27 results on '"Cocquyt E"'
Search Results
2. Age- and gender-related differences in verbal semantic processing: the development of normative electrophysiological data in the Flemish population
- Author
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Cocquyt, E. M., primary, Santens, P., additional, van Mierlo, P., additional, Duyck, W., additional, Szmalec, A., additional, and De Letter, M., additional
- Published
- 2021
- Full Text
- View/download PDF
3. The phonological Mismatch Negativity and P300 as diagnostic tools in stroke-related aphasia recovery: a longitudinal multiple case study
- Author
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Cocquyt, E. M., primary, Knockaert, N., additional, van Mierlo, P., additional, Szmalec, A., additional, Duyck, W., additional, Santens, P., additional, and De Letter, M., additional
- Published
- 2020
- Full Text
- View/download PDF
4. Age- and gender-related differences in verbal semantic processing: the development of normative electrophysiological data in the Flemish population.
- Author
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Cocquyt, E. M., Santens, P., van Mierlo, P., Duyck, W., Szmalec, A., and De Letter, M.
- Subjects
- *
SEMANTICS , *EVOKED potentials (Electrophysiology) , *REFERENCE values , *PHONOLOGICAL awareness , *ELECTROENCEPHALOGRAPHY , *AGE distribution , *SEX distribution , *DESCRIPTIVE statistics , *DATA analysis software - Abstract
Categorical and associative relationships among words are two key forms of semantic knowledge. In this study, we examined ageing and gender effects on the processing of both types of semantic relationships by using the event-related potential technique. Moreover, we aimed to develop normative electrophysiological data for clinical purposes. One hundred and ten healthy subjects were divided among three age groups and subjected to two auditory word priming paradigms. Early auditory processing was influenced by increasing age as shown by larger P1 amplitudes and by delayed onsets of the N1 and P2. Conversely, ageing effects on the main N400 effect were limited to an increased right hemispheric lateralisation pattern for associative relationships. Gender effects could be demonstrated, with women showing larger P2 amplitudes and larger semantic priming effects in comparison to men. The interpretation of these findings is discussed and the practical utility of the obtained normative data is emphasised. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
5. The phonological Mismatch Negativity and P300 as diagnostic tools in stroke-related aphasia recovery: a longitudinal multiple case study.
- Author
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Cocquyt, E. M., Knockaert, N., van Mierlo, P., Szmalec, A., Duyck, W., Santens, P., and De Letter, M.
- Subjects
- *
DIAGNOSIS of aphasia , *STROKE , *PHONOLOGICAL awareness , *ELECTROENCEPHALOGRAPHY , *CONVALESCENCE , *ELECTROPHYSIOLOGY , *PHONETICS , *CASE studies , *DESCRIPTIVE statistics , *LONGITUDINAL method - Abstract
Recovery from stroke-related aphasia follows different stages, evolving from the acute and subacute phase (< 6 months post stroke) into the chronic phase (> 6 months post stroke). In general, phonology remains tenaciously disturbed, making it a relevant language marker to assess in every stage of recovery. The classical behavioural evaluation of phonological abilities in patients with aphasia can be extended with a registration of event-related potentials (ERPs), for example, the Mismatch Negativity (MMN) and the P300. ERPs have been suggested (1) to contain indications towards the language recovery progress (Nolfe et al. 2006. The role of P300 in the recovery of post-stroke global aphasia. European Journal of Neurology, 13(4), 377–384. https://doi.org/10.1111/j.1468-1331.2006.01237.x) and (2) to provide additional and (more) sensitive information along with the behavioural results (Aerts, Batens et al. 2015. Aphasia therapy early after stroke: Behavioural and neurophysiological changes in the acute and post-acute phases. Aphasiology, 29(7), 845–871. https://doi.org/10.1080/02687038.2014.996520). In this longitudinal study, we aimed to corroborate these previous findings. In four patients with aphasia after a first-ever stroke, we administered behavioural language tasks as well as phonological ERPs in the (sub)acute and in the chronic stage of recovery. The results demonstrate that the early presence of a P300 could be considered as an indicator of better recovery of language comprehension over time. For the MMN, such an indicative value remains to be confirmed. Moreover, abnormal ERP amplitudes or latencies accompanied behavioural ceiling effects in the chronic stage, suggesting a sensitivity of phonological ERPs for subtle language deficits that could not be detected by the established behavioural instruments. The added values of phonological ERPs advocate their implementation in aphasia rehabilitation. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
6. Complex phylogenetic distribution of a noncanonical genetic code in green algae
- Author
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Cocquyt, E., Gile, G. H., Leliaert, F., Verbruggen, H., Keeling, P. J., and De Clerck, O.
- Abstract
BackgroundA non-canonical nuclear genetic code, in which TAG and TAA have been reassigned from stop codons to glutamine, has evolved independently in several eukaryotic lineages, including the ulvophycean green algal orders Dasycladales and Cladophorales. To study the phylogenetic distribution of the standard and non-canonical genetic codes, we generated sequence data of a representative set of ulvophycean green algae and used a robust green algal phylogeny to evaluate different evolutionary scenarios that may account for the origin of the non-canonical code.ResultsThis study demonstrates that the Dasycladales and Cladophorales share this alternative genetic code with the related order Trentepohliales and the genus Blastophysa, but not with the Bryopsidales, which is sister to the Dasycladales. This complex phylogenetic distribution whereby all but one representative of a single natural lineage possesses an identical deviant genetic code is unique.ConclusionsWe compare different evolutionary scenarios for the complex phylogenetic distribution of this non-canonical genetic code. A single transition to the non-canonical code followed by a reversal to the canonical code in the Bryopsidales is highly improbable due to the profound genetic changes that coincide with codon reassignment. Multiple independent gains of the on-canonical code, as hypothesized for ciliates, are also unlikely because the same deviant code has evolved in all lineages. Instead we favor a stepwise acquisition model, congruent with the ambiguous intermediate model, whereby the non-canonical code observed in these green algal orders has a single origin. We suggest that the final steps from an ambiguous intermediate situation to a non-canonical code have been completed in the Trentepohliales, Dasycladales, Cladophorales and Blastophysa but not in the Bryopsidales. We hypothesize that in the latter lineage an initial stage characterized by translational ambiguity was not followed by final reassignment of both stop codons to glutamine. Instead the standard code was retained by the disappearance of the ambiguously decoding tRNAs from the genome. We correlate the emergence of a non-canonical genetic code in the Ulvophyceae to their multinucleate nature.
- Published
- 2010
7. Systematics of the marine microfilamentous green algae Uronema curvatum and Urospora microscopica (Chlorophyta)
- Author
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Leliaert, F., Rueness, J., Boedeker, C., Maggs, C.A., Cocquyt, E., Verbruggen, H., and De Clerck, O.
- Subjects
Chlorophyta [green algae] ,Cladophorales ,Ulvophyceae - Abstract
The microfilamentous green alga Uronema curvatum is widely distributed along the western and eastern coasts of the north Atlantic Ocean where it typically grows on crustose red algae and on haptera of kelps in subtidal habitats. The placement of this marine species in a genus of freshwater Chlorophyceae had been questioned. Molecular phylogenetic analysis of nuclear-encoded small and large subunit rDNA sequences reveal that U. curvatum is closely related to the ulvophycean order Cladophorales, with which it shares a number of morphological features, including a siphonocladous level of organization and zoidangial development. The divergent phylogenetic position of U. curvatum, sister to the rest of the Cladophorales, along with a combination of distinctive morphological features, such as the absence of pyrenoids, the diminutive size of the unbranched filaments and the discoid holdfast, warrants the recognition of a separate genus, Okellya, within a new family of Cladophorales, Okellyaceae. The epiphytic Urospora microscopica from Norway, which has been allied with U. curvatum, is revealed as a member of the cladophoralean genus Chaetomorpha and is herein transferred to that genus as C. norvegica nom. nov.
- Published
- 2009
8. Phylogeny and molecular evolution of green algae
- Author
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Cocquyt, E.
- Published
- 2009
9. Phylogeny and diversification of the green algae inferred from nuclear and chloroplast genes
- Author
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Cocquyt, E., Verbruggen, H., Leliaert, F., and De Clerck, O.
- Published
- 2009
10. Hunting for nuclear markers in green algal lineages: molecular evolution of glucose-6-phosphate isomerase
- Author
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Cocquyt, E., Leliaert, F., Verbruggen, H., and De Clerck, O.
- Subjects
Evolution ,Isomerases ,Biomarkers - Abstract
The Chlorophyta exhibit a remarkable cytological diversity ranging from unicellular microscopic algae with a single nucleus, over multicellular filaments and foliose blades, to coencytic and even siphonous life forms that are essentially composed of a giant cell containing thousands of nuclei. Unravelling the evolutionary history of this diverse and evolutionary old group is a difficult task due to the antiquity of the major lineages and considerable rate variation between those lineages for the commonly used 18S ribosomal DNA sequences and chloroplast markers (Lewis et al., Therefore different genes with known function and sequence data available are tested and more recently a cDNA library is screened to search for new useful genes.Glucose-6-phosphate isomerase (G6PI) is one of the genes we are testing. It is an important enzyme of the carbohydrate biosynthesis pathway in photosynthetic organisms and of the glycolysis in all organisms. Little is known about copy number of the gene in the Chlorophyta. The complete genome sequences of Chlamydomonas reinhardtii and Ostreococcus taur revealed that both have a single copy of G6PI. In plants however within a single genus there are species with one G6PI gene and other species with two G6PI (e.g. Arabidopsis, Actinidia,…) and up to thre copies are observed in Zea mays. It always concerns recent duplication within one genus.To investigate if the G6PI gene(s) is useful as a phylogenetic marker in the Chlorophyta, primers were made based on the G6PI genome sequences of Arabidopsis thaliana, Oryza sativa, Chlamydomonas reinhardtii and Ostreococcus tauri. The primers were tested on DNA and RNA of a variety of green algae.Following conclusions can be drawn from these preliminary results: 1. epiphytic or endophytic bacteria interfere with the direct amplification of nuclear genes; 2. the G6PI gene is informative on several taxonomic levels: for deep phylogenies we have to use a codon substitution model, for species level relationships introns may offer opportunities towards studies at the interspecific level; 3. most likely only one (functional) copy of the G6PI gene is present in the tested taxa.
- Published
- 2008
11. Ceramium botryocarpum and C. secundatum re-evaluated
- Author
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Cocquyt, E., Maggs, C., and Provan, J.
- Subjects
Ceramium botryocarpum A.W. Griffiths ex Harvey, 18 ,ANE, British Isles ,Ceramium secundatum ,Taxonomy - Abstract
In the British Isles the genus Ceramium is represented by 15 species, divided into to groups. The two groups without cortical spines are (1) fully corticated species and (2) those with ecorticated internodes. Group 1 species are very difficult to distinguish. In particular the key morphological features that discriminate between C. botryocarpum and C. secundatum include the number of periaxial cells and presence of adventitious branching (Maggs and Hommersand, 1993). However, these features may be influenced by the environment. By using various molecular markers, growing cultures in different conditions and crossing experiments we aim to clarify the relationship between the species of group 1.Analysis of the formalin preserved vouchers showed that C. botryocarpum and C. secundatum are morphologically almost identical. They only differ in the number of periaxial cells (6-7 for C. botryocarpum and 7-8 for C. secundatum) and by the more robust, larger thallus of C. secundatum. Culture studies showed that the morphology of Ceramium is highly influenced by the environment. There was crossing with formation of tetrasporophytes between C. botryocarpum and C. secundatum. The phylogenetic analysis with the chloroplast marker (tufA/rpl31) and the mitochondrial marker (cox2-3 spacer, Gabrielsen 2002) clearly demonstrate that C. botryocarpum and C. secundatum are not respectively monophyletic. Analysis of multiple samples and with different techniques confirmed that C. botryocapum Griffiths ex Harvey (1848) is a later synonym of C. secundatum Lyngbye (1819).
- Published
- 2005
12. Systematic reassessment of the red algal genus Phyllymenia (Halymeniaceae, Rhodophyta)
- Author
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De Clerck, O., Gavio, B., Fredericq, S., Cocquyt, E., and Coppejans, E.
- Subjects
Phyllymenia belangeri ,Grateloupia ,Halymeniaceae ,Rhodophyta [red algae] - Abstract
A systematic reassessment of the sole representative of the South African genus Phyllymenia, P. belangeri, indicates a lack of clear-cut diagnostic characters to separate it from Grateloupia. The morphology of the auxiliary cell ampullae, widely regarded as a key generic character in the Halymeniaceae, is almost identical in both genera. The autapomorphic character that has traditionally separated Phyllymenia from Grateloupia is the formation of pronounced lateral cytoplasmic protuberances on inner cortical cells. However, the establishment of protuberances is correlated with the presence of large intercellular spaces between neighbouring cortical cell files, coupled with narrow intercalary cortical cells. Thus, in order to establish secondary pit connections to more distant neighbouring cells, cortical cell protuberances may have become more prominent in P. belangeri than in species of Grateloupia with smaller intercellular spaces. Phylogenetic analyses of chloroplast-encoded rbcL sequences for a dataset including four representatives of P. belangeri and 32 other species, currently placed in Grateloupia or Prionitis, resolve (with high support) P. belangeri as a sister taxon of G. longifolia from South Africa. Based on morphological and molecular evidence, it is therefore proposed that Phyllymenia be reduced to a synonym of Grateloupia.
- Published
- 2005
13. Complex phylogenetic distribution of a non-canonical genetic code in green algae
- Author
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Cocquyt, E, Gile, GH, Leliaert, F, Verbruggen, H, Keeling, PJ, De Clerck, O, Cocquyt, E, Gile, GH, Leliaert, F, Verbruggen, H, Keeling, PJ, and De Clerck, O
- Abstract
BACKGROUND: A non-canonical nuclear genetic code, in which TAG and TAA have been reassigned from stop codons to glutamine, has evolved independently in several eukaryotic lineages, including the ulvophycean green algal orders Dasycladales and Cladophorales. To study the phylogenetic distribution of the standard and non-canonical genetic codes, we generated sequence data of a representative set of ulvophycean green algae and used a robust green algal phylogeny to evaluate different evolutionary scenarios that may account for the origin of the non-canonical code. RESULTS: This study demonstrates that the Dasycladales and Cladophorales share this alternative genetic code with the related order Trentepohliales and the genus Blastophysa, but not with the Bryopsidales, which is sister to the Dasycladales. This complex phylogenetic distribution whereby all but one representative of a single natural lineage possesses an identical deviant genetic code is unique. CONCLUSIONS: We compare different evolutionary scenarios for the complex phylogenetic distribution of this non-canonical genetic code. A single transition to the non-canonical code followed by a reversal to the canonical code in the Bryopsidales is highly improbable due to the profound genetic changes that coincide with codon reassignment. Multiple independent gains of the non-canonical code, as hypothesized for ciliates, are also unlikely because the same deviant code has evolved in all lineages. Instead we favor a stepwise acquisition model, congruent with the ambiguous intermediate model, whereby the non-canonical code observed in these green algal orders has a single origin. We suggest that the final steps from an ambiguous intermediate situation to a non-canonical code have been completed in the Trentepohliales, Dasycladales, Cladophorales and Blastophysa but not in the Bryopsidales. We hypothesize that in the latter lineage an initial stage characterized by translational ambiguity was not followed by final reas
- Published
- 2010
14. Gain and loss of elongation factor genes in green algae
- Author
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Cocquyt, E, Verbruggen, H, Leliaert, F, Zechman, FW, Sabbe, K, De Clerck, O, Cocquyt, E, Verbruggen, H, Leliaert, F, Zechman, FW, Sabbe, K, and De Clerck, O
- Abstract
BACKGROUND: Two key genes of the translational apparatus, elongation factor-1 alpha (EF-1alpha) and elongation factor-like (EFL) have an almost mutually exclusive distribution in eukaryotes. In the green plant lineage, the Chlorophyta encode EFL except Acetabularia where EF-1alpha is found, and the Streptophyta possess EF-1alpha except Mesostigma, which has EFL. These results raise questions about evolutionary patterns of gain and loss of EF-1alpha and EFL. A previous study launched the hypothesis that EF-1alpha was the primitive state and that EFL was gained once in the ancestor of the green plants, followed by differential loss of EF-1alpha or EFL in the principal clades of the Viridiplantae. In order to gain more insight in the distribution of EF-1alpha and EFL in green plants and test this hypothesis we screened the presence of the genes in a large sample of green algae and analyzed their gain-loss dynamics in a maximum likelihood framework using continuous-time Markov models. RESULTS: Within the Chlorophyta, EF-1alpha is shown to be present in three ulvophycean orders (i.e., Dasycladales, Bryopsidales, Siphonocladales) and the genus Ignatius. Models describing gene gain-loss dynamics revealed that the presence of EF-1alpha, EFL or both genes along the backbone of the green plant phylogeny is highly uncertain due to sensitivity to branch lengths and lack of prior knowledge about ancestral states or rates of gene gain and loss. Model refinements based on insights gained from the EF-1alpha phylogeny reduce uncertainty but still imply several equally likely possibilities: a primitive EF-1alpha state with multiple independent EFL gains or coexistence of both genes in the ancestor of the Viridiplantae or Chlorophyta followed by differential loss of one or the other gene in the various lineages. CONCLUSION: EF-1alpha is much more common among green algae than previously thought. The mutually exclusive distribution of EF-1alpha and EFL is confirmed in a large sample of
- Published
- 2009
15. Solubilization of flurbiprofen with non-ionic Tween20 surfactant micelles: A diffusion 1H NMR study
- Author
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Verbrugghe, M., primary, Sabatino, P., additional, Cocquyt, E., additional, Saveyn, P., additional, Sinnaeve, D., additional, Van der Meeren, P., additional, and Martins, J.C., additional
- Published
- 2010
- Full Text
- View/download PDF
16. Evolution and Cytological Diversification of the Green Seaweeds (Ulvophyceae)
- Author
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Cocquyt, E., primary, Verbruggen, H., additional, Leliaert, F., additional, and De Clerck, O., additional
- Published
- 2010
- Full Text
- View/download PDF
17. Systematic reassessment of the red algal genusPhyllymenia(Halymeniaceae, Rhodophyta)
- Author
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De Clerck, O., primary, Gavio, B., additional, Fredericq, S., additional, Cocquyt, E., additional, and Coppejans, E., additional
- Published
- 2005
- Full Text
- View/download PDF
18. Complex phylogenetic distribution of a non-canonical genetic code in green algae
- Author
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Keeling Patrick J, Verbruggen Heroen, Leliaert Frederik, Gile Gillian H, Cocquyt Ellen, and De Clerck Olivier
- Subjects
Evolution ,QH359-425 - Abstract
Abstract Background A non-canonical nuclear genetic code, in which TAG and TAA have been reassigned from stop codons to glutamine, has evolved independently in several eukaryotic lineages, including the ulvophycean green algal orders Dasycladales and Cladophorales. To study the phylogenetic distribution of the standard and non-canonical genetic codes, we generated sequence data of a representative set of ulvophycean green algae and used a robust green algal phylogeny to evaluate different evolutionary scenarios that may account for the origin of the non-canonical code. Results This study demonstrates that the Dasycladales and Cladophorales share this alternative genetic code with the related order Trentepohliales and the genus Blastophysa, but not with the Bryopsidales, which is sister to the Dasycladales. This complex phylogenetic distribution whereby all but one representative of a single natural lineage possesses an identical deviant genetic code is unique. Conclusions We compare different evolutionary scenarios for the complex phylogenetic distribution of this non-canonical genetic code. A single transition to the non-canonical code followed by a reversal to the canonical code in the Bryopsidales is highly improbable due to the profound genetic changes that coincide with codon reassignment. Multiple independent gains of the non-canonical code, as hypothesized for ciliates, are also unlikely because the same deviant code has evolved in all lineages. Instead we favor a stepwise acquisition model, congruent with the ambiguous intermediate model, whereby the non-canonical code observed in these green algal orders has a single origin. We suggest that the final steps from an ambiguous intermediate situation to a non-canonical code have been completed in the Trentepohliales, Dasycladales, Cladophorales and Blastophysa but not in the Bryopsidales. We hypothesize that in the latter lineage an initial stage characterized by translational ambiguity was not followed by final reassignment of both stop codons to glutamine. Instead the standard code was retained by the disappearance of the ambiguously decoding tRNAs from the genome. We correlate the emergence of a non-canonical genetic code in the Ulvophyceae to their multinucleate nature.
- Published
- 2010
- Full Text
- View/download PDF
19. Gain and loss of elongation factor genes in green algae
- Author
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Sabbe Koen, Zechman Frederick W, Leliaert Frederik, Verbruggen Heroen, Cocquyt Ellen, and De Clerck Olivier
- Subjects
Evolution ,QH359-425 - Abstract
Abstract Background Two key genes of the translational apparatus, elongation factor-1 alpha (EF-1α) and elongation factor-like (EFL) have an almost mutually exclusive distribution in eukaryotes. In the green plant lineage, the Chlorophyta encode EFL except Acetabularia where EF-1α is found, and the Streptophyta possess EF-1α except Mesostigma, which has EFL. These results raise questions about evolutionary patterns of gain and loss of EF-1α and EFL. A previous study launched the hypothesis that EF-1α was the primitive state and that EFL was gained once in the ancestor of the green plants, followed by differential loss of EF-1α or EFL in the principal clades of the Viridiplantae. In order to gain more insight in the distribution of EF-1α and EFL in green plants and test this hypothesis we screened the presence of the genes in a large sample of green algae and analyzed their gain-loss dynamics in a maximum likelihood framework using continuous-time Markov models. Results Within the Chlorophyta, EF-1α is shown to be present in three ulvophycean orders (i.e., Dasycladales, Bryopsidales, Siphonocladales) and the genus Ignatius. Models describing gene gain-loss dynamics revealed that the presence of EF-1α, EFL or both genes along the backbone of the green plant phylogeny is highly uncertain due to sensitivity to branch lengths and lack of prior knowledge about ancestral states or rates of gene gain and loss. Model refinements based on insights gained from the EF-1α phylogeny reduce uncertainty but still imply several equally likely possibilities: a primitive EF-1α state with multiple independent EFL gains or coexistence of both genes in the ancestor of the Viridiplantae or Chlorophyta followed by differential loss of one or the other gene in the various lineages. Conclusion EF-1α is much more common among green algae than previously thought. The mutually exclusive distribution of EF-1α and EFL is confirmed in a large sample of green plants. Hypotheses about the gain-loss dynamics of elongation factor genes are hard to test analytically due to a relatively flat likelihood surface, even if prior knowledge is incorporated. Phylogenetic analysis of EFL genes indicates misinterpretations in the recent literature due to uncertainty regarding the root position.
- Published
- 2009
- Full Text
- View/download PDF
20. Solubilization of flurbiprofen with non-ionic Tween20 surfactant micelles: A diffusion 1H NMR study
- Author
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Verbrugghe, M., Sabatino, P., Cocquyt, E., Saveyn, P., Sinnaeve, D., Van der Meeren, P., and Martins, J.C.
- Subjects
- *
FLURBIPROFEN , *SURFACE active agents , *MICELLES , *SOLUBILIZATION , *NUCLEAR magnetic resonance spectroscopy , *ANTI-inflammatory agents - Abstract
Abstract: The diffusional behaviour of solubilized flurbiprofen (a poorly water soluble anti-inflammatory drug) in the presence of non-ionic Tween20 micelles was studied in an acidic environment (pH 3) using 1H NMR. Two different concentrations of flurbiprofen were considered, each at temperatures ranging from 15 to 55°C. The variability of the hydrodynamic micellar diameter, which was calculated from diffusion 1H NMR data, revealed a structural rearrangement of the Tween20 micelles, caused by the solubilization of flurbiprofen. It was found that the additional peaks (at about 0.1ppm upfield to the original ones), which appeared upon clouding, corresponded to a slowly diffusing population of solubilized drug molecules, in slow exchange (on an NMR timescale) with the faster diffusing population. This phenomenon was only observed in saturated samples at a temperature of at least 45°C. For saturated samples at 55°C, it was found that the flurbiprofen existed in dissolved, solubilized, as well as precipitated form. Combined diffusion and peak integration data revealed that the solubilized fraction was linked to micellar flurbiprofen (rapidly diffusing), small aggregates (slowly diffusing) and larger aggregates that were no longer observable by 1H NMR. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
21. X‑irradiation induces acute and early term inflammatory responses in atherosclerosis‑prone ApoE‑/‑ mice and in endothelial cells.
- Author
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Ramadan R, Claessens M, Cocquyt E, Mysara M, Decrock E, Baatout S, Aerts A, and Leybaert L
- Subjects
- Animals, Apolipoproteins E deficiency, Atherosclerosis genetics, Cell Adhesion Molecule-1 genetics, Cell Adhesion Molecule-1 metabolism, Cell Line, Cells, Cultured, Chemokine CCL2 genetics, Chemokine CCL2 metabolism, Chemokine CXCL10 genetics, Endothelial Cells metabolism, Endothelial Cells radiation effects, Endothelium, Vascular cytology, Female, Fibroblast Growth Factor 1 genetics, Fibroblast Growth Factor 1 metabolism, Growth Differentiation Factor 15 genetics, Humans, Male, Mice, Mice, Inbred C57BL, P-Selectin genetics, P-Selectin metabolism, Receptors, Urokinase Plasminogen Activator genetics, Receptors, Urokinase Plasminogen Activator metabolism, Apolipoproteins E genetics, Atherosclerosis metabolism, Chemokine CXCL10 metabolism, Endothelium, Vascular radiation effects, Growth Differentiation Factor 15 metabolism, X-Rays
- Abstract
Thoracic radiotherapy is an effective treatment for many types of cancer; however it is also associated with an increased risk of developing cardiovascular disease (CVD), appearing mainly ≥10 years after radiation exposure. The present study investigated acute and early term physiological and molecular changes in the cardiovascular system after ionizing radiation exposure. Female and male ApoE
‑/‑ mice received a single exposure of low or high dose X‑ray thoracic irradiation (0.1 and 10 Gy). The level of cholesterol and triglycerides, as well as a large panel of inflammatory markers, were analyzed in serum samples obtained at 24 h and 1 month after irradiation. The secretion of inflammatory markers was further verified in vitro in coronary artery and microvascular endothelial cell lines after exposure to low and high dose of ionizing radiation (0.1 and 5 Gy). Local thoracic irradiation of ApoE‑/‑ mice increased serum growth differentiation factor‑15 (GDF‑15) and C‑X‑C motif chemokine ligand 10 (CXCL10) levels in both female and male mice 24 h after high dose irradiation, which were also secreted from coronary artery and microvascular endothelial cells in vitro . Sex‑specific responses were observed for triglyceride and cholesterol levels, and some of the assessed inflammatory markers as detailed below. Male ApoE‑/‑ mice demonstrated elevated intercellular adhesion molecule‑1 and P‑selectin at 24 h, and adiponectin and plasminogen activator inhibitor‑1 at 1 month after irradiation, while female ApoE‑/‑ mice exhibited decreased monocyte chemoattractant protein‑1 and urokinase‑type plasminogen activator receptor at 24 h, and basic fibroblast growth factor 1 month after irradiation. The inflammatory responses were mainly significant following high dose irradiation, but certain markers showed significant changes after low dose exposure. The present study revealed that acute/early inflammatory responses occurred after low and high dose thoracic irradiation. However, further research is required to elucidate early asymptomatic changes in the cardiovascular system post thoracic X‑irradiation and to investigate whether GDF‑15 and CXCL10 could be considered as potential biomarkers for the early detection of CVD risk in thoracic radiotherapy‑treated patients.- Published
- 2021
- Full Text
- View/download PDF
22. Complex phylogenetic distribution of a non-canonical genetic code in green algae.
- Author
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Cocquyt E, Gile GH, Leliaert F, Verbruggen H, Keeling PJ, and De Clerck O
- Subjects
- Evolution, Molecular, Chlorophyta classification, Chlorophyta genetics, Genetic Code genetics, Phylogeny
- Abstract
Background: A non-canonical nuclear genetic code, in which TAG and TAA have been reassigned from stop codons to glutamine, has evolved independently in several eukaryotic lineages, including the ulvophycean green algal orders Dasycladales and Cladophorales. To study the phylogenetic distribution of the standard and non-canonical genetic codes, we generated sequence data of a representative set of ulvophycean green algae and used a robust green algal phylogeny to evaluate different evolutionary scenarios that may account for the origin of the non-canonical code., Results: This study demonstrates that the Dasycladales and Cladophorales share this alternative genetic code with the related order Trentepohliales and the genus Blastophysa, but not with the Bryopsidales, which is sister to the Dasycladales. This complex phylogenetic distribution whereby all but one representative of a single natural lineage possesses an identical deviant genetic code is unique., Conclusions: We compare different evolutionary scenarios for the complex phylogenetic distribution of this non-canonical genetic code. A single transition to the non-canonical code followed by a reversal to the canonical code in the Bryopsidales is highly improbable due to the profound genetic changes that coincide with codon reassignment. Multiple independent gains of the non-canonical code, as hypothesized for ciliates, are also unlikely because the same deviant code has evolved in all lineages. Instead we favor a stepwise acquisition model, congruent with the ambiguous intermediate model, whereby the non-canonical code observed in these green algal orders has a single origin. We suggest that the final steps from an ambiguous intermediate situation to a non-canonical code have been completed in the Trentepohliales, Dasycladales, Cladophorales and Blastophysa but not in the Bryopsidales. We hypothesize that in the latter lineage an initial stage characterized by translational ambiguity was not followed by final reassignment of both stop codons to glutamine. Instead the standard code was retained by the disappearance of the ambiguously decoding tRNAs from the genome. We correlate the emergence of a non-canonical genetic code in the Ulvophyceae to their multinucleate nature.
- Published
- 2010
- Full Text
- View/download PDF
23. Quantification of hydrophilic ethoxylates in polysorbate surfactants using diffusion H1 NMR spectroscopy.
- Author
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Verbrugghe M, Cocquyt E, Saveyn P, Sabatino P, Sinnaeve D, Martins JC, and Van der Meeren P
- Subjects
- Ethyl Ethers chemistry, Magnetic Resonance Spectroscopy methods, Polysorbates chemistry, Protons, Surface-Active Agents chemistry, Ethyl Ethers analysis, Evaluation Studies as Topic, Magnetic Resonance Spectroscopy standards, Polysorbates analysis, Surface-Active Agents analysis
- Abstract
Polysorbate surfactants (commercially available as Tween) are widely used in pharmaceutical, cosmetic and food products. They are generally considered as esters of ethoxylated sorbitan with fatty acids. Diffusion H1 NMR spectroscopy on a solution of polysorbate 20 in D2O revealed that only one diffusion coefficient was found for the fatty acyl part. Using the Stokes-Einstein equation, it became obvious that this diffusion behavior was caused by micelles. On the other hand, two significantly different diffusion coefficients were found for the methylene groups of ethylene oxide (EO). This indicates the presence of two distinct EO containing species in solution. Since the slowest diffusing EO species has the same diffusion coefficient as the fatty acyl part, it corresponds to the micellar (i.e. fatty acyl bound) ethoxylates. The diffusion coefficient of the fastest diffusing EO species was a factor of four larger than that of the slowly diffusing species and was attributed to water-soluble non-esterified ethoxylates. A solution of polysorbate 20 in the presence of NaOD was prepared to investigate if hydrolysis of the sorbitan ester could be the reason for the occurence of these hydrophilic ethoxylates. It was found that alkaline hydrolysis does lead to an increasing fraction of non-esterified ethoxylates, but is not the cause of its presence in untreated polysorbate samples since these species were also found in solutions of polyethylene glycol oleyl ether (commercially available as Brij), which are not susceptible to hydrolysis. Fractionation of the EO species present in polysorbate 20 into an amphiphilic and a hydrophilic fraction was only partly obtained by activated carbon adsorption. On the other hand, sequential extraction of aqueous polysorbate solutions by ethyl acetate and chloroform enabled a nearly complete fractionation. H1 NMR spectroscopy proved to be very useful since it allows in situ determination of the global composition of a surfactant sample, as well as quantification of both the amphiphilic and hydrophilic ethoxylate fractions via diffusion measurements.
- Published
- 2010
- Full Text
- View/download PDF
24. Solubilization of flurbiprofen within non-ionic Tween 20 surfactant micelles: a 19F and 1H NMR study.
- Author
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Saveyn P, Cocquyt E, Zhu W, Sinnaeve D, Haustraete K, Martins JC, and Van der Meeren P
- Subjects
- Anti-Inflammatory Agents, Non-Steroidal chemistry, Fluorine chemistry, Hydrogen-Ion Concentration, Magnetic Resonance Spectroscopy, Molecular Structure, Solubility, Temperature, Flurbiprofen chemistry, Micelles, Polysorbates chemistry, Surface-Active Agents chemistry
- Abstract
The solubilization of the poorly water soluble anti-inflammatory drug flurbiprofen in non-ionic Tween 20 surfactant micellar solutions was studied by both (19)F and (1)H NMR spectroscopy in an acidic environment. These non-destructive techniques allowed us to investigate the effect of temperature cycling in situ. Using (19)F NMR, an increased solubilisation capacity was observed as the temperature increased. This effect became more pronounced above the cloud point, which was reduced by more than 30 degrees C in the presence of an excess of flurbiprofen. Upon clouding, peak splitting was observed in the (19)F spectrum, which indicates that two pools of solubilised flurbiprofen exist that are in slow exchange on the NMR frequency timescale. The clouding and solubilization processes were found to be reversible, albeit with slow kinetics. Based on chemical shift differences of both Tween 20 and flurbiprofen, as well as NOESY experiments, the flurbiprofen was found to be accumulated within the palisade layer of the Tween 20 micelles.
- Published
- 2009
- Full Text
- View/download PDF
25. A multi-locus time-calibrated phylogeny of the siphonous green algae.
- Author
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Verbruggen H, Ashworth M, LoDuca ST, Vlaeminck C, Cocquyt E, Sauvage T, Zechman FW, Littler DS, Littler MM, Leliaert F, and De Clerck O
- Subjects
- Bayes Theorem, Chlorophyta classification, DNA, Algal genetics, Genetic Speciation, Likelihood Functions, Models, Genetic, Seaweed classification, Seaweed genetics, Sequence Alignment, Sequence Analysis, DNA, Chlorophyta genetics, Evolution, Molecular, Phylogeny
- Abstract
The siphonous green algae are an assemblage of seaweeds that consist of a single giant cell. They comprise two sister orders, the Bryopsidales and Dasycladales. We infer the phylogenetic relationships among the siphonous green algae based on a five-locus data matrix and analyze temporal aspects of their diversification using relaxed molecular clock methods calibrated with the fossil record. The multi-locus approach resolves much of the previous phylogenetic uncertainty, but the radiation of families belonging to the core Halimedineae remains unresolved. In the Bryopsidales, three main clades were inferred, two of which correspond to previously described suborders (Bryopsidineae and Halimedineae) and a third lineage that contains only the limestone-boring genus Ostreobium. Relaxed molecular clock models indicate a Neoproterozoic origin of the siphonous green algae and a Paleozoic diversification of the orders into their families. The inferred node ages are used to resolve conflicting hypotheses about species ages in the tropical marine alga Halimeda.
- Published
- 2009
- Full Text
- View/download PDF
26. Gain and loss of elongation factor genes in green algae.
- Author
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Cocquyt E, Verbruggen H, Leliaert F, Zechman FW, Sabbe K, and De Clerck O
- Subjects
- Gene Library, Likelihood Functions, Markov Chains, Models, Genetic, RNA, Algal genetics, Sequence Alignment, Sequence Analysis, DNA, Algal Proteins genetics, Chlorophyta genetics, Evolution, Molecular, Peptide Elongation Factor 1 genetics, Phylogeny
- Abstract
Background: Two key genes of the translational apparatus, elongation factor-1 alpha (EF-1alpha) and elongation factor-like (EFL) have an almost mutually exclusive distribution in eukaryotes. In the green plant lineage, the Chlorophyta encode EFL except Acetabularia where EF-1alpha is found, and the Streptophyta possess EF-1alpha except Mesostigma, which has EFL. These results raise questions about evolutionary patterns of gain and loss of EF-1alpha and EFL. A previous study launched the hypothesis that EF-1alpha was the primitive state and that EFL was gained once in the ancestor of the green plants, followed by differential loss of EF-1alpha or EFL in the principal clades of the Viridiplantae. In order to gain more insight in the distribution of EF-1alpha and EFL in green plants and test this hypothesis we screened the presence of the genes in a large sample of green algae and analyzed their gain-loss dynamics in a maximum likelihood framework using continuous-time Markov models., Results: Within the Chlorophyta, EF-1alpha is shown to be present in three ulvophycean orders (i.e., Dasycladales, Bryopsidales, Siphonocladales) and the genus Ignatius. Models describing gene gain-loss dynamics revealed that the presence of EF-1alpha, EFL or both genes along the backbone of the green plant phylogeny is highly uncertain due to sensitivity to branch lengths and lack of prior knowledge about ancestral states or rates of gene gain and loss. Model refinements based on insights gained from the EF-1alpha phylogeny reduce uncertainty but still imply several equally likely possibilities: a primitive EF-1alpha state with multiple independent EFL gains or coexistence of both genes in the ancestor of the Viridiplantae or Chlorophyta followed by differential loss of one or the other gene in the various lineages., Conclusion: EF-1alpha is much more common among green algae than previously thought. The mutually exclusive distribution of EF-1alpha and EFL is confirmed in a large sample of green plants. Hypotheses about the gain-loss dynamics of elongation factor genes are hard to test analytically due to a relatively flat likelihood surface, even if prior knowledge is incorporated. Phylogenetic analysis of EFL genes indicates misinterpretations in the recent literature due to uncertainty regarding the root position.
- Published
- 2009
- Full Text
- View/download PDF
27. NMR study of the sorption behavior of benzyl alcohol derivatives into sonicated and extruded dioctadecyldimethylammonium chloride (DODAC) dispersions: the relevance of membrane fluidity.
- Author
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Saveyn P, Cocquyt E, Sinnaeve D, Martins JC, Topgaard D, and Meeren PV
- Subjects
- Adsorption, Hydrophobic and Hydrophilic Interactions, Lipid Bilayers, Models, Biological, Phase Transition, Sonication, Benzyl Alcohol chemistry, Magnetic Resonance Spectroscopy, Membrane Fluidity, Quaternary Ammonium Compounds chemistry
- Abstract
The sorption behavior of three benzyl alcohol derivatives with different hydrophobicities into sonicated and extruded DODAC dispersions has been studied using NMR spectroscopy and NMR diffusometry. We show that there is an increased sorption into a sonicated dispersion below the phase-transition temperature (T(m)) as compared to an extruded dispersion. This may be explained by the incomplete lipid chain freezing of charged lipids as a result of the sonication process. Around T(m), a sorption maximum is found that is attributed to the high bilayer disorder under this condition. In addition, a sorption increase and a fluidizing effect at increasing benzyl alcohol derivative concentrations are observed that provide additional evidence for the relevance of the bilayer fluidity on the sorption of hydrophobic components.
- Published
- 2008
- Full Text
- View/download PDF
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