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Your search keyword '"Ferjančić, Zorana"' showing total 18 results
Start Over Author "Ferjančić, Zorana" Publisher royal soc chemistry, cambridge
18 results on '"Ferjančić, Zorana"'

1. Total synthesis of (+)-swainsonine and (+)-8-epi-swainsonine

Author

Trajković, Milos, Balanac, Vesna, Ferjančić, Zorana, Saičić, Radomir, Trajković, Milos, Balanac, Vesna, Ferjančić, Zorana, and Saičić, Radomir

Abstract

Enantioselective synthesis of (+)-swainsonine was achieved in 9 steps, with 24% overall yield. The key feature of the synthesis is the tactical combination of reactions: organocatalyzed aldolization/reductive amination, which allows for a rapid construction of highly functionalized heterocyclic systems. In a similar way (+)-8-epi-swainsonine was synthesized (7 steps, 28%). more...

Published
2014

2. Total synthesis of (+)-swainsonine and (+)-8-epi-swainsonine

Author

Trajković, Milos, Balanac, Vesna, Ferjančić, Zorana, Saičić, Radomir, Trajković, Milos, Balanac, Vesna, Ferjančić, Zorana, and Saičić, Radomir

Abstract

Enantioselective synthesis of (+)-swainsonine was achieved in 9 steps, with 24% overall yield. The key feature of the synthesis is the tactical combination of reactions: organocatalyzed aldolization/reductive amination, which allows for a rapid construction of highly functionalized heterocyclic systems. In a similar way (+)-8-epi-swainsonine was synthesized (7 steps, 28%). more...

Published
2014

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3. Supplementary data for article:Trmčić, M.; Matović, R. V.; Tovilović, G.; Ristic, B. Z.; Trajković, V. S.; Ferjančić, Z.; Saičić, R. A Novel C,D-Spirolactone Analogue of Paclitaxel: Autophagy Instead of Apoptosis as a Previously Unknown Mechanism of Cytotoxic Action for Taxoids. Organic and Biomolecular Chemistry 2012, 10 (25), 4933–4942. https://doi.org/10.1039/c2ob25514f

Author

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, and Saičić, Radomir more...

Published
2012

4. Supplementary data for article:Trmčić, M.; Matović, R. V.; Tovilović, G.; Ristic, B. Z.; Trajković, V. S.; Ferjančić, Z.; Saičić, R. A Novel C,D-Spirolactone Analogue of Paclitaxel: Autophagy Instead of Apoptosis as a Previously Unknown Mechanism of Cytotoxic Action for Taxoids. Organic and Biomolecular Chemistry 2012, 10 (25), 4933–4942. https://doi.org/10.1039/c2ob25514f

Author

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, and Saičić, Radomir more...

Published
2012

5. A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids

Author

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, and Saičić, Radomir more...

Abstract

The design, synthesis and biological evaluation of a novel C, D-spirolactone analogue of paclitaxel is described. This is the first paclitaxel analogue without an oxetane D-ring that shows a significant cytotoxic effect (activity one order of magnitude lower than paclitaxel). More importantly, its cytotoxicity is a result of a different mechanism of action, involving mTOR inhibition-dependent autophagy instead of G(2)/M cell cycle arrest-dependent apoptosis. more...

Published
2012

6. Supplementary data for article:Trmčić, M.; Matović, R. V.; Tovilović, G.; Ristic, B. Z.; Trajković, V. S.; Ferjančić, Z.; Saičić, R. A Novel C,D-Spirolactone Analogue of Paclitaxel: Autophagy Instead of Apoptosis as a Previously Unknown Mechanism of Cytotoxic Action for Taxoids. Organic and Biomolecular Chemistry 2012, 10 (25), 4933–4942. https://doi.org/10.1039/c2ob25514f

Author

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, and Saičić, Radomir more...

Published
2012

7. A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids

Author

Trmcic, Milena V., Matović, Radomir, Tovilović, Gordana, Ristic, Biljana Z., Trajković, Vladimir, Ferjančić, Zorana, Saičić, Radomir N., Trmcic, Milena V., Matović, Radomir, Tovilović, Gordana, Ristic, Biljana Z., Trajković, Vladimir, Ferjančić, Zorana, and Saičić, Radomir N. more...

Abstract

The design, synthesis and biological evaluation of a novel C, D-spirolactone analogue of paclitaxel is described. This is the first paclitaxel analogue without an oxetane D-ring that shows a significant cytotoxic effect (activity one order of magnitude lower than paclitaxel). More importantly, its cytotoxicity is a result of a different mechanism of action, involving mTOR inhibition-dependent autophagy instead of G(2)/M cell cycle arrest-dependent apoptosis. more...

Published
2012

8. A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids

Author

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, and Saičić, Radomir more...

Abstract

The design, synthesis and biological evaluation of a novel C, D-spirolactone analogue of paclitaxel is described. This is the first paclitaxel analogue without an oxetane D-ring that shows a significant cytotoxic effect (activity one order of magnitude lower than paclitaxel). More importantly, its cytotoxicity is a result of a different mechanism of action, involving mTOR inhibition-dependent autophagy instead of G(2)/M cell cycle arrest-dependent apoptosis. more...

Published
2012

9. A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids

Author

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, and Saičić, Radomir more...

Abstract

The design, synthesis and biological evaluation of a novel C, D-spirolactone analogue of paclitaxel is described. This is the first paclitaxel analogue without an oxetane D-ring that shows a significant cytotoxic effect (activity one order of magnitude lower than paclitaxel). More importantly, its cytotoxicity is a result of a different mechanism of action, involving mTOR inhibition-dependent autophagy instead of G(2)/M cell cycle arrest-dependent apoptosis. more...

Published
2012

10. Supplementary data for article:Trmčić, M.; Matović, R. V.; Tovilović, G.; Ristic, B. Z.; Trajković, V. S.; Ferjančić, Z.; Saičić, R. A Novel C,D-Spirolactone Analogue of Paclitaxel: Autophagy Instead of Apoptosis as a Previously Unknown Mechanism of Cytotoxic Action for Taxoids. Organic and Biomolecular Chemistry 2012, 10 (25), 4933–4942. https://doi.org/10.1039/c2ob25514f

Author

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, and Saičić, Radomir more...

Published
2012

11. A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids

Author

Trmcic, Milena V., Matović, Radomir, Tovilović, Gordana, Ristic, Biljana Z., Trajković, Vladimir, Ferjančić, Zorana, Saičić, Radomir N., Trmcic, Milena V., Matović, Radomir, Tovilović, Gordana, Ristic, Biljana Z., Trajković, Vladimir, Ferjančić, Zorana, and Saičić, Radomir N. more...

Abstract

The design, synthesis and biological evaluation of a novel C, D-spirolactone analogue of paclitaxel is described. This is the first paclitaxel analogue without an oxetane D-ring that shows a significant cytotoxic effect (activity one order of magnitude lower than paclitaxel). More importantly, its cytotoxicity is a result of a different mechanism of action, involving mTOR inhibition-dependent autophagy instead of G(2)/M cell cycle arrest-dependent apoptosis. more...

Published
2012

12. Supplementary data for article:Trmčić, M.; Matović, R. V.; Tovilović, G.; Ristic, B. Z.; Trajković, V. S.; Ferjančić, Z.; Saičić, R. A Novel C,D-Spirolactone Analogue of Paclitaxel: Autophagy Instead of Apoptosis as a Previously Unknown Mechanism of Cytotoxic Action for Taxoids. Organic and Biomolecular Chemistry 2012, 10 (25), 4933–4942. https://doi.org/10.1039/c2ob25514f

Author

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, and Saičić, Radomir more...

Published
2012

13. A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids

Author

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, and Saičić, Radomir more...

Abstract

The design, synthesis and biological evaluation of a novel C, D-spirolactone analogue of paclitaxel is described. This is the first paclitaxel analogue without an oxetane D-ring that shows a significant cytotoxic effect (activity one order of magnitude lower than paclitaxel). More importantly, its cytotoxicity is a result of a different mechanism of action, involving mTOR inhibition-dependent autophagy instead of G(2)/M cell cycle arrest-dependent apoptosis. more...

Published
2012