Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: EC:5.99.1.2 (
topoisomerase
)
9,166
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The expression of the catalytic subunit of telomerase protein (human telomerase reverse transcriptase [hTERT]), which is associated with telomerase activity, was evaluated as a potential marker of the high-grade premalignant cervical intraepithelial neoplasia (CIN 2/3) lesions. For comparison, cases of normal cervical squamous mucosa, low-grade CIN1 lesion, and cervical squamous cell carcinoma were included. The hTERT expression was also compared with Ki-67 and
topoisomerase
II-alpha (TPII-alpha) to determine the proliferative activity of the hTERT-positive dysplastic cells by a quantitative immunohistochemical staining method and was classified as follows: negative, 5% or less; moderate, 6% to 50%; or high, greater than 50% of the positive cells. The hTERT-positive cells were detected in a patchy pattern in the lower parabasal layers and in much of the basal layer in normal squamous mucosa. A similar frequency of Ki-67- or TPII-alpha-positive cells was observed, with the exception of the basal layer cells that were mostly negative. It is worthy to note that the recognizable intact basal layer cells in cases of
CIN
lesions were also consistently positive for the expression of hTERT, but rarely for Ki-67 or TPII-alpha. The expression of hTERT was detected in a less patchy pattern at a high or moderate percentage of the dysplastic epithelial cells each in 28.5% of cases of CIN1 lesions. A similar frequency, high and moderate percentage combined, of the TPII-alpha-positive dysplastic cell was also observed. In contrast, a high percentage of the hTERT-positive dysplastic cells were detected as diffuse basal or full-length thickness in 87.5% or 95% of cases of CIN2 or CIN3, respectively. A similar frequency of Ki-67 or TPII-alpha expression was observed in the dysplastic cells of CIN3 lesions. The pattern of hTERT-positive malignant cells in squamous cell carcinoma and dysplastic cells in the high-grade
CIN
lesions, to a greater extent, and dysplastic cells in the low-grade
CIN
lesion, to a lesser extent, was distinct from that of the normal cervical squamous mucosa. The results suggest that the progressive increase in the hTERT expression, together with the proliferative activity of the dysplastic epithelial cells of the high-grade
CIN
lesions, represents an early genetic abnormality in cervical pathogenesis.
...
PMID:Telomerase and markers of cellular proliferation are associated with the progression of cervical intraepithelial neoplasia lesions. 1758 1
The back-to-back geometry of sister kinetochores is essential in preventing loss or damage of chromosomes during mitosis. Kinetochore orientation is generated in part by a process of resolving kinetochores at the centromere (centromere resolution) prior to spindle interactions. Because few of the genes required for centromere resolution are known, we used Caenorhabditis elegans to screen for conditional mutants defective in orienting sister kinetochores during mitosis. C. elegans is ideal for such screens because its chromosomes are holocentric. Here we identified an essential gene, cin-4, required for centromere resolution and for removal of cohesin from sites near sister kinetochores during mitosis. Given that compromised cohesin function restores centromere resolution in the absence of cin-4,
CIN
-4 likely acts to remove cohesin from the CENP-A chromatin enabling centromere resolution.
CIN
-4 has a high amino acid identity to the catalytic domain of
topoisomerase
II, suggesting a partial gene duplication of the C. elegans
topoisomerase
II gene, top-2. Similar to
CIN
-4, TOP-2 is also required for centromere resolution; however, the loss of TOP-2 is phenotypically distinct from the loss of
CIN
-4, suggesting that
CIN
-4 and TOP-2 are
topoisomerase
II isoforms that perform separate essential functions in centromere structure and function.
...
PMID:cin-4, a gene with homology to topoisomerase II, is required for centromere resolution by cohesin removal from sister kinetochores during mitosis. 1820 60
