Candida Deves scite author profile

The E-twenty-six (ETS) family of transcription factors is known to act as positive or negative regulators of the expression of genes that are involved in diverse biological processes, including those that control cellular proliferation, differentiation, hematopoiesis, apoptosis, metastasis, tissue remodeling, and angiogenesis. Identification of target gene promoters of normal and oncogenic transcription factors provides new insights into the regulation of genes that are involved in the control of normal cell growth and differentiation. The aim of the present investigation was to analyze the differential expression of 11 ETS (ELF-3, ESE3, ETS1, ETV3, ETV4, ETV6, NERF, PDEF, PU1, Spi-B, and Spi-C) as potential markers for prognostic of colorectal cancer. A series of paired tissue biopsies consisting of a tumor and a non-affected control sample were harvested from 28 individuals suffering from diagnosed colorectal lesions. Total RNA was isolated from the samples, and after reverse transcription, differential expression of the select ETS was carried out through real-time polymerase chain reaction. Tumor staging as determined by histopathology was carried out to correlate the degree of tumor invasiveness with the expression of the ETS genes. The results demonstrated a different quantitative profile of expression in tumors and normal tissues. ETV4 was significantly upregulated with further increase in the event of lymph node involvement. PDEF and Spi-B presented downregulation, which was more significant when lymph node involvement was present. These findings were supported by immunohistochemistry of tumoral tissues. The results suggest that select ETS may serve as potential markers of colorectal cancer invasiveness and metastasis.

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Real time PCR quantification of viable Mycobacterium tuberculosis from sputum samples treated with propidium monoazide

Assuncao

Batista

Deves

et al. 2014

Tuberculosis

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The kinetic mechanism of Human Thymidine Phosphorylase – a molecular target for cancer drug development

et al. 2014

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Human Thymidine Phosphorylase (HTP), also known as the platelet-derived endothelial cell growth factor (PD-ECGF) or gliostatin, catalyzes the reversible phosphorolysis of thymidine (dThd) to thymine and 2-deoxy-α-d-ribose-1-phosphate (2dR1P). HTP is a key enzyme in the pyrimidine salvage pathway involved in dThd homeostasis in cells. HTP is a target for anticancer drug development as its enzymatic activity promotes angiogenesis. Here, we describe cloning, expression, and purification to homogeneity of recombinant TYMP-encoded HTP. Peptide fingerprinting and the molecular mass value of the homogenous protein confirmed its identity as HTP assessed by mass spectrometry. Size exclusion chromatography showed that HTP is a dimer in solution. Kinetic studies revealed that HTP displayed substrate inhibition for dThd. Initial velocity and isothermal titration calorimetry (ITC) studies suggest that HTP catalysis follows a rapid-equilibrium random bi-bi kinetic mechanism. ITC measurements also showed that dThd and Pi binding are favorable processes. The pH-rate profiles indicated that maximal enzyme activity was achieved at low pH values. Functional groups with apparent pK values of 5.2 and 9.0 are involved in dThd binding and groups with pK values of 6.1 and 7.8 are involved in phosphate binding.

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Purine nucleoside phosphorylase activity and expression are upregulated in sites affected by periodontal disease

Batista

Deves

Ayub

et al. 2010

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Plasmodium falciparum purine nucleoside phosphorylase as a model in the search for new inhibitors by high throughput screening

Holanda

Deves

Moreira-Dill

et al. 2020

International Journal of Biological Macromolecules

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Candida Deves

Analysis of select members of the E26 (ETS) transcription factors family in colorectal cancer

Real time PCR quantification of viable Mycobacterium tuberculosis from sputum samples treated with propidium monoazide

The kinetic mechanism of Human Thymidine Phosphorylase – a molecular target for cancer drug development

Purine nucleoside phosphorylase activity and expression are upregulated in sites affected by periodontal disease

Plasmodium falciparum purine nucleoside phosphorylase as a model in the search for new inhibitors by high throughput screening

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