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Jasmina Kurepa

unavailable

Jasmina Kurepa

Staff

 

Directions to University of Kentucky, Lexington, KYUniversity of Kentucky, PSS
Campus LocationKTRDC
1401 University Drive (Office:104B)
Lexington, KY 40546-0236
Phone(859) 257-5908
Fax(859) 323-1077
Emailjasmina.kurepa@uky.edu

 

Speciality

Molecular Biology: proteolysis, stress and development

 

Education

B.S. University of Belgrade, Yugoslavia (Molecular Biology)

Ph.D. Ghent University, Belgium  (Plant Biotechnology and Genetics)

 

Lab website

http://www.uky.edu/~jasmal3/

 

 

This person page last updated on 2010-10-21



Research/Teaching Publications

    Books and Book Chapters

    Krepa, J., and J. Smalle 2011. Assaying transcription factor stability. Chapter 12, pp. 219-234. IN: L. Yuan and S.E. Perry, eds. Plant Transcription Factors: Methods and Protocols, vol. 754. In Methods in Molecular Biology (J.M. Walker, series ed.), Human Press, New York.
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa J. and J.A. Smalle 2011. Assaying transcription factor stability. In "Plant Transcription Factors: Methods and Protocols", Series: Methods in Molecular Biology, Vol. 754 Yuan, Ling; Perry, Sharyn E. (Eds.) ISBN: 978-1-61779-153-6, Humana Press. Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle

    Refereed Journal Articles

    Kurepa J. and J.A. Smalle 2013. Reversion of the Arabidopsis rpn12a-1 exon-trap mutation by an intragenic suppressor that weakens the chimeric 5’ splice site F1000Research, doi: 10.3410/f1000research.2-60.v1 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa J., Y. Li and J. A.Smalle 2013. Proteasome-dependent proteolysis has a critical role in fine-tuning the feedback inhibition of cytokinin signaling. Plant Signal Behav. 2013 Jan 18;8(3). pii: e23474. [Epub ahead of print] Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle Yan Li
    Kurepa J., S. Wang and J.A. Smalle 2012. The role of 26S proteasome-dependent proteolysis in the formation and restructuring of microtubule networks. Plant Signaling & Behavior, 2012, 7: 1289-1295 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa, J., S. Wang, and J. Smalle. 2012. The role of 26S proteasome-dependent proteolysis in the formation and restructuring of microtubule networks. Plant Signaling and Behavior 7(10): 1289-1295.
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Li Y., J.Kurepa, and J. A.Smalle, 2012. AXR1 promotes the Arabidopsis cytokinin response by facilitating ARR5 proteolysis The Plant Journal, in press Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle Yan Li
    Wang S., Kurepa J., and J.A. Smalle. 2011. Ultra-small TiO2 nanoparticles disrupt microtubular networks in Arabidopsis thaliana. Plant, Cell & Environment, 34: 811-820. Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle Songhu Wang
    Wang S., Kurepa J., Hashimoto T., and J. A. Smalle 2011. Salt stress–induced disassembly of Arabidopsis cortical microtubule arrays involves 26S proteasome–dependent degradation of SPIRAL1 Plant Cell, 23:3412-3427 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle Songhu Wang
    Wang, S., J. Kurepa, and J. Smalle. 2011. Ultra-small TiO2 nanoparticles disrupt microtubular networks in Arabidopsis thaliana. Plant, Cell & Environment 34:811-820.
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Wang, S., J. Kurepa, T. Hashimoto, and J. Smalle. 2011. Salt stress-induced disassembly of Arabidopsis cortical microtubule arrays involves 26S proteasome-dependent degradation of SPIRAL1. The Plant Cell 23:3412-3427.
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa J., C. Karangwa, Sfichi Duke L., and J.A. Smalle 2010. Arabidopsis sensitivity to protein synthesis inhibitors depends on 26S proteasome activity. Plant Cell Reports 29: 249-259 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa J., T. Paunesku, S. Vogt, H. Arora, B.M. Rabatic, J. Lu, M.B. Wanzer, Woloschak G.E. and J.A. Smalle 2010. Uptake and distribution of ultra-small anatase titanium dioxide Alizarin red S nanoconjugates in Arabidopsis thaliana. Nano Letters 10:2296-2302. Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa, J., C. Karangwa, L. S. Duke, and J. Smalle. 2010. Arabidopsis sensitivity to protein synthesis inhibitors depends on 26S proteasome activity. Plant Cell Reports 29:249-259.
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa, J., T. Paunesku, S. Vogt, H. Arora, B.M. Rabatic, J. Lu, M.B. Wanzer, G.E. Woloschak, and J. Smalle. 2010. Uptake and distribution of ultra-small anatase TiO2 Alizarin red S nanoconjugates in Arabidopsis thaliana. Nano Letters 10:2296-2302.
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa J., S. Wang, Y. Li, D. Zaitlin, A.J. Pierce, and J. Smalle. 2009. Loss of 26S proteasome function leads to increased cell size and decreased cell number in Arabidopsis shoot organs. Plant Physiology 150:178-189. Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle Yan Li Songhu Wang
    Kurepa, J., S. Wang, Y. Li, and J. Smalle. 2009. Proteasome regulation, plant growth and stress tolerance. Plant Signaling and Behavior 4:924-927. Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle Yan Li Songhu Wang
    Wang, S., J. Kurepa, and J.A. Smalle 2009. The Arabidopsis 26S proteasome subunit RPN1a is required for optimal plant growth and stress responses. Plant and Cell Physiology 50:1721-1725. Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle Songhu Wang
    Kurepa J. and J. Smalle 2008. Structure, function and regulation of plant proteasomes. Biochimie, 90, 324-335 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa J. and J.A. Smalle 2008. To misfold or to lose structure? Detection and degradation of oxidized proteins by the 20S proteasome. Plant Signaling & Behavior 3: 386-388 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa J., Toh-e A. and J.A. Smalle 2008. 26S proteasome regulatory particle mutants have increased oxidative stress tolerance. The Plant Journal, 53, 102-114 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa, J., A. Toh-e, and J. Smalle. 2008. 26S proteasome regulatory particle mutants have increased oxidative stress tolerance. The Plant Journal 53:102-114.
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa, J., and J. Smalle. 2008. Structure, function, and regulation of plant proteasomes. Biochimie 90:324-335.
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa, J., and J. Smalle. 2008. To misfold or to lose structure? Detection and degradation of oxidized proteins by the 20S proteasome. Plant Signaling and Behavior 3:418-419.
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Saracco S.A., Miller M.J., Kurepa J. and Vierstra R.D. 2007. Genetic analysis of SUMOylation in Arabidopsis: conjugation of SUMO1 and SUMO2 to nuclear proteins is essential. Plant Physiology 2007 145(1):119-34 Publication URL
    Kurepa J., J. M. Walker, J. Smalle, M. M. Gosink, S. J. Davis, T. L. Durham, D. Sung and R. D. Vierstra 2003. The SUMO protein modification system in Arabidopsis: accumulation of SUMO1 and SUMO2 conjugates is increased by stress. Journal of Biological Chemistry, 278, 6862-6872. Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Smalle J., J. Kurepa, P. Yang, T. Emborg, E. Babiychuk, S. Kushnir and R. D. Vierstra 2003. The pleiotropic role of the 26S proteasome subunit RPN10 in Arabidopsis thaliana growth and development supports a substrate-specific function in abscisic acid signaling. The Plant Cell, 15, 965-980. Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Smalle J., J. Kurepa, P. Yang, E. Babiychuk, S. Kushnir, A. Durski and R. D. Vierstra 2002. Cytokinin growth responses in Arabidopsis thaliana involve the 26S proteasome subunit RPN12. The Plant Cell, 14, 17-32 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Doelling J.H., Yan N., Kurepa J., Walker J., Vierstra R.D. 2001. The ubiquitin-specific protease UBP14 is essential for early embryo development in Arabidopsis thaliana. Plant J. 2001 Sep;27(5):393-405. The Plant Journal 2001 27:393-405. Publication URL
    Peng Z., J.M. Staub, Serino G., S.F. Kwok, J. Kurepa , B.D. Bruce, R.D. Vierstra, N. Wei, Deng X.W. 2001. The cellular level of PR500, a protein complex related to the 19S regulatory particle of the proteasome, is regulated in response to stresses in plants. Molecular Biology of the Cell. 2001 12: 383-392 Publication URL
    Davis S.J., J. Kurepa, Vierstra R.D. 1999. The Arabidopsis thaliana HY1 locus, required for phytochrome-chromophore biosynthesis, encodes a protein related to heme oxygenases. Proc Natl Acad Sci USA 96:6541-6546 Publication URL
    Bueno P., Piqueras A., Kurepa J., Savoure A., Verbruggen N., Van Montagu M., Inze D. 1998. Expression of antioxidant enzymes in response to abscisic acid and high osmoticum in tobacco BY-2 cell cultures Plant Science 138:27-34
    Kurepa J., J. Smalle, M. Van Montagu and D. Inzé 1998. Effects of sucrose supply on growth and paraquat tolerance of the late flowering gi 3 mutant. Plant Growth Regulation, 26, 91 96 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa J., J. Smalle, M. Van Montagu and D. Inzé 1998. Polyamines and paraquat toxicity in Arabidopsis. Plant and Cell Physiology 39, 987 992 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa J., J. Smalle, M. Van Montagu and D. Inzé 1998. Oxidative stress tolerance and longevity in Arabidopsis: the late flowering mutant gigantea is tolerant to paraquat. The Plant Journal, 14, 759 764 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Smalle J., J. Kurepa, M. Haegman, J. Gielen, M. Van Montagu and D. Van Der Straeten 1998. The trihelix-binding motif in higher plants is not restricted to the transcription factors GT 1 and GT 2. Proceedings of the National Academy of Sciences of the USA, 95, 3318 3322 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle
    Kurepa J., P. Bueno, K. Kampfenkel, M. VanMontag, M. Vanden Bulcke, Inzé D. 1997. Effects of iron deficiency on iron superoxide dismutase expression in Nicotiana tabacum Plant Physiology & Biochemistry 35: 467-474
    Kurepa J., D. Hérouart, M. Van Montagu, Inzé D. 1997. Differential expression of CuZn- and Fe-superoxide dismutase genes of tobacco during development, oxidative stress, and hormonal treatments. Plant & Cell Physiology 1997 38:463-470 Publication URL
    Kurepa J., M. Van Montagu, Inzé D. 1997. Expression of sodCp and sodB genes in Nicotiana tabacum: effects of light and copper exces Journal of Experimental Botany 48:2007-2014
    Smalle J., M. Haegman, J. Kurepa, M. Van Montagu and D. Van Der Straeten 1997. Ethylene can stimulate Arabidopsis hypocotyl elongation in the light Proceedings of the National Academy of Sciences of the USA, 94, 2756 5761 Publication URL
    Authors in PSS Dept.: Jasmina Kurepa Jan Smalle

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