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Electrochemical gradients across Locusta Malpighian tubules
P. J. Morgan
*
, W. Mordue
*
Corresponding author for this work
The Rowett Institute of Nutrition and Health
Research output
:
Contribution to journal
›
Article
›
peer-review
29
Citations (Scopus)
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Agriculture & Biology
Locusta
92%
Malpighian tubules
77%
microelectrodes
56%
ions
43%
chlorides
20%
diuretic hormone
19%
potassium
18%
energy
14%
membrane potential
12%
fluids
9%
sodium
9%
cells
7%
Medicine & Life Sciences
Malpighian Tubules
100%
Microelectrodes
54%
Ions
50%
Potassium Chloride
15%
Membranes
14%
Sodium Chloride
13%
Diuretics
12%
Membrane Potentials
11%
Potassium
11%
Hormones
8%
Earth & Environmental Sciences
ion
38%
membrane
24%
potassium
20%
chloride
19%
cell
15%
hormone
12%
energy
11%
sodium
9%
fluid
6%
chemical
5%
Chemical Compounds
Ion
23%
Diuretic
16%
Chloride
14%
Membrane Potential
13%
Hormone
12%
Energy
11%
Sodium Atom
7%