NANOBIOTECNOLOGY IN MEDICINE   ◊ Description   ◊ Nano-regenerative medicine   ◊ Nanobacteria   ◊ Progress NANOBODY Replacement of antybody NANOMEMBRANES Trackend NANOPARTICLES Applications Risk NARCOMANIA Childs from Narcomans   ◊Genotoxic effects NECROSIS biochemistry N-end Rule NEOCORTEX DEVELOPMENT   ◊Cis-acting regulatory elements Nephron Nephrogenesis NERVOUS SYSTEM DEVELOPMENT   ◊Hedgehog signalling   ◊netrins HUMAN   ◊Atlas protein 14-3-3 NETWORKS BIOLOGICAL   ◊ Features and Principles CELLULAR   ◊ Yeast GENE REGULATORY   ◊ haematopoietic stem cell   ◊ ENCODE data NEURON DEVELOPMENT   ◊Anomalies    • Can Transgenic Monkeys Help Us Innovate Transdiagnostic Therapies DIFFERENTIATION   ◊Inhibition    • Notch Signaling CODING INDUCTION   ◊ Description   ◊ Exp.methods information NETWORKS   ◊Dynamics    • Models   ◊Mechanism of Formation PLASTICITY   ◊plasticity POLARIZATION   ◊ Genetic control   ◊ Schootin1   ◊ Rile of calpain   ◊Microtubule retrograde flow retains neuronal polarization   ◊ Local changes in microtubule network mobility instruct neuronal polarization and axon specification PROGENITORS   ◊Release extracellular membrane particles    • with prominin-1   ◊asb11: a regulator of the size NEURAL CREST BRANCHIAL ARCH   ◊ Description   ◊ Cartilage CRANIAL   ◊ Description   ◊ Cephalic   ◊ and Craniofacial development   ◊ Signatures of cranial neural crest cells arising from different axial levels   ◊ Nubp2 is required for cranial neural crest survival DERIVATES   ◊General description   ◊ Glia   ◊ MESENCHYME    • Specifying prechondrogenic identity   ◊ Ocular and periocular structures Description DEVELOPMENT   ◊Cell delamination   ◊ Epigenetic and microRNA FORMATION   ◊CHD7 cooperates with PBAF GENETIC CONTROL   ◊ Dual control neural crest cells by adam13/33   ◊ Cadherin function and regulation in the neural crest   ◊ Stem Cell Factor FoxD3n   ◊ Hoxb5 in the development of vagal and trunk neural crest   ◊ Notch pathway regulation INDUCTION   ◊ Description   ◊ Genetic control Apoptosis MIGRATION   ◊ Control   ◊ Hyaluronan SEGREGATION CLONES   ◊ Genetic control SIGNALING   ◊ Epigenetic landscape and miRNA   ◊Wnts, TGFβs/BMPs è FGFs SPECIFICATION   ◊ Genes   ◊ Pax7   ◊ Identity STEM CELLS   ◊ Wnts and BMPs   ◊ from Embryonic stem cells NEURAL CREST CARDIAL Description Genetic factors INVASION   ◊PINCH-1 Retinoic acid zebra fish NEURAL TUBE CLOSURE   ◊ Apicobasal polarity   ◊ Cell shape changes   ◊ Genetics   ◊ FGF3-BMP Signaling DEVELOPMENT   ◊ Cis-regulatory control of human GLI2   ◊ Msx1/3   ◊Patterning and Regionalization    • Signal systems description NEUROEPITHELIAL CELLS SPECIFICATION FATE   ◊ Integration of Signals along Orthogonal Axes   ◊ Shh signalling   ◊ Regulation of division fate patterning   ◊ In the absence of a Shh activity gradient roof plate NEURAL PLATE ECTOPIC FATE INDUCTION   ◊Induction ectopic mid-hindbrain characteristics ROHON-BEARD SENSORY NEURON BORDER   ◊Transcriptional Control

NEURITES FORMATION   ◊Neurites   ◊Neuritogenesis NEUROBLASTS COMPETENCE   ◊Transcription factors (HB, KR, PDM è CAS) MIGRATION   ◊Chemorepulsive factors NEURODEGENERATION Invertebrate models NEUROENDOCRINE CELLS Prostate NEUROGENESIS Description and Angiogenesis and BMP and Microtubules in ADULT   ◊ Hippocampus    •Connections with neurons of CNS    •adult brain circuits regulate new neuron production   ◊ Neuronal stem/Progenitor cells    • Genetics and Epigenetics   ◊ Genetics    •LIF    •Sox11 TELENCEPHALON   ◊ Molecular and cellular mechanisms NeuroGlia Neuromeres NeuroMusJunctions NEUROIMAGING BOLD fMRI signal NEUROMORPHING CHIPS Silicic organs NEUROMUSCULAR JUNCTION FORMATION   ◊Formation   ◊Axons Competing GENETIC CONTROL   ◊Wnt proteins contribute to neuromuscular junction formation NEURONS - APOPTOTIC MECHANISMS   ◊ Mitochondrias CODING   ◊ Unified theory of efficient, predictive, and sparse DIFFERENTIATION   ◊ Length of Cell Cycle   ◊ Sox21 DEVELOPMENT   ◊ Description   ◊ Role of bHLH genes DOPAMINERGIC   ◊ Epigenetic mechanisms in the development EXCITATORY   ◊GABA and EXP-1   ◊Chromatin remodeling GABA GUIDANCE   ◊role of Ca2+   ◊role of Engrailed signaling INTERACTIONS   ◊ role of glycans MATURATION   ◊ role of Numb MIGRATION   ◊Reln+Pafah1 path MOTONEURONS   ◊ MIGRATION FACIAL NEURONS    •olig2   ◊ SPECIFICATION    •Hox and Fox   ◊SPINAL    • role Hox    • Differentiation    •Olig2 and Hes regulatory dynamics during motor neuron differentiation NADPH POLARIZATION   ◊ Genetic control   ◊ Schootin1   ◊ Role of calpain POSITION   ◊ The Epigenetic State of PRDM16-Regulated Enhancers in Radial Glia Controls Cortical Neuron Position PRESYNAPTIC PROTEINS   ◊ piccolo REGENERATION   ◊Maintenance SPECIFICATION   ◊PAX6, OLIG2, NKX2.2 and HLH transcription proneural factors SYNAPTIC VESICLE   ◊ Sinaptic transmission via VGLUT THALAMOCORTICAL   ◊Guidance of thalamocortical axons/a>   ◊subtypes NEUROSPORE Development NEUROTRANSMISSION AXON MORPHOLOGY   ◊ βIVΣ Spectrin GENETICS   ◊ Triple Function of Synaptotagmin 7 PRESINAPTIC RECEPTORS   ◊ Release control LC-PUFA SYNAPSES   ◊ Nitric oxide-mediated posttranslational modifications control neurotransmitter release "NEUROVASCULAR UNIT" Dysfunction Neuron-Silicon chip NEURULATION COMPARATIVE NEURULATION   ◊ Modes STRETCHING CELL MORPHOGENESIS   ◊ Neural tube defects SECONDARY NEURULATION   ◊Neural crest ontogeny Description Convergent Extension Genetic control Regulated by Sox2 during secondary neurulation in chicken tail bud

NICHES OF STEM CELLS Stromal cells are the critical source of Wnts and RSPO3 for murine intestinal stem cells NIEUWKOOP CENTER and blasogenesis NITROSYLATION S-NITROSYLATION   ◊histone deacetylase 2 (HDAC2) NOCICEPTION Receptors and Neurons Role of Glia NODE MORPHOGENESIS   ◊left-right asymmetry   ◊NodalMyocyte NODES of RANVIEr Molecular differentiation   ◊ domain molecules NON-CODING DNA   ◊ CRISPRing the Regulatory Genome RNA   ◊ Making and Breaking of sugars   ◊ Regulation of macrophage cholesterol efflux by a long noncoding RNA   ◊ The functions and unique features of long intergenic non-coding RNA DISEASES   ◊ & SCA8   ◊ Human disease FUNCTIONS   ◊ Functions   ◊ Role in retinal development LONG   ◊ Guides and tethers to the epigenome   ◊ In organogenesis microRNA (mcRNA)   ◊Stress responses pgc snRNA & snoRNA 6S RNA Roles Nonhomologous DNA end-joining Nonribosomal peptide synthesis NONSENSE mRNA DECAY Control Factors NOTOCHORD MOLECULAR DIFFERENTIATION   ◊ XBtg2   ◊ Emilin3 MORPHOGENESIS   ◊Cell Elongation   ◊left-right asymmetry SPECIFICATION   ◊AXPC regulates cell fate NUCLEASES Cas9 IMMUNOGENICITY   ◊ Immunogenicity of Cas9 Protein NUCLEUS ACTIN   ◊ Actin   ◊ Nuclear F-actin at mitotic exit Description Dynamics architecture, genome organization Lipids Movement Positioning NUCLEAR COMPARTMENTS COMPARTMENTS   ◊Nuclear stress bodies   ◊Nuclear Order DYNAMIC GENOME ARCHITECTURE   ◊ Positioning of genes   ◊ Higher-Order Inter-chromosomal Hubs Shape 3D Genome Organization NUCLEAR ENVELOPE STRUCTURE   ◊Dynamics   ◊In calcium signalling   ◊The molecular architecture of lamins NUCLEAR EXPOPRT COMPLEX Function NUCLEAR LAMINA Developmental Regulation NUCLEOSKELETON Mechanics INTEGRITY   ◊ Role AKAP149 Organization Proteins Remodeling ENDOPLASMIC RETICULUM   ◊Formation from ER   ◊ Form è reformation   ◊Sorting out ER TRANSCRIPTIONAL CONTROL   ◊Genes NUCLEAR MIGRATION INTERKINETIC   ◊ Gradient Notch NUCLEAR ORGANIZATION AND GENE REGULATION   ◊ Long noncoding RNAs NUCLEAR PORE COMPLEXES INTERACTION WITH CHROMATIN   ◊Global histone acetylation Description Dynamics Nup107-160 complex FG domains Tompgraphy STRUCTURE AND FUNCTIONAL ANATOMY   ◊ Map the portal to the cell's nucleus NUCLEAR TRANSPORT Transport & Gene regulation Selective translocation through the nuclear pore complex NUCLEAR PROTEINS IMPORT CYCLE   ◊ Molecular mechanism NUCLEAR RECEPTORS hormonal stucture and function Role of cofactors NUCLEAR RETICULUM and Ca2+ NUCLEATION Actin Filaments   ◊ Actins   ◊ Formins   ◊ Spire Microtubules NUCLEOLUS LIQUID-LIQUID PHASE SEPARATION   ◊ NPM1 modulates multiple mechanisms of phase separation RIBOSOMAL GENES   ◊Structural and Functional organization NUCLEOSOME ASSEMBLY   ◊After repair POSITIONING ON DNA   ◊Genetic code NUCLEOTIDE PAIR SYNTHETIC   ◊A semi-synthetic organism that stores genetic informatio