Диссертация (1145941), страница 19
Текст из файла (страница 19)
– Vol. 34, № 4. – P. 1281-1292.35. Cooper J. B., Long S. R. Morphogenetic rescue of Rhizobium meliloti nodulationmutants by trans-zeatin secretion // The Plant Cell Online. – 1994. – Vol. 6, № 2. – P.215-225.36. Costacurta A., Vanderleyden J. Synthesis of phytohormones by plant-associatedbacteria // Critical reviews in microbiology. – 1995. – Vol. 21, № 1. – P. 1-18.13337. Crespi M., Frugier F. De novo organ formation from differentiated cells: root noduleorganogenesis // Science Signaling. – 2008. – Vol.
1, № 49. – P. re11.38. Crook A. D., Schnabel E. L., Frugoli J. A. The systemic nodule number regulationkinase SUNN in Medicago truncatula interacts with MtCLV2 and MtCRN // The PlantJournal. – 2016. – Vol. 88, № 1. – P. 108-119.39. Damiani I., Drain A., Guichard M., Balzergue S., Boscari A., Boyer J.-C., BrunaudV., Cottaz S., Rancurel C., Da Rocha M. Nod Factor Effects on Root Hair-specifictranscriptome of Medicago truncatula: focus on plasma membrane transport systemsand reactive oxygen species networks // Frontiers in plant science. – 2016. – Vol.
7, №– P. 794.40. Day D. A., Carroll B. J., Delves A. C., Gresshoff P. M. Relationship betweenautoregulation and nitrate inhibition of nodulation in soybeans // Physiologia plantarum.– 1989. – Vol. 75, № 1. – P. 37-42.41. De Luis A., Markmann K., Cognat V., Holt D. B., Charpentier M., Parniske M.,Stougaard J., Voinnet O. Two microRNAs linked to nodule infection and nitrogenfixing ability in the legume Lotus japonicus // Plant physiology. – 2012. – Vol. 160, №4.
– P. 2137-2154.42. den Camp R. H. O., De Mita S., Lillo A., Cao Q., Limpens E., Bisseling T., GeurtsR. A phylogenetic strategy based on a legume-specific whole genome duplication yieldssymbiotic cytokinin type-A response regulators // Plant physiology. – 2011. – Vol. 157,№ 4. – P.
2013-2022.43. Di Giacomo E., Laffont C., Sciarra F., Iannelli M. A., Frugier F., Frugis G.KNAT3/4/5‐like class 2 KNOX transcription factors are involved in Medicagotruncatula symbiotic nodule organ development // New Phytologist. – 2016. – Vol. 213,№ 2. – P. 822-837.44. Di Giacomo E., Sestili F., Iannelli M.
A., Testone G., Mariotti D., Frugis G.Characterization of KNOX genes in Medicago truncatula // Plant molecular biology. –2008. – Vol. 67, № 1-2. – P. 135-150.13445. Dockx J., Quaedvlieg N., Keultjes G., Kock P., Weisbeek P., Smeekens S. Thehomeobox gene ATK1 of Arabidopsis thaliana is expressed in the shoot apex of theseedling and in flowers and inflorescence stems of mature plants // Plant molecularbiology.
– 1995. – Vol. 28, № 4. – P. 723-737.46. Douglas S. J., Chuck G., Dengler R. E., Pelecanda L., Riggs C. D. KNAT1 andERECTA regulate inflorescence architecture in Arabidopsis // The Plant Cell Online. –2002. – Vol. 14, № 3. – P. 547-558.47. Elise S., Etienne-Pascal J., de Fernanda C.-N., Gérard D., Julia F.
The Medicagotruncatula SUNN gene encodes a CLV1-like leucine-rich repeat receptor kinase thatregulates nodule number and root length // Plant molecular biology. – 2005. – Vol. 58,№ 6. – P. 809-822.48. Endre G., Kereszt A., Kevei Z., Mihacea S., Kaló P., Kiss G. B. A receptor kinasegene regulating symbiotic nodule development // Nature. – 2002. – Vol. 417, № 6892. –P. 962-966.49.
Felle H. H., Kondorosi É., Kondorosi Á., Schultze M. Elevation of the cytosolic free[Ca2+] is indispensable for the transduction of the Nod factor signal in alfalfa // Plantphysiology. – 1999. – Vol. 121, № 1. – P. 273-280.50. Ferguson B.
J., Indrasumunar A., Hayashi S., Lin M. H., Lin Y. H., Reid D. E.,Gresshoff P. M. Molecular analysis of legume nodule development and autoregulation //Journal of integrative plant biology. – 2010. – Vol. 52, № 1. – P. 61-76.51. Ferguson B. J., Mathesius U. Signaling interactions during nodule development //Journal of Plant Growth Regulation. – 2003. – Vol. 22, № 1.
– P. 47-72.52. Ferguson B. J., Wiebe E. M., Neil Emery R., Guinel F. C. Cytokinin accumulationand an altered ethylene response mediate the pleiotropic phenotype of the peanodulation mutant R50 (sym16) // Canadian Journal of Botany. – 2005. – Vol. 83, № 8.– P. 989-1000.53. Fournier J., Timmers A. C., Sieberer B.
J., Jauneau A., Chabaud M., Barker D. G.Mechanism of infection thread elongation in root hairs of Medicago truncatula and135dynamic interplay with associated rhizobial colonization // Plant physiology. – 2008. –Vol. 148, № 4. – P. 1985-1995.54. Francisco JR P. B., Akao S. Autoregulation and nitrate inhibition of noduleformation in soybean cv. Enrei and its nodulation mutants // Journal of ExperimentalBotany. – 1993.
– Vol. 44, № 3. – P. 547-553.55. Frugis G., Giannino D., Mele G., Nicolodi C., Chiappetta A., Bitonti M. B.,Innocenti A. M., Dewitte W., Van Onckelen H., Mariotti D. Overexpression of KNAT1in lettuce shifts leaf determinate growth to a shoot-like indeterminate growth associatedwith an accumulation of isopentenyl-type cytokinins // Plant physiology.
– 2001. – Vol.126, № 4. – P. 1370-1380.56. Furumizu C., Alvarez J. P., Sakakibara K., Bowman J. L. Antagonistic roles forKNOX1 and KNOX2 genes in patterning the land plant body plan following an ancientgene duplication // PLoS genetics. – 2015. – Vol. 11, № 2. – P. e1004980.57. Gamas P., Brault M., Jardinaud M.-F., Frugier F. Cytokinins in SymbioticNodulation: When, Where, What For? // Trends in Plant Science.
– 2017. – Vol. 22, №9. – P. 792-802.58. Gan S., Amasino R. M. Inhibition of leaf senescence by autoregulated production ofcytokinin // Science. – 1995. – Vol. 270, № 5244. – P. 1986-1988.59. Gao S., Fang J., Xu F., Wang W., Sun X., Chu J., Cai B., Feng Y., Chu C.CYTOKININ OXIDASE/DEHYDROGENASE4 integrates cytokinin and auxinsignaling to control rice crown root formation // Plant physiology. – 2014. – Vol. 165,№ 3.
– P. 1035-1046.60. Giraud E., Moulin L., Vallenet D., Barbe V., Cytryn E., Avarre J.-C., Jaubert M.,Simon D., Cartieaux F., Prin Y. Legumes symbioses: absence of Nod genes inphotosynthetic bradyrhizobia // Science. – 2007. – Vol. 316, № 5829.
– P. 1307-1312.61. Giulini A., Wang J., Jackson D. Control of phyllotaxy by the cytokinin-inducibleresponse regulator homologue ABPHYL1 // Nature. – 2004. – Vol. 430, № 7003. – P.1031-1034.13662. Gonzalez-Rizzo S., Crespi M., Frugier F. The Medicago truncatula CRE1 cytokininreceptor regulates lateral root development and early symbiotic interaction withSinorhizobium meliloti // The Plant Cell Online.
– 2006. – Vol. 18, № 10. – P. 26802693.63. Gough C. Rhizobium symbiosis: insight into nod factor receptors // CurrentBiology. – 2003. – Vol. 13, № 24. – P. R973-R975.64. Gourlay C. W., Hofer J. M., Ellis T. N. Pea compound leaf architecture is regulatedby interactions among the genes UNIFOLIATA, COCHLEATA, AFILA, andTENDRIL-LESS // The Plant Cell. – 2000. – Vol.
12, № 8. – P. 1279-1294.65. Gresshoff P. M., Delves A. C. Plant genetic approaches to symbiotic nodulation andnitrogen fixation in legumes. In: A genetic approach to plant biochemistry, Springer,1986. - P. 159-206.66. Guan D., Stacey N., Liu C., Wen J., Mysore K. S., Torres-Jerez I., Vernié T.,Tadege M., Zhou C., Wang Z.-y. Rhizobial infection is associated with the developmentof peripheral vasculature in nodules of Medicago truncatula // Plant physiology. – 2013.– Vol. 162, № 1. – P. 107-115.67.
Guinel F. C., Geil R. A model for the development of the rhizobial and arbuscularmycorrhizal symbioses in legumes and its use to understand the roles of ethylene in theestablishment of these two symbioses // Canadian Journal of Botany. – 2002. – Vol. 80,№ 7. – P. 695-720.68. Hackbusch J., Richter K., Müller J., Salamini F., Uhrig J. F. A central role ofArabidopsis thaliana ovate family proteins in networking and subcellular localization of3-aa loop extension homeodomain proteins // Proceedings of the National Academy ofSciences of the United States of America. – 2005. – Vol. 102, № 13.
– P. 4908-4912.69. Hake S., Char B. R., Chuck G., Foster T., Long J., Jackson D. Homeobox genes inthe functioning of plant meristems // Philosophical Transactions of the Royal Society ofLondon. Series B: Biological Sciences. – 1995. – Vol. 350, № 1331. – P. 45-51.13770. Hake S., Smith H. M., Holtan H., Magnani E., Mele G., Ramirez J. THE ROLE OFKNOX GENES IN PLANT DEVELOPMENT // Annu. Rev. Cell Dev. Biol.
– 2004. –Vol. 20, № – P. 125-151.71. Hall B. G. Building phylogenetic trees from molecular data with MEGA //Molecular biology and evolution. – 2013. – Vol. 30, № 5. – P. 1229-1235.72. Hamant O., Nogué F., Belles-Boix E., Jublot D., Grandjean O., Traas J., Pautot V.The KNAT2 homeodomain protein interacts with ethylene and cytokinin signaling //Plant physiology.
– 2002. – Vol. 130, № 2. – P. 657-665.73. Hamant O., Pautot V. Plant development: a TALE story // Comptes rendusbiologies. – 2010. – Vol. 333, № 4. – P. 371-381.74. Hareven D., Gutfinger T., Parnis A., Eshed Y., Lifschitz E. The making of acompound leaf: genetic manipulation of leaf architecture in tomato // Cell. – 1996. –Vol. 84, № 5.
– P. 735-744.75. Hastwell A. H., de Bang T. C., Gresshoff P. M., Ferguson B. J. CLE peptideencoding gene families in Medicago truncatula and Lotus japonicus, compared withthose of soybean, common bean and Arabidopsis // Scientific Reports. – 2017. – Vol. 7,№ – P. 9384.76. Hay A., Barkoulas M., Tsiantis M. ASYMMETRIC LEAVES1 and auxin activitiesconverge to repress BREVIPEDICELLUS expression and promote leaf development inArabidopsis // Development. – 2006. – Vol. 133, № 20. – P.
3955-3961.77. Hay A., Tsiantis M. KNOX genes: versatile regulators of plant development anddiversity // Development. – 2010. – Vol. 137, № 19. – P. 3153-3165.78. Heckmann A. B., Lombardo F., Miwa H., Perry J. A., Bunnewell S., Parniske M.,Wang T. L., Downie J. A. Lotus japonicus nodulation requires two GRAS domainregulators, one of which is functionally conserved in a non-legume // Plant physiology.– 2006. – Vol. 142, № 4. – P. 1739-1750.79.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
