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Buletinul AŞM. Ştiinţele vieţii. Nr. 2 (317) 2012 Articole de fond the pentatricopeptide repeat- containing gene EMPTY PERICARP-4 affects seed development in maize. / Proceedings of the XLIX Italian Society of Agricultural Genetics Annual Congress, Potenza, Italy, 12e15 September, 2005. 9. Desloire, S. et al. Identifi cation of the fertility restoration locus, Rfo, in radish, as a member of the pentatricopeptide-repeat protein family. 2003, EMBO Rep. 4, 588–594 10. Dill C.L., Wise, R.P., and Schnable, P.S. Rf8 and Rf1 mediate unique T-urf13-transcript accumulation, revealing a conserved motif associated with RNA processing and restoration of pollen fertility in T-cytoplasm maize.// Genetics, 1997, vol. 147, p. 1367–1379. 11. Ding Y.-H., N.-Y. Liu, Z.-S. Tang, J. Liu, W.-C. Yang, Arabidopsis GLUTAMINE- RICH PROTEIN23 is essential for early embryogenesis and encodes a novel nuclear PPR motif protein that interacts with RNA polymerase II subunit III.// Plant Cell 18 (2006) 815- 830. 12. Dominquez E.N., Fick E.N. Fertility restoration of male sterile cytoplasmic in wild sunfl ower. //Crop. Sci., 1975, vol. 15, nr.5, p.724-726. 13. Duca M., Port A., Midoni A., Anisimova I., Rotaru T. Moştenirea genelor Rf la diverse genotipuri de fl oarea-soarelui. // Studia Universitatis. Seria Ştiinte ale naturii, 2010, nr. 1 (31), p. 5-9. 14. Duca M.V. Aspecte genetice şi fi ziologice ale sistemului ASC-Rf la fl oareasoarelui (Helianthus annuus L.). Autoreferatul tezei de doctor habilitat în biologie, Chişinău, 1998, 40 p. 15. Feng J., Jan C., Introgression and molecular tagging of Rf4, a new male fertility restoration gene from wild sunfl ower Helianthus maximiliani L. //Theor. Appl.Genet., 2008, vol. 117, p.241–249. 16. Gagliardi D., Leaver C.J. Polyadenylation accelerates the degradation of the mitochondrial mRNA associated with CMS in sunfl ower.// EMBO J., 1999, vol. 18, p. 3757–3766. 17. Gothandam K.M., E.-S. Kim, H. Cho, Y.-Y. Chunh, OsPPR1, a pentatricopeptide repeat protein of rice is essential for the chloroplast biogenesis, Plant Mol. Biol. 58 (2005) 421-433. 18. Hanson, M.R.. Plant mitochondrial mutations and male sterility. //Annu. Rev. Genet. 25, 1991, 461–486. 19. Hanson, M.R., and Folkerts, O. Structure and function of the higher-plant mitochondrial genome. //Int. Rev. Cytol. 141, 1992, 129–172. 20. Hanson, M.R., Bentolila. // Plant Cell 16, 2004, p. 154–169 21. Hattori M., M. Hasebe, M. Sugita, Identifi cation and characterization of cDNA’s encoding pentatricopeptide repeat proteins in the basal land plant, the moss Physcomitrella patens. // Gene 22 (2004) 305-311. 22. Horn R, Kohler R.H., Lossl A., Krauter R. Development and molecular characterization of alloplasmatic CMS in Helianthus annuus. In: Kuck U, Wricke G. (eds) Advances in plant breeding, 1995, 18, 89-110. 23. Horn R. et al. Molecular mapping of the Rf 1 gene restoring pollen fertility in PET1based F1 hybrids in sunfl ower. //Theor. Appl. Genet., 2002, vol. 106, p. 599-606. 24. Horn R. Molecular diversity of male sterility inducing and male-fertile cytoplasms in the genus Helianthus. //Theor. Appl. Genet., 2002, vol. 104, p. 562-570. 25. Horn R., Friedt W. CMS sources in sunfl ower different in origin but the same mechanism?// Theor. Appl. Genet., 1999, 98,195–201. 26. Jan C.C., Vick B.A. Inheritance and alelic relationships of fertility restoration genes for seven new sources of male-sterile cytoplasm in sunfl ower. //Plant Breeding., 2007. vol.126, p. 213-217. 27. Janska, H., Sarria, R., Woloszynska, M., Arrieta-Montiel, M., Mackenzie, S.A. Stoichiometric shifts in the common bean mitochondrial genome lead to male sterility and spontaneous reversion to fertility. //Plant Cell., 1998, vol. 10, p.1163–1180. 35
Buletinul AŞM. Ştiinţele vieţii. Nr. 2(317) 2012 Articole de fond 28. Kinman M.L. New developments in the USDA and state experiment station sunfl ower breeding proghrams. /Proc.Fourth Int. Sunfl ower Conference. U.S.A., Memphis Tennessee, 1970, p. 181-183. 29. Klein R.R., P.E. Klein, J.E. Mullet, P. Minx, W.L. Rooney, Schertz K.F., Fertility restorer locus Rf1 of sorghum (Sorghum bicolor L.) encodes a pentatricopeptide repeat protein not present in the colinear region of rice chromosome 12. // Theor. Appl. Genet. 111 (2005) 994-1012. 30. Koizuka N. Genetic characterization of a pentatricopeptide repeat protein gene, orf687, that restores fertility in the cytoplasmic male-sterile kosena radish. //Plant J., 2003, vol. 34, p. 407–415. 31. Leclercq P. Une sterilite male utilisable pour la production d’hybrides simples de tournesol. //Ann. Amelior. Pl., 1966, vol. 18, p. 307-315. 32. Li X.Q. Jean, M., Landry, B.S., Brown, G.G. Restorer genes for different forms of Brassica cytoplasmic male sterility map to a single nuclear locus that modifi es transcripts of several mitochondrial genes. //Proc. Nat. Acad. Sci. USA, 1998, vol. 95, p. 10023–10037. 33. Linke B., Nothnagel T., Borner T. Flower development in carrot CMS plants: Mitochondria affect the expression of MADS box genes homologous to GLOBOSA and <strong>DE</strong>FICIENS. //Plant J., 2003, vol. 34, p. 27–37. 34. Liu F. et al. (2001) Mitochondrial aldehyde dehydrogenase activity is required for male fertility in maize. Plant Cell 13, 1063–1078 35. Lurin C., C. Andre´s, S. Aubourg, M. Bellaoui. Genome-wide analysis of Arabidopsis pentatricopeptide repeat (PPR) proteins reveals their essential role in organelle biogenesis. // Plant Cell 16 (2004) 2089-2103. 36. Martinez-Zapater, J.M., Gil, P., Capel, J., and Somerville, C.R. (1992). Mutations at the Arabidopsis CHM locus promote rearrangements of the mitochondrial genome.// Plant Cell 4, 889–899. 37. Matsuzaki M., O. Misumi, T. Shin-i, S. Genome sequence of the ultrasmall unicellular red alga Cyanidioschzon merolae 10D. // Nature 428 (2004) 653-657. 38. Midoni A. Identifi carea şi expresia unor Gene ( Rf) la Floarea-Soarelui ( Helianthus Annuus L.). Autoreferatul tezei de doctor în biologie, Chişinău, 2010, 30 p. 39. Nivison H.T., Hanson M.R. Identifi cation of a Mitochondrial Protein Associated with Cytoplasmic Male Sterility in Petunia. // The Plant Cell, 1989, vol. 1, p. 1121-1130. 40. Okuda K., T. Nakamura, M. Sugita, T. Shimizu, T. Shikanai, A pentatricopeptide repeat protein is a site recognition factor in chloroplast RNA editing. // J. Biol. Chem. 281 (2006) 37661-37667. 41. Rivals E., C. Bruyere, C. Toffano-Nioche, A. Lecharny, Formation of the Arabidopsis pentatricopeptide repeat family.// Plant Physiol. 141 (2006) 825-839. 42. Saha D., A.M. Prasad, R. Srinivasan. Pentatricopeptide repeat proteins and their emerging roles in plants. // Plant Physiology and Biochemistry, 45 (2007) 521-534 43. Schmitz-Linneweber C., R. Williams-Carrier, A. Barkan, RNA immunoprecipitation and microarray analysis show a chloroplast pentatricopeptide repeat protein to be associated with the 50 region of mRNAs whose translation it activates. // Plant Cell 17 (2005) 2791-2804. 44. Schmitz-Linneweber C., R.E. Williams-Carrier, P.M. Williams-Voelker, T.S. Kroeger, A. Vichas, A. Barkan, A pentatricopeptide repeat protein facilitates the trans-splicing of the maize chloroplast rps12 pre-mRNA. // Plant Cell 18 (2006) 2650-2663. 45. Singh, M., Hamel, N., Menassa, R., Li, X.Q., Young, B., Jean, M., Landry, B.S., and Brown, G.G. (1996). Nuclear genes associated with a single Brassica CMS restorer locus infl uence transcripts of three different mitochondrial gene regions. //Genetics 143, 505–516. 46. Small I.D., N. Peeters, The PPR motif - a TPR-related motif prevalent in plant organellar 36
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