Authors: Yulia Irnidayanti, Win Darmanto, Agus Abadi

Abstract:

research goal was to determine the expression levels cDNA of brain embrio at gestation days 10 (GD-10). The Electroforesis DNA results showed that GAPDH, Fibronectin1, Ncam1, Tenascin, Vimentin, Neurofilament heavy, Neurofilament medium and Neurofilament low were 447 bp, 462 bp, 293 bp. 416 bp, 327 bp, 301 bp, 398 bp and 289 bp. Result of real-time RT-PCR on brain Embryo at gestation days 10 showed that the expression of copy gen Fibronectin 36 copies, Ncam 21,708 copies; Tenascin 24,505 copies; Vimentin 538,554 copies; Neurofilament heavy 2,419 copies; Neurofilament medium 92,928 copies; Neurofilament low 125,809 copies. Vimentin expressed gene copies is very high compared with other gene copies. This condition are caused by Vimentin, that contribute to proliferate of brain development. The vimentin role to cell proliferation of brain.

Keywords: GAPDH, Fibronectin, Ncam, Tenascin, vimentin, Neurofilamen heavy, Neurofilament medium, Neurofilamen low.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1061545

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References:

[1] O. A.H.Zisch., D-Alessandri, L., Ranscht, L., Falchetto, R., winterhakter, K.H., and Vaughan, L., Neuronal Cell Adhesion Molecule Caontactin F11 Binds to Tenascin Via Its Immunoglobulin-like Domains, The Journal of Cell Biology, 119:203-213, 1992.
[2] L. Bonfanti, PSA-NCAM in mammalian structural Plasticity and neurogenesis, Progress in Neurobi-logy,vol. 80, pp 129-164, 2006.
[3] Kolkova, K., Biosynthesis of NCAM, Neurochem Res (Review Article), 2008.
[4] Götz,B.,Scholze,A.,Clement, A.,Joester., A,Schutte., K.,Wigger, F.,Frank, R., Spiess, E., Ekblom, P.,and Kaissner, A., Tenascin-C Contain distinct Adhesive and Neurite Outgrowth Promoting Site for Neuron, The Journal of Cell Biology, vol. 132, pp. 681-699, 1996.
[5] Yoshida, T and Takechi, M. Expression of fibronectin and laminin by different type of mouse glial cells cultured in a serum-free medium, Cytotechno-logy, vol.7, pp. 187-196. 1991.
[6] Oudega, M., and Marani, E., Expression of vimentin and glial fibrillary acidic protein in the developing rat spinal cord: an immunocytochemical study of the spinal cord glial system, J. Anat, Vol. 179, pp. 97-114. 1991.
[7] Liu, Q., Xieb,F.,Siedlak,S.L., Nunomurac,A., Honda, K., Moreiraa,P.I., Zhua, X., Smitha, M.A. and Perrya, G.,Neurofilament proteins in neurodegenerative diseases,(Reviw Cell Mol), Life Sci, Vol. 61, pp. 3057-3075. 2004.
[8] Rugh, R.,The Mouse:Its Reproduction and Development. Burgess Publishing Company, Minneapolis,1968.
[9] Bustin, S., absolute Quantification of mRNA Using Real Time Reverse Transcription Polymerase Chain reaction assays. Journal of Molecular Endocrinology, Vol. 25, pp. 169-193, 2000.
[10] Stewart, G. R., and Pearlman, A. L., Fibronectin-Like Immunoreactivity in the developing cerebral Cortex, Journal of Neuroscience, Vol. 7, pp. 3325-333, 1987.
[11] Sheppard, A. M., Brunstrom, J. E., Thornton, T.N., Gerfen, R. W., Broekelmann., T. J., Neuronal Production of Fibronectin in the Cerebral Cortex during Migration and Layer Formation Is Unique to Specific Cortical Domains, Developmental Biology, Vol. 172, pp. 504-518,1995.
[12] Schnitzer, J., Werner,W., Franke and Schachner M., Immunocytochemical Demonstration of Vimentin in Astrocytes and Ependymal Cells of Developing and Adult Mouse Nervous System, The journal of cell Biology, vol.90, 1981.
[13] Sarnat,H.B,Vimentin Immunohistovchemistry in Human Fetal Brain: Methods of standard Incubation versus Thermal Intesification Achieve Diffrernt Objectives. Pediatric and Developmental Pathology, pp. 222- 229. 1998.
[14] Stagaard, M. and M├©llgard, K., The developing Neuro-epithelium in human embryionic and fetalbrain studied with vimentin immunocytochemistry, J. Anatomy and Embryology, Vol. 180, pp. 17-28, 2004.