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Spinal Cord --- Spine --- Vertebra --- Spinal Column --- Vertebrae --- Vertebral Column --- Column, Spinal --- Column, Vertebral --- Columns, Spinal --- Columns, Vertebral --- Spinal Columns --- Vertebral Columns --- Coccygeal Cord --- Conus Medullaris --- Conus Terminalis --- Lumbar Cord --- Medulla Spinalis --- Myelon --- Sacral Cord --- Thoracic Cord --- Coccygeal Cords --- Conus Medullari --- Conus Terminali --- Cord, Coccygeal --- Cord, Lumbar --- Cord, Sacral --- Cord, Spinal --- Cord, Thoracic --- Cords, Coccygeal --- Cords, Lumbar --- Cords, Sacral --- Cords, Spinal --- Cords, Thoracic --- Lumbar Cords --- Medulla Spinali --- Medullari, Conus --- Medullaris, Conus --- Myelons --- Sacral Cords --- Spinal Cords --- Spinali, Medulla --- Spinalis, Medulla --- Terminali, Conus --- Terminalis, Conus --- Thoracic Cords --- Cauda Equina --- radiography. --- Physical methods for diagnosis --- Orthopaedics. Traumatology. Plastic surgery --- radiography
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Brain. --- Spinal Cord. --- Neurosciences. --- 612.8 --- Brain --- Neurosciences --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences --- Nervous system --- Cerebrum --- Mind --- Central nervous system --- Head --- Coccygeal Cord --- Conus Medullaris --- Conus Terminalis --- Falx Cerebri --- Lumbar Cord --- Medulla Spinalis --- Myelon --- Sacral Cord --- Tentorium Cerebelli --- Thoracic Cord --- Cerebelli, Tentorium --- Cerebellus, Tentorium --- Cerebri, Falx --- Cerebrus, Falx --- Coccygeal Cords --- Conus Medullari --- Conus Terminali --- Cord, Coccygeal --- Cord, Lumbar --- Cord, Sacral --- Cord, Spinal --- Cord, Thoracic --- Cords, Coccygeal --- Cords, Lumbar --- Cords, Sacral --- Cords, Spinal --- Cords, Thoracic --- Falx Cerebrus --- Lumbar Cords --- Medulla Spinali --- Medullari, Conus --- Medullaris, Conus --- Myelons --- Sacral Cords --- Spinal Cords --- Spinali, Medulla --- Spinalis, Medulla --- Tentorium Cerebellus --- Terminali, Conus --- Terminalis, Conus --- Thoracic Cords --- Cauda Equina --- Encephalon --- Brains --- Encephalons --- Zenuwstelsel. Zintuigen. Motorische neurowetenschappen --- Spinal Cord
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Neurowetenschappen --- Sciences [Neuro] --- Sciences neurologiques --- Wetenschappen [Neuro] --- Nervous System. --- Spinal Cord. --- Coccygeal Cord --- Conus Medullaris --- Conus Terminalis --- Falx Cerebri --- Lumbar Cord --- Medulla Spinalis --- Myelon --- Sacral Cord --- Tentorium Cerebelli --- Thoracic Cord --- Cerebelli, Tentorium --- Cerebellus, Tentorium --- Cerebri, Falx --- Cerebrus, Falx --- Coccygeal Cords --- Conus Medullari --- Conus Terminali --- Cord, Coccygeal --- Cord, Lumbar --- Cord, Sacral --- Cord, Spinal --- Cord, Thoracic --- Cords, Coccygeal --- Cords, Lumbar --- Cords, Sacral --- Cords, Spinal --- Cords, Thoracic --- Falx Cerebrus --- Lumbar Cords --- Medulla Spinali --- Medullari, Conus --- Medullaris, Conus --- Myelons --- Sacral Cords --- Spinal Cords --- Spinali, Medulla --- Spinalis, Medulla --- Tentorium Cerebellus --- Terminali, Conus --- Terminalis, Conus --- Thoracic Cords --- Cauda Equina --- Brain --- Neurosciences --- Spinal Cord --- 612.8 --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences --- Nervous system --- Cerebrum --- Mind --- Central nervous system --- Head --- Encephalon --- Brains --- Encephalons --- Zenuwstelsel. Zintuigen. Motorische neurowetenschappen --- Physiology of nerves and sense organs --- Neurosciences. --- Brain. --- Cerveau
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Spinal cord --- Spinal cord. --- Spine. --- Wounds and injuries. --- Injuries and Wounds --- Injuries, Wounds --- Research-Related Injuries --- Wounds --- Wounds and Injury --- Wounds, Injury --- Injuries --- Trauma --- Injuries, Research-Related --- Injury --- Injury and Wounds --- Injury, Research-Related --- Research Related Injuries --- Research-Related Injury --- Traumas --- Wound --- First Aid --- Traumatology --- Vertebra --- Spinal Column --- Vertebrae --- Vertebral Column --- Column, Spinal --- Column, Vertebral --- Columns, Spinal --- Columns, Vertebral --- Spinal Columns --- Vertebral Columns --- Coccygeal Cord --- Conus Medullaris --- Conus Terminalis --- Lumbar Cord --- Medulla Spinalis --- Myelon --- Sacral Cord --- Thoracic Cord --- Coccygeal Cords --- Conus Medullari --- Conus Terminali --- Cord, Coccygeal --- Cord, Lumbar --- Cord, Sacral --- Cord, Spinal --- Cord, Thoracic --- Cords, Coccygeal --- Cords, Lumbar --- Cords, Sacral --- Cords, Spinal --- Cords, Thoracic --- Lumbar Cords --- Medulla Spinali --- Medullari, Conus --- Medullaris, Conus --- Myelons --- Sacral Cords --- Spinal Cords --- Spinali, Medulla --- Spinalis, Medulla --- Terminali, Conus --- Terminalis, Conus --- Thoracic Cords --- Cauda Equina
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Mollusca --- Mollusca --- Mollusc culture --- Mollusc culture --- Intensive husbandry --- Intensive husbandry --- Noxious molluscs --- Noxious molluscs --- life cycle --- life cycle --- Biological control --- Biological control --- Tridacnidae --- Tridacnidae --- Conus textile --- Conus textile --- Pleuroploca filamentosa --- Pleuroploca filamentosa
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612.8 --- Spinal cord. --- Senses and sensation. --- Afferent pathways. --- Spinal cord --- Sensory Receptor Cells. --- Spinal Cord. --- Coccygeal Cord --- Conus Medullaris --- Conus Terminalis --- Lumbar Cord --- Medulla Spinalis --- Myelon --- Sacral Cord --- Thoracic Cord --- Coccygeal Cords --- Conus Medullari --- Conus Terminali --- Cord, Coccygeal --- Cord, Lumbar --- Cord, Sacral --- Cord, Spinal --- Cord, Thoracic --- Cords, Coccygeal --- Cords, Lumbar --- Cords, Sacral --- Cords, Spinal --- Cords, Thoracic --- Lumbar Cords --- Medulla Spinali --- Medullari, Conus --- Medullaris, Conus --- Myelons --- Sacral Cords --- Spinal Cords --- Spinali, Medulla --- Spinalis, Medulla --- Terminali, Conus --- Terminalis, Conus --- Thoracic Cords --- Cauda Equina --- Neural Receptors --- Receptors, Sensory --- Sensory Neurons --- Sensory Receptors --- Nerve Endings, Sensory --- Neurons, Sensory --- Neuroreceptors --- Receptors, Neural --- Nerve Ending, Sensory --- Neural Receptor --- Neuron, Sensory --- Neuroreceptor --- Receptor Cell, Sensory --- Receptor Cells, Sensory --- Receptor, Neural --- Receptor, Sensory --- Sensory Nerve Ending --- Sensory Nerve Endings --- Sensory Neuron --- Sensory Receptor --- Sensory Receptor Cell --- Neurons, Afferent --- Sense Organs --- Ascending tracts --- Pathways, Afferent --- Sensory motor system --- Sensory tracts --- Central nervous system --- Sensation --- Sensory biology --- Sensory systems --- Knowledge, Theory of --- Neurophysiology --- Psychophysiology --- Perception --- Nervous system. Sensory organs --- Localization of functions. --- Physiology of nerves and sense organs --- Senses and sensation --- Afferent pathways --- Sensory Receptor Cells --- Spinal Cord --- Localization of functions
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Marine Drugs is glad to announce its first Special Issue book on “ion channels” related research: Under the great stewardship of the Guest Editor, Dr. Jean-Marc Sabatier, four advanced research articles and three comprehensive review papers were collected in the Special Issue “Ion Channels as Marine Drug Targets”. Join us to explore the advanced research outcomes in this field: α-Conotoxin RgIA and a potent analog, RgIA4, in treatment of pain; botulinum toxin-chitosan nanoparticles in treatment of atrial fibrillation; 27-amino acid (aa)-long δ-conotoxin TxVIA that modulates mammalian CaV3.x; first venomics study of Conus tulipa venom; review on marine toxins targeting Kv1 channels; review on synthetic approaches to zetekitoxin AB; and review on marine natural products and drug resistance in latent tuberculosis. The second edition of this Special Issue is open for submissions, we look forward to your contribution.
Medicine --- conotoxin --- Conus tulipa --- intraspecific variation --- venomics --- transcriptomics --- proteomics --- conantokins --- net hunting strategy --- nirvana cabal --- ion channel modulators --- marine anti-TB compounds --- PZA --- MTB --- latent TB --- sponges --- nicotinic --- chemotherapy --- paclitaxel --- taxane --- neuropathic pain --- α9α10 --- saxitoxin --- zetekitoxin AB --- voltage-gated sodium channel --- guanidine alkaloid --- bioactives --- conotoxins 2 --- Kv1 --- marine toxins --- modulators --- potassium channels --- sea anemone toxins --- TxVIA --- mammalian NaV channel --- selective inhibitor --- T-type CaV3.2 --- botulinum toxin A1 --- chitosan nanoparticles --- antiarrhythmics --- pharmacological models of arrhythmia --- electrically induced arrhythmia --- conotoxin --- Conus tulipa --- intraspecific variation --- venomics --- transcriptomics --- proteomics --- conantokins --- net hunting strategy --- nirvana cabal --- ion channel modulators --- marine anti-TB compounds --- PZA --- MTB --- latent TB --- sponges --- nicotinic --- chemotherapy --- paclitaxel --- taxane --- neuropathic pain --- α9α10 --- saxitoxin --- zetekitoxin AB --- voltage-gated sodium channel --- guanidine alkaloid --- bioactives --- conotoxins 2 --- Kv1 --- marine toxins --- modulators --- potassium channels --- sea anemone toxins --- TxVIA --- mammalian NaV channel --- selective inhibitor --- T-type CaV3.2 --- botulinum toxin A1 --- chitosan nanoparticles --- antiarrhythmics --- pharmacological models of arrhythmia --- electrically induced arrhythmia
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What is the minimum dimension of a niche space necessary to represent the overlaps among observed niches? This book presents a new technique for obtaining a partial answer to this elementary question about niche space. The author bases his technique on a relation between the combinatorial structure of food webs and the mathematical theory of interval graphs. Professor Cohen collects more than thirty food webs from the ecological literature and analyzes their statistical and combinatorial properties in detail. As a result, he is able to generalize: within habitats of a certain limited physical and temporal heterogeneity, the overlaps among niches, along their trophic (feeding) dimensions, can be represented in a one-dimensional niche space far more often than would be expected by chance alone and perhaps always. This compatibility has not previously been noticed. It indicates that real food webs fall in a small subset of the mathematically possible food webs. Professor Cohen discusses other apparently new features of real food webs, including the constant ratio of the number of kinds of prey to the number of kinds of predators in food webs that describe a community. In conclusion he discusses possible extensions and limitations of his results and suggests directions for future research.
Niche (Ecology) --- Food chains (Ecology) --- Accipiter. --- Conus. --- Desmognathus. --- Hawaii. --- Lake Nyasa. --- Monte Carlo simulation. --- algorithm. --- aspen forest. --- column average. --- column variance. --- composite community. --- creek. --- eating relation. --- feeding relation. --- gastropods. --- independence of niche dimensions. --- inequalities. --- intersection graph. --- marine bench. --- niche overlap graph. --- overlap. --- predator. --- pseudo-random food web. --- qualitative stability. --- resource partitioning. --- salamanders. --- sampling. --- sink food web. --- temperature. --- uniform distribution. --- variance test. --- Food chains (Ecology). --- Niche (Ecology).
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Marine Drugs is glad to announce its first Special Issue book on “ion channels” related research: Under the great stewardship of the Guest Editor, Dr. Jean-Marc Sabatier, four advanced research articles and three comprehensive review papers were collected in the Special Issue “Ion Channels as Marine Drug Targets”. Join us to explore the advanced research outcomes in this field: α-Conotoxin RgIA and a potent analog, RgIA4, in treatment of pain; botulinum toxin-chitosan nanoparticles in treatment of atrial fibrillation; 27-amino acid (aa)-long δ-conotoxin TxVIA that modulates mammalian CaV3.x; first venomics study of Conus tulipa venom; review on marine toxins targeting Kv1 channels; review on synthetic approaches to zetekitoxin AB; and review on marine natural products and drug resistance in latent tuberculosis. The second edition of this Special Issue is open for submissions, we look forward to your contribution.
conotoxin --- Conus tulipa --- intraspecific variation --- venomics --- transcriptomics --- proteomics --- conantokins --- net hunting strategy --- nirvana cabal --- ion channel modulators --- marine anti-TB compounds --- PZA --- MTB --- latent TB --- sponges --- nicotinic --- chemotherapy --- paclitaxel --- taxane --- neuropathic pain --- α9α10 --- saxitoxin --- zetekitoxin AB --- voltage-gated sodium channel --- guanidine alkaloid --- bioactives --- conotoxins 2 --- Kv1 --- marine toxins --- modulators --- potassium channels --- sea anemone toxins --- TxVIA --- mammalian NaV channel --- selective inhibitor --- T-type CaV3.2 --- botulinum toxin A1 --- chitosan nanoparticles --- antiarrhythmics --- pharmacological models of arrhythmia --- electrically induced arrhythmia