C1orf41 References: Difference between revisions

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Bianchet MA, Odom EW, Vasta GR, Amzel LM (2002). A novel fucose recognition fold involved in innate immunity. ''Nature Structural Biology'' 9: 628-634
Arrigo, A. (2005). In search of the molecular mechanism by which small stress proteins counteract apoptosis during cellular differentiation. ''Journal of Cellular Biochemistry''. 94: 241-246.


Bellyei, S., Szigeti, A., Pozsgai, E., Boronkai, A., Gomori, E., Hocsak, E., Farkas, R., Sumegi, B., Gallyas, F. (2007). Preventing apoptooic cell death by a novel heat shock protein. Eur J Cell Biol. 86(3):161-171.


Bohn H, Winckler W (1991). Isolation and characterization of five new soluble placental tissue protein. ''Arch Gynecol Obstet'' 248: 111-115
Baumgartner, S., Hofmann, K., Chiquet-Ehrismann, R., Butcher, P. (1998). The discoidin family revisited: new members from prokaryotes and homology-based fold prediction. ''Protein Science''. 7: 1626-1631.


Concannon, C.G., and Samali, A. 2003. On the role of Hsp27 in regulating apoptosis. Apoptosis. 8: 61-70.


Kang, S.H., Fung, M.A., Gandour-Edwards, R., Reilly, D., Dizon, T., Grahn, J., and Isseroff, R.R. 2004. Heat shock protein 27 is expressed in normal and malignant human. J. Cutan Pathol. 31: 665-671
Bianchet, M.A., Odom, E.W., Vasta, GR, Amzel LM (2002). A novel fucose recognition fold involved in innate immunity. ''Nature Structural Biology''. 9: 628-634


Laskowski, R.A., Watson, J.D., Thornton, J.M. (2005). ProFunc: a server for predicting protein function from 3D structure. Nucleic Acids Research. 2005. 33: w89-w93.


Pozsgai, E., Gomori, E., Szigeti, A., Boronkai, A., Gallyas, F., Bellyei, S. (2007). Correlation between the progressive cytoplasmic expression of a novel small heat shock protein (16.2) and malignancy in brain tumor. BMC cancer. 7:233.
Bellyei, S., Szigeti, A., Pozsgai, E., Boronkai, A., Gomori, E., Hocsak, E., Farkas, R., Sumegi, B., Gallyas, F. (2007). Preventing apoptooic cell death by a novel heat shock protein. ''Eur J Cell Biol''. 86: 161-171.
 
Bellyei, S., Szigeti, A., Boronkai, A., Pozsgai, E., Gomori, E., Melegh, B., Janaky, T., Bognar, Z., Hocsak, E., Sumegi, B., and Gallyas, F. (2007). Inhibition of cell death by a novel 16.2 kD heat shock protein predominantly via Hsp90 mediated lipid rafts stabilization and Akt activation pathway. ''Apoptosis''. 12: 97-112.
 
 
Bohn H., Winckler W. (1991). Isolation and characterization of five new soluble placental tissue protein. ''Arch Gynecol Obstet''. 248: 111-115.
 
 
Hidai H., Kawana M., Kitano H., Kokubun S. (2007). Discoidin domain of Del1 protein contributes to its deposition in the extracellular matrix. ''Cell. Tissue Res.'' 330:83–95.
 
 
Concannon, C.G., Samali, A. (2003). On the role of Hsp27 in regulating apoptosis. ''Apoptosis''. 8: 61-70.
 
 
Dyka, F.M., Wu, W.W., Pfeifer, T.A., Molday, L.L., Grigliatti, T.A., Molday, R.S. (2008). Characterization and purification of the discoidin domain containing protein retinoschisin (RS1) and its interaction with galactose. ''Biochemistry''. 47: 9098-9106.
 
 
Gaskell, A., Crennel, S., Taylor, G. (1995). The three domains of a bacterial sialidase: a β-propeller, an immunoglobulin module and a galactose-binding jelly-roll. ''Structure''. 3: 1197-1205.
 
 
Johnson, J.D., Edman, J.C., Rutter, W. T. (1993). A receptor tyrosine kinase found in breast carcinoma cells has an extracellular discoidin I-like domain. ''Proc. Natl. Acad. Sci''. 90: 5677-5681.
 
 
Kang, S.H., Fung, M.A., Gandour-Edwards, R., Reilly, D., Dizon, T., Grahn, J., Isseroff, R.R. (2004). Heat shock protein 27 is expressed in normal and malignant human. ''J. Cutan. Pathol.''. 31: 665-671
 
 
Karp, G. (1999). ''Cell and molecular biology''. John Wiley & Sons. 2nd ed. Canada. Pp. 678.
 
 
Laskowski, R.A., Watson, J.D., Thornton, J.M. (2005). ProFunc: a server for predicting protein function from 3D structure. ''Nucleic Acids Research.'' 33: w89-w93.
 
 
McRae, T.H. (2000). Structure and function of small heat shock: a-crystallin proteins: established concepts and emerging ideas. ''Cell. Mol. Life Sci.'' 57: 899-913.
 
 
Pozsgai, E., Gomori, E., Szigeti, A., Boronkai, A., Gallyas, F., Bellyei, S. (2007). Correlation between the progressive cytoplasmic expression of a novel small heat shock protein (16.2) and malignancy in brain tumor. ''BMC cancer.'' 7: 233.
 
 
Sriram, M., Osipiuk, J., Freeman, B. C., Morimoto, R.I., Joachimiak, A. (1997). Human Hsp70 molecular chaperone binds two calcium ions within the ATPase domain. ''Structure''. 5: 403-414.
 
 
Sujatha, M.S. and Balaji, P.V. (2004). Identification of common structural features of binding sites in galactose-specific proteins. ''Proteins: Structure, Function, and Bioinformatics''. 55: 44-65.
 
Yue, Y., Lypowy, J., Hedhli, N., and Abdellatif, M. (2004). Ras GTPase-activating protein binds to Akt and is required for its activation. ''J. Bio. Chem.'' 279: 12883-12889.
 


[[Chromosome 1 open reading frame 41|Back to main page]]
[[Chromosome 1 open reading frame 41|Back to main page]]

Latest revision as of 12:03, 14 June 2009

Arrigo, A. (2005). In search of the molecular mechanism by which small stress proteins counteract apoptosis during cellular differentiation. Journal of Cellular Biochemistry. 94: 241-246.


Baumgartner, S., Hofmann, K., Chiquet-Ehrismann, R., Butcher, P. (1998). The discoidin family revisited: new members from prokaryotes and homology-based fold prediction. Protein Science. 7: 1626-1631.


Bianchet, M.A., Odom, E.W., Vasta, GR, Amzel LM (2002). A novel fucose recognition fold involved in innate immunity. Nature Structural Biology. 9: 628-634


Bellyei, S., Szigeti, A., Pozsgai, E., Boronkai, A., Gomori, E., Hocsak, E., Farkas, R., Sumegi, B., Gallyas, F. (2007). Preventing apoptooic cell death by a novel heat shock protein. Eur J Cell Biol. 86: 161-171.

Bellyei, S., Szigeti, A., Boronkai, A., Pozsgai, E., Gomori, E., Melegh, B., Janaky, T., Bognar, Z., Hocsak, E., Sumegi, B., and Gallyas, F. (2007). Inhibition of cell death by a novel 16.2 kD heat shock protein predominantly via Hsp90 mediated lipid rafts stabilization and Akt activation pathway. Apoptosis. 12: 97-112.


Bohn H., Winckler W. (1991). Isolation and characterization of five new soluble placental tissue protein. Arch Gynecol Obstet. 248: 111-115.


Hidai H., Kawana M., Kitano H., Kokubun S. (2007). Discoidin domain of Del1 protein contributes to its deposition in the extracellular matrix. Cell. Tissue Res. 330:83–95.


Concannon, C.G., Samali, A. (2003). On the role of Hsp27 in regulating apoptosis. Apoptosis. 8: 61-70.


Dyka, F.M., Wu, W.W., Pfeifer, T.A., Molday, L.L., Grigliatti, T.A., Molday, R.S. (2008). Characterization and purification of the discoidin domain containing protein retinoschisin (RS1) and its interaction with galactose. Biochemistry. 47: 9098-9106.


Gaskell, A., Crennel, S., Taylor, G. (1995). The three domains of a bacterial sialidase: a β-propeller, an immunoglobulin module and a galactose-binding jelly-roll. Structure. 3: 1197-1205.


Johnson, J.D., Edman, J.C., Rutter, W. T. (1993). A receptor tyrosine kinase found in breast carcinoma cells has an extracellular discoidin I-like domain. Proc. Natl. Acad. Sci. 90: 5677-5681.


Kang, S.H., Fung, M.A., Gandour-Edwards, R., Reilly, D., Dizon, T., Grahn, J., Isseroff, R.R. (2004). Heat shock protein 27 is expressed in normal and malignant human. J. Cutan. Pathol.. 31: 665-671


Karp, G. (1999). Cell and molecular biology. John Wiley & Sons. 2nd ed. Canada. Pp. 678.


Laskowski, R.A., Watson, J.D., Thornton, J.M. (2005). ProFunc: a server for predicting protein function from 3D structure. Nucleic Acids Research. 33: w89-w93.


McRae, T.H. (2000). Structure and function of small heat shock: a-crystallin proteins: established concepts and emerging ideas. Cell. Mol. Life Sci. 57: 899-913.


Pozsgai, E., Gomori, E., Szigeti, A., Boronkai, A., Gallyas, F., Bellyei, S. (2007). Correlation between the progressive cytoplasmic expression of a novel small heat shock protein (16.2) and malignancy in brain tumor. BMC cancer. 7: 233.


Sriram, M., Osipiuk, J., Freeman, B. C., Morimoto, R.I., Joachimiak, A. (1997). Human Hsp70 molecular chaperone binds two calcium ions within the ATPase domain. Structure. 5: 403-414.


Sujatha, M.S. and Balaji, P.V. (2004). Identification of common structural features of binding sites in galactose-specific proteins. Proteins: Structure, Function, and Bioinformatics. 55: 44-65.


Yue, Y., Lypowy, J., Hedhli, N., and Abdellatif, M. (2004). Ras GTPase-activating protein binds to Akt and is required for its activation. J. Bio. Chem. 279: 12883-12889.


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