研究業績
47. *Matsuo R, Kwon H, Takishita K, Nishi T, and Matsuo Y.Expression of proteins supporting visual functions in heterobranch gastropods.
J Comp Physiol A (in press) (2024).
46. Matsuo Y, Kawakami A, and *Matsuo R.
Visual afferents from an eye in the terrestrial slug Limax valentianus.
J Comp Neurol 532, e25600 (2024).
45. *eqMatsuo R, eqKoyanagi M, Sugihara T, Shirata T, Nagata T, Inoue K, Matsuo Y, and *Terakita A.
Functional characterization of four opsins and two G alpha subtypes co-expressed in the molluscan rahbdomeric photoreceptor.
BMC Biol 21, 291 (2023).
44. *Matsuo R, Kotoh, S, Takishita K, Sakamoto K, Uebi T, Ozaki M, Matsuo Y, Nishi T.
Opsins in the cephalic and extracephalic photoreceptors in the marine gastropod Onchidium verruculatum.
Biol Bull 243, 339-352 (2022).
43. *Nishi T, Sakamoto K, and Matsuo R.
Compensation mechanism for membrane potential against hypoosmotic stress in the Onchidium neuron.
Comp Biochem Physiol A 274, 111298 (2022).
42. *Matsuo R, and Matsuo Y.
Regional expression of neuropeptides in the retina of the terrestrial slug Limax valentianus (Gastropoda, Stylommatophora, Limacidae).
J Comp Neurol 530, 1551-1568 (2022).
41. Yamanaka A, Kobayashi S, Matsuo Y, and *Matsuo R.
FxRIamide regulates the oscillatory activity in the olfactory center of the terrestrial slug Limax.
Peptides 141, 170541 (2021).
40. Matsuo Y, Nishiyama H, and *Matsuo R.
Integration of ocular and non-ocular photosensory information in the brain of the terrestrial slug Limax.
J Comp Physiol A 206, 907-919 (2020).
39. *Matsuo R, Kobayashi S, Furuta A, Osugi T, Takahashi T, Satake H, and Matsuo Y.
Distribution and physiological effect of enterin neuropeptides in the olfactory centers of the terrestrial slug Limax.
J Comp Physiol A 206, 401-418 (2020).
38. Nishiyama H, Nagata A, Matsuo Y, and *Matsuo R.
Light avoidance by non-ocular photosensing system in the terrestrial slug Limax valentianus.
J Exp Biol jeb208595 (2019).
37. *Matsuo R, Koyanagi M, Nagata A, and Matsuo Y.
Co-expression of opsins in the eye photoreceptors of the terrestrial slug Limax valentianus.
J Comp Neurol 527, 3073-3086 (2019).
36. Matsuo Y, Yamanaka A, and *Matsuo R.
RFamidergic neurons in the olfactory centers of the terrestrial slug Limax.
Zoological Lett 4, 22 (2018).
35. Fujisaki Y, and *Matsuo R.
Context-dependent passive avoidance learning in the terrestrial slug Limax.
Zool Sci 34, 532-537 (2017).
34. *Matsuo R, Takatori Y, Hamada S, Koyanagi M, and Matsuo Y.
Expression and light-dependent translocation of beta-arrestin in the visual system of the terrestrial slug Limax valentianus.
J Exp Biol 220, 3301-3314 (2017).
33. Suenaga Y, and *Matsuo R.
Length of memory retention period depends on the extent of protein synthesis inhibition in the terrestrial slug Limax.
Neurosci Lett 630, 222-227 (2016).
32. *Matsuo R, Tanaka M, Fukata R, Kobayashi S, Aonuma H, and Matsuo Y.
Octopaminergic system in the central nervous system of the terrestrial slug Limax.
J Comp Neurol 524, 3849-3864 (2016).
31. Koga Y, Matsuo Y, and *Matsuo R.
Olfactory memory storage and/or retrieval requires the presence of the tentacle that was used during acquisition of that memory in the terrestrial slug Limax.
Zool Sci 33, 78-82 (2016).
30. *Matsuo R, Fukata R, Kumagai M, Kobayashi S, Kobayashi A, and Matsuo Y.
Distribution and modulatory effect of histaminergic neurons on the oscillatory activity in the olfactory center of the terrestrial slug Limax.
J Comp Neurol 524, 119-135 (2016).
29. Matsuo Y, Uozumi N, and *Matsuo R.
Photo-tropotaxis based on projection through the cerebral commissure in the terrestrial slug Limax.
J Comp Physiol A 200, 1023-1032 (2014).
28. *Matsuo R, Kobayashi S, Wakiya K, Yamagishi M, Fukuoka M, and Ito E.
The cholinergic system in the olfactory center of the terrestrial slug Limax.
J Comp Neurol 522, 2951-2966 (2014).
27. *Matsuo R, Yamagishi M, Wakiya K, Tanaka Y, and Ito E.
Target innervation is necessary for neuronal polyploidization in the terrestrial slug Limax.
Dev Neurobiol 73, 609-620 (2013).
26. *Ito E, Matsuo R, and Okada R.
Involvement of nitric oxide in memory formation in microbrains.
Neurosci Lett 541, 1-3 (2013).
25. Yamagishi M, Ito E, and *Matsuo R.
Whole genome amplification in large neurons in the terrestrial slug Limax.
J Neurochem 122, 727-737 (2012).
24. *Kobayashi S, Matsuo R, Sadamoto H, Watanabe S, and Ito E.
Excitatory effects of GABA on procerebrum neurons in a slug.
J Neurophysiol 108, 989-998 (2012).
23. *Matsuo R, Yamagishi M, and Ito E.
Analysis of DNA endoreplication in the brain neurons in the terrestrial slug Limax valentianus.
Acta Biol Hung 63 (suppl. 2) 171-178 (2012).
22. *Matsuo R, Kobayashi S, Morishita F, and Ito E.
Expression of Asn-d-Trp-Phe-NH2 in the brain of the terrestrial slug Limax valentianus.
Comp Biochem Physiol B 160, 89-93 (2011).
21. Yamagishi M, Ito E, and *Matsuo R.
DNA endoreplication in the brain neurons during body growth of an adult slug.
J Neurosci 31, 5596-5604 (2011).
20. Matsuo R, Kobayashi S, Yamagishi M, and *Ito E.
Two pairs of tentacles and a pair of procerebra in Pulmonata: optimized functions and redundant structures in the sensory and central organs involved in olfactory learning of terrestrial pulmonates.
J Exp Biol 214, 879-886 (2011). <review article>
19. *Matsuo R, and Ito E.
Spontaneous regeneration of the central nervous system in gastropods.
Biol Bull 221, 35-42 (2011). <review article>
18. *Kobayashi S, Hattori M, Elekes K, Ito E, and Matsuo R.
FMRFamide regulates oscillatory activity of the olfactory center in the slug.
Eur J Neurosci 32, 1180-1192 (2010).
17. *Matsuo R, Kobayashi S, Tanaka Y, and Ito E.
Effects of tentacle amputation and regeneration on the morphology and activity of the olfactory center of the terrestrial slug Limax valentianus.
J Exp Biol 213, 3144-3149 (2010).
16. *Matsuo R, Kawaguchi E, Yamagishi M, and Ito E.
Unilateral memory storage in the terrestrial slug Limax.
Neurobiol Learn Mem 93, 337-342 (2010).
15. *Matsuo R, Kobayashi S, Murakami J, and Ito E.
Spontaneous recovery of the injured higher olfactory center in the terrestrial slug Limax.
PLoS one 5, e9054 (2010).
14. *Matsuo R, and Ito E.
A novel nitric oxide synthase expressed specifically in the olfactory center.
Biochem Biophys Res Commun 386, 274-278 (2009).
13. *Matsuo R, Kobayashi S, Watanabe S, Namiki S, Iinuma S, Sakamoto H, Hirose K, and Ito E.
Glutamatergic neurotransmission in the procerebrum (olfactory center) of a terrestrial mollusk.
J Neurosci Res 87, 3011-3023 (2009).
12. *Matsuo R, Misawa K, and Ito E.
Genomic structure of nitric oxide synthase in the terrestrial slug is highly conserved.
Gene 415, 74-81 (2008).
11. Yamagishi Y, Ito E, and *Matsuo R.
Redundancy of olfactory sensory pathways for odor-aversion memory in the terrestrial slug Limax valentianus.
J Exp Biol 211, 1841-1849 (2008).
10. *Matsuo R, and Ito E.
Recovery of learning ability after the ablation of the procerebrum in the terrestrial slug Limax valentianus.
Acta Biol Hung 59 (suppl.) 73-76 (2008).
9. Kasai Y, Watanabe S, Kirino Y, and *Matsuo R.
The procerebrum is necessary for odor-aversion learning in the terrestrial slug Limax valentianus.
Learn Mem 13, 482-488 (2006).
8. Kataoka M, Kuwahara R, Matsuo R, Sekiguchi M, Inokuchi K, and *Takahashi M.
Development- and activity-dependent regulation of SNAP-25 phosphorylation in rat brain.
Neurosci Lett 407, 258-262 (2006).
7. Fukunaga S, *Matsuo R, Hoshino S, and Kirino Y.
A novel kruppel-like factor is induced by neuronal activity and by sensory input in the central nervous system of the terrestrial slug Limax valentianus.
J Neurobiol 66, 169-181 (2006).
6. Yasui K, Matsuo R, and *Kirino Y.
Onset of amnesia is delayed with a decrease in inhibition of protein synthesis during odor-taste associative learning in the terrestrial slug Limax valentianus.
Zool Sci 21, 1163-1166 (2004).
5. Matsuo R, Hitomi T, Watanabe S, and *Kirino Y.
Delayed-onset amnesia caused by protein synthesis inhibition in odor-taste associative memory of the terrestrial slug Limax valentianus.
Neurosci Lett 334, 201-205 (2002).
4. Matsuo R, Asada A, Fujitani K, and *Inokuchi K.
LIRF, a gene induced during hippocampal long-term potentiation as an immediate-early gene, encodes a novel RING finer protein.
Biochem Biophys Res Commun 289, 479-484 (2001).
3. Yamazaki M, Matsuo R, Fukazawa Y, Ozawa F, and *Inokuchi K.
Regulated expression of an actin-associated protein, synaptopodin, during long-term potentiation.
J Neurochem 79, 192-199 (2001).
2. Matsuo R, Murayama A, Saitoh Y, Sakaki Y, and *Inokuchi K.
Idetification and cataloging of genes induced by long-lasting long-term potentiation in awake rats.
J Neurochem 74, 2239-2249 (2000).
1. Matsuo R, Kato A, Sakaki Y, and *Inokuchi K.
Cataloging altered gene expression during hippocampal long-term potentiation by means of differential display.
Neurosci Lett 244, 173-176 (1998).