ライフサイエンスコーパス: spiny lobster

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1 rhythm in the stomatogastric ganglion of the spiny lobster.

2 These results imply that true navigation in spiny lobsters, and perhaps in other animals, is based o

3 ggest the olfactory L-glutamate receptors of spiny lobsters are novel types of L-glutamate receptors

4 we undertake the first analysis of Caribbean spiny lobster diet using a stable isotope approach (carb

5 rons of the stomatogastric ganglion (STG) of spiny lobsters, Ih can be endogenously upregulated to co

6 ne stimulates the feeding pathway to deceive spiny lobsters into attending to a false food stimulus,

7 he lateral flagellum of the antennule of the spiny lobster Panulirus argus houses more than 1,000 mor

8 Here we report, however, that the spiny lobster Panulirus argus oriented reliably towards

9 olfactory receptor neurons of the Caribbean spiny lobster Panulirus argus possesses receptors for L-

10 tal types on the antennules of the Caribbean spiny lobster Panulirus argus revealed three types of no

11 anulirin, isolated from the hemocytes of the spiny lobster Panulirus argus with regulatory functions

12 The peripheral olfactory system of the spiny lobster Panulirus argus--located on paired antennu

13 omatogastric ganglion (STG) of the Caribbean spiny lobster Panulirus argus.

14 st identified on antennules of the Caribbean spiny lobster Panulirus argus.

15 in the stomatogastric ganglion (STG) of the spiny lobster Panulirus interruptus.

16 r the shaker potassium channel gene from the spiny lobster Panulirus interruptus.

17 eurons in the stomatogastric ganglion of the spiny lobster Panulirus interruptus.

18 nd macroalgal abundance with fishery data of spiny lobster (Panulirus interruptus) landings to evalua

19 w how healthy, normally gregarious Caribbean spiny lobsters (Panulirus argus) avoid conspecifics that

20 plysia californica), which, when attacked by spiny lobsters (Panulirus interruptus), release defensiv

21 The Caribbean spiny lobster, Panulirus argus, is one of the most valua

22 r (PD) neurons of the pyloric network in the spiny lobster, Panulirus interruptus, and its modulation

23 ethal attack by a co-occurring predator, the spiny lobster, Panulirus interruptus, might be a natural

24 ircuit in the stomatogastric ganglion of the spiny lobster, Panulirus interruptus, results not only f

25 he 10th putative arthropod receptor from the spiny lobster, Panulirus interruptus.

26 sity in the 14-neuron pyloric network of the spiny lobster, Panulirus interruptus.

27 etwork in the stomatogastric ganglion of the spiny lobster, Panulirus interruptus.

28 e-dependent potassium (K+) channel, from the spiny lobster, Panulirus interruptus.

29 ed at the circuit and cellular levels in the spiny lobster, Panulirus interruptus.

30 rchitecture of neurogenic complexes in adult spiny lobsters, Panulirus argus, based on transmission e

31 y midbrain of decapod crustaceans, including spiny lobsters, Panulirus argus.

32 l pathway was previously unrecognized in the spiny lobster's diet, and these results are the first em

33 that stimulate chemoreceptor neurons in the spiny lobster's nervous system.

34 to act on peripheral chemosensory neurons of spiny lobsters, stimulating feeding-related behaviours a

35 e rhythmically active pyloric circuit of the spiny lobster, the pyloric dilator (PD) neurons are memb

36 e rhythmically active pyloric circuit of the spiny lobster, the synapse between the lateral pyloric (

37 We used young adult spiny lobsters to examine turnover of aesthetascs and fu

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