CAJAL Bodies Cell CALCIUM and Contractility -RAS path signaling CALORIE CALORIE RESTRICTION   ◊Sirtuins CANALIZATION IN BIOLOGY DEVELOPMENTAL GENETICS   ◊ The developmental-genetics of canalization   ◊ Hsp90 and its effects on genetic and epigenetic variation CANCER CELLS SINGLE MUTANT CELL   ◊breaks free of its neighbors VISUALIZATION   ◊3D photoacoustic imaging of mammalian cells using a photoswitchable phytochrome reporter protein CANCER GENES GENE-REGULATORY FUNCTIONS   ◊ SLAM-seq defines gene-regulatory functions of the BRD4-MYC axis   ◊ Multiple roles and regulatory mechanisms of the transcription factor GATA6 CANCEROGENESIS and angiogenesis and epigenetic events Genetic program Energy switch CARDIAC CONDUCTION SYSTEM (CCS) Description ATRIOVENTRICULAR (AVCS)   ◊Atrial   ◊Cell lineage contributions Genetic control Genes Genes2 Enchancer GATA-6 Neuregulin 1 VENTRICULAR   ◊ Characterization   ◊Cell lineage contributions   ◊ Mesp1   ◊Purkinje fibers    •Nkx2-5   ◊ TASK-1 CARDIAL STEM CELLS & AGENING   ◊Genetics CARDIAL NEURAL CREST INVASION   ◊PINCH-1 CARDIAL TUBE LOOPING   ◊Biophysical mechanisms CARDIOGENESIS Evolutionary approach to cardiac development & Regenerative Cardiovascular Medicine Patterning Two Sources CARDIOGENESIS FACTORS GENETIC FACTORS   ◊Insulin-like growth-factor-binding proteins   ◊ Jumonjy   ◊ MADS,Nkx,GATA,WNT   ◊ Numb   ◊ SRF,Nkx,GATA FACTORS   ◊ Periostin CARDIOMYOCYTES NUCLEUS   ◊ Maintains Nuclear Architecture in the Cardiomyocyteg description NOS Pnmt PROLIFERATION   ◊ Wnt/β-catenin signaling   ◊ Dystrophin glycoprotein complex sequesters Yap   ◊ during development and regeneration SPECIFICATION   ◊Белок TMEM88   ◊DNA methylation signatures in cardiac myocytes CARTILAGE REGENERATION   ◊Mechanisms   ◊mesenchymal stem cell contributions to regeneration in an immunocompetent cartilage regeneration TISSUE ENGINEERING   ◊3D Bioprinting CASPASES ACTIVATION   ◊Mechanisms REGULATION   ◊Mechanisms CathecholAmin.Neurons CATALYSIS dinamics CAVEOLAE ROLE IN CELL MECHANICS Caveolae Caveolae and Caveolins in Development Structure and Function CaveoSome CELLS Electrical stimulation CONTRACTIONS   ◊Formation of Germinal Layers CELL CYCLE and microtubules and polarity Control   ◊Timing   ◊Aurora A and B   ◊Principles Cytokinesis   ◊ description   ◊ division plane   ◊ role of blebbistatin   ◊ role of SQV proteins circadian timing Exit kinase G1 Phase   ◊ RAS and RHO GTPases Ubiquitylation СELL DEATH CONTROL   :◊ Regulation of Developmental Cell Death by Epigenetic versus Genetic Factors CELL DIVISION Mirror-symmetric & polarity СELL MORPHOLOGY (PHENPTYPE) CONTROL   :◊ Genes   :◊ Cadherins CELL TYPE IDENTITY   :◊ Core regulatory network · Core regulatory complex SPATIAL ORGANIZATION   :◊ Intracellular Communication СELL MOVEMENT Force   :◊ Actin polymerization Cell-extracellular Matrix Attachment compleX (CMAX)

CENTRAL NERVOUS SYSTEM EVOLUTION   ◊ hypothesis SIGNALLING   ◊ Retinoids REGIONALIZATION   ◊ Genetic control   ◊Drosophila embryon    •Neuromeres, neuroblasts SINAPTIC PLASTICITY AND SURVIVAL   ◊ role Uncoupling proteins CENTRIOLES DUPLICATION duplication mechanisms of centriole duplication and their deregulation in disease PCM-1 granules DAUGHTER   ◊ PARP-3 PROTEINS   ◊ CENP-A chaperone COHESION   ◊Shugoshin FORMATION   ◊role of DNA   ◊role alphoid DNA CENTROSOME AMPLIFICATION   ◊Consequences DESCRIPTON   ◊Descripton & Diseases DYNAMICS   ◊Chromosomal instability    • Cep126 COHESION   ◊ Ran GTPase Functions GENETIC CONTROL   ◊ Ran GTPase SEPARATION   ◊ Separation   ◊β-Catenin and Nek2 CEREBELLUM DEVELOPMENT   ◊Description   ◊BMP/Smad signaling Neural circuits Neuronal subtype specification Structure and Function CIRCADIAN CHROMATIN TOPOLOGY Clock-dependent chromatin topology modulates circadian transcription and behavior/a> CIRCULAR RNA in BRAIN Loss causes miRNA deregulation and affects brain function Changes in circular RNA expression patterns during human foetal brain development Chambers of heart 'CHAMBERED PROTEASES' 26S proteasomes CHANNELS of ION State of Research News ION CURRENTS in embryo development Ca   ◊Calmodulin   ◊CRAC-channels Cl   ◊Cl   ◊CLIC4 localizes to mitochondrial-associated membranes and mediates cardioprotection ClC chloride CNG KCNK KcsA Protein-conducting   ◊ Structure Na ChannelPathies CHAPERONES ROLES   ◊Description   ◊New Roles   ◊Chaperones convert the energy from ATP into the nonequilibrium stabilization of native proteins G1 CHECKPOINT   ◊in embryonic liver development PROTEIN FOLDING   ◊ Hsp110:Hsc70 nucleotide exchange machine CHILD Normal Development   ◊ before 1 year CHIMERA EMBRYOS HUMAN/PIG CHIMERA   ◊ Chimerism with Mammalian Pluripotent Stem Cells ORGANISMS   ◊ forebrain-precursor cells are replaced with embryonic stem cells

CHECKPOINTS CENTROSOME-INTEGRITY   ◊p38–p53–p21-dependent G1–S Description DNA DAMAGE RECOVERY   ◊ Phosphatase comple γH2AX DNA INTEGRITY   ◊ fission Yeast   ◊ Types ENDOPLASMIC RETICULUM   ◊ Unfolded protein response MITOTIC   ◊ description SPINDLE   ◊ Description   ◊ Ubiquitination INTRANUCLEAR TRANSLOCATION  nbsp;◊ ATR-dependet Сhemical Genetics ChemoReceptors CHEMOATTRACTION Cortical inhibitory interneurons CHEMOTAXIS Description Mechanisms  nbsp;◊ Neutrophils and Dictyostelium discoideum CHIPs Neuromorphic Technology Chondrogenesis ChromAffinCell CHONDROCYTES DIFFERENTIATION   ◊ Genetic Control   ◊ Genetics of Hypertrophy   ◊ Role of Smad2 and Smad3 CHORION DEFECTS DEVELOPMENT   ◊Pax-Interacting Protein 1-associated glutamate rich protein 1a CHROMAFFIN CELLS PROGENITORS   ◊ Neural Crest Derived CHROMATIDE SISTER COHESION   ◊ Description   ◊ Cohesin complex   ◊ Shugoshin   ◊ Rtt101-Mms1-Mms22 coordinates replication-coupled sister chromatid cohesion and nucleosome assembly SEPARATION   ◊ Description   ◊ role of Telomeres CHROMATIN ASSEMBLY   ◊ motors DOMAINS   ◊ GATA LOOPING   ◊S/MARs PRINCIPLES ORGANIZATION   ◊ Molecular Characteristic REMODELLING   ◊ Remodellers CHROMOSOMES Condensation CONDENSATION   ◊ Interplay between condensin and topoisomerase II CONGRESSION   ◊ Nuclear actin network DNA organells ORGANIZATION   ◊ Organization   ◊ SMC complexes   ◊ in Yeast PAIRING   ◊ function of Hop2 POSITIONING in NUCLEUS   ◊ Models   ◊ Epigenetic marking patterns genome architecture   ◊ Territories   ◊ Tissue-specific SEGREGATION   ◊SMC and Kleisin Complexes STABILITY   ◊ Double-stranded break   ◊ role of p53 STRUCTURAL MAINTENANCE   ◊ Role of SMC proteins CHROMOSOMAL PASSENGER COMPLEX PASSENGERS   ◊Borealin STRUCTURE and FUNCTION   ◊Structure of a survivin–borealin–INCENP core complex

C(i-y)

CILIA CILIOGENESIS   ◊GENETIC CONTROL    • Genetic Control    • Centriolar Satellite Protein AZI1    • Fused и Kif27    • Microtubule Patterning    • Myb    • 3-OSTs MUTATIONS   ◊ TALPID3 POLARITY   ◊ Mechanisms PRIMARY   ◊FORMATION    • Axonemal positioning and orientation    • Cep126   ◊FUNCTIONS    •Calcium channel    • Gravitational Force Transducer   ◊Control cell size through Lkb1   ◊Signalling    • WNT SIGNALING   ◊ Hh Signaling and others   ◊ Sonic hedgehog signalling   ◊ Zfp423 Regulates Sonic Hedgehog Signaling   ◊ Ciliary ectosomes   ◊ CEP128 Regulates TGF-β/BMP Signaling   ◊ Zfp423 Regulates Sonic Hedgehog Signaling via Primary Cilium Function SPECIFICATION   ◊ Genetic control   ◊ Dynamic Protein Interaction TRANSITION ZONE   ◊ morphology and molecules TRANSPORT   ◊ In ciliary compartment    • Intraflagellar transport    • NPHP proteins: gatekeepers    • Outer dynein arm intraflagellar transport by the transport adaptor protein ODA16 and IFT46 CILIARY BODY CILIARY BODY/IRIS   ◊ Genetic Control CIRCADIAN RHYTMS CircadianRhytms GENE EXPRESSION    •camk1gb as a New Element in the Circadian Clockwork CIRCUITS Transcriptional   ◊ Yeast CIS-REGULATORY SEQUENCES MODULES   ◊ Cis-acting regul.Modules   ◊ Human disease   ◊New technologies and findings CIVILIZATIONS Death Demografy CLAMP for DNA POLYMERASES Loader CLAMP for DNA POLYMERASES Loader CLEFT PALATE NON-SYNDROMIC CLEFT PALATE Role of ROCK1 REGULATION OF EXPRESSION   ◊ Chromatin structure CLATHRIN-COATED VESICLE Description role of Actin Clear(Delet)Cell CLEAVAGE PATTERN FURROW FORMATION   ◊Description   ◊ Mechanisms Mouse embryo CNS retinoids (signalling) CLONING human rat CLUSTERS GENE mechanisms COAT PROTEINS   ◊ role COPI   ◊ disassotiation COCHLEA DEVELOPMENT   ◊ Cochlea Novel IGF-I Target Genes   ◊ Role of ADAMs   ◊ Role of FGFR Genes   ◊ Role of Secreted Factor R-Spondin 2 overviuw physics fluids stria SUPPORTING CELLS   ◊Transdifferention into hair cells COCHLEAR SPIRAL GANGLION DEVELOPMENT   ◊ Shh Genes   ◊ Wnt Genes Coelom CofactorNucl.Rec

COGNITIVE FUNCTION ENHANCEMENT   ◊Psychpharmacology and Safety COHESION CHROMATIDS CohesionChromatids COHESIN Regulator of genome integrity and gene expression ColdReceptors Comet [actin] COMMUNICATIONS CELL-CELL Tunnelling Nanotube COMPARTMENTALIZATION BOUNDARIES   ◊Actomyosin-based barrier   ◊Tensions Description Heart MICROCOMPARTMENTS   ◊Biological organization COMPETENCE IN EARLY DEVELOPMENT   ◊Chromatin accessibility and histone acetylation in the regulation COMPLEXES MULTIPROTEINE   ◊Assembly   ◊Assembly Hox-PBC Competence CONDUCTION SYSTEM 3-Dimensional imaging of the human cardiac conduction system ATRIOVENTRICULAR Tnni3k FORMATION AND FUNCTION Genetic control CONFORMATIONAL SWITCHING p53 CONNECTOM OF BRAIN MAPPING   ◊ How to map the brain   ◊ Коннектомы головного мозга насекомых CONNEXIN HEMICHANNEL STRUCTURE AND FUNCTION   ◊ Contractile system as a negative regulator   ◊ Post-translational modifications   ◊Connexon Conotruncus Contraction Control of Transcription CONSCIOUSNESS and Brain Genesis CORONAVIRUS Tracing the path of a pandemic CONTRACTILITY SPATIAL CONTROL AND DYNAMICS   ◊ Biomechanical regulation CONVERGENT EXTENSION & Axial Pattern GENES   ◊ Xler2 CONVERSION GENES CRISPR/Cas9   ◊ CRISPR/Cas9 increases mitotic gene conversion in human cells   ◊ Gene conversion following CRISPR/Cas9 DNA cleavage CORNEA DEVELOPMENT   ◊and Lens From a Common Pool   ◊Periocular Vasculogenes   ◊Stroma   ◊Fibromodulin SPECIFYCATION   ◊factor PITX2 CORONARE ARTERY Adult Development CORTEX DEVELOPMENT DEVELOPMENT   ◊ Gradients of gene expression   ◊ space   ◊ laminar Structure   ◊ reelin NEURONS   ◊high-conductance

CORTI ORGAN DETERMINATION AND DIFFERENTIATION   ◊Cell Types    •Genetic Control overviw function development innervation HAIR CELLS   ◊description   ◊FGF signalling PLANAR CELL POLARITY   ◊Mechanisms CoTransporters COSTAL JOINTS DEVELOPMENT   ◊ Avian COVID19 GENETICS   ◊ ACE2 gene expression and regulation CRANIAL BASE   ◊ Description   ◊ Hh-Sox9 signalling GENETIC CONTROL   ◊Signaling Wnts NERVES   ◊nerves СRANIOFACIAL DEVELOPMENT MORPHOGENESIS   ◊ Description   ◊ Fgfr2 Signaling   ◊ Generating retinoic acid gradients by local degradation during craniofacial development FACIAL PROMINENCES   ◊Genome Microarray Analysis Role of BMPs Role of Edn1 Role of Msx CrestTerminal CRISPR TECHNOLOGY RNA-guided epigenetic regulators In Situ Capture of Chromatin Interactions Structures of the CRISPR genome integration complex DELIVERY   ◊ Liposome Hybrid Nanoparticles Deliver CRISPR/Cas9 System   ◊ Reprogramming human T cell function and specificity with non-viral genome targeting CROSSINGOVER Species Differences in the Rate and Patterning of Recombination Crossing over CROSS-PRIMING Toll-like receptor 3 CRISPR/CAS SYSTEMS Binding and Cleavage of Endogenous RNAs by the Campylobacter jejuni Cas9 CUSHIONS CARDIAC   ◊CushionsEndoCard   ◊Notch-dependent transcriptional hierarchy CYTOKINESIS Forms Description role of Clb2-Cdc28 CYTONEMES Nanotubular intercell. organelle transport CytoPhenetics CYTOPLASMIC organization polyadenilation Cytostatic Factors Cytotrophoblast CYTOSKELETON ACTIN CYTOSKELETON   ◊Role of Rho GTPases Description and Cholesterol Role of LIM proteins HOMOLOGY   ◊ Bacterial and eukaryotic POLARIZATION   ◊Actin and microtubules SELF-ORGANIZATION   ◊Actin and microtubules