British Columbia: A comparison with prescription rates and predicted concentrations

Author

Leslie J. Saunders, Christopher J. Lowe, and Asit Mazumder

Subjects
Ketoprofen, Naproxen, 010504 meteorology & atmospheric sciences, Chemistry, Health, Toxicology and Mutagenesis, High variability, 010501 environmental sciences, 01 natural sciences, Prescription data, Environmental impact of pharmaceuticals and personal care products, 6. Clean water, 3. Good health, Toxicology, Wastewater, 13. Climate action, Environmental chemistry, medicine, Environmental Chemistry, Medical prescription, Effluent, 0105 earth and related environmental sciences, medicine.drug
Abstract

Pharmaceuticals and personal care products (PPCPs) are emerging chemicals of concern detected in surface waters globally. Recent reviews advocate that PPCP occurrence, fate, and exposure need to be better predicted and characterized. The use of pharmaceutical prescription rates to estimate PPCP concentrations in the environment has been suggested. Concentrations of 7 pharmaceuticals (acetylsalicylic acid, diclofenac, fenoprofen, gemfibrozil, ibuprofen, ketoprofen, and naproxen) were measured in municipal wastewater using gas chromatography/ion trap-tandem mass spectroscopy (GC/IT-MS/MS). Subregional pharmaceutical prescription data were investigated to determine whether they could predict measured effluent concentrations (MECs) in wastewaters. Predicted effluent concentrations (PECs) for 5 of the 7 pharmaceuticals were within 2-fold agreement of the MECs when the fraction of parent pharmaceutical excreted was not considered. When the fraction of parent pharmaceutical excreted was considered, the respective PECs decreased, and most were within an order of magnitude of the MECs. Regression relationships of monthly PECs versus MECs were statistically significant (p < 0.05) but weak (R(2) = 0.18-0.56) for all pharmaceuticals except ketoprofen. This suggests high variability in the data and may be the result of factors influencing MECs such as the analytical methods used, wastewater sampling frequency, and methodology. The PECs were based solely on prescription rates and did not account for inputs of pharmaceuticals that had a significant over-the-counter component or were from other sources (e.g., hospitals).

Published
2016
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3. On a possible evolutionary link of the stomochord of hemichordates to pharyngeal organs of chordates

Author

John C. Gerhart, Kanako Hisata, Christopher J. Lowe, Takeshi Kawashima, Marc W. Kirschner, Jr-Kai Yu, Noriyuki Satoh, Michio Ogasawara, Yi-Hsien Su, Hiroki Takahashi, and Kunifumi Tagawa

Subjects
Brachyury, animal structures, biology, Stomochord, fungi, Chordate, Cell Biology, Anatomy, Hemichordate, biology.organism_classification, Notochord formation, Endocrinology, medicine.anatomical_structure, embryonic structures, Notochord, Genetics, medicine, Acorn worm, Endostyle
Abstract

As a group closely related to chordates, hemichordate acorn worms are in a key phylogenic position for addressing hypotheses of chordate origins. The stomochord of acorn worms is an anterior outgrowth of the pharynx endoderm into the proboscis. In 1886 Bateson proposed homology of this organ to the chordate notochord, crowning this animal group "hemichordates." Although this proposal has been debated for over a century, the question still remains unresolved. Here we review recent progress related to this question. First, the developmental mode of the stomochord completely differs from that of the notochord. Second, comparison of expression profiles of genes including Brachyury, a key regulator of notochord formation in chordates, does not support the stomochord/notochord homology. Third, FoxE that is expressed in the stomochord-forming region in acorn worm juveniles is expressed in the club-shaped gland and in the endostyle of amphioxus, in the endostyle of ascidians, and in the thyroid gland of vertebrates. Based on these findings, together with the anterior endodermal location of the stomochord, we propose that the stomochord has evolutionary relatedness to chordate organs deriving from the anterior pharynx rather than to the notochord.

Published
2014
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4. Diversification of the expression patterns and developmental functions of the dishevelled gene family during chordate evolution

Author

Robbie D. Bayly, Seema Agarwala, Ryan S. Gray, Christopher J. Lowe, Stephen A. Green, and John B. Wallingford

Subjects
Transcription, Genetic, Dishevelled Proteins, Xenopus, Chordate, Chick Embryo, Xenopus Proteins, Article, Evolution, Molecular, Mice, Xenopus laevis, Species Specificity, medicine, Animals, Gene family, Chordata, In Situ Hybridization, Phylogeny, Adaptor Proteins, Signal Transducing, DNA Primers, Genetics, chemistry.chemical_classification, Regulation of gene expression, Base Sequence, biology, Wnt signaling pathway, Gene Expression Regulation, Developmental, Neural crest, Phosphoproteins, biology.organism_classification, Dishevelled, Cell biology, Somite, medicine.anatomical_structure, Somites, chemistry, Neural Crest, Multigene Family, Developmental Biology
Abstract

Dishevelled (Dvl) proteins are key transducers of Wnt signaling encoded by members of a multi-gene family in vertebrates. We report here the divergent, tissue-specific expression patterns for all three Dvl genes in Xenopus embryos, which contrast dramatically with their expression patterns in mice. Moreover, we find that the expression patterns of Dvl genes in the chick diverge significantly from those of Xenopus. In addition, in hemichordates, an outgroup to chordates, we find that the one Dvl gene is dynamically expressed in a tissue-specific manner. Using knockdowns, we find that Dvl1 and Dvl2 are required for early neural crest specification and for somite segmentation in Xenopus. Most strikingly, we report a novel role for Dvl3 in the maintenance of gene expression in muscle and in the development of the Xenopus sclerotome. These data demonstrate that the expression patterns and developmental functions of specific Dvl genes have diverged significantly during chordate evolution.

Published
2009
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5. Gene expression and larval evolution: changing roles of distal-less and orthodenticle in echinoderm larvae

Author

Christopher J. Lowe, Laurie Issel-Tarver, and Gregory A. Wray

Subjects
Homeodomain Proteins, Genetics, Larva, Autapomorphy, biology, biology.organism_classification, Biological Evolution, Gene Expression Regulation, Echinoderm, Gene expression, Animals, Drosophila Proteins, Homeobox, Cilia, Clade, Gene, Phylogeny, Ecology, Evolution, Behavior and Systematics, Echinodermata, Developmental Biology, Regulator gene
Abstract

SUMMARY We describe the expression of the homeobox genes orthodenticle (Otx) and distal-less (Dlx) during the larval development of seven species representing three classes of echinoderms: Holothuroidea, Asteroidea, and Echinoidea. Several expression domains are conserved between species within a single class, including Dlx expression within the brachiolar arms of asteroid larvae and Otx expression within the ciliated bands of holothuroid larvae. Some expression domains are apparently conserved between classes, such as the expression of Dlx within the hydrocoel (left mesocoel) in all three classes. However, several substantial differences in expression domains among taxa were also evident for both genes. Some autapomorphic (unique derived) features of gene expression are phylogenetically associated with autapomorphic structures, such as Dlx expression within the invaginating rudiment of euechinoids. Other autapomorphic gene expression domains are associated with evolutionary shifts in life history from feeding to nonfeeding larval development, such as Otx expression within the ciliated bands of a nonfeeding holothuroid larva. Similar associations between evolutionary changes in morphology and life history mode with changes in regulatory gene expression have also been observed in arthropods, urochordates, and chordates. We predict that recruitment of regulatory genes to a new developmental role is commonly associated with evolutionary changes in morphology and may be particularly common in clades with complex life cycles and diversity of life history modes. Caution should be used when making generalizations about gene expression and function based on a single species, which may not accurately reflect developmental processes and life histories of the phyla to which it belongs.

Published
2002
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