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Chemosensory mechanism in American cockroach olfaction and gustation
Jack M. Rozental
*
, Dale M. Norris
*
Corresponding author for this work
Neurology
Research output
:
Contribution to journal
›
Article
›
peer-review
18
Scopus citations
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Keyphrases
Olfaction
100%
Chemosensory
100%
Messenger
100%
American Cockroach
100%
Gustation
100%
Quinones
62%
Macromolecules
25%
Receptor-interacting Protein Kinase 1 (RIPK1)
25%
Antenna
25%
Naphthoquinone
25%
Energy Transfer
12%
Action Potential
12%
Sensory Neurons
12%
Chemoreceptor
12%
Thiols
12%
Protein System
12%
Membrane-associated
12%
Conformational Change
12%
Soluble Protein
12%
Energy Transfer Mechanism
12%
Non-reactivity
12%
Cockroach
12%
Repellent
12%
Disulfide
12%
Disulfide Bond Formation
12%
In Vitro Techniques
12%
Current-voltage Characteristics
12%
Physiological pH
12%
Current Flow
12%
Chemical Messengers
12%
Triton X-100 (TX-100)
12%
Specific Energy
12%
Deoxygenated
12%
Polarographic
12%
Half-wave Potential
12%
Periplaneta Americana
12%
Disulfide-reducing Agent
12%
Protein-receptor Interaction
12%
Cation Permeability
12%
Hanging Mercury Drop Electrode
12%
Cuticular Pores
12%
Scolytus multistriatus
12%
Polarography
12%
Physicochemical Characteristics
12%
N-ethylmaleimide
12%
Insect Antenna
12%
Sensilla
12%
2-Hydroxy-1,4-naphthoquinone
12%
Thiol Reagents
12%
Dithiothreitol
12%
5-hydroxy-1,4-naphthoquinone
12%
1,4-naphthoquinone
12%
Selective Reaction
12%
Neuroscience
Gustation
100%
Olfaction
100%
Receptor
100%
Quinone
45%
Naphthoquinone
36%
Receptor Protein
27%
Energy Transfer
18%
Thiol
18%
Sensory Neuron
9%
Menadione
9%
Reducing Agent
9%
Maleimide
9%
In Vitro
9%
Protein Interaction
9%
Chemoreceptor
9%
Action Potential
9%
Pharmacology, Toxicology and Pharmaceutical Science
Periplaneta Americana
100%
Receptor
100%
Receptor Protein
27%
Disulfide
18%
Naphthoquinone
18%
Triton X-100
9%
Reducing Agent
9%
Juglone
9%
Dithiothreitol
9%
Thiol Reagent
9%
1,4 Naphthoquinone
9%
Menadione
9%
Disulfide Bond
9%
Thiol
9%
Maleimide
9%