Add to ORKGp53 is the gene most frequently found mutated in human neoplasias. In the majority of tumors, p53 mutations contribute to the progression towards stages of increasing malignancy with the appearance of an undifferentiated phenotype. Also in thyroid cancerogenesis, p53 mutations correlate with the loss of the differentiated phenotype. The results presented here, suggest a direct involvement of p53 in the molecular mechanisms regulating cellular differentiation in thyroid since a mutated p53 gene markedly affects the growth potential and differentiated functions of the rat thyroid cell line PC Cl 3. Blockage in the expression of the PAX-8 transcription factor seems to be a key event in the loss of thyroid differentiated functions induced by th...
Background: Immunohistochemical expression of the transcription factor Pax-8 in human thyroid diseas...
Despite the uncontested role of p53 in cycle arrest/cell death after cisplatin treatment, to date th...
Tumour suppressor p53 is a transcription factor essential for DNA damage checkpoints during cellular...
p53 is the gene most frequently found mutated in human neoplasias. In the majority of tumors, p53 mu...
Expression of mutated versions of the p53 gene deranged the differentiation program of thyroid cells...
Expression of mutated versions of the p53 gene deranged the differentiation program of thyroid cells...
Alterations of the tumor suppressor gene p53 are uncommon in differentiated thyroid neoplasia but ar...
Using the thyroid as a model of multistep epithelial tumorigenesis, we have used representative cell...
p53 is a well-known nuclear phosphoprotein encoded by a suppressor gene know to be mutated in variou...
Loss of function of p53 is believed to result in transformation through impairment of its properties...
The structural integrity of the p53 gene in a human thyroid-medullary- carcinoma-derived cell line h...
Although p53 mutation is, overall, by far the most frequent somatic genetic abnormality in human can...
Differentiated thyroid carcinomas (in contrast to the rarer anaplastic form) are unusual among human...
Thyroid cancers are common endocrine malignancies that comprise tumors with different clinical and h...
Thyroid tumorigenesis proceeds through the progressive accumulation of alterations in genes involved...
Background: Immunohistochemical expression of the transcription factor Pax-8 in human thyroid diseas...
Despite the uncontested role of p53 in cycle arrest/cell death after cisplatin treatment, to date th...
Tumour suppressor p53 is a transcription factor essential for DNA damage checkpoints during cellular...
p53 is the gene most frequently found mutated in human neoplasias. In the majority of tumors, p53 mu...
Expression of mutated versions of the p53 gene deranged the differentiation program of thyroid cells...
Expression of mutated versions of the p53 gene deranged the differentiation program of thyroid cells...
Alterations of the tumor suppressor gene p53 are uncommon in differentiated thyroid neoplasia but ar...
Using the thyroid as a model of multistep epithelial tumorigenesis, we have used representative cell...
p53 is a well-known nuclear phosphoprotein encoded by a suppressor gene know to be mutated in variou...
Loss of function of p53 is believed to result in transformation through impairment of its properties...
The structural integrity of the p53 gene in a human thyroid-medullary- carcinoma-derived cell line h...
Although p53 mutation is, overall, by far the most frequent somatic genetic abnormality in human can...
Differentiated thyroid carcinomas (in contrast to the rarer anaplastic form) are unusual among human...
Thyroid cancers are common endocrine malignancies that comprise tumors with different clinical and h...
Thyroid tumorigenesis proceeds through the progressive accumulation of alterations in genes involved...
Background: Immunohistochemical expression of the transcription factor Pax-8 in human thyroid diseas...
Despite the uncontested role of p53 in cycle arrest/cell death after cisplatin treatment, to date th...
Tumour suppressor p53 is a transcription factor essential for DNA damage checkpoints during cellular...