Словарь: термины
(латиница)
L

LACRIMAL GLAND
  • MOUSE
      ◊Branching morphogenesis
       • Foxc1


    • LAMELLIPODIA
  • Periodic contractions
  • Reorganization of actin filaments


    • LEAK (VASCULAR)
  • ENDOTHELIAL GLYCOCALYX COMPONENTS
      ◊ Dengue virus NS1 cytokine-independent vascular leak


    • LEARNING
  • NONLINEAR COOPERATIVE LEARNING
      ◊ Adaptive nodes enrich nonlinear cooperative learning beyond traditional adaptation by links


    • LeidigCell

    LEFT-RIGHT ASSYMETRY
  • Calcium signaling
  • Development
  • GUT
      ◊ Pitx2
  • HEART
      ◊ Galanin
  • Inversin
  • NODAL SIGNALING
      ◊ Midline barrier formation
      ◊ Transfer LR information
  • GENETIC CONTROL
      ◊ Syndecan 2
      ◊ TWis


    • LENS
  • CELLS
      ◊ Propeties
      ◊ equatorial cell morphogenesis
      ◊ equatorial cell switch from cell proliferation to differentiation
  • DEVELOPMENT
      ◊c-Src and fyn kinases
      ◊ Dlg1
      ◊ Equarin
      ◊ Gata3
      ◊ Frizzled and Sfrps
      ◊ Notch signaling
      ◊ miRNA and Dicer
      ◊ Pitx3
      ◊ Pitx3 and Foxe3
      ◊Xhairy2 regulate p27xic1
      ◊ In the Zebrafish: 3D
      ◊ Pax6
      • Control of crystallins
  • INDUCTION
      ◊ Genetic control
  • PLACODE
      ◊ Description
  • REGULATION
      ◊ Signaling and Gene Regulatory Networks


    • LEUKOCYTE
  • Migration
      ◊ Epithelial barrier


    • LIFESPAN
  • CONTROL
      ◊ Ribosomal Protein S6 Kinase 1 Signaling
      ◊ Steroids as Central Regulators
      ◊ Lifespan via Mitochondrial Network and Peroxisome Remodeling
  • EXTENSION
      ◊by Calorie Restriction


    • LIGANDS
  • for 'Orphan' GPCRs
      ◊ Citric-acid-cycle intermediates
  • Sequestration
      ◊ Epidermal Growth Factor
       • role of Argos


    • LIMBs DEVELOPMENT
  • EVOLUTION
      ◊ A conserved Shh cis-regulatory module highlights a common developmental origin of unpaired and paired fins.
      ◊ Hox D genes and the fin-to-limb transition
  • EMBRYOGENESIS
      ◊ Three-dimensional distributions of gene products
      ◊Bud
      ◊The benefits differential equations bring to limb development
  • FIELD SPECIFICATION
      ◊Molecular and evolutionary basis
  • FORMATION of AUTOPOD
      ◊ Mechanisms
  • GENETIC CONTROL
      ◊ GATA6 regulate Shh
      ◊ Isl1 and Ldb co-regulators
      ◊Fgf8 and MKP3
      ◊Wnt signalling
  • PATTERN FORMATION
      ◊ Role of polaris
      ◊ Shh and Gli
      ◊ Hox Code Controls
        • Forelimb-Restricted Expression of Tbx5
      ◊ P-D pattern and Meis1
      ◊ Rspo2 in AER


    • LINEAGE ALLOCATION
  • and TISSUE ORGANIZATION
      ◊ Molecular architecture of lineage allocation and tissue organization in early mouse embryo
      ◊ Genetic Tracing Identifies Early Segregation of the Cardiomyocyte and Nonmyocyte Lineages


    • LINKAGE DISEQUILIBRIUM
  • Haplotype Blocks
      ◊ human genome


    • LIPIDs
  • of Membranes
  • METABOLISM
      ◊ Amyloid-β and presenilin
  • SIGNALLING
      ◊ Sphingolipids
      ◊& Diseases
  • TRANSPORT
      ◊ Transfer between apposed membranes
      ◊ Transport
      ◊Non-Vesicular Traffic


    • LIPID DROPLET
  • Structure and Function


    • LIPIDS of MEMBRANES
  • BEHAVIOR Phase transition


    • LIPID MICRODOMAINS
  • RAFTS
      ◊Description
      ◊ Model
  • SIGNALLING
      ◊ by EGFR
  • Sterol-rich in yeast


    • LIPOPROTEINS
  • diseases
  • methabolism


    • LISOSOMES
  • ACTIVATION BY AMINO ACIDS Ragulator–Rag complex


    • LIVER
  • DEVELOPMENT
      ◊ Genetic control
      ◊ Description
      ◊ C/EBPα and C/EBP&beta
      ◊ and Genes
      ◊ and Genes 2
  • precursor
  • RGENERATION
      ◊Genetic control
  • Stellate
  • T cells, tolerance
  • SPECIFICATION
      ◊Mesodermal Wnt2b
      ◊Hepatoblast fate decision


    • LONG NONCODING RNA
  • CONTROL OF CHROMATIN STRUCTURE
      ◊ Mechanisms
  • FUNCTION
      ◊ Application of CRISPR-Cas9 for Long Noncoding RNA Genes in Cancer Research
      ◊ LncRNAs regulating stemness in aging
      ◊ Dual Functioning at mRNA and Protein Level
      ◊ Long non-coding RNAs: definitions, functions, challenges and recommendations


    • LONGEVITY
  • & Cancerogenesis
  • Cost
  • GENETIC CONTROL
      ◊ Gen systems
      ◊ SIRT1 and FOXO3a
      ◊ Sirtuin Family
  • Drosophila
      ◊ Olfaction and Food-Derived Odors


    • Looping Cardial
    LTD(Long-term Depres.Synap)
    LTP(Long-term Potentation.Synap)

    LUNGS
  • DEVELOPMENT
      ◊ Role of EphrinB2
      ◊ Role of LINCR
      ◊ Wnt and FGF Signalling
  • Description
  • BRANSHING
      ◊ Description
      ◊ Modes
      ◊Role of FGFs
      ◊ Embryonic chicken lung
  • DETERMINATION
      ◊ Fate in proximal airways
       • Role Jagged1
  • ORGANOGENESIS
      ◊ Role CFTR
      ◊ Epithelial-mesenchymal crosstalk
  • PROGENITOR CELL
      ◊ Role Fgf10
  • Wnt signalling


    • LYMPHANGIOGENESIS
  • CARDIAC LYMPHATICS
      ◊ Cardiac lymphatics in health and disease
  • GENETIC CONTROL
      ◊Genetic control
      ◊ Morphogenesis of the lymphatic vasculature
      ◊ Notch1 signalling
      ◊ TGFβ signaling
  • in Norm and Pathology
  • in Development and Diseases
  • Biology and Pathology


    • LYMPHOCYTE DEVELOPMENT
  • PI3K
  • Genes, pathways and checkpoints


    • LYMPHOID TISSUES
  • Lymphoid Tissue Inducer cells
      ◊Nuclear receptor RORγt
  • organogenesis


    • LYSOSOMES
  • LIPID DEGRADATION PATHWAYS
      ◊ Regulation LysosomeSecretory