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1. Molecular circadian rhythms are robust in marine annelids lacking rhythmic behavior.

Author

N Sören Häfker, Laurenz Holcik, Audrey M Mat, Aida Ćorić, Karim Vadiwala, Isabel Beets, Alexander W Stockinger, Carolina E Atria, Stefan Hammer, Roger Revilla-I-Domingo, Liliane Schoofs, Florian Raible, and Kristin Tessmar-Raible

Subjects
Biology (General), QH301-705.5
Abstract

The circadian clock controls behavior and metabolism in various organisms. However, the exact timing and strength of rhythmic phenotypes can vary significantly between individuals of the same species. This is highly relevant for rhythmically complex marine environments where organismal rhythmic diversity likely permits the occupation of different microenvironments. When investigating circadian locomotor behavior of Platynereis dumerilii, a model system for marine molecular chronobiology, we found strain-specific, high variability between individual worms. The individual patterns were maintained for several weeks. A diel head transcriptome comparison of behaviorally rhythmic versus arrhythmic wild-type worms showed that 24-h cycling of core circadian clock transcripts is identical between both behavioral phenotypes. While behaviorally arrhythmic worms showed a similar total number of cycling transcripts compared to their behaviorally rhythmic counterparts, the annotation categories of their transcripts, however, differed substantially. Consistent with their locomotor phenotype, behaviorally rhythmic worms exhibit an enrichment of cycling transcripts related to neuronal/behavioral processes. In contrast, behaviorally arrhythmic worms showed significantly increased diel cycling for metabolism- and physiology-related transcripts. The prominent role of the neuropeptide pigment-dispersing factor (PDF) in Drosophila circadian behavior prompted us to test for a possible functional involvement of Platynereis pdf. Differing from its role in Drosophila, loss of pdf impacts overall activity levels but shows only indirect effects on rhythmicity. Our results show that individuals arrhythmic in a given process can show increased rhythmicity in others. Across the Platynereis population, rhythmic phenotypes exist as a continuum, with no distinct "boundaries" between rhythmicity and arrhythmicity. We suggest that such diel rhythm breadth is an important biodiversity resource enabling the species to quickly adapt to heterogeneous or changing marine environments. In times of massive sequencing, our work also emphasizes the importance of time series and functional tests.

Published
2024
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2. Tracing the history of cell types

Author

Antonia Grausgruber and Roger Revilla-i-Domingo

Subjects
patiria miniata, novelty, single nuclei, transcriptomics, cell type, evolution, Medicine, Science, Biology (General), QH301-705.5
Abstract

A study of sea urchin and sea star larvae paves the way for understanding how cell types evolve and give rise to novel morphologies.

Published
2023
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3. Molecular circadian rhythms are robust in marine annelids lacking rhythmic behavior

Author

Häfker, N. Sören, primary, Holcik, Laurenz, additional, Mat, Audrey M., additional, Ćorić, Aida, additional, Vadiwala, Karim, additional, Beets, Isabel, additional, Stockinger, Alexander W., additional, Atria, Carolina E., additional, Hammer, Stefan, additional, Revilla-i-Domingo, Roger, additional, Schoofs, Liliane, additional, Raible, Florian, additional, and Tessmar-Raible, Kristin, additional

Published
2024
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5. Molecular circadian rhythms are robust in marine annelids lacking rhythmic behavior

Author

Merrow, Martha, Häfker, N Sören, Holcik, Laurenz, Mat, Audrey M, Ćorić, Aida, Vadiwala, Karim, Beets, Isabel, Stockinger, Alexander W, Atria, Carolina E, Hammer, Stefan, Revilla-i-Domingo, Roger, Schoofs, Liliane, Raible, Florian, Tessmar-Raible, Kristin, Merrow, Martha, Häfker, N Sören, Holcik, Laurenz, Mat, Audrey M, Ćorić, Aida, Vadiwala, Karim, Beets, Isabel, Stockinger, Alexander W, Atria, Carolina E, Hammer, Stefan, Revilla-i-Domingo, Roger, Schoofs, Liliane, Raible, Florian, and Tessmar-Raible, Kristin

Abstract

The circadian clock controls behavior and metabolism in various organisms. However, the exact timing and strength of rhythmic phenotypes can vary significantly between individuals of the same species. This is highly relevant for rhythmically complex marine environments where organismal rhythmic diversity likely permits the occupation of different microenvironments. When investigating circadian locomotor behavior of Platynereis dumerilii, a model system for marine molecular chronobiology, we found strain-specific, high variability between individual worms. The individual patterns were maintained for several weeks. A diel head transcriptome comparison of behaviorally rhythmic versus arrhythmic wild-type worms showed that 24-h cycling of core circadian clock transcripts is identical between both behavioral phenotypes. While behaviorally arrhythmic worms showed a similar total number of cycling transcripts compared to their behaviorally rhythmic counterparts, the annotation categories of their transcripts, however, differed substantially. Consistent with their locomotor phenotype, behaviorally rhythmic worms exhibit an enrichment of cycling transcripts related to neuronal/behavioral processes. In contrast, behaviorally arrhythmic worms showed significantly increased diel cycling for metabolism- and physiology-related transcripts. The prominent role of the neuropeptide pigment-dispersing factor (PDF) in Drosophila circadian behavior prompted us to test for a possible functional involvement of Platynereis pdf. Differing from its role in Drosophila, loss of pdf impacts overall activity levels but shows only indirect effects on rhythmicity. Our results show that individuals arrhythmic in a given process can show increased rhythmicity in others. Across the Platynereis population, rhythmic phenotypes exist as a continuum, with no distinct “boundaries” between rhythmicity and arrhythmicity. We suggest that such diel rhythm breadth is an important biodiversity resource enabling

Published
2024

7. Characterization of cephalic and non-cephalic sensory cell types provides insight into joint photo- and mechanoreceptor evolution

Author

Roger Revilla-i-Domingo, Vinoth Babu Veedin Rajan, Monika Waldherr, Günther Prohaczka, Hugo Musset, Lukas Orel, Elliot Gerrard, Moritz Smolka, Alexander Stockinger, Matthias Farlik, Robert J Lucas, Florian Raible, and Kristin Tessmar-Raible

Subjects
photoreceptor, opsin, evolution, behavior, Medicine, Science, Biology (General), QH301-705.5
Abstract

Rhabdomeric opsins (r-opsins) are light sensors in cephalic eye photoreceptors, but also function in additional sensory organs. This has prompted questions on the evolutionary relationship of these cell types, and if ancient r-opsins were non-photosensory. A molecular profiling approach in the marine bristleworm Platynereis dumerilii revealed shared and distinct features of cephalic and non-cephalic r-opsin1-expressing cells. Non-cephalic cells possess a full set of phototransduction components, but also a mechanosensory signature. Prompted by the latter, we investigated Platynereis putative mechanotransducer and found that nompc and pkd2.1 co-expressed with r-opsin1 in TRE cells by HCR RNA-FISH. To further assess the role of r-Opsin1 in these cells, we studied its signaling properties and unraveled that r-Opsin1 is a Gαq-coupled blue light receptor. Profiling of cells from r-opsin1 mutants versus wild-types, and a comparison under different light conditions reveals that in the non-cephalic cells light – mediated by r-Opsin1 – adjusts the expression level of a calcium transporter relevant for auditory mechanosensation in vertebrates. We establish a deep-learning-based quantitative behavioral analysis for animal trunk movements and identify a light– and r-Opsin-1–dependent fine-tuning of the worm's undulatory movements in headless trunks, which are known to require mechanosensory feedback. Our results provide new data on peripheral cell types of likely light sensory/mechanosensory nature. These results point towards a concept in which such a multisensory cell type evolved to allow for fine-tuning of mechanosensation by light. This implies that light-independent mechanosensory roles of r-opsins may have evolved secondarily.

Published
2021
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16. Author response: Characterization of cephalic and non-cephalic sensory cell types provides insight into joint photo- and mechanoreceptor evolution

Author

Hugo Musset, Moritz Smolka, Günther Prohaczka, Roger Revilla-i-Domingo, Kristin Tessmar-Raible, Lukas Orel, Robert J. Lucas, Monika Waldherr, Alexander W. Stockinger, Matthias Farlik, Elliot Gerrard, Florian Raible, and Vinoth Babu Veedin Rajan

Subjects
Mechanoreceptor, medicine.anatomical_structure, medicine, Biology, Sensory cell, Neuroscience, Joint (geology)
Published
2021

19. Characterization of cephalic and non-cephalic sensory cell types provides insight into joint photo- and mechanoreceptor evolution

Author

Revilla-i-Domingo, Roger, primary, Rajan, Vinoth Babu Veedin, additional, Waldherr, Monika, additional, Prohaczka, Günther, additional, Musset, Hugo, additional, Orel, Lukas, additional, Gerrard, Elliot, additional, Smolka, Moritz, additional, Stockinger, Alexander, additional, Farlik, Matthias, additional, Lucas, Robert J, additional, Raible, Florian, additional, and Tessmar-Raible, Kristin, additional

Published
2021
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20. Author response: Characterization of cephalic and non-cephalic sensory cell types provides insight into joint photo- and mechanoreceptor evolution

Author

Revilla-i-Domingo, Roger, primary, Rajan, Vinoth Babu Veedin, additional, Waldherr, Monika, additional, Prohaczka, Günther, additional, Musset, Hugo, additional, Orel, Lukas, additional, Gerrard, Elliot, additional, Smolka, Moritz, additional, Stockinger, Alexander, additional, Farlik, Matthias, additional, Lucas, Robert J, additional, Raible, Florian, additional, and Tessmar-Raible, Kristin, additional

Published
2021
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22. Characterization of cephalic and non-cephalic sensory cell types provides insight into joint photo- and mechanoreceptor evolution

Author

Florian Raible, Vinoth Babu Veedin Rajan, Matthias Farlik, Lukas Orel, Monika Waldherr, Elliot Gerrard, Kristin Tessmar-Raible, Robert J. Lucas, Roger Revilla-i-Domingo, Hugo Musset, Moritz Smolka, and Günther Prohaczka

Subjects
Mechanoreceptor, Cell type, Opsin, medicine.anatomical_structure, Mechanosensation, medicine, Sensory system, Biology, Sensory cell, Neuroscience, Function (biology), Visual phototransduction
Abstract

Rhabdomeric Opsins (r-Opsins) are light-sensors in cephalic eye photoreceptors, but also function in additional sensory organs. This has prompted questions on the evolutionary relationship of these cell types, and if ancient r-Opsins cells were non-photosensory. Our profiling of cephalic and non-cephalic r-opsin1-expressing cells of the marine bristlewormPlatynereis dumeriliireveals shared and distinct features. Non-cephalic cells possess a full set of phototransduction components, but also a mechanosensory signature. We determine that Pdu-r-Opsin1 is a Gαq-coupled blue-light receptor. Profiling of cells fromr-opsin1mutants versus wild-types, and a comparison under different light conditions reveals that in the non-cephalic cells, light – mediated by r-Opsin1 – adjusts the expression level of a calcium transporter relevant for auditory mechanosensation in vertebrates. We establish a deep learning-based quantitative behavioral analysis for animal trunk movements, and identify a light-and r-Opsin-1-dependent fine-tuning of the worm’s undulatory movements in headless trunks, which are known to require mechanosensory feedback.Our results suggest an evolutionary concept in which r-Opsins act as ancient, light-dependent modulators of mechanosensation, and suggest that light-independent mechanosensory roles of r-Opsins likely evolved secondarily.

Published
2021

26. A versatile depigmentation, clearing, and labeling method for exploring nervous system diversity

Author

Florian Raible, Hannah Schmidbaur, Saiedeh Saghafi, Marko Pende, Elly M. Tanaka, Oleg Simakov, Alexander W. Stockinger, Karim Vadiwala, Pawel Pasierbek, Prayag Murawala, Marcus P. S. Dekens, Klaus Becker, Roger Revilla-i-Domingo, Sofia-Christina Papadopoulos, Martin Zurl, and Hans-Ulrich Dodt

Subjects
Nervous system, 0303 health sciences, Multidisciplinary, Tissue clearing, biology, Confocal, SciAdv r-articles, Computational biology, In situ hybridization, biology.organism_classification, Mammalian brain, Whole systems, 03 medical and health sciences, 0302 clinical medicine, Depigmentation, medicine.anatomical_structure, medicine, medicine.symptom, Zebrafish, Research Articles, 030217 neurology & neurosurgery, Research Article, Developmental Biology, Neuroscience, 030304 developmental biology
Abstract

A tailored protocol combines pigment removal with clearing, facilitating labeling and whole-body imaging across phylogeny., Tissue clearing combined with deep imaging has emerged as a powerful alternative to classical histological techniques. Whereas current techniques have been optimized for imaging selected nonpigmented organs such as the mammalian brain, natural pigmentation remains challenging for most other biological specimens of larger volume. We have developed a fast DEpigmEntation-Plus-Clearing method (DEEP-Clear) that is easily incorporated in existing workflows and combines whole system labeling with a spectrum of detection techniques, ranging from immunohistochemistry to RNA in situ hybridization, labeling of proliferative cells (EdU labeling) and visualization of transgenic markers. With light-sheet imaging of whole animals and detailed confocal studies on pigmented organs, we provide unprecedented insight into eyes, whole nervous systems, and subcellular structures in animal models ranging from worms and squids to axolotls and zebrafish. DEEP-Clear thus paves the way for the exploration of species-rich clades and developmental stages that are largely inaccessible by regular imaging approaches.

Published
2020

28. Establishment of Transgenesis in the Demosponge Suberites domuncula

Author

Florian Raible, Clara Schmidt, Roger Revilla-i-Domingo, and Clara Zifko

Subjects
0301 basic medicine, Genetics, Expression vector, biology, Cell sorting, biology.organism_classification, Green fluorescent protein, Cell biology, Suberites domuncula, Transgenesis, 03 medical and health sciences, Sponge, 030104 developmental biology, Demosponge, Exogenous DNA
Abstract

Sponges (Porifera) represent one of the most basally branching animal clades with key relevance for evolutionary studies, stem cell biology, and development. Despite a long history of sponges as experimental model systems, however, functional molecular studies are still very difficult to perform in these animals. Here, we report the establishment of transgenic technology as a basic and versatile experimental tool for sponge research. We demonstrate that slice explants of the demosponge Suberites domuncula regenerate functional sponge tissue and can be cultured for extended periods of time, providing easy experimental access under controlled conditions. We further show that an engineered expression construct driving the enhanced green fluorescence protein (egfp) gene under control of the Suberites domuncula β-actin locus can be transfected into such tissue cultures, and that faithfully spliced transcripts are produced from such transfected DNA. Finally, by combining fluorescence-activated cell sorting (FACS) with quantitative PCR, we validate that transfected cells can be specifically reisolated from tissue based on their fluorescence. Although the number of detected enhanced green fluorescent protein (EGFP)-expressing cells is still limited, our approach represents the first successful introduction and expression of exogenous DNA in a sponge. These results represent a significant advance for the use of transgenic technology in a cornerstone phylum, for instance for the use in lineage tracing experiments.

Published
2018

31. R11: a cis-regulatory node of the sea urchin embryo gene network that controls early expression of SpDelta in micromeres

Author

Revilla-i-Domingo, Roger, Minokawa, Takuya, and Davidson, Eric H.

Subjects
Genetic regulation -- Research, Sea urchin embryo -- Research, Sea urchin embryo -- Genetic aspects, Developmental biology -- Research, Gene expression -- Research, Biological sciences
Abstract

A gene regulatory network (GRN) controls the process by which the endomesoderm of the sea urchin embryo is specified. In this GRN, the program of gene expression unique to the skeletogenic micromere lineage is set in train by activation of the pmar1 gene. Through a double repression system, this gene is responsible for localization of expression of downstream regulatory and signaling genes to cells of this lineage. One of these genes, delta, encodes a Notch ligand, and its expression in the right place and time is crucial to the specification of the endomesoderm. Here we report a cis-regulatory element R11 that is responsible for localizing the expression of delta by means of its response to the pmar1 repression system. R11 was identified as an evolutionarily conserved genomic sequence located about 13 kb downstream of the last exon of the delta gene. We demonstrate here that this cis-regulatory element is able to drive the expression of a reporter gene in the same cells and at the same time that the endogenous delta gene is expressed, and that temporally, spatially, and quantitatively it responds to the pmar1 repression system just as predicted for the delta gene in the endomesoderm GRN. This work illustrates the application of cis-regulatory analysis to the validation of predictions of the GRN model. In addition, we introduce new methodological tools for quantitative measurement of the output of expression constructs that promise to be of general value for cis-regulatory analysis in sea urchin embryos. Keywords: cis-Regulatory element; Gene regulatory network; delta; Endomesoderm specification; Sea urchin

Published
2004

33. A versatile depigmentation, clearing, and labeling method for exploring nervous system diversity

Author

Pende, Marko, primary, Vadiwala, Karim, additional, Schmidbaur, Hannah, additional, Stockinger, Alexander W., additional, Murawala, Prayag, additional, Saghafi, Saiedeh, additional, Dekens, Marcus P. S., additional, Becker, Klaus, additional, Revilla-i-Domingo, Roger, additional, Papadopoulos, Sofia-Christina, additional, Zurl, Martin, additional, Pasierbek, Pawel, additional, Simakov, Oleg, additional, Tanaka, Elly M., additional, Raible, Florian, additional, and Dodt, Hans-Ulrich, additional

Published
2020
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35. Characterization of cephalic and noncephalic sensory cell types provides insight into joint photo- and mechanoreceptor evolution.

Author

Revilla-i-Domingo, Roger, Veedin Rajan, Vinoth Babu, Waldherr, Monika, Prohaczka, Günther, Musset, Hugo, Orel, Lukas, Gerrard, Elliot, Smolka, Moritz, Stockinger, Alexander, Farlik, Matthias, Lucas, Robert J, Raible, Florian, and Tessmar-Raible, Kristin

Subjects
*BEHAVIORAL assessment, *ANIMAL mechanics, *BLUE light, *OPSINS, *PHOTORECEPTORS, *QUANTITATIVE research
Abstract

Rhabdomeric opsins (r-opsins) are light sensors in cephalic eye photoreceptors, but also function in additional sensory organs. This has prompted questions on the evolutionary relationship of these cell types, and if ancient r-opsins were non-photosensory. A molecular profiling approach in the marine bristleworm Platynereis dumerilii revealed shared and distinct features of cephalic and non-cephalic r-opsin1-expressing cells. Non-cephalic cells possess a full set of phototransduction components, but also a mechanosensory signature. Prompted by the latter, we investigated Platynereis putative mechanotransducer and found that nompc and pkd2.1 coexpressed with r-opsin1 in TRE cells by HCR RNA-FISH. To further assess the role of r-Opsin1 in these cells, we studied its signaling properties and unraveled that r-Opsin1 is a Gaq-coupled blue light receptor. Profiling of cells from r-opsin1 mutants versus wild-types, and a comparison under different light conditions reveals that in the non-cephalic cells light - mediated by r-Opsin1 - adjusts the expression level of a calcium transporter relevant for auditory mechanosensation in vertebrates. We establish a deep-learning-based quantitative behavioral analysis for animal trunk movements and identify a light- and r-Opsin-1-dependent fine-tuning of the worm's undulatory movements in headless trunks, which are known to require mechanosensory feedback. Our results provide new data on peripheral cell types of likely light sensory/mechanosensory nature. These results point towards a concept in which such a multisensory cell type evolved to allow for finetuning of mechanosensation by light. This implies that light-independent mechanosensory roles of r-opsins may have evolved secondarily. [ABSTRACT FROM AUTHOR]

Published
2021
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36. Establishment of Transgenesis in the Demosponge

Author

Roger, Revilla-I-Domingo, Clara, Schmidt, Clara, Zifko, and Florian, Raible

Subjects
Animals, Genetically Modified, transgenics, Green Fluorescent Proteins, Animals, Investigations, Suberites, Transfection, sponges, Suberites domuncula, Actins, Communications, Porifera
Abstract

Sponges (Porifera) represent one of the most basally branching animal clades with key relevance for evolutionary studies, stem cell biology, and development. Despite a long history of sponges as experimental model systems, however, functional molecular studies are still very difficult to perform in these animals. Here, we report the establishment of transgenic technology as a basic and versatile experimental tool for sponge research. We demonstrate that slice explants of the demosponge Suberites domuncula regenerate functional sponge tissue and can be cultured for extended periods of time, providing easy experimental access under controlled conditions. We further show that an engineered expression construct driving the enhanced green fluorescence protein (egfp) gene under control of the Suberites domuncula β-actin locus can be transfected into such tissue cultures, and that faithfully spliced transcripts are produced from such transfected DNA. Finally, by combining fluorescence-activated cell sorting (FACS) with quantitative PCR, we validate that transfected cells can be specifically reisolated from tissue based on their fluorescence. Although the number of detected enhanced green fluorescent protein (EGFP)-expressing cells is still limited, our approach represents the first successful introduction and expression of exogenous DNA in a sponge. These results represent a significant advance for the use of transgenic technology in a cornerstone phylum, for instance for the use in lineage tracing experiments.

Published
2018

37. The Diversification of Early Emerging Metazoans: A Window into the Evolution of Animal Multicellularity

Author

Roger Revilla-i-Domingo and Oleg Simakov

Subjects
0301 basic medicine, biology, Ctenophora, Biological evolution, Diversification (marketing strategy), biology.organism_classification, Biological Evolution, General Biochemistry, Genetics and Molecular Biology, Porifera, Evolution, Molecular, 03 medical and health sciences, Multicellular organism, Cnidaria, 030104 developmental biology, Evolutionary biology, Germany, Placozoa, Animals, Phylogeny
Abstract

The biannual international workshop entitled "The diversification of early emerging metazoans: A window into animal evolution?" took place at the Evangelische Akademie Tutzing, Germany, 11-14. September 2017. It was organized by Thomas Bosch (Kiel), Thomas Holstein (Heidelberg), and Ulrich Technau (Vienna), and it was sponsored by the Deutsche Forschungsgemeinschaft (DFG). The meeting gathered over 140 researchers to discuss the contribution of non-bilaterian metazoan models (Porifera, Ctenophora, Placozoa, and Cnidaria) to our understanding of: a. The evolution of metazoan developmental processes; b. Fundamental molecular mechanisms underlying metazoan features; and c. The complex interactions that animals establish with their environment.

Published
2018

40. Fingerprinting of metabolic states by NAD(P)H fluorescence lifetime spectroscopy in living cells: A review

Author

Dusan Chorvat, Anton Mateasik, A. Marcek Chorvatova, R. Revilla-i-Domingo, J. Horilova, and F. Raible

Subjects
medicine.diagnostic_test, Cell, Dermatology, Oxidative phosphorylation, Biology, medicine.disease_cause, Autofluorescence, Metabolic pathway, medicine.anatomical_structure, Biochemistry, Biopsy, medicine, Surgery, Glycolysis, NAD+ kinase, Oxidative stress
Abstract

Summary Change in metabolic pathways is an important indicator of modifications in physiological, pathological and/or differentiation state of the cell. Its non-invasive investigation can significantly improve medical practice, namely the determination of the suspected tissue during surgery, including fast biopsy used for pre-operative tissue diagnostics, and/or resection guidance during surgical operations. Early detection of these changes is a prerequisite of fast and precise diagnostics directly in living cells and tissues and is thus crucial for the patient's survival and/or his/hers better quality of life. In this contribution, we review time-resolved fluorescence measurements of endogenous NAD(P)H in cells and tissues aimed at separation of specific metabolic pathways (glycolysis vs. oxidative phosphorylation – OXPHOS). Other complex situations, including the presence of oxidative stress, are also discussed. Current state of knowledge on non-invasive diagnostics of pathophysiological state in living cells and tissues, based on time-resolved autofluorescence, is presented.

Published
2015

41. Effects of rearing system (organic and conventional) and breed (Churra and Castellana) on fatty acid composition and sensory characteristics of suckling lamb meat produced in north-west Spain.

Author

Revilla, I., Vivar-Quintana, A.M., Palacios, C., Martínez-Martín, I., and Hernández-Jiménez, M.

Subjects
LAMB (Meat), FATTY acids, MONOUNSATURATED fatty acids, FAT content of meat, UNSATURATED fatty acids, SATURATED fatty acids, BREEDING
Abstract

The sensory characteristics of suckling lamb meat from 40 animals of the Castellana and Churra breeds from both conventional and organic maternal rearing systems were evaluated by a trained panel and texture and colour properties were also assessed by instrumental methods. The fatty acid profile of the feeding milk and the suckling lamb meat was evaluated by gas chromatography. The results showed that meat samples from organic rearing systems had a higher intramuscular fat content than meat samples from the conventional systems, but lower concentrations of saturated fatty acids and higher concentrations of mono- and polyunsaturated fatty acids, both PUFA n-3 and PUFA n-6. Moreover, the Castellana breed samples contained higher concentrations of monounsaturated fatty acids. As for the sensory characteristics, the appearance and the texture were the sensory attributes that were most affected by the rearing system and the breed. [ABSTRACT FROM AUTHOR]

Published
2021
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48. Tigridia arequipensis (Iridaceae: Tigridieae), a new species from South Peru

Author

Montesinos, D. B., Pauca, A., Revilla, I., and Naturalis journals & series

Subjects
South Peru, Tigridia, Arequipa, Plantenecologie en Natuurbeheer, Plant Ecology and Nature Conservation, PE&RC, Iridaceae, New species
Abstract

Tigridia arequipensis (Iridaceae: Tigridieae) is a new species found in the province of Arequipa (department of Arequipa), South Peru. It is unique by its white to pale white (or pale lilac) flowers, outer tepals with purplish maroon and dark yellow spots and stripes, and inner tepals with pale purplish and bluish spots and stripes. Tigridia arequipensis is morphologically similar to T. raimondii and T. philippiana, it differs by having longer basal leaves, narrower and larger bracts, and outer tepals ovate and longer fruits. Resumen Tigridia arequipensis (Iridaceae: Tigridieae) es una nueva especie encontrada en la provincia de Arequipa (departamento de Arequipa), Sur de Perú. Es única por sus flores blancas a blanco claras (o lila pálido), los tépalos externos con puntuaciones y líneas lila-marrones y los tépalos internos con puntuaciones y líneas lila pálido con puntuaciones y líneas azuladas. Tigridia arequipensis es morfológicamente similar a T. raimondii y T. philippiana, se difiere por tener hojas basales más alargadas, brácteas angostas y alargadas, los tépalos externos ovados y frutos más alargados.

Published
2016

49. The B-cell identity factor Pax5 regulates distinct transcriptional programmes in early and late B lymphopoiesis

Author

Meinrad Busslinger, Johanna Trupke, Markus Jaritz, Roger Revilla-i-Domingo, Hiromi Tagoh, Anja Ebert, Leonie Smeenk, Andreas Sommer, Ivan Bilic, Ido Tamir, and Bojan Vilagos

Subjects
Genetics, Regulation of gene expression, Cell type, General Immunology and Microbiology, biology, General Neuroscience, PAX5 Transcription Factor, General Biochemistry, Genetics and Molecular Biology, Histone, medicine.anatomical_structure, immune system diseases, hemic and lymphatic diseases, biology.protein, medicine, Lymphopoiesis, Enhancer, Molecular Biology, Gene, B cell
Abstract

Pax5 controls the identity and development of B cells by repressing lineage-inappropriate genes and activating B-cell-specific genes. Here, we used genome-wide approaches to identify Pax5 target genes in pro-B and mature B cells. In these cell types, Pax5 bound to 40% of the cis-regulatory elements defined by mapping DNase I hypersensitive (DHS) sites, transcription start sites and histone modifications. Although Pax5 bound to 8000 target genes, it regulated only 4% of them in pro-B and mature B cells by inducing enhancers at activated genes and eliminating DHS sites at repressed genes. Pax5-regulated genes in pro-B cells account for 23% of all expression changes occurring between common lymphoid progenitors and committed pro-B cells, which identifies Pax5 as an important regulator of this developmental transition. Regulated Pax5 target genes minimally overlap in pro-B and mature B cells, which reflects massive expression changes between these cell types. Hence, Pax5 controls B-cell identity and function by regulating distinct target genes in early and late B lymphopoiesis.

Published
2012

50. A missing link in the sea urchin embryo gene regulatory network: hesC and the double-negative specification of micromeres

Author

Paola Oliveri, Roger Revilla-i-Domingo, and Eric H. Davidson

Subjects
Homeodomain Proteins, Regulation of gene expression, Genetics, Embryo, Nonmammalian, Genome, Time Factors, Multidisciplinary, biology, Gene regulatory network, Down-Regulation, Gene Expression Regulation, Developmental, Repressor, Biological Sciences, biology.organism_classification, Strongylocentrotus purpuratus, Cell biology, Transcription (biology), Sea Urchins, Animals, Cell Lineage, Gene Regulatory Networks, Gene, Psychological repression, Caltech Library Services, Regulator gene
Abstract

Specification of sea urchin embryo micromeres occurs early in cleavage, with the establishment of a well defined regulatory state. The architecture of the gene regulatory network controlling the specification process indicates that transcription of the initial tier of control genes depends on a double-negative gate. A gene encoding a transcriptional repressor, pmar1 , is activated specifically in micromeres, where it represses transcription of a second repressor that is otherwise active globally. Thus, the micromere-specific control genes, which are the target of the second repressor, are expressed exclusively in this lineage. The double-negative specification gate was logically required from the results of numerous prior experiments, but the identity of the gene encoding the second repressor remained elusive. Here we show that hesC is this gene, and we demonstrate experimentally all of its predicted functions, including global repression of micromere-specific regulatory genes. As logically required, blockade of hesC mRNA translation and global overexpression of pmar1 mRNA have the same effect, which is to cause all of the cells of the embryo to express micromere-specific genes.

Published
2007

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