Keyphrases
Active Sites
49%
Antagonism
77%
Base Editing
15%
Biallelic
77%
Cardiomyopathy
77%
Clinical Phenotype
17%
Coronavirus
28%
Cytosine
73%
Cytosine Deamination
77%
DNA Deaminase
77%
DNA Lesions
77%
DNA Sequencing
15%
DNA Substrates
22%
Double Homeobox
77%
DUX4
77%
Endonuclease
77%
Eutherian Mammals
25%
Exoribonuclease
77%
Facioscapulohumeral muscular Dystrophy
38%
Family Members
77%
Genome Editing
15%
Homeobox Genes
51%
Homeodomain Proteins
77%
Hypoxanthine
44%
Immune Dysfunction
77%
Minichromosome Maintenance Proteins
77%
Minor Groove
15%
MUS81
17%
Neurolysin
77%
Non-canonical
15%
Non-structural Protein 14
38%
Nsp10
38%
Platypus
25%
Replication Fork
17%
Restrictive Cardiomyopathy
17%
SARS-CoV-2 Neutralization
77%
Sequence Selectivity
15%
Sequence Specificity
77%
Severe Acute Respiratory syndrome-CoV-2
77%
Sharks
77%
Single-stranded DNA (ssDNA)
86%
Structural Information
23%
Substrate Inhibition
77%
Substrate Preference
15%
Substrate Recognition
77%
Telomere Shortening
77%
Uracil
60%
Variable New Antigen Receptor
77%
X-ray Crystallography
77%
Zygotic Genome Activation
38%
Biochemistry, Genetics and Molecular Biology
Active Site
56%
Antibody Combining Site
15%
Binding Domain
46%
Chlordiazepoxide
26%
Cladistics
15%
CRISPR
15%
Crystal Structure
45%
Cytosine
88%
Cytotoxicity
12%
Deamination
100%
DNA Binding
12%
DNA Damage
77%
DNA Template
11%
DUX4
77%
Dynamics
77%
Dynorphin A
23%
Endonuclease
77%
Exoribonuclease
77%
Gene Activation
12%
Genome Editing
15%
Guanine
15%
Homeobox
77%
Homeobox Gene
51%
Homeodomain Protein
77%
Immunity
93%
Immunoglobulin
15%
Long Terminal Repeat
12%
Minichromosome Maintenance
77%
Multigene Family
12%
N-Terminus
11%
Natural Killer Cell
17%
Neurolysin
77%
Phage Display
15%
Phylogeny
15%
Platypus
25%
Product Inhibition
12%
Protein Motif
15%
Receptor Binding
31%
RNA
22%
RNA Binding
11%
RNA Recombination
11%
RNA-dependent RNA Polymerase
22%
SARS Coronavirus
77%
Single-Domain Antibody
15%
Telomere Shortening
77%
Thymine
15%
Uracil
60%
Virus Neutralization
15%
Virus Virulence
11%
X-Ray Crystallography
77%