REFERENCES
- Page DL, Andersen TJ. Diagnostic Histopathology of the Breast. Edinburgh: Churchill Livingstone; 1987: 198–210.
- Javaram G, Swain M, Chew MT, YLP CH Moosa F. Cytology of mucinous carcinoma of breast: report of 28 cases with histological correlation. Malays J Pathol. 2000; 22: 65–71.
- Georgiev Ch, Damianov D, Iliev J, Todorov T, Boshnakova Ts. Mucinous breast carcinomas with neuroendocrine differentiation. Khirurgiia (Sofia). 1999; 55: 22–40.
- Chen WY, Chen CS, Chen HC, Hung YJ, Chu JS. Mucinous cystadenocarcinoma of the breast coexisting with infiltrating ductal carcinoma. Pathology. 2004; 54: 781–786.
- Ng WK. Mammary mucinous carcinoma with marked cytoplasmic hyalinization: a report of 2 cases with emphasis on fine needle aspiration cytological findings. Acta Cytol., 2003, 47: 1045–1049.
- O’Farrell PH. High resolution two dimensional electrophoresis of proteins. J Biol Chem. 1985; 250: 4007–4021.
- Hochstrasser DF, Harrington MG, Hochstrasser AC, Miller M. J, Maril, CR. Methods for increasing the resolution of two-dimensional protein electrophoresis. Anal Biochem. 1988; 173: 424–435.
- Ramagli L.S, Rodriguez L.V. Quantitation of microgram amounts of proteins in two-dimensional polyacrylamide gel electrophoresis sample buffer. Electrophoresis. 1985; 6: 559–563.
- Gros CM, Girardie J. Aspect histochemique et ultrastructure d’ un cancer mucipare mammaire chez la femme. Bull Cancer. 1967; 54: 225–246.
- Sykes JA, Recher L, Jernstrom PH, et al.. Morphological investigation of human breast cancer. J Nat Cancer Inst. 1968; 40: 195–223.
- Michalak M. et al. Calretuculin: one protein, one gene, many functions. Biochem J. 1999; 344: 281–292.
- Tellem M, Nedwich PS, et al. Mucin producing carcinoma of the breast: tissue culture, histochemical and electron microscopic study. Cancer. 1966; 19: 573–584.
- Adsay NV, Merati K, Nassar H, et al. Pathogenesis of colloid (pure mucinous) carcinoma of exocrine organs: coupling of gel-forming mucin (MVC2) production with altered cell polarity and abnormal cell–stroma interaction may be the key factor in the morphogenesis and indolent behaviour of colloid carcinoma in the breast and pancreas. Am J Surg Pathol. 2003; 27: 571–578.
- Krause K-H., Michalak M. Calreticulin. Cell. 1997; 88: 439–443.
- Michalak M, Robert JM, Opas M. Ca2+ signaling and calcium binding chaperones of the endoplasmic reticulum. Cell Calcium. 2002; 32: 269–278.
- Brünagel C, Shah U, Schoen RE, Getzenberg RH. Identification of calreticulin as a nuclear matrix protein associated with human colon cancer. J Cell Biochem. 2003; 89: 238–243.
- Powis G, Mustacich D, Coon A. The role of the redox protein thioredoxin in cell: growth and cancer. Free Radic Biol Med. 2000; 29: 312–322.
- Hirota K, Murata M, Sachi Y., et al. Distinct roles of thioredoxin in the cytoplasm and in the nucleus. J Biol Chem. 1999; 274: 27891–27897.
- Matsutani Y, Yamauchi A, Takahashi R., et al. Inverse correlation of thioredoxin expression with estrogen receptor- and p53-dependent tumour growth in breast cancer tissues. Clin Cancer Res. 2001; 7: 3430–3436.
- Gallegos A, Gasdaska JR, Taylor CW., et al. Transfection with human thioredoxin increases cell proliferation and dominant negative mutant thioredoxin reverses the transformed phenotype of human breast cancer cells. Cancer Res. 1996; 56: 5765–5770.