Keyphrases
ABIN1
50%
AChBP
50%
Adaptive Immune Response
16%
Allosteric Modulation
10%
Antagonist Activity
50%
Anticryptosporidial
50%
Antimicrobial Effectors
7%
Antinociception
10%
Associated Morbidity
7%
Autoimmunity
16%
Bacterial Cells
14%
Bacterial Competition
50%
Bacterial Effectors
7%
Bacterial Species
7%
Binding Constant
10%
Binding Region
10%
Binding Site
30%
Ca2+
60%
Calf Model
25%
Cation Permeation
50%
Cation Selectivity
10%
Cell Division
8%
Cell Membrane
14%
Cell number
8%
Central Cavity
10%
Central Channel
20%
Channel Shape
10%
Chemical Tools
7%
Children under 5 Years
7%
Clinical High Risk
25%
Clinical Outcomes
7%
Common Mechanisms
7%
Comparative Structural Analysis
7%
Compound Properties
25%
Conserved Function
7%
Cryptosporidiosis
32%
Cryptosporidium
100%
Diagnostic Potential
8%
Diarrheal Disease
25%
Disease Phenotype
8%
Divalent Cations
50%
Drug Discovery
14%
Drug Selection
14%
Drug Target
27%
Effective Treatment
7%
Efficacy in Vivo
50%
Electrophysiology Simulation
10%
Encoded Protein
16%
Fluoro
50%
Forward Genetics
7%
Gastrointestinal Infection
25%
Genetic Approach
14%
Genetic Crosses
7%
Genetic Modification
14%
Genetic Tools
14%
Glomerulonephritis
50%
Glycohydrolases
7%
High Efficiency
7%
High-level Expression
8%
Hybrid Progeny
7%
Hydrophobic Barrier
10%
Hydrophobicity
10%
Immune Cells
50%
Immunodeficient Mice
25%
Immunogenic Proteins
50%
Impermeability
10%
In Silico
10%
In Vivo Activity
10%
Infection Model
25%
Inflammatory Monocytes
25%
Interleukin-6
16%
Ion Channels
54%
Ion Selectivity
50%
Ionic Species
10%
IRAK4 Inhibitor
8%
Knock-in Mouse Model
60%
Knowledge Gaps
25%
Lack of Understanding
25%
Leading Causes of Death
25%
Liver Pathology
50%
Low-middle Income Countries
7%
LysR Family
100%
Mode of Action
50%
Model Strain
7%
Molecular Recognition
10%
Molecular Targets
7%
Monocyte-derived Dendritic Cells (MoDCs)
16%
Monovalent Cations
30%
Mouse Infection
25%
Mouse Model
25%
NADase
50%
NADP+
7%
Natural Recombination
7%
Neglected Infectious Diseases
25%
NETosis
8%
Neutrophils
8%
New Therapeutics
7%
Nicotine
20%
Nicotinic Acetylcholine Receptor (nAChR)
30%
Nicotinic Receptors
50%
Nitazoxanide
25%
Non-selective
13%
Non-self
7%
Operative
10%
Orally Active
8%
Organ Pathology
8%
Orthosteric Binding Site
10%
Orthosteric Site
10%
Overexpressing
7%
Oxyanions
10%
Parasite Biology
7%
Parasite Survival
7%
Parental Strain
7%
Parvum
7%
Patrolling Monocytes
33%
Peripheral Site
10%
Pharmacokinetic Properties
25%
Physicochemical Properties
25%
Physiological Significance
10%
Physiologically Relevant
10%
Polymodal
14%
Potential Treatments
25%
Preclinical Safety Studies
25%
Recombination Event
7%
Reverse Genetics
7%
Selection Marker
50%
Selective Permeation
10%
Selectivity Filter
24%
Sequence Difference
10%
Serratia
50%
Serratia Marcescens
7%
Signal Detecting
14%
Specific Immunity
7%
Specific Sequences
10%
Strain Competition
7%
Subtype Selectivity
10%
Target Engagement
50%
Target Identification
7%
Thermal Proteome Profiling
14%
Toll-like Receptor 7 (TLR7)
8%
Toxic Actions
7%
Transient Receptor Potential
10%
Transition Zone
10%
Transmembrane Voltage
14%
TRP Channels
50%
TRPM4
10%
TRPM5
50%
Two-strain
7%
Type VI Secretion System
21%
Ubiquitin Binding
8%
Unbiased Approach
7%
Unmet Medical Need
25%
Vestibule
10%
α7 Nicotinic Acetylcholine Receptor (α7nAChR)
20%
Biochemistry, Genetics and Molecular Biology
Acetylcholine
50%
Adaptive Immunity
16%
Agonist
20%
Bacterial Effector Protein
16%
Binding Affinity
10%
Binding Protein
50%
Binding Site
52%
Biological Phenomena and Functions Concerning the Entire Organism
6%
Blood Plasma
6%
C-Terminus
16%
Calcium Signaling
6%
Cell Membrane
6%
Computer Simulation
6%
Cooperation
6%
Cryptosporidium
50%
Crystal Structure
10%
DNA Modification
7%
Electric Potential
6%
Forward Genetics
7%
Genetic Approach
14%
Genetic Cross
7%
Genetics
14%
Glycoside Hydrolase
16%
Ion Channel
12%
Ion Transport
6%
Life Cycle
14%
Mediator
50%
Membrane Channel
6%
Molecular Recognition
10%
Nicotinic Acetylcholine Receptor
10%
Nicotinic Receptor
50%
Parasite Survival
7%
Physiological Process
6%
Proteome
14%
Receptor Potential
6%
Serratia
50%
Serratia marcescens
16%
Small Molecule
6%
Transfer RNA
50%
Transient Receptor Potential Channel
6%
Transient Receptor Potential Vanilloid
50%
TRPV5
6%
TRPV6
6%
Type VI Secretion System
50%