HAEMATOPOIETIC STEM CELLS COMPLEX DIFFERENTIATION LANDSCAPES    ◊ Types of differentiation HAIR CELLS (Cochlea) CELL LINEAGE    ◊ Hes6 and Math1 HAIR CELLS    ◊ Description    ◊ Hair Bundle Integtation    ◊ SEM surface    ◊mechano-transduction POLARITY    ◊ planar cell polarity and hair-bundle morphogenesis    ◊ Cell-intrinsic polarity to pattern inner-ear hair bundles INNER    ◊inner    ◊structure    ◊synapses    ◊physiology OUTER    ◊ Compartment     •FGF20    ◊outer    ◊structure    ◊coupling    ◊membranes    ◊synapses    ◊physiology    ◊oto-emission PATHOLOGY    ◊pathology    ◊ AMINOGLYCOSIDES     • aminoglycosides     • Protection    ◊noise trauma    ◊exitotoxicity    ◊presbycusis    ◊tinnitus polarity (Wnt) REGENERATION   ◊ Avian HAIR FOLLICLE DERMAL PAPILLA    ◊ Cells Description GENES    ◊Dsg4    ◊ Frizzled    ◊ Trps1 and Sox9 CONTROL of GROWTH    ◊ Heterogeneous domains driving rapid spatiotemporal hair growth patterning CONTROL HAIR COLOR    ◊New loci explaining a substantial fraction of hair color variation and heritability MOLECULAR FRAMEWORK    ◊ Hair follicle biology from disease genes

HAPLOTYPE BLOCKS LINKAGE DISEQUILIBRIUM   ◊ human genome HDR EDITING HDAC ИНГИБИТОР   ◊ HDAC inhibitors improve CRISPR-mediated HDR editing efficiency in iPSCs HEAD DEVELOPMENT CRANIO-FACIAL SKELETON   ◊ cranial NCrest   ◊ Aberrant FGF signaling   ◊ Roles of PRDM family   ◊ A tridimensional atlas of the developing human head CRANIO-FACIAL and TRUNK SKELETON   ◊and trunk   ◊HeadTrunkDevel HEARING DESCRIPTION   ◊hearing HEARING LOSS   ◊ Mouse models   ◊ Chondrocyte-Specific Smad4 Knockout   ◊ Mutations HEARING AND BALANCE   ◊ Embryonic Development: The evolution of hearing and balance HEART DEVELOPMENT CARDIOVASCULAR DEVELOPMENT   ◊ Sphingolipids and reactive oxygen species CARDIAC CHAMBER IDENTITY   ◊FGF signaling CARDIAC MESENCHYME   ◊Origin and fate   ◊Macrophages Facilitate Electrical Conduction in the Heart CONOTRUNCAL REGIONS   ◊Myocardial progenitors GENETIC CONTROL   ◊Role of calreticulin   ◊Id genes are essential for early heart formation   ◊Role of L-type calcium channel   ◊Role of cardiac odorant receptor   ◊Pcsk5 is required for heart development INFLUENCE OUR EMOTIONS   ◊The Heart Can Directly Influence Our Emotions ENDOCARD-MYOCARD INTERACTION   ◊Role FoxO1 EPIGENETIC REGULATION   ◊Polycomb group and Trithorax group proteins   ◊Nkx2.5/BMP2/Smad1 path   ◊Nkx2.5 target Jarid2   ◊Loss of plakophilin 2 LOOPING   ◊Flectin   ◊Separated right and left embryos MYOCYTE PROLIFERATION   ◊Autocrine and Paracrine Signaling OUTFLOW TRACT   ◊ Morphogenesis   ◊ Role of second heart field PATTERN FORMATION   ◊Description   ◊Venous Pole Contractility RHYTHMS   ◊ Markers of abnormal heart rhythms REGENERATION OF THE HEART   ◊Stem cells and transdifferntiation   ◊ Protein Agrin promotes heart regeneration in mice TRABECULAR CARDIOMYOCYTE PROLIFERATION   ◊ Fibulin-1   ◊Steps in ventricular trabeculation VENTRICLE:LR DIFFERENCES   ◊Transgene Mlc3f-nlacZ-2 HEART-FORMING FIELDS   ◊ Anterior   ◊ Description   ◊ Primary   ◊ Second PRECURSORS   ◊Multipotential isl1 cell   ◊Bipotential Myocardial and Smooth Muscle   ◊ Instruct stem cell differentiation strategies TUBE   ◊Slit-Robo signaling    •Proliferation and heart tube integrity   ◊Voltage-gated calcium channel CACNB2 HEMATHOPOESIS HEMANGIOBLASTES   ◊Generation and function   ◊Endothelial and hematopoietic cells Description HUMAN   ◊from Pluripotent stem cells   ◊ from human pluripotent stem cells HAEMATOPOIETIC STEM CELL COMMITMENT   ◊ Commitment in EMBRYOGENESIS   ◊ in human embryogenesis   ◊ in mouse embryogenesis* EMBRYONIC ORIGIN   ◊ Making a Hematopoietic Stem Cell   ◊ Origin of human hematopoiesis from PLURIPOTENT STEM CELLS   ◊ Human RELEASE   ◊ Regulated by circadian oscillations SELF-RENEWAL   ◊ Control SIGNALLING   ◊ Proinflammatory Signals   ◊ Runx   ◊ Wnt HEMIDESMOSOMES ASSEMBLY   ◊mechanism HEPATOCYTES STRUCTURE and FUNCTION   ◊Ploidy   ◊ Migration HEPATOCYTE SPECIFICATION   ◊ Prox1

HETEROCHROMATIN ASSEMBLY   ◊ Role of RNAi   ◊ Phase separation drives heterochromatin formation GENES   ◊ Active EPIGENETIC CONTROL   ◊ Dynamic platform PERICENTRIC   ◊ HP1 HINDBRAIN METAMERIC STRUCTURE   ◊ Rombomeres MORPHOGEN GRADIENT   ◊ Zic in regulating hindbrain retinoic acid   ◊ Morphogen gradient RA HINDGUT DEVELOPMENT   ◊ HOX genes HIPPOCAMPUS NEUROGENESIS   ◊ Lhx2   ◊ VEGF SYNAPSES   ◊ Kiss-and-run STABLE SPATIAL MAPS   ◊Fos ensembles encode and shape stable spatial maps in the hippocampus HIPPOCAMPUS AND DENTATE GYRUS LAMINATING   ◊ Reelin signaling Growth hormone PROLIFERATION in HIPPOCAMPUS   ◊ Retinoic acid signaling HH PATH components cholesterol role HISTONE CODE   ◊ Hypothesis   ◊ Interpreting Heterogeniciety METHYLATION STATE   ◊ Lysine Methylation    • Diverse functions MODIFICATION   ◊ Modification   ◊ Language Crosstalk   ◊ Variants HIV Evolution HOMEOSTASIS Cholesterol and lipid T CELLS   ◊ Nuclear pore complex-mediated modulation of TCR signaling is required for naive CD4 T cell homeostasis. HOMEOSTASIS Cholesterol and lipid HOX PROTEINS   ◊ Hho1 control The "specifics" of DNA binding for Hox proteins and their partners HYDROXYLATION PROLYL 4-HYDROXYLATION   ◊ Argonaute 2 stability HYPOTHALAMO-PITUITARY-ADRENAL AXIS PITUITARY ACTH   ◊ Diseases   ◊ Transcription factor 7-like 1 HYPOXIA ROBUSTNESS   ◊ miRNA TISSUES   ◊ Heart HYPOPHISIS (PITUITARY) signaling New scheme of development PRECURSOR   ◊Genetic control