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Acclaimed for its clear, friendly style, excellent illustrations, leading author team, and compelling theme of exploration, Neuroscience: Exploring the Brain, Fourth Edition takes a fresh, contemporary approach to the study of neuroscience, emphasizing the biological basis of behavior. The authors'passion for the dynamic field of neuroscience is evident on every page, engaging students and helping them master the material. In just a few years, the field of neuroscience has been transformed by exciting new technologies and an explosion of knowledge about the brain. The human genome has been sequenced, sophisticated new methods have been developed for genetic engineering, and new methods have been introduced to enable visualization and stimulation of specific types of nerve cells and connections in the brain. The Fourth Edition has been fully updated to reflect these and other rapid advances in the field, while honoring its commitment to be student-friendly with striking new illustrati
Neurosciences --- Spinal Cord --- Brain --- Encephalon --- 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 --- Neuroscience
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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
Choose an application
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
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