167 results on '"Arranz, Amaia"'
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2. hiPSC-based models to decipher the contribution of human astrocytes to Alzheimer’s disease and potential therapeutics
3. Food remains, phytotherapics and psychotropics remains
4. Centenarian hippocampus displays high levels of astrocytic metallothioneins
5. Human interlaminar astrocytes with different APOE variants differentially contribute to Alzheimer’s disease pathology
6. PARL deficiency in mouse causes Complex III defects, coenzyme Q depletion, and Leigh-like syndrome
7. Human iPSC-derived astrocytes transplanted into the mouse brain undergo morphological changes in response to amyloid-β plaques
8. The role of astroglia in Alzheimer's disease: pathophysiology and clinical implications
9. MEG3 activates necroptosis in human neuron xenografts modeling Alzheimer’s disease
10. A neuron-specific interaction between Alzheimer’s disease risk factors SORL1, APOE, and CLU
11. MEG3 activates necroptosis in human neuron xenografts modeling Alzheimer's disease
12. The peri-lacustrine Neolithic site of La Marmotta (Anguillara Savazia, Lazio, Italy). New studies and future prospects
13. Evolution of neuroglia
14. Sickle Gloss Texture Analysis Elucidates Long-Term Evolution of Plant Harvesting During the Transition to Agriculture
15. Dataset. Texture parameters of experimental and archaeological tools. Paper: Sickle gloss texture analysis elucidates long-term evolution of plant harvesting during the transition to agriculture
16. PLD3 gene and processing of APP
17. Long noncoding RNA MEG3 activates neuronal necroptosis in Alzheimer’s disease
18. Additional file 1 of Human iPSC-derived astrocytes transplanted into the mouse brain undergo morphological changes in response to amyloid-β plaques
19. AMYLOID BETA OLIGOMERS IMPAIR ENERGY METABOLISM IN OLIGODENDROCYTES
20. APOE3 AND APOE4 HIPSC-DERIVED ASTROCYTES DIFFERENTIALLY CONTRIBUTE TO ALZHEIMER’S PATHOLOGY IN CHIMERIC MICE
21. Astrocytes in Alzheimer’s Disease: Pathological Significance and Molecular Pathways
22. Sesión monográfica. Arqueología biomolecular aplicada a la investigación del neolítico
23. Plants meet Artifacts. Developing Interdisciplinary Approaches to identify plant processing and use in Archaeology
24. The Evolution of Plant Harvesting at The Dawn of Agriculture: Perspectives from Sickle Gloss Texture Analyses
25. Chimeric models to analyze human neuron and astroglia responses in Alzheimer's disease
26. Neuroprotection by two polyphenols following excitotoxicity and experimental ischemia
27. Human iPSC-derived Astrocytes Transplanted into the Mouse Brain Display three Morphological Responses to Amyloid-β Plaques
28. Functional glutamate transport in rodent optic nerve axons and glia
29. Los primeros agricultores y ganaderos. Excavaciones en el yacimiento del Neolítico Precerámico A y B de Kharaysin (Zarqa, Jordania). Campañas de 2015 y 2016
30. PARL deficiency in mouse causes Complex III defects, coenzyme Q depletion, and Leigh-like syndrome
31. PARL deficiency in mouse causes Complex III defects, coenzyme Q depletion, and Leigh-like syndrome
32. Additional file 7: Figure S7. of Tetraspanin 6: a pivotal protein of the multiple vesicular body determining exosome release and lysosomal degradation of amyloid precursor protein fragments
33. Additional file 9: Figure S9. of Tetraspanin 6: a pivotal protein of the multiple vesicular body determining exosome release and lysosomal degradation of amyloid precursor protein fragments
34. Additional file 4: Figure S4. of Tetraspanin 6: a pivotal protein of the multiple vesicular body determining exosome release and lysosomal degradation of amyloid precursor protein fragments
35. Additional file 2: Figure S2. of Tetraspanin 6: a pivotal protein of the multiple vesicular body determining exosome release and lysosomal degradation of amyloid precursor protein fragments
36. Additional file 1: Figure S1. of Tetraspanin 6: a pivotal protein of the multiple vesicular body determining exosome release and lysosomal degradation of amyloid precursor protein fragments
37. La explotación de plantas en el Jabal Al-Arab (sur de Siria): una aproximación etnobotánica
38. Additional file 5: Figure S5. of Tetraspanin 6: a pivotal protein of the multiple vesicular body determining exosome release and lysosomal degradation of amyloid precursor protein fragments
39. Additional file 8: Figure S8. of Tetraspanin 6: a pivotal protein of the multiple vesicular body determining exosome release and lysosomal degradation of amyloid precursor protein fragments
40. Additional file 6: Figure S6. of Tetraspanin 6: a pivotal protein of the multiple vesicular body determining exosome release and lysosomal degradation of amyloid precursor protein fragments
41. Additional file 3: Figure S3. of Tetraspanin 6: a pivotal protein of the multiple vesicular body determining exosome release and lysosomal degradation of amyloid precursor protein fragments
42. Parl Deficiency in Mouse Causes Coenzyme Q Depletion, Complex III Defects, and Leigh-like Syndrome
43. Tetraspanin 6: A novel regulator of hippocampal synaptic transmission and long term plasticity
44. Hallmarks of Alzheimer's disease in stem cell-derived human neurons transplanted into mouse brain
45. Hallmarks of Alzheimer's Disease in Stem-Cell-Derived Human Neurons Transplanted into Mouse Brain.
46. Brain extracellular space, hyaluronan, and the prevention of epileptic seizures
47. Correction: Tetraspanin 6: A novel regulator of hippocampal synaptic transmission and long term plasticity
48. Tetraspanin 6: a pivotal protein of the multiple vesicular body determining exosome release and lysosomal degradation of amyloid precursor protein fragments
49. Hallmarks of Alzheimer’s Disease in Stem-Cell-Derived Human Neurons Transplanted into Mouse Brain
50. Tetraspanin 6: A novel regulator of hippocampal synaptic transmission and long term plasticity
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