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S

SALIVARY GLAND

structFunc

BRANCHING
  ◊description
  ◊fibronectin
  ◊HGF
  ◊ NOTCH signalling

Sarcolemm

SARCOMERE

SKELETAL MUSCLE MYOFIBRILS
◊ organization
◊ Intersarcomere dynamics

CARDIAL MUSCLE MYOFIBRILS
◊ Structure of the native myosin filament in the relaxed cardiac sarcomere

reticulum

elasticity SATELLITE CELLS

Asymmetric divisions

Molecular Signature

Role of microRNA-1 and microRNA-206

Regenerative Myogenesis

SIGNALLING Notch signalling FGF signalling

SCALE DEVELOPMENT

SIGNALING NETWORK
◊ Wnt/β-catenin regulates an ancient signaling network during zebrafish scale development

SCAPULA AND PELVIS DEVELOPMENT

AN EVOLUTIONARY PERSPECTIVE
◊ Genetics of scapula and pelvis development

SCLEROTOMES

DEVELOPMENT
◊ Genetic Control

SCHWANN CELLS

description

role Brn2 and Oct-6

SECOND MESSENGERS

in Hair Cells

SEGMENTATION

CardialTube

Diencephalon

HindBrain

SEGMENT NUMBER
◊Control

SegmentalPlate

SEGREGATION CHROMOSOMES

Role of Cdc14

SELF-APPRAISAL

Role

SELF-CONSCIOUSNESS

Introduction

SELF-ORGANIZATION

TISSUE MECHANICS
◊microtubule cytoskeleton
◊Self-organization mouse embryonic stem cells into gastruloids

and SELF-ASSEMBLY
◊Embryoids, organoids and gastruloids

SENESCENCE

СELLULAR
  ◊and cancer
  ◊Effector programs
  ◊in biological processes
  ◊in developmental processes
  ◊ MKK7
  ◊ Cellular senescence and developmental defects

telomeric overhang

MECHANISMS
  ◊mechanisms
  ◊Role of HMGA
  ◊Wnt signalling
  ◊Arcana of senescence

ORGANS and TISSUES
◊Brain

  ◊Musculus
   •Regeneration
  ◊Liver
   •Stellate Cells

ORGANISMS
◊ how slow down?

SENSE

ELECTRIC
◊ shark

Septum
Serotonin-ir Neurons

SERTOLI CELL

FGF

SEX DETERMINATION

AVIAN
◊ Somatic sex identity

GENETICS
◊ genetics
◊ P450 and 21-OH deficiency

GONAD DEVELOPMENT
◊ Gonad Anomaly

EPIGENETICS
◊DNA methylation; histone modification

Role of splicing

SHAPE CONTROL

GENES
◊ ROCK1 and ROCK2

ORGANELLES
◊ Mechanisms

SIGNALLING

ATAXIA-TELANGIECTASIA MUTATED (ATM)
◊ Genome stability and reduce the risk of cancer

BONE MORPHOGENETIC PROTEIN (BMP)
◊ Select their targets
◊ In congenital heart disease

BIOACTIVE LIPID
◊ & Lipoprotein particles
◊ sphingolipids

Ca²⁺
  ◊ description
  ◊ embryogenesis
  ◊ sensor Receptors
  ◊ NO

Cannabinoids

CIRCUITS
◊ Custom Designing

CONTROL
◊ With MicroRNA

G PROTEINS
◊ Gγ Subunit Ste18 and the Ste5 Scaffold Synergistically Regulates MAPK Activation in Yeast
◊ Mechanisms of signalling and biased agonism in G protein-coupled receptors

Description

DECAPENTAPLEGIC
◊ Role of Sara

EGFR
  ◊ role ADAMs
  ◊ Feedback regulation
  ◊in Develop. and Cong. Diseases

ERK/MAPK
◊through Scaffolds and Inhibitors

Eph and Ephrin
  ◊Description
  ◊Mechanisms
  ◊Regulation of vascular identity

erbB/HER receptor

endosomes

evolution of path

FGF
◊FGFβ
◊ Mechanisms of Fgf signaling

FGF Receptors FGF Receptors

GLUCAGON
◊ Role in Hypothalamus

HGF/SF → MET

HEDGEHOGS (HH)
  ◊Pathways
  ◊Role of vitamin D3
  ◊Proteoglycan ensures with its receptor connection

HIPPO
◊Roles for the Hippo pathway
◊Roles TAZ и YAP

INSULIN
  ◊Critical nodes
  ◊ TEF3
  ◊ Tuberous sclerosis complex

Integrins

in 3 dimensions

Jeb/Alk

Lateral Propagation

LIF SIGNALING
◊In stem cells and development

Mathematical modeling

MECHANOSIGNALING
◊Role of Lamins

MHC II

Neuregulin

Neurotrophins-Receptors

NFκB
◊ Principles

NO
◊ NOS cubcel.Localization

NODAL
◊ Role of miR15, miR16

NOTCH
  ◊Description & Genetic control
  ◊The Notch pathway in CNS homeostasis and neurodegeneration
  ◊ Glycosyltransferase
  ◊Ligand Delta
   •Endocytosis
  ◊ Dynamic Ligand Discrimination in the Notch Signaling
  ◊Non-canonical Notch Signaling
   •Role and mechanism
  ◊ Steps of path
  ◊Regulating Apoptosis
   •in AER of limb
  ◊Regulating genes
   •krz, dx
   •New by Drosophila
  ◊TERMINATION
   •Mechanisms

NUCLEAR SIGNALING
◊ IPMK: A versatile regulator

PHOSPHOINOSITIDE 3-KINASES (PI3Ks)
◊ Isoform-specific PI3Ks

PHOSPHOTYROSINE(pTyr)
◊ Evolving a New Cellular Communication System

PLATFORM
◊ tIPP complexes for integrins

POLYCOMB
◊ Polycomb Response Element • Segmentation of the Posterior Hindbrain

RAS proteins

RARγ and RARα2

REELIN->APOE RECEPTORS
◊ Control of synaptic plasticity

RETINOIDS
◊by Gastrulation • From mesoderm to neuroectoderm

SALVADOR/WARTS/HIPPO
◊Regulation •with Lgl, aPKC and Crumbs

SPHINGOSINE-1-PHOSPHATE
◊Functions •in Disease

TGF-β
◊ TMEPAI, a transmembrane TGF-β-inducible protein

TLR

Trio/Kalirin→RhoG–Elmo–Dock180—Rac1

tight Junction

with Transcription Factors

WNT/Wt
  ◊CANONICAL
   • Fold-change
   • Function
   • Integrated Wnt signaling
   • Parafibromin/Hyrax
   • Regulation by R-spondin/Lgr5/Rnf43 module
   • Regulation by protein kinases
   • Role of Amer1/WTX
   •Sp5 and Sp8 activate Wnt target gene

  ◊ROLE in DEVELOPMENT
   •Tissue lineage differentiation
  ◊ NONCANONICAL PATH
2 path
  ◊3 path
   •Dishvelled
   •Choice with Dishvelled
  ◊ Proximal events

   • Ligands & Recrptors
  ◊ Receptors
   • Phosphorilation of LRP6

SIGNALLING MODULES

Transport
◊ Kinesin motors

SIGNALLING (MODULATION)

Description

by ENDOCYTOSIS and SECRETION
  ◊ Description
  ◊ Membrane dynamics
  ◊ EGFR, TGFβR...

HEDGEHOG (HH)
  ◊ Cholesterol modification
  ◊ Modificators
  ◊ Hh-Gli modulators

by Heparan sulphate proteoglycans

BMP
◊ Crossveinless 2

Fgf
◊ Glycoptoteins

NOTCH
◊ Glycosylation

RGS

Receptor Tyrosine Kinases (RTKs)
◊ Sprouty

Smo modulators

WNT
  ◊ Secreted antagonists
  ◊ in Development and Disease
  ◊ Role of Wntless

SIGNALLING NEURAL IMPULSES

SYNAPTIC VESICLE
◊ Sinaptic transmission via VGLUT

Extrasynaptic

Phosphoinositide signaling in somatosensory neurons

Theory of Solitons

SIGNALLING (NETS)

CROSS-TALK
◊ Macrophages

Description

INTEGRATION
  ◊ Activin and Notch
  ◊ Notch and Wnt
   •Phyllopod
  ◊ BMP and MAPK
  ◊ Cadherins
  ◊ Cadherins 2

NODES
◊Insulin net

SPATIOTEMPORAL ORGANIZATION
◊Design Principles

PROJECT
  ◊ B lymphocytes
  ◊ Cardyomyocytes
  ◊ Molecule Page database

SIGNALLING (TRANSPORT) in NUCLEUS

ligand-receptors?

receptors, products of proteolysis

SignaloSome

SILENCING

Description

POLYCOMB GROUP
  ◊Description
  ◊Polycomb repressive complexes
  ◊ Mechanisms

PTG

RISC
◊Argonaute2
◊Dicer1-2

RNAi
  ◊ Mechanisms
  ◊ retrotransposon LTRs
  ◊dsRNA
   • endocytosis
  ◊ Transfer in nucleus siRNA

rRNA gens

SPREADING ON CHROMATIN
◊ Mechanisms

siRNA

SinoAtrialNode

SISTER CHROMADID COHESION

MECHANISMS
◊SisterChromadidCohesion
◊Acetylates the Smc3p subunit of the cohesin complex

SIZE CONTROL

Mechanisms

ORGANISMS
  ◊ Description
  ◊Mechanisms
   • Insects
   • Role of PI3K

ORGANS
  ◊Morphogen Gradients
   • Hox genes
  ◊ Number of embryonic progenitor cells
   • Pancreas and liver
  ◊Genetic Control
   • YAP and Yorkie

CELLS
◊ Biosynthetic Basis
◊ role Rheb

without checkpoint

SKELETAL

CELL DIFFERENTIATION
◊ Skeletal Defects

SKIN

DEVELOPMENT
  ◊ Description
  ◊ and Regeneration
  ◊ & Fethers
  ◊Fibroblast heterogeneity

PIGMENTATION
◊ Melanocytes

SENSORY TRANSDUCTION
◊ Mechanisms

STRUCTURE and FUNCTION
◊ Morphogenesis. Genetic control

TISSUE-ENGINEERED SKIN
◊ Progress and opportunities

SKULL

Development
◊ Evolution

SLEEP

control

Genetic analysis

SMALL RNA

Biogenesis

Description

TRANSFER IN NUCLEUS
◊ Argonaute protein NRDE-3

SMOOTH MUSCLE

DEVELOPMENT
◊ Myocardin family of transcriptional coactivators

DIFFERENTIATION
◊ Smad3-mediated myocardin silencing

Sniffing
S-nitrosylation
somatic Mosaicism

SOMITOGENESIS

BILATERAL SYMMETRY
◊ Role of Rere

GENETIC CONTROL
  ◊ Molecular mechanism
  ◊ Role of Ebf2 and Ebf3
  ◊ Timeline of transcriptional regulation
  ◊ Wnt signaling

description

Myotome

OSCILLATIONS
◊ Notch and Fgf Signaling
◊ Noise in the Vertebrate Segmentation Clock Is Boosted by Time Delays

Syndetome

Snore

SORTING

mannose-6-phosphate receptors (MPRs)
◊ GGA adaptors

MEMBRANE PROTEINS
◊ GPI-anchored proteins
◊ The signal recognition particle

Sound

SPATIAL LEARNING

LONG NONCODING RNA
◊Novelty Activates a Long Noncoding RNA for Spatial Learning in Mice

SPECIFICATION

EMBRYONIC CELL-TYPE
◊Single-cell transcriptional profiling

LIMB
◊Digit and Limb

NEURONAL
  ◊Neuronal
  ◊NeuroProgenitor
  ◊Spinal neuron
    •BMP and electrical activity

Mesoderm

and DETERMINATION
◊Lineage commitment
◊The chromatin modifier Satb1 regulates cell fate

SPECIALIZED

Mesench.Cells

Speech
Speckles

SPEMAN ORGANIZER

< Description

< Self-Regulation

SPERMATIDES

POLARIZATION
◊ JAM-C

SPERMATOGENESIS

CAPACITATION
◊ Calcium

CYTOSKELETON GERM CELL
◊ Dynamic

SPERMATIDS
◊ Genetic Instability and Chromatin Remodeling in Spermatids

SPERM
◊ hyperactivated
◊ paternal RNA

SPERM GUIDANCE
◊ Chemoataxis

SPERMIOGENESIS
◊description

transcriptional machinery
◊ TAFs and TBP

S-phase
Spikelets

SPINAL CORD

NEUROGENESIS
  ◊ Duru
  ◊Neurogenesis
  ◊ signals and switches

ORIGIN
◊Signals and switches

Pattern

PRECURSORS CELLS
◊Expression Olig1/2

RECOVERY
◊functional recovery from spinal cord injury in lampreys

SIGNALING
◊ effects of WNTLESS on WNT1/3A

SpinaVestibuli

SPINDLE (MITOTIC)

ASSEMBLY
  ◊CHECKPOINT
   ◊ Connection kinetochores and microtubules
  ◊ Description
  ◊ Kinesin-5
  ◊CENTRALSPINDLIN COMPLEX
   ◊regulation

BIPOLARITY
◊ Kizuna

DYNAMICS of MICROTUBULE
◊ GSK-3

DISSOTIATION
◊ AAA-ATPase

ORIENTATION
  ◊ Description
  ◊Mechanisms
   • Complex positioning
   • Description
   • Role of PtdIns(3,4,5)P3

POSITIONING
◊ Role of microtubule

SPINES

Axonic

DENDRITIC
  ◊ description
  ◊ genesis and function
  ◊ Number of NMDA rec.
  ◊ oligophrenin-1
  ◊ profilin and stabilization

SPLICING (ALTERNATIVE)

ASSAYS
◊Interpretation of mRNA splicing

Characterization

Conservation and Function

DEFECTS
◊Deafness
◊Misregulation of Alternative Splicing by RTT

CONTROL
  ◊Chromatin Factors Influences
  ◊Mechanisms
  ◊Mechanisms
  ◊Alternative splicing of the vitamin D receptor modulates target gene expression and promotes ligand-independent functions
  ◊The histone variant H2A.Z promotes splicing of weak introns
  ◊Role of miRNAs
   • Postnatal heart development

Synaptic transmission

SpliceSome

Descrioption

Second

SPREADING

Fibroblastes
◊Spreading initiation centers
◊ Filopodies

starvation

STEM CELLS

ADIPOSE TISSUE
◊ Into insulin-producing cells

AGEING
◊ Functionality
◊ Mechanisms

ADULT
◊ Determination: role of dsRNA
◊Nano-chips

BLOOD PROGENITOR
◊ Olfactory Control

BRAIN
◊ Hypothalamic regulation of adult neural stem cells

CANCER
  ◊ A genome editing approach to study cancer stem cells
  ◊ Search
  ◊ invasive properties of somatic cells via paracrine activation of mTORC1 in stem cells
  ◊ Function
  ◊ Tumour-derived endothelium
  ◊ Identification of Tumor Initiating Cells with a Small-Molecule Fluorescent Probe

CARDIAL
  ◊ and Agening
  ◊ Identification
  ◊ and Agening

CHROMATIN REMODELING FACTORS
◊imitation SWI (ISWI) и Domino (DOM)

DERMIS-DERIVED STEM CELLS
◊ Structure and function

DENTAL FOLLICLE STEM CELLS
◊ Activation of proliferation and differentiation

DIFFERENTIATION
◊ Role of Sirtuin 1

EMBRYONAL STEM (ES)CELLs
  ◊ Antibody to antigens
  ◊ Expression of Genes
   • ESC towards embryoid bodies
  ◊ Description*
  ◊ Reorganization of the Clustered Hox Genes
   • Role of RA
  ◊ Differentiation
   • Control of differentiation
   •Role of Cathepsin L
   •Role of miRNA
  ◊ Differentiation to
   • Neural Cells
   • Chondrocytes
   • Thyroid
  ◊ Origin ES,TS,XEN
  ◊Pluripotency
   •Description
   •Epigenetic Control
   • Role of REST
   •Role of Ring1

◊ Self-renewal
• Role of H3K4me3 demethylase, KDM5B

EMBRYONAL (ES) of HUMAN
  ◊Survival
   •Neurotrophins
  ◊ Differentiation
   •in Cardial cells
   •in Cardial cells and reparation
   •in Neurons
   •in Vascular Endothelial Cells

EPIDERMAL
  ◊ Description
  ◊Differentiation
   • Actin and serum response factor
  ◊ Markers

EPITHELIAL
◊ Description
◊ Role of Lgr

Eyes

GENETIC CONTROL
◊ Notch signaling
◊ Polycomb complexes

GERMLINE
  ◊ Asymmetric inheritance
   • Centrosome
  ◊ Epigenetic properties
  ◊ from Spermatogony
  ◊ Niches and cadherins
  ◊ Nanos

HAIR FOLLICLE STEM CELL
◊ Role of Foxp1

HEART STEM CELL
◊ natural variation in heart regeneration

Heart

HEMATOPOIETIC STEM CELLS
  ◊ Commitment
  ◊ Description
  ◊ Interactions with the niche

HEMATOPOIETIC STEM CELLS GENE-MODIFIED
◊Immunoresponse to Gene-Modified Hematopoietic Stem Cells

Hepatic

HUMAN: DIFFERENTIATION
◊ by BMP-2

HUMAN: MESENCHIMAL
◊ Commitment of fate
◊ Description

HUMAN: UMBILICAL CORD BLOOD
◊ Pluripotent differentiation potential

UNDIFFERENTIATED HUMAN EPIDERMAL CELLS
◊ Functional heterogeneity

PLURIPOTENT STEM CELLS
◊ Directional differentiation
◊ Human pluripotent reprogramming with CRISPR activators

INTESTINUM
◊Role of Paneth Cells
◊ Origin of adult intestinal stem cells

MAMMARY
◊ Mammary
◊Cyclin Y-Like 1 and Cyclin Y in Mammary Stem/Progenitor Cells

METABOLIC PROGRAMMING
◊ Metabolic programming of stem cells

LUNGS
◊ Regenerative Potential
◊ Role for chronic lung diseases

LIVER
◊ Differentiation in hepatocytes
• Role Notch

MECHANOBIOLOGY
◊ Lessons from bone marrow

METHODS of OBTAINING
◊ Somatic cell nuclear transfer

MESENCHYMAL STEM CELLS
  ◊ HUMAN UMBILICAL CORD
   • Differentiation into cardiomyocytes
  ◊ DIFFERENTIATION
   • Kindlin' the fate of mesenchymal stem cells

NEURAL
◊ Neural

  ◊IGF-I
  ◊in Brain
  ◊ Role of microRNAs
  ◊ Transdifferentiation
  ◊ TRIP6

Сharacterization

NICHE
  ◊ Adhesion
  ◊Integrity by Activator of Integrin Signaling
  ◊Structure and Function
  ◊from Stem Cell
  ◊ Spindle positioning
  ◊ GLI1-expressing mesenchymal cells form the essential Wnt-secreting niche for colon stem cells

NEURAL CREST
◊ description
◊ Sox10

MAMMARY
◊ Function

OVARIAN
◊ Function

PANCREAS
◊Unique pancreatic stem cells

PLURIPOTENCY
◊Nanog
◊Regulatory networks

Repertoire

REGULATION
◊microRNA

RETINA
◊ Regeneration
◊Wnt signaling

SELF-RENEWAL
◊Транскрипционный фактор ZFX
◊Small molecule

SKELETAL
◊Formation and Function

SKIN
◊Structure and Function

SPERMATOGONIA
◊c-kit expression in differentiation
◊ Spermatogonia stem cell

TENDON
◊Identity

TISSUE-SPECIFIC
◊Origin

TROPHOBLAST STEM CELLS
◊Differentiation into giant cells
◊Получение из hPSC

VASCULAR ENDOTHELIAL STEM CELLS
◊Discovery of VESC

STEREOCILLIA

Description

Regulation of lengths

Tip link

STEROIDS

Nongenomic action

Streak Primitive

STRESS

Mechnisms and role

Fibers

FLUID SHEAR
◊ G protein-coupled receptors

Bodies (Nuclear) Hypertonic

STRIATUM

STRIOSOME AND THE MATRIX
◊ Reward-Predictive Neural Activities in Striatal Striosome Compartments

STOMACH

CURVATURE
◊ Generation by left-right asymmetric gut morphogenesis

STRESS GRANULES

DAMAGED ENDOLYSOSOMAL MEMBRANES
◊Stress granules plug and stabilize damaged endolysosomal membranes

STRETCH EFFECTs

CYTOSKELETON
◊Signalling cascade

Subplexus
SubTelomeres

SUICIDE

Behavior Gene

SULCUS

InterVentr

Outflow

SUMOYLATION

Description

SUMO functions

Polycomb2

UBC9-mutatants

SURFACTANT

Description

bei Diseases

SusceptibilityToInfectious

SUTURE CRANIAL

Patterning and Fusion

Sweating
SwingMode
SympathNS

SYNAPSES ELECTRICAL

CHARACTERISTICS and PLASTICITY
◊Transmission SYNAPSES IMMUNOLOGICAL

Description

Information nets

Positioning of mitochondria

SYNAPSES NEURAL

characterization

FORMATION
  ◊Adhesion molecules
  ◊Developmental biology
  ◊Role of miRNA

electrical

hippocampus

inhibitory

LOCAL PROTEIN SYNTHESIS
◊role of BDNF

MOLECULAR MECHANISMS
◊ Molecular mechanisms
◊ Neural GPI-Anchored Proteins in Synaptic Specification

REMODELING
◊ synapse remodeling following astrocyte-specific regulation of ephrin-B1 in the adult hippocampus

SYNAPTIC

ARCHITECTURE
◊Global Disorder: Synaptic Architecture of Visual Space

lattice

PLASTICITY
  ◊description
  ◊extracellular matrix molecules
  ◊MAPK and ERK

PPF

PROTEOME
◊Transsynaptic signaling
◊long-lived synaptic proteins

specificity

STRENGTH
◊ NMDA and Scr

transmission

Vesicle
◊ Description
◊ Exocytosis

SYNAPTOGENESIS

GENETIC CONTROL
  ◊ Neurotrophins
  ◊ Modulation of Neurexin-Neuroligin
  ◊ Synaptic maturation and axonal arbors
  ◊ Wnts

SYNAPTONEMAL COMPLEX

Genetics and molecular biology*

SYNESTHESIA

Genetic Control

SYNTHETIC BIOLOGY

Control of protein synthesis

Synthetic Life

SYSTEMS GENETIC

MODULES OF GENES
◊ Osteoblast-Lineage Cells

SYSTEMS OF ORGANS

NEURAL AND HEMATOPOIETIC SYSTEMS
◊ Avian development