Keyphrases
Amino Acid Network
18%
Antarctic Ocean
22%
Baeyer-Villiger
24%
Baeyer-Villiger Monooxygenase
29%
Baeyer-Villiger Reaction
23%
Binding Pocket
23%
Bioink
18%
Biomaterials
52%
Cartilage Regeneration
18%
Caveolin-1 (Cav-1)
18%
Cell Malignancy
18%
Cell-based
46%
Cloning Expression
37%
Cold Adaptation
37%
Cold-active Xylanase
18%
Cold-adapted
20%
Cold-adapted Protease
18%
Coupled Residues
18%
Directed Evolution
100%
EpPCR
18%
Extracellular Vesicles
18%
Gelatin
56%
Gelatin Methacryloyl (GelMA)
59%
Genome Walking
28%
High-resolution
18%
Human Coronary Artery
37%
Hydrogel Layer
20%
Immunological Barrier
18%
Laboratory Evolution
32%
Lipase
22%
Low Temperature
19%
Mechanical Properties
27%
Mechanical Strength
23%
Methacrylamide
32%
Multi-material
18%
Phenylacetone Monooxygenase
28%
Porous Scaffold
18%
Psychrophiles
24%
Rapid Manufacturing
37%
Reinforced
37%
Salmon
23%
Saturation mutagenesis
42%
Stereoselectivity
42%
Subtilisin-like
18%
Technical Barriers
18%
Tenascin-C
18%
Thermolabile
18%
Thermostable Enzyme
18%
Tissue Engineering
31%
Vascular Graft
41%
Biochemistry, Genetics and Molecular Biology
Allosteric Regulation
18%
Amino Acids
27%
Aspergillus Niger
9%
Biomimetics
9%
Biopolymer
9%
Cancer Cell
18%
Caveolin 1
18%
Cell Function
7%
Chondrocyte
18%
Codon
18%
Cold Acclimatization
37%
Computer Simulation
15%
Cytochrome P450
18%
Enzymatic Hydrolysis
9%
Enzyme
67%
Epoxide Hydrolase
18%
Escherichia coli
9%
Facilitated Diffusion
9%
Genomics
6%
Glycosaminoglycan Metabolism
9%
Hydrolase
18%
Hydroxylation
18%
Mutagenesis
56%
Oligonucleotide
7%
Pancreatic Lipase
22%
Porosity
18%
Primer Walking
25%
Protease
18%
Psychrobacter
5%
Regioselectivity
18%
Rigidity
9%
Salmon
28%
Salmonine
28%
Solution and Solubility
18%
Stem Cell
18%
Stereoisomerism
9%
Stereoselectivity
21%
Subtilisin
18%
Tenascin C
18%
Thermostability
18%
Tissue Regeneration
28%
Triacylglycerol Lipase
22%
Tumor Progression
5%
Unspecific Monooxygenase
40%
Xylanase
22%