2017B

  1. Klepinin A., Zhang S., Vuckovic I., Kaambre T., Macura S., Dzeja P.

    Stable isotope 18O-assisted dynamic phosphometabolomic of adenylate kinase phosphotransfer and nucleotide triphosphate metabolism. (2017). Febs Journal, 284: P.5.4-076(Suppl. 1): p. 371-372.

  2. Truu L., Koit A., Shevchuk I., Ounpuu L., Klepinin A., Chekulayev V., Timohhina N., Tepp K., Puurand M., Heck K., Valvere V., Guzun R., Kaambre T.

    Bioenergetic comparison of human colorectal and breast cancer clinical patients. (2017). FEBS Journal, 284: P.4.1-087(Suppl. 1): p. 282.

  3. Ounpuu L., Klepinin A., Pook M., Teino I., Peet N., Paju K., Tepp K., Timohhina N., Chekulayev V., Shevchuk I., Maimets T., Kaambre T.

    Human embryonal carcinoma stem cells display distinct bioenergetic profile compared to normal embryonic stem cells. (2017). in FEBS Journal, Jerusalem, Israel: Sep, p. 254-255.

  4. Shevchuk I., Koit A., Klepinin A., Ounpuu L., Timohhina N., Tepp K., Chekulayev V., Heck K., Valvere V., Guzun R., Kaambre T.

    Quantitative characterization of mitochondrial respiration in human colorectal cancer clinical material. (2017). in BIT’s 10th Annual World Cancer Congress -2017 (WCC-2017), Barcelona, Spain: 19-21, May 2017, p. 435.

  5. Kaambre T., Chekulayev V., Shevchuk I., Heck K., Truu L., Planken A.

    Alterations in Regulation of Mitochondrial Respiration and Metabolic Fluxes in Human Colorectal Cancer and Surrounding Tissues. (2017). in BIT’s 10th Annual World Cancer Congress -2017 (WCC-2017), Barcelona, Spain: 19-21, May 2017, p. 100#435.

  6. Truu L., Koit A., Chekulayev V., Tepp K., Puurand M., Ounpuu L., Klepinin A., Shevchuk I., Kaambre T.

    Bioenergetic comparison of human colorectal and breast cancer clinical patients. (2017). in 12th Conference on Mitochondrial Physiology. The role of mitochondria in lifestyle and metabolic syndrome – COST MitoEAGLE perspectives, Hradec Králové, Czech Republic: 15-18 November 2017, p. 69-70.

  7. Ounpuu L., Klepinin A., Kaambre T.

    The role of dietary fibers in the energy metabolism of human colon cancer cells. (2017). in 12th Conference on Mitochondrial Physiology. The role of mitochondria in lifestyle and metabolic syndrome – COST MitoEAGLE perspectives, Hradec Králové, Czech Republic: 15-18 November 2017, p. 66-67.

  8. Puurand M., Tepp K., Klepinin A., Kaambre T.

    Cellular phosphotransfer networks as a target of bioenergetic research – methods of oxygraphic study. (2017). in 12th Conference on Mitochondrial Physiology. The role of mitochondria in lifestyle and metabolic syndrome – COST MitoEAGLE perspectives, Hradec Králové, Czech Republic: 15-18 November 2017, p. 64-65.

  9. Klepinin A., Ounpuu L., Guzun R., Chekulayev V., Timohhina N., Tepp K., Shevchuk I., Schlattner U., Kaambre T.

    Novel method to study the role of adenylate kinase network in health and disease. (2017). in 12th Conference on Mitochondrial Physiology. The role of mitochondria in lifestyle and metabolic syndrome – COST MitoEAGLE perspectives, Hradec Králové, Czech Republic: 2017.11.15-18, p. 31-32.

  10. Koit A., Timohhina N., Chekulayev V., Valvere V., Kaambre T.

    Rate of temporal citrate efflux from malignant mitochondria predicts clinical aggressiveness in breast tumors.Cancer Research (2017), 77(13 Supplement): p. LB-268.

  11. Ounpuu L., Klepinin A., Pook M., Teino I., Peet N., Paju K., Tepp K., Chekulayev V., Shevchuk I., Koks S., Maimets T., Kaambre T.

    2102Ep embryonal carcinoma cells have compromised respiration and shifted bioenergetic profile distinct from H9 human embryonic stem cells. Biochim Biophys Acta (2017). 1861(8): p. 2146-2154.

  12. Koit A., Shevchuk I., Ounpuu L., Klepinin A., Chekulayev V., Timohhina N., Tepp K., Puurand M., Truu L., Heck K., Valvere V., Guzun R., Kaambre T.

    Mitochondrial Respiration in Human Colorectal and Breast Cancer Clinical Material Is Regulated Differently. Oxid Med Cell Longev (2017): p. 1–16.

  13. Tepp K., Puurand M., Timohhina N., Adamson J., Klepinin A., Truu L., Shevchuk I., Chekulayev V., Kaambre T.

    Changes in the mitochondrial function and in the efficiency of energy transfer pathways during cardiomyocyte aging.Mol Cell Biochem (2017), 432(1-2): p. 141-158.

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