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Items: 1 to 50 of 61

1.

Emergence of Serotonergic Neurons After Spinal Cord Injury in Turtles.

Fabbiani G, Rehermann MI, Aldecosea C, Trujillo-Cenóz O, Russo RE.

Front Neural Circuits. 2018 Mar 13;12:20. doi: 10.3389/fncir.2018.00020. eCollection 2018.

2.

Spinal Cord Stem Cells In Their Microenvironment: The Ependyma as a Stem Cell Niche.

Marichal N, Reali C, Trujillo-Cenóz O, Russo RE.

Adv Exp Med Biol. 2017;1041:55-79. doi: 10.1007/978-3-319-69194-7_5. Review.

PMID:
29204829
3.

Progenitors in the Ependyma of the Spinal Cord: A Potential Resource for Self-Repair After Injury.

Marichal N, Reali C, Rehermann MI, Trujillo-Cenóz O, Russo RE.

Adv Exp Med Biol. 2017;1015:241-264. doi: 10.1007/978-3-319-62817-2_13. Review.

PMID:
29080030
4.

Gene Expression Profiling in the Injured Spinal Cord of Trachemys scripta elegans: An Amniote with Self-Repair Capabilities.

Valentin-Kahan A, García-Tejedor GB, Robello C, Trujillo-Cenóz O, Russo RE, Alvarez-Valin F.

Front Mol Neurosci. 2017 Feb 7;10:17. doi: 10.3389/fnmol.2017.00017. eCollection 2017.

5.

Purinergic signalling in a latent stem cell niche of the rat spinal cord.

Marichal N, Fabbiani G, Trujillo-Cenóz O, Russo RE.

Purinergic Signal. 2016 Jun;12(2):331-41. doi: 10.1007/s11302-016-9507-6. Epub 2016 Mar 17.

6.

The inner lining of the reptilian brain: a heterogeneous cellular mosaic.

Trujillo-Cenóz O, Marichal N, Rehermann MI, Russo RE.

Glia. 2014 Feb;62(2):300-16. doi: 10.1002/glia.22607. Epub 2013 Dec 8.

PMID:
24317927
7.

Spatial domains of progenitor-like cells and functional complexity of a stem cell niche in the neonatal rat spinal cord.

Marichal N, García G, Radmilovich M, Trujillo-Cenóz O, Russo RE.

Stem Cells. 2012 Sep;30(9):2020-31. doi: 10.1002/stem.1175.

8.

Modulation of gene expression during early stages of reconnection of the turtle spinal cord.

García G, Libisch G, Trujillo-Cenóz O, Robello C, Russo RE.

J Neurochem. 2012 Jun;121(6):996-1006. doi: 10.1111/j.1471-4159.2012.07750.x. Epub 2012 Apr 27.

9.

GABAergic signalling in a neurogenic niche of the turtle spinal cord.

Reali C, Fernández A, Radmilovich M, Trujillo-Cenóz O, Russo RE.

J Physiol. 2011 Dec 1;589(Pt 23):5633-47. doi: 10.1113/jphysiol.2011.214312. Epub 2011 Sep 12.

10.

Cell proliferation and cytoarchitectural remodeling during spinal cord reconnection in the fresh-water turtle Trachemys dorbignyi.

Rehermann MI, Santiñaque FF, López-Carro B, Russo RE, Trujillo-Cenóz O.

Cell Tissue Res. 2011 Jun;344(3):415-33. doi: 10.1007/s00441-011-1173-y. Epub 2011 May 17.

11.

Enigmatic central canal contacting cells: immature neurons in "standby mode"?

Marichal N, García G, Radmilovich M, Trujillo-Cenóz O, Russo RE.

J Neurosci. 2009 Aug 12;29(32):10010-24. doi: 10.1523/JNEUROSCI.6183-08.2009.

12.

Neural reconnection in the transected spinal cord of the freshwater turtle Trachemys dorbignyi.

Rehermann MI, Marichal N, Russo RE, Trujillo-Cenóz O.

J Comp Neurol. 2009 Jul 10;515(2):197-214. doi: 10.1002/cne.22061.

13.

Connexin 43 delimits functional domains of neurogenic precursors in the spinal cord.

Russo RE, Reali C, Radmilovich M, Fernández A, Trujillo-Cenóz O.

J Neurosci. 2008 Mar 26;28(13):3298-309. doi: 10.1523/JNEUROSCI.5736-07.2008.

14.

Sensory processing in the fast electrosensory pathway of pulse gymnotids studied at multiple integrative levels.

Castelló ME, Nogueira J, Trujillo-Cenóz O, Caputi AA.

Comp Biochem Physiol A Mol Integr Physiol. 2008 Nov;151(3):370-80. Epub 2007 Apr 22. Review.

PMID:
17513149
15.

Cytological organization of the central gelatinosa in the turtle spinal cord.

Trujillo-Cenóz O, Fernández A, Radmilovich M, Reali C, Russo RE.

J Comp Neurol. 2007 May 10;502(2):291-308.

PMID:
17348014
16.

Functional and molecular clues reveal precursor-like cells and immature neurones in the turtle spinal cord.

Russo RE, Fernández A, Reali C, Radmilovich M, Trujillo-Cenóz O.

J Physiol. 2004 Nov 1;560(Pt 3):831-8. Epub 2004 Aug 26.

17.

Electrolocation and electrocommunication in pulse gymnotids: signal carriers, pre-receptor mechanisms and the electrosensory mosaic.

Caputi AA, Castelló ME, Aguilera P, Trujillo-Cenóz O.

J Physiol Paris. 2002 Sep-Dec;96(5-6):493-505. Review.

PMID:
14692497
18.

Environment temperature affects cell proliferation in the spinal cord and brain of juvenile turtles.

Radmilovich M, Fernández A, Trujillo-Cenóz O.

J Exp Biol. 2003 Sep;206(Pt 17):3085-93.

19.

Neurogenesis and gliogenesis in the spinal cord of turtles.

Fernández A, Radmilovich M, Trujillo-Cenóz O.

J Comp Neurol. 2002 Nov 11;453(2):131-44.

PMID:
12373779
20.

Electroreception in Gymnotus carapo: pre-receptor processing and the distribution of electroreceptor types.

Castelló ME, Aguilera PA, Trujillo-Cenóz O, Caputi AA.

J Exp Biol. 2000 Nov;203(Pt 21):3279-87.

21.
22.
23.
24.

Glial cells in insect ganglia.

Cantera R, Trujillo-Cenoz O.

Microsc Res Tech. 1996 Oct 15;35(3):285-93.

PMID:
8956275
25.

Monosynaptic connections between primary afferents and giant neurons in the turtle spinal dorsal horn.

Fernández A, Radmilovich M, Russo RE, Hounsgaard J, Trujillo-Cenóz O.

Exp Brain Res. 1996 Mar;108(3):347-56.

PMID:
8801115
26.

The spinal cord of Gymnotus carapo: the electromotoneurons and their projection patterns.

Caputi A, Trujillo-Cenóz O.

Brain Behav Evol. 1994;44(3):166-74.

PMID:
7987665
27.

Immunohistochemical studies on the spinal dorsal horn of the turtle Chrysemys d'orbigny.

Luthman J, Fernández A, Radmilovich M, Trujillo-Cenóz O.

Tissue Cell. 1991;23(4):515-23.

PMID:
1718054
28.

Some aspects of the structural organization of the spinal cord of Gymnotus carapo (Teleostei, Gymnotiformes). I. The electromotor neurons.

Trujillo-Cenoz O, Echague JA, Bertolotto C, Lorenzo D.

J Ultrastruct Mol Struct Res. 1986 Oct-Dec;97(1-3):130-43.

PMID:
3453366
29.

Innervation pattern and electric organ discharge waveform in Gymnotus carapo (Teleostei; Gymnotiformes).

Trujillo-Cenóz O, Echagüe JA, Macadar O.

J Neurobiol. 1984 Jul;15(4):273-81.

PMID:
6090586
30.

The sexual behavior of the robber-fly Mallophora ruficauda Wied. (Asilidae, Asilinae) in normal and experimental conditions.

Tricca G, Trujillo-Cenóz O.

Physiol Behav. 1980 Nov;25(5):627-32. No abstract available.

PMID:
7443823
31.

Development of photoreceptor patterns in the compound eyes of muscoid flies.

Trujillo-Cenóz O, Melamed J.

J Ultrastruct Res. 1978 Jul;64(1):46-62. No abstract available.

PMID:
702633
32.

The fine structure of the eye imagina disks in muscoid flies.

Melamed J, Trujillo-Cenóz O.

J Ultrastruct Res. 1975 Apr;51(1):79-93. No abstract available.

PMID:
805262
33.

Transplanted eyes of dipterans.

Trujillo-Cenóz O, Melamed J.

Naturwissenschaften. 1975 Jan;62(1):42. No abstract available.

PMID:
1134592
34.

The development of the retina-lamina complex in muscoid flies.

Trujillo-Cenóz O, Melamed J.

J Ultrastruct Res. 1973 Mar;42(5):554-81. No abstract available.

PMID:
4121217
35.

Some aspects of the retinal organization of Sympycnus linetaus Loew (Diptera, Dolichopodidae).

Trujillo-Cenóz O, Bernard GD.

J Ultrastruct Res. 1972 Jan;38(1):149-60. No abstract available.

PMID:
5009747
36.

Innervation of the retinal muscles in wolf spiders (Araneae-Lycosidae).

Melamed J, Trujillo-Cenóz O.

J Ultrastruct Res. 1971 May;35(3):359-69. No abstract available.

PMID:
5557680
37.

Spatial distribution of photoreceptor cells in the ommatidia of Periplaneta americana.

Trujillo-Cenóz O, Melamed J.

J Ultrastruct Res. 1971 Feb;34(3):397-400. No abstract available.

PMID:
5546718
38.

Light and electronmicroscope study of one of the systems of centrifugal fibers found in the lamina of muscoid flies.

Trujillo-Cenóz O, Melamed J.

Z Zellforsch Mikrosk Anat. 1970;110(3):336-49. No abstract available.

PMID:
4107147
39.

Some aspects of the structural organization of the medulla in muscoid flies.

Trujillo-Cenóz O.

J Ultrastruct Res. 1969 Jun;27(5):533-53. No abstract available.

PMID:
5803345
40.

Some morphological aspects of the visual system of Hermissenda crassicornis (Mollusca: Nudibranchia).

Stensaas LJ, Stensaas SS, Trujillo-Cenóz O.

J Ultrastruct Res. 1969 Jun;27(5):510-32. No abstract available.

PMID:
5803344
41.

The fine structure of the central cells in the ommatidia of dipterans.

Melamed J, Trujillo-Cenóz O.

J Ultrastruct Res. 1967 Dec 12;21(3):313-34. No abstract available.

PMID:
5587790
42.

The fine structure o the visual system of Lycosa (Araneae: Lycosidae). II. Primary visual centers.

Trujillo-Cenóz O, Melamed J.

Z Zellforsch Mikrosk Anat. 1967;76(3):377-88. No abstract available.

PMID:
5626979
43.

Compound eye of dipterans: anatomical basis for integration--an electron microscope study.

Trujillo-Cenóz O, Melamed J.

J Ultrastruct Res. 1966 Oct;16(3):395-8. No abstract available.

PMID:
5929369
44.

The fine structure of the visual system of Lycosa (Araneae: Lycosidae). I. Retina and optic nerve.

Melamed J, Trujillo-Cenóz O.

Z Zellforsch Mikrosk Anat. 1966;74(1):12-31. No abstract available.

PMID:
5969425
45.

Some aspects of the structural organization of the intermediate retina of dipterans.

Trujillo-Cenóz O.

J Ultrastruct Res. 1965 Aug;13(1):1-33. No abstract available.

PMID:
5840545
46.

Some aspects of the structural organization of the arthropod eye.

Trujillo-Cenóz O.

Cold Spring Harb Symp Quant Biol. 1965;30:371-82. No abstract available.

PMID:
5219488
47.

On the fine structure of the photoreceptor--second optical neuron synapse in the insect retina.

TRUJILLO-CENOZ O, MELAMED J.

Z Zellforsch Mikrosk Anat. 1963;59:71-7. No abstract available.

PMID:
13994380
48.

Electron microscopic observations on the reactional changes occurring in insect nerve fibers after transection.

MELAMED J, TRUJILLO-CENOZ O.

Z Zellforsch Mikrosk Anat. 1963;59:851-6. No abstract available.

PMID:
13934628
49.

Electron microscope observations on the calyces of the insect brain.

TRUJILLO-CENOZ O, MELAMED J.

J Ultrastruct Res. 1962 Dec;7:389-98. No abstract available.

PMID:
13994379
50.

Some aspects of the structural organization of the arthropod ganglia.

TRUJILLO-CENOZ O.

Z Zellforsch Mikrosk Anat. 1962;56:649-82. No abstract available.

PMID:
13922694

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