Chemistry
Histidine
100%
Prohormone
100%
Primary Structure
66%
Leu-Thr
33%
Thr-Arg
33%
Arg-Tyr
33%
Asp-Ala
33%
Glu-Glu
33%
His-Ser
33%
Bioactivity
16%
Amino Acid
16%
High-Pressure Liquid Chromatography
16%
Ser-Gly
16%
His-Leu
16%
Ile-Trp
16%
Arg-Phe
16%
Leu-Arg
16%
Ala-Phe
16%
Phe-Met
16%
Val-Ala
16%
Val-Leu
16%
Leu-Glu
16%
Val-Phe
16%
Arg-Gln
16%
Lys-Arg
16%
Leu-Thr-Asp
16%
Tyr-Gly-Gly
16%
Lys-Asp
16%
Val-Asn
16%
Pro-Ser
16%
Thr-Gly
16%
Ala-Leu
16%
Arg-Arg
16%
Gly-Asp
16%
Ser-Val
16%
Asp-Arg
16%
Leu-Ser
16%
Arg-Asp
16%
His-His
16%
Gly-Arg
16%
Ala-Val
16%
His-Asp
16%
Arg-Ala
16%
Tyr-Arg
16%
Gly-His
16%
Arg-Leu
16%
Val-Gly
16%
Thr-Asp
16%
Glu-Pro
16%
Asn-His
16%
Ser-Asp
16%
Asp-Glu
16%
Leu-Lys
16%
Gly-Ser
16%
Glu-Leu
16%
Ala-Gln
16%
Trp-Arg
16%
Asp-Val
16%
Asp-Asp
16%
Ser-Ala
16%
Glu-Ser
16%
Asp-Lys
16%
Phe-Leu
16%
Met-Thr
16%
Keyphrases
Prohormone
100%
Aplysia
100%
Basic Peptide
100%
Histidine-rich
100%
Sequence Analysis
33%
Compositional Analysis
33%
Gly-Gly-His
33%
Biological Activity
16%
Amino Acids
16%
Aplysia Californica
16%
Cardiovascular Function
16%
Reversed-phase HPLC
16%
Abdominal Ganglia
16%
Marine Molluscs
16%
Activity in Vivo
16%
Neuroendocrine Cells
16%
Ala-Gln
16%
Biochemistry, Genetics and Molecular Biology
Peptide Sequence
100%
Histidine
100%
Basic Peptide
100%
Aplysia fasciata
100%
Shotgun Sequencing
33%
Amino Acids
16%
Biological Activity
16%
Aplysia Californica
16%
Aplysia
16%
N-Terminus
16%
Reverse Phase High Performance Liquid Chromatography
16%
Neuroendocrine Cell
16%
Crop
16%
Neuroscience
Prehormone
100%
Arginine
100%
Histidine
100%
Amino Acid Sequence
100%
Shotgun Sequencing
18%
In Vivo
9%
In Vitro
9%
Ganglion
9%
Amino Acid
9%
Amino Terminal Sequence
9%
Neuroendocrine Cell
9%
Pharmacology, Toxicology and Pharmaceutical Science
Histidine
100%
Hormone Precursor
100%
Arginine
100%
Aplysia fasciata
100%
Biological Activity
9%
Amino Acid
9%
Reverse Phase High Performance Liquid Chromatography
9%
Aplysia
9%
Crop
9%
Aplysia Californica
9%