Keyphrases
Drosophilidae
100%
Myogenesis
50%
Decapentaplegic
45%
Distal Arthrogryposis
36%
Tropomyosin
34%
Epicardial Cells
31%
Myosin Heavy Chain (MyHC)
30%
Muscle Development
30%
Muscle Morphogenesis
25%
Myotubes
25%
Back Seat
23%
Mesoderm
21%
Dorsal Ectoderm
20%
Pathogenic Mechanism
20%
Zfh1
20%
Dpp Signaling
19%
Muscle Regeneration
19%
MRTF-A
19%
Myotube Elongation
19%
Genetic Screening
19%
Intercellular Communication
19%
Zebrafish
18%
Signaling Pathway
18%
Muscle Physiology
18%
Multiple Models
18%
Posterior Spiracles
17%
Drosophila Melanogaster
17%
Skeletal muscle
16%
Protein Expression
16%
Birth Defects
15%
MYH3
15%
Response to Infection
15%
Regeneration
15%
Myotube Guidance
15%
Network Routing
15%
Inter-organ Communication
15%
Genomic Approaches
15%
Polo
15%
Spatiotemporal Expression
15%
Structural Birth Defects
15%
Functional Genomics
15%
Tumor Suppressor Activity
15%
Myopathy
15%
Post-transcriptional Regulation
15%
Congenital Contractures
15%
Septate Junction
15%
Cell Fusion
15%
Notochord
15%
Serine-threonine Kinase
15%
Tumor Cells
15%
Biochemistry, Genetics and Molecular Biology
Myogenesis
73%
Skeletal Muscle
51%
Decapentaplegic
45%
Morphogenesis
40%
Zebra Fish
38%
Tropomyosin
34%
Enhancer Region
34%
Muscle Regeneration
30%
Genetics
29%
Heavy Meromyosin
26%
Ectoderm
26%
Epiblast
26%
Precursor
25%
Mesoderm
25%
Genetic Screen
19%
Transcription
19%
Protein Expression
18%
Kinase
17%
Phosphotransferase
17%
Drosophila Melanogaster
17%
Cell Fate
16%
Allele
16%
Cell Fusion
15%
Fibroblast Growth Factor
15%
Nerve Function
15%
Functional Genomics
15%
Genetic Disorder
15%
Post-Transcriptional Regulation
15%
Human Genetics
15%
Tumor Suppressor Protein
15%
Janus Kinase
15%
MyoD
15%
Cellular Differentiation
15%
Cell Adhesion
15%
Histone Deacetylase
15%
Transforming Growth Factor Beta
15%
JAK-STAT Signaling Pathway
15%
Heterotrimeric G Protein
15%
Multigene Family
15%
Heart Output
15%
Neurexin
15%
Interleukin 6
15%
Serine
15%
Threonine
15%
Fruit Fly
15%
Embryogenesis
11%
Notochord
11%
Motor Performance
10%
Cytokine
10%
Orthology
8%