MACROPHAGES alternative activation LPS activation Self-renewal MAMMARY GLANDs DETERMINATION   ◊mamm.line (ridges)   ◊Cell fate specification, stem cells GENETIC CONTROL   ◊microRNA   ◊IGF-binding proteins   ◊Sox9 INVOLUTION   ◊Remodeling mechanisms MORPHOGENESIS   ◊ Description   ◊ Genetic nets MYOEPITHELIAL CELLS   ◊Functions REMODELLING DURING PREGNANCY   ◊ Mouse    • Genetic control ROLE of STROME   ◊ Strome   ◊ Hoxa5 STEM CELLS   ◊ cells with properties stem cells MATERNAL EFFECTS Molecular genetics of maternally-controlled cell divisions MATERNAL-TO-ZYGOTIC TRANSITION Dynamics of the epigenetic landscape during the maternal-to-zygotic transition Matrix MapRetinoTectalProjections M Cells MECHANICAL DEFORMATION and Patterned gene expression MECHANOBIOLOGY NUCLEAR   ◊Mechanotransduction MECHANOSENSORY TRAITS HUMAN   ◊Genetic Basis MECHANOTRANSDUCTION BLOODSTREAM   ◊ Vascular Systems CELL   ◊ Coupling the extracellular matrix with the nucleus COMPLEXES   ◊ TMIE   ◊ Structures of the TMC-1 complex DURING DEVELOPMENT   ◊ Embryogenesis   ◊ Defects and diseases MECHANISMS   ◊innere ear   ◊Mol. mechanism MECHANOSENSORYNG   ◊ Molecular evolution    • Innere ear   ◊ GENETICS    • Role of USH2A   ◊ Muscle NEUROSENSORY   ◊Channels TENSION-INDUCED   ◊ Epithelial morphogenesis MECKEL's CARTILAGE DEVELOPMENT   ◊Shh MEIOSIS Cell Cycle GENETIC CONTROL   ◊Cohesins   ◊Description   ◊retinoic acid   ◊TAF4b Regulates Oocyte-Specific Genes   ◊MAPK signaling couples SCF-mediated degradation of translational regulators to oocyte meiotic progression. KINETOCHORES   ◊ cohesin Rad21 and SCP3 SPINDLE   ◊ Control MELANOCYTES BIOLOGY   ◊ Role in pigmentation DIFFERENTIATION   ◊role of Sox10 ORIGIN OF MELANOCYTES   ◊from Schwann Cell Precursors   ◊Lineage in development MELATONINE Brain   ◊ Regulation a neuropeptide MelanoSome MEMBRANES basal and CYTOSKELETON   ◊ Cytoskeletal   ◊ Transmembrane signaling FORMATION DE NOVO   ◊SPBs and trafficking fusion models MICRODOMENS   ◊ with GPI-binding proteins  ◊ with Tetraspanins PROTEINS   ◊Topology   ◊complex protein movements in the cell membrane TRANSPORT   ◊ role of MFS TRAFFICKING   ◊Zw10 MEMORY MEMORY of CELL   ◊ Manipulating Hippocampal Place Cell Activity by Single-Cell Stimulation DEFICITS   ◊ Aβ*56 Description HIPPOCAMPAL   ◊Clearance IMAGE   ◊One neuron   ◊role NMDAR FORMATION   ◊Plasticity at Mossy Fiber-CA3 Synapses during Contextual Memory Formation LONG-TERM   ◊role Tequila (TEQ)   ◊Long-term Potentiation (LTP)    •and Excitability OLFACTORY MEMORY   ◊Genetic control PHENOMENAL   ◊Inside the Mind SPATIAL MEMORY NETWORKS   ◊Incorporation of adult-generated granule cells   ◊Working Memory Load Modulates Neuronal Coupling STORAGE   ◊Mechanisms Stimulation STRUCTURAL PLASTICITY   ◊ Dendritic spines MEMORY. Innate IMMUNE AN IMMUNOLOGICAL MEMORY IN THE BRAIN   ◊ Immune memory in the brain shapes neurological disease hallmarks EPIGENETICS   ◊ small RNAs MENOPAUSE HORMONOTHERAPY   ◊ Risk MERKEL-CELL REGULATION OF DEVELOPMENT   ◊ Role of Рах6 MESENCHYME Cells Specialized SUBECTODERMAL (dorsal)   ◊ Generation from dermomyotome MESENCHYME-TO-EPITHELIAL TRANSITION GENETIC CONTROL   ◊ PARAXIS MESODERM DIVERSIFICATION   ◊ Early mesoderm single-cell profiling INDUCTION   ◊ Signalling LATERAL PLATE MESODERM REGIONALIZATION   ◊ Role of paraxial mesoderm VENTROLATERAl PATTERNING   ◊ Role of Wnt8 Mesoderm-Epithelial Transition MESSENGER RNA DEGRADATION   ◊ mRNA degradation code ALTERNATIVE PROCESSING, TRANSCRIPTION, TRANSLATION   ◊ Alternative mRNA transcription, processing, splicing and translation LOCALIZATION   ◊ Assembly, Traffic and Synthesis   ◊ Mechanisms   ◊ Mode   ◊ In oogenesis and early development MATERNAL mRNA   ◊ Deadenylation and decay by the piRNA Decay Stability METABOLOMICS REVERSE   ◊ Reverse metabolomics for the discovery of chemical structures from humans SINGLE-CELLS   ◊ Developments in Single-Cell Metabolomics by Mass Spectrometry - A Perspective METAPHASE PLATE Two METAPLASIA Description & Transdifferentiation METASTASES MECHANISMS   ◊ Mechanisms   ◊Idea of fusion role of CAV1 role of Ezrin role microRNA FACTORS   ◊ LTBP3 promotes early metastatic events   ◊ The Receptor Tyrosine Kinase AXL Is Required at Multiple Steps of the Metastatic Cascade METHYLATION DNA   ◊description   ◊During early mouse development   ◊Cancer   ◊ cofactors   ◊Functions DNA and HISTONES   ◊& Histone modification and chromatin remodeling   ◊MBD1 couples HISTONES   ◊ Arginine   ◊ Lysine METHODS Brainbow cytogenetic fMRI and neurons for perturbing gene function for adhesions Glide for ligands MICROARRAY   ◊Description   ◊Standards MRI   ◊ Magnetic Resonance Imaging and Iron-oxide Nanoparticles in the era of Personalized Medicine MULTIPHOTON MICROSCOPY   ◊ in vivo OPTO   ◊ optoXR metod   ◊ siRNA Solid-State NMR STRP TILLING tomography twins study

MICROCHIMERISM MOTHER AND FETUS   ◊ Role for Medicine MICROGRAVITY GENE REGULATION   ◊Impact of Microgravity on Gene Regulation MICROGLIA as MODULATORS   ◊ Role for Medicine MICROGLIA-SYNAPSE INTERACTIONS   ◊ Role MICROSCOPIC TECHNIQUE NEW   ◊Space in Living Brain Tissue MICROTUBULES and ACTIN   ◊ Actin–microtubule crosstalk in cell biology DYNAMICS   ◊ CLIPS и CLASPS   ◊ Limited Resources Induce Bistability in Microtubule Length and СELLULAR CORTEX   ◊ Bridging   ◊ Capture   ◊ Role of XMAP215 and Cytoskeleton Associated Proteins NUCLEATION   ◊ Golgi apparatus   ◊ Role of γ-tubulins Plus-end ORGANIZATION   ◊Organization   ◊Post-translational modifications of tubulin PROTECTING MINUS ENDS   ◊ Patronin TRANSPORT   ◊ Transport MicroRNA Description BIOGENESIS   ◊ Biogenesis   ◊Biogenesis and Functions*   ◊DROSHA, Exportin 5 и DICER   ◊ microRNA-generating complex    • MAPK/Erk signaling DEGRADATION   ◊ Target-directed microRNA degradation: Mechanisms, significance, and functional implications & Evolution EXPRESSION   ◊ Sites of Action   ◊ CNS    • Detection    • During Chick Embryo Development    • During mouse prenatal Development GENETIC CONTROL   ◊ mir206 with FGF4   ◊ with TRIM-NHL protein   ◊ MicroRNAs Can Boost Gene Expression in DEVELOPMENT ORGANISMS   ◊ Regulation of Development   ◊Control of Nodal signalling   ◊MiR142 is regulator in organogenesis, homeostasis, and disease in DISEASES   ◊Mechanisms   ◊age-related diseases   ◊in atherosclerotic plaque MECHANISMS of ACTION   ◊ Blocks Protein Production    • On translating polyribosomes piRNAs   ◊ Interaction with Piwi proteins NOMENCLATURE   ◊ Genetic Origins, Biosynthetic Pathways, and Sequence Variants REGULATION of GENES   ◊ Early Embryogenesis    • Ovary homeobox gene (NOBOX) METABOLISM   ◊ Regulators of metabolic homoeostasis MIRTRON PATHWAY   ◊ Generates miRNA-class regulatory RNAs PROCESSING   ◊ Role of Argonaute   ◊ Role of hnRNP A1   ◊ Role of p53   ◊ Role of miRNA* ROLE in CANCEROGENESIS   ◊ MELANOMA    • Metastasis ROLE in DIFFERENTIATION   ◊ Myoblasts    • Regulation Hox-A11    • Development of human skeletal muscle   ◊ Stem Cells   ◊Osteoblasts ROLE in GENE REGULATION   ◊ Control of transcription   ◊ C.elegans and plant   ◊ Regulation lin-41   ◊ In myoblast differentiation    • Regulation Hox-A11 hbl-1 SPECIFICATION   ◊ Sensory organ precursors Drosophila TARGETS   ◊ Drosophila TERATOGENESIS   ◊ Teratogen-induced alterations in microRNA TRANSCRIPTION   ◊ Promoters miRNA MICROBIOTA CARDIOVASCULAR HEALTH   ◊Exploring the Significance of Gut Microbiota in Cardiovascular Health MICROSATELLITES Mutations MIDBRAIN BOUNDARY Mid-HindBrain Boundary GENETIC CONTROL   ◊ Wnt signalling MIDGUT ELONGATION   ◊ Role of Ror2   ◊ Radial WNT5A-Guided Post-mitotic Filopodial Pathfinding MIDLINE FORMATION MIDLINE DEFECTS   ◊ Role of GSK-3 β MIDLINE ORGANIZER   ◊ Mechanisms in bilaterians MIDLINE CNS AXON GUIDANCE   ◊ description   ◊ Shh   ◊ Heparan Sulfate MIGRATION Actin microdomains & Ca (channals) COLLECTIVE CELL MIGRATION   ◊ Drosophila Gastrulation   ◊ Modular Mechanical Properties & Lipid rafts & microtubules Gateways PtdIns(3,4,5)P3 in chemokinesis ROLE of ADHESION   ◊Description   ◊& Technics ROLE of FRONT–REAR POLARITY   ◊Par–Tiam1 complex Uncoupling with polarity TYPES, MECHANISMS   ◊ Description   ◊ Genetic Control   ◊ Extracellular fluid viscosity enhances cell migration and cancer dissemination MIGRATION TYPES CELLS Border cells in 3D matrix* CARDIOMYOCYTES   ◊ Fibronectin   ◊ ABC transporters EMBRYONIC FIBROBLASTS   ◊ p27Kip1 KERANINOCYTES   ◊Gen. control Muscular Precursors MIGRATION NEURONAL Description GAP JUNCTION   ◊Adhesion properties GENETIC CONTROL   ◊Dual role for DOCK7 in tangential migration of interneuron precursors MODES   ◊Radial (modification)   ◊Tangencial interneurons STATOACOUSTIC GANGLION (SAG) NEURONS   ◊ Genetic Control MINERALIZATION BONES ALP MISFOLDING PROTEINS RECAVERY   ◊ Mechanisms DEGRADATION   ◊ Sec61 Channel MITOCHONDRIA   ◊ Functional DNA   ◊ Structural organization   ◊ Nucleoids   ◊ of Sperm DELIVERY OF A CYTOSOLIC tRNA   ◊ Complex RIC ENERGY METABOLISM   ◊ Protein insertion through a mitochondrial β-barrel gate   ◊ respiration   ◊ thyroid hormones Evolution Form FUNCTION   ◊ from cell death executioners to regulators of cell differentiation   ◊ Ca2 homeostasis and viability in heart FUSION and FISSION   ◊ Mechaisms   ◊ Apparatus   ◊ Fzo1   ◊ MFN1, MFN2, OPA1   ◊ Division    &lbull;Role of ER HETEROPLASMY   ◊ Role of nuclear transfer IMPORT   ◊ Description   ◊ Translocases INTERACTIONS   ◊ Mitochondrial Retrograde Signaling in Mammals Is Mediated by the Transcriptional Cofactor GPS2 MEMBRANES   ◊ Insertion β-barrel proteins   ◊ Phospholipids MITOPHAGY   ◊ Role for Nix Mutagenesis through reduced replication Permeability PROTEINS   ◊ Tissue diversity   ◊ Landscape of submitochondrial protein   ◊ Mitochondrial proteins: from biogenesis to functional networks OUTER MEMBRANE   ◊ SAM complex MITOSIS CHECKPOINT   ◊ Role of protein BubR1 ENTRY   ◊ Activation of CyclinB1-Cdk1 Kinesins LATE IVENTS   ◊ Cytokinesis   ◊ Exit   ◊ Exit and Cytokinesis

MODEL ANIMAL Mice   ◊GFP-transgenic Zebrafish   ◊ Inform.Resources MODULATION ACTIN NETWORKS   ◊Rab5 EXPRESSION OF GENES   ◊Small molecule MonoUBIQUITYLATION proteins CUE Domain Dual role   ◊ Endocytosis of Receptors Modificators Molecular Slips transport system MORPHIN tolerance EFFECTS   ◊ role of tPA-plasmin MORPHOGENESIS Dictyostelium discoideum and PATTERNING   ◊ Forces in Tissue Morphogenesis REGULATION   ◊ Tissue morphogenesis by endothelial cell-derived signals MORPHOGENETIC FIELDS Bioinfomatic templates MORPHOGENETIC WAVES MECHANISMS PROPAGATION   ◊ Genetic induction and mechanochemical propagation of a morphogenetic wave MORPHOGENS Wnt MORPHODYNAMICS pattern formation MORTALITY Acceleration MOTILITY of CELLs Actin filaments Motorequivalence MowementMacromol mRNA Cytoplasmic Localization   ◊ Splicing oskar in nucleus EXPORT FROM NUCLEUS   ◊ Factors   ◊ Nuclear pore   ◊ Genetic Control    • InsP6, Gle1 и Dbp5 POLYCISTRONIC mRNAs   ◊ Mammalian Polycistronic mRNAs and Disease TRANSLATIONAL CONTROL   ◊ in Space and Time   ◊ mRNA-regulatory sequences   ◊ N1-methylpseudouridylation of mRNA causes +1 ribosomal frameshifting Evolution mRNPs (ribonucleoprotein particles) Assembly   ◊Genetic control Multiple Lymphoid Progenitors MULTIVESICULAR BODY BIOGENESIS   ◊ESCRT complexes BODY   ◊Silencing   ◊Sorting of proteins ENDOSOMES   ◊LBPA and Alix LIPOSOMES   ◊LBPA and Alix MULTICELLULARITY Development   ◊ Superoxide signalling MUSCLES ATTACHMENTS   ◊ Dystrophin growth control Skeletal CELL FUSION   ◊ Differentially regulated in zebrafish post-embryonic slow e fast muscle CONTRACTION   ◊ Insights into the ATPase cycle mechanism DIFFERENTIATION   ◊ Sarcoplasmic reticulum Ca2+ stores ELASTIC   ◊ Myomesin Stretching FIBRE   ◊ Growth during postnatal mouse development SKELETAL AND CARDIAL   ◊ Differentiation, Growth and Homeostasis skeletal muscle Differential regulation of CASZ1 SMOOTH   ◊ Differentiation SPECIFICATION   ◊ Genetic Control Palate Palate TRANSFORMATION   ◊ Engineering human pluripotent stem cells into a functional skeletal muscle . MUTATIONS MAPPING   ◊Imaging technique uses CRISPR to map DNA mutations Founders MONITORING   ◊ Dynamics and fitness effects followed in single cells NONCODING   ◊ Network connecting noncoding mutations to changes in tumor gene expression QUIESCENCE Quiescent mutations novel mutational force in fission yeast MYELINE Assamble Genetic Control   ◊ Nrg1 type III Oligodendrocyte MYELINATION of AXONS MECHANISMS   ◊Cell Mechanisms   ◊Role of Kif13b through the Dlg1 Scaffold   ◊Role of miR219 in Myelination and Myelin Repair in the CNS MYOBLASTS CHARACTERISTIC   ◊ Embryonic и Fetal Myoblasts FUSION   ◊ Myoblasts Fusion   ◊ Genetics of Myoblasts Fusion   ◊ Jamb and Jamc   ◊ FURMAS   ◊ Regulation of pre-fusion events   ◊ WASP and SCAR roles   ◊ Protein with Crucial Role in Muscle Formation Myocard Diff. Myocite Hypertophy MYOFIBLILOGENESIS MyoFibrils Role of titin MyoFibroblastes MYOGENESIS EXTRACELLULAR MATRIX   ◊ Remodeling MYOGENIC COMMITMENT AND DIFFERENTIATION   ◊ Retinoic acid   ◊Role of Mohawk Head muscles Limb Somites Regenerative role of Pop1Bves role of Wnt TRANSCRIPTION MACHINERY   ◊ Switching Embriogenesis   ◊ bу Xenopus   ◊ Successive myogenic waves MYOGENESIS in ADULT GENETIC CONTROL   ◊ Wnt signaling SATELLITE CELLS   ◊ Syndecan-3 and Notch MYOGENESIS FROM PROGENITOR AND STEM CELLS MAKING SKELETAL MUSCLE   ◊ Development versus regeneration   ◊myoPrecursors MYOSINES Striated Muscle   ◊ Assembly MYOTOMES EPAXIAL-HYPAXIAL BOUNDARY   ◊Establishment FATE   ◊Morphogenesis of the epaxial muscles MyoTUBES FORMATION   ◊description   ◊Transitin COSTAMERIC MEMBRANE SKELETON   ◊ Archvillin