P BODIES Structure and Function PAIN NEUROPATHIC   ◊Mechanisms   ◊ Role gene CACNG2   ◊ Role Glial Ties to Persistent Pain PERCEPTION   ◊hyperalgia   ◊Genes Pain Sensitivity RESOLVING   ◊Resolvins PAIN EMPATHY "Pain matrix" PALATOGENESIS GENETIC CONTROL   ◊genetic control   ◊Pax9   ◊Src family kinases and p38MAPK   ◊Role Tbx22   ◊asymmetry in palatal rugae is associated with genetic variants in WNT signaling pathway MORPHOGENESIS   ◊Palate elevation; re-orientation PALMITOYLATION Spitz PANCREAS CELL ADHESION   ◊ and migration СELL DETERMINATION   ◊ Genetic control   ◊ role of Pax4 DEVELOPMENT   ◊ claudin proteins   ◊Epigenetic modifications and long noncoding RNAs   ◊ Develop through fusion of distinct β and α/δ islets   ◊ Organogenesis   ◊ Wnt-5/fz-2 signaling   ◊ Human   ◊ Xenopus DIFFERENTIATION   ◊ From ESC GENETIC CONTROL   ◊ Genetic control   ◊ Roile of Nkx6.1 ENDOCRINE CELLS   ◊β-Cells    • Differentiation    • Replication    • β1 integrin is a crucial regulator   ◊ Ghrelin-cells Organogenesis PROGENITORS   ◊ FGF10 and Notch signalling   ◊ EphB3 marks PANCREAS REGENERATION   ◊ Pancreas regeneration Wnt signaling PARAMUTATION MECHNISMS   ◊Role of RNA PARATHYROID GLAND Organogenesis   ◊Genetic Control    • Hoxa3 PARTURITION FETAL MATURATION Role of fetal membranes PATH NEURAL AUDITORY    ◊ description    ◊ development and plasticity PATH SIGNALING Ca2+ Fkh1/2 JAK-STAT Notch-Deltex< PI-PLC Reelin SHH-Gli SREBP Wnt PATTERN of BRAIN hindBrain forebrain telencephalon PATTERN FORMATION ANTEROPOSTERIOR   ◊Wnt/β-catenin signaling DORSOVENTRAL   ◊Gradient of BMP APPENDAGE   ◊Signals Shh   ◊Evolution   ◊Integument EMBRYO PATTERNING   ◊Morphogen rules MECHANICS PATTERNING   ◊Orchestration of tissue shape changes and gene expression patterns in development Morphostatic and morphodynamic EARLY EMBRYO   ◊Mouse FACE   ◊Signals from Foregut Endoderm & GROWTH   ◊Control HAIR   ◊Frizzled6 HEAD STRUCTURES   ◊IGF signalling   ◊bicoid RNA localization HEAD-TAIL AXIS   ◊Hypothesis Heart HYOID CARTILAGE   ◊Signals from Foregut Endoderm NEUROECTODERM   ◊Wnt-Nodal Signals Gut PHASES   ◊Pattern Formation in Phases REACTION-DIFFUSION MODEL   ◊Two-dimensional spatial patterning   ◊pattern formation in reaction-diffusion systems   ◊Turing RD model   ◊Pigment patterning in fish skin Turing mechanism PATTERN FORMATION LIMBS Formation Models SIGNALLING   ◊ Diffusible signals and epigenetic timing   ◊FGFs signaling SKIN   ◊Feather: pterylae Self-Regulatory System PEPTIDS Nucleic Acid Mimics   ◊ HypNA-pPNA PERICYTES Role in angiogenesis PERIDERM of ORAL EPITHELIUM Jag2-Notch1 Signaling PERILYMPHATIC SPACE SEMICIRCULAR DUCTS   ◊ Gata2 PERIODONTAL LIGAMENT Function PeroxiSome PEYER'S PATCH ORGANOGENESIS   ◊ Tyrosine kinase receptor RET PHAGOCYTOSIS Proteases PtdIns(4,5)P 2 PHARYNGEAL ARCHES (POUCHES) GENETIC CONTROL   ◊Arches and otic placode   ◊Shh   ◊Ripply3 is required for the maintenance of epithelial sheets in the morphogenesis of pharyngeal pouches   ◊Tbx1 Pharynx Organogenesis

PHENOTYPIC DIVERSITY p53 diversity PHEROMONES detection by VNO PHOSPHOLIPID METABOLISM Inositol   ◊ Opi1 control    •Phosphatidic acid PHOTORECEPTORS and Diseases   ◊ Sinapt.Vesicles recycling   ◊ Role of Sall3 MORPHOGENESIS   ◊ Processes and Genes ROD   ◊ Calycal Processes   • Myo3A RHODOPSIN TRAFFICKING   ◊ Crag and Rab11 SPECIFICATION RETINAL PROGENITORS   ◊ Retinoic acid exposure PHOTOSENSORY CELLS Opsins PHOTOTAXIS Фототаксис PIGMENTATION OF HAIR progenitors that create a niche for hair pigmentation PINEAL BODY Habenula PIWI RNA STRUCTURAL BASIS TARGETING Structural basis for piRNA targeting PITUITARY GLAND ORGANOGENESIS   ◊ Neural crest and mesencephalon   ◊Pituitary PIWI-INTERACTING RNAs GERMLINE   ◊21U-RNAs и PRG-1   ◊In male germline development PLACENTA GENETIC CONTROL   ◊ Mutation PDGF receptor-β   ◊ SLK protein kinase Vascular development and placental function PLACODES DEVELOPMENT   ◊Regulatory events   ◊ and Evolution*   ◊ Functions of cranial placodes   ◊ Mechanisms of assembly Description EVOLUTION   ◊Role of genes Six and Eye Foxi genes Lens NEUROGENIC   ◊Specification of diverse neuroblast   ◊Historical highlights   ◊Ophthalmic trigeminal placode OLFACTORY   ◊Role of neural plate OTIC   ◊Description   ◊Induction    • Mechanisms    • Role of FGFs    • Cooperation of Sall4 and Sox8 transcription factors in otic placode development PLANAR CELL POLARITY (PCP) CELL REARRANGEMENTS   ◊ Dachsous   ◊ Cilia and Wnt signaling CELL MIGRATION   ◊ Migration FBM neurons   ◊ PCP Signaling Migrating Neurons and Neuroepithelial Environment FUNCTIONAL MODELLING   ◊ Identifying molecular function GENETIC CONTROL   ◊ Fat-Dachsous signaling   ◊ Gene pepsinogen-like AUDITORY HAIR CELLS    ◊ planar cell polarity and hair-bundle morphogenesis PLANT Embryogenesis Photosyntesis   ◊membrane proteins PLASMA MEMBRANE RECYCLING   ◊ Proteins REPAIR   ◊ Direct wound removal PLASTICITY and EVOLUTIONARY PATTERNS   ◊ Developmental plasticity associated with early structural integration and evolutionary patterns PLURIPOTENCY CONTROL   ◊ A New Way to Control Stem Cell Fate Using Gene Circuits DNA DEMETHYLATION   ◊ A New Way to Control Stem Cell Fate Using Gene Circuits OPEN CHROMATIN   ◊ and Reprogramming REPROGRAMMING   ◊ LincRNAs   ◊ Chemical Reprogramming PML Bodys ROLE OF rDNA   ◊ rDNA Transcription in Developmental Diseases and Stem Cells PODOSOME Extracellular matrix rigidity POLARISOME Components POLARITY CELL. APICOBASAL   ◊Aquaporins   ◊Function   ◊Role of Phosphoinositides CELL. FRONT–REAR   ◊ Par–Tiam1 complex CELL. CONTROL   ◊aPKC and PAR1   ◊Description   ◊small GTPases and polarity proteins   ◊ Role of clatrin   ◊ Role of LKB1   ◊ Role of Sec6/8 complex CYTOSKELETON   ◊Actin and microtubules DESCRIPTION   ◊ Description ORGANELLE POSITIONING   ◊Description PLANAR CELL POLARITY   ◊ Dachsous/Fat and Starry night/Frizzled   ◊organ Corti   ◊ Signalling   ◊ Signalling Frizzled/PCP PROTEIN SORTING, TARGETING AND DISTRIBUTION   ◊ Coordinated   ◊ Endocytosis in the axon initial segment maintains neuronal polarity ТIGHT JUNCTIONS   ◊ Crumbs3-Pals1 complex   ◊IP3Rs Spindle Uncoupling with migration POLARITY of CELLS and TISSUE MECHANICS   ◊ Mechanics behind cell polarity POLARITY PROTEIN   ◊Alterations in carcinom POLARITY of CILIA MECHANISMS   ◊ Description   ◊ Positive feedback mechanism POLARITY of EMBRYONS Fatty acid pathways mesd POLYADENILATION description cytoplasmic POLYCISTRONIC TRANSCRIPTS GAP GENES   ◊ mille-pattes POLYSOME PSEUDO-POLYSOME   ◊ Role miR2 POLYGLUTAMINE (polyQ) REPEAT TOXICITY   ◊ Mechanisms POLYGLUTAMYLATION TUBULIN   ◊ Polyglutamylase complex POST-INFARCTION CTGF Postsynaptic PRECHONDROGENIC SPECIFYING NEURAL CREST-DERIVED MESENCHYME FGF and BMP signaling PREGNANCY Encyclopedia   ◊Pregnancy-specific glycoproteins PREPATTERN NERVOUS SYSTEM   ◊proneural genes PREPLACVODAL REGION DETERMINATION   ◊Genetic Mechanisms PRESINAPTIC COMPARTMENTS Formation Bouton   ◊Transport presyn. molecules Formation presyn. structures PRIMARY AUDITORY CORTEX LONG-TERM MEMORY   ◊and Learning PRIMITIVE STREAK GENETIC CONTROL   ◊The mevalonate pathway EPITHELIAL CELL INTERCALATION   ◊Wnt-PCP EPITHELIAL CELL TRANSITION   ◊EMT PRECARDIAL CELLS   ◊ Commitment PRIMODIAL GERM CELLS DEVELOPMENT   ◊ Specification   ◊ C.elegans   ◊ Epigenetic mechanisms GENETIC CONTROL   ◊ Genetic control   ◊Rhox6   ◊ Signaling pathways MIGRATION   ◊Genes   ◊ Lhx PRION PROTEINS Conformations Description Misfolding Targeted by drugs

procsAnt ProtrusionAtrial PrenatalTesting PresynapticStruct PROCESSING antigens P-BODIES   ◊ mRNA Proteins PROGENITORS β-CELLS   ◊ Adult pancreas   ◊ EphB3 marks BLOOD PROGENITOR   ◊ Olfactory Control ENDOTHELIAL   ◊ Endoglin CARDIAL   ◊ Clonality of cardiomyogenesis   ◊ Description   ◊ Transit-amplifying    •Back Again to Stem Cell LYMPHOID   ◊ Lymphoid MESODERMAL   ◊ Brachyury establishes niche NEURAL   ◊Asymmetric cell division    • Mechanisms   ◊Differentiation    • Sirt1 and redox-dependent fate   ◊ Maintenance   ◊ Biomarker of neural precursor cells OLIGODENDROCYTES RETINA AND SPINAL CORD   ◊ Dll4-expressing PROGRAMMED CELL DEATH INTERDIGITAL   ◊ Role of HOXA13 Progress zone PROMOTERS ACTIVITY   ◊Regulation by lncRNA promoters LANDSCAPE   ◊Long-range interaction PROSTATE ORGANOGENESIS   ◊Morphoregulatory pathways   ◊Canonical Wnt signaling regulates Nkx3.1 cells   ◊structure PROJECTS Signalling Nets   ◊ B lymphocytes   ◊cardyomyocytes   ◊ Molecule Page database GENSAT GeneWays PROLIFERATION Genetic Control   ◊ Pin1 PROTEINS FOLDING   ◊ Chaperone and Chaperonins   ◊ Activation of the Unfolded Protein Response by Lipid Bilayer Stress   ◊ Extreme disorder in an ultrahigh-affinity protein complex HUMAN   ◊ Database Folding MODIFICATIONS   ◊ Lipid adducts on Wingless QUALITY CONTROL   ◊ HTRA proteases STRUCTURE and FUNCTIONS   ◊Architectural proteins and 3D genome   ◊ Bioinformatics   ◊protein structure prediction for the human proteome TRANSLOCATIONS   ◊by Sec61/SecY Channel SYNTHESIS   ◊without DNA with RBMprt PROTEIN-QUALITY-CONTROL ENDOPLASMIC RETICULUM   ◊ Ubiquitylation machinery PROTEIN-PROTEIN INTERACTIONS Antagonistes Description PROTEIN-DNA INTERACTION Major Groove Recognition PROTEOMICS cellular Organells Functional SPATIAL   ◊Spatial proteomics tool Functional Genomic atlas of the human plasma proteome PROTEOLYSIS Hystory Ubiquitin Within transmembrane domains   ◊ Rhomboids PROTEOSOMES 20S   ◊ Structure, Function 26S   ◊Structure, Function ASSEMBLY   ◊ Chaperone   ◊ Regulation of proteasome assembly and activity in health and disease SUBUNITS   ◊ Rpn13 PROTON-SELECTIVE ION CHANNELS GENETIC CONTROL   ◊ Conserved gene family encodes proton-selective ion channels PSEUDOGENES chromosome 21, 22 of human FUNCTION   ◊Production endo-siRNAs olfactory receptors role PSEUDOPODIA Chemotaxis   ◊ Signalling Localization RNAs   ◊ Role APC PSYCHOANALYSIS and Neurobiology PTG Silencing PUMPS biomolecular mechanism; Calcium pumps PURKINJE CELLS Cells Cerebellum Heterokaryons with... PURKINJE FIBERS of HEART Nkx2-5 PYRAMIDAL NEURONS STRUCTURE and FUNCTUINS   ◊ Synaptic integration