Диссертация (1145941), страница 20
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Heckmann A. B., Sandal N., Bek A. S., Madsen L. H., Jurkiewicz A., Nielsen M.W., Tirichine L., Stougaard J. Cytokinin induction of root nodule primordia in Lotus138japonicus is regulated by a mechanism operating in the root cortex // Molecular plantmicrobe interactions. – 2011. – Vol. 24, № 11. – P. 1385-1395.80. Heisler M. G., Ohno C., Das P., Sieber P., Reddy G.
V., Long J. A., Meyerowitz E.M. Patterns of Auxin Transport and Gene Expression during Primordium DevelopmentRevealed by Live Imaging of the ArabidopsisInflorescence Meristem // CurrentBiology. – 2005. – Vol. 15, № 21. – P. 1899-1911.81. Held M., Hou H., Miri M., Huynh C., Ross L., Hossain M. S., Sato S., Tabata S.,Perry J., Wang T. L. Lotus japonicus cytokinin receptors work partially redundantly tomediate nodule formation // The Plant Cell. – 2014. – Vol. 26, № 2.
– P. 678-694.82. Heyl A., Schmülling T. Cytokinin signal perception and transduction // Currentopinion in plant biology. – 2003. – Vol. 6, № 5. – P. 480-488.83. Higuchi M., Pischke M. S., Mähönen A. P., Miyawaki K., Hashimoto Y., Seki M.,Kobayashi M., Shinozaki K., Kato T., Tabata S. In planta functions of the Arabidopsiscytokinin receptor family // Proceedings of the National Academy of Sciences of theUnited States of America. – 2004. – Vol. 101, № 23. – P. 8821-8826.84. Hinson K. Nodulation responses from nitrogen applied to soybean half-root systems// Agronomy Journal.
– 1975. – Vol. 67, № 6. – P. 799-804.85. Hirose N., Takei K., Kuroha T., Kamada-Nobusada T., Hayashi H., Sakakibara H.Regulation of cytokinin biosynthesis, compartmentalization and translocation // Journalof Experimental Botany. – 2008. – Vol. 59, № 1. – P. 75-83.86.
Hirsch A., Bhuvaneswari T., Torrey J., Bisseling T. Early nodulin genes are inducedin alfalfa root outgrowths elicited by auxin transport inhibitors // Proceedings of theNational Academy of Sciences. – 1989. – Vol. 86, № 4. – P. 1244-1248.87. Hirsch A. M., Fang Y. Plant hormones and nodulation: what's the connection? //Plant molecular biology. – 1994. – Vol.
26, № 1. – P. 5-9.88. Hirsch S., Kim J., Muñoz A., Heckmann A. B., Downie J. A., Oldroyd G. E. GRASproteins form a DNA binding complex to induce gene expression during nodulationsignaling in Medicago truncatula // The Plant Cell Online. – 2009. – Vol. 21, № 2. – P.545-557.13989. Hofer J., Turner L., Hellens R., Ambrose M., Matthews P., Michael A., Ellis N.UNIFOLIATA regulates leaf and flower morphogenesis in pea // Current Biology. –1997. – Vol. 7, № 8. – P.
581-587.90. Imaizumi-Anraku H., Takeda N., Kawaguchi M., Parniske M., Hayashi M.,Kawasaki S. host genes involved in activation and perception of calcium spiking // Plantand Cell Physiology. – 2005. – Vol. 46, № – P. S5-S5.91. Indrasumunar A. Molecular cloning and functional characterisation of soybean(Glycine max L.) Nod factor receptor genes - The University of Queensland, 2007..92. Indrasumunar A., Kereszt A., Searle I., Miyagi M., Li D., Nguyen C. D., Men A.,Carroll B. J., Gresshoff P. M.
Inactivation of duplicated nod factor receptor 5 (NFR5)genes in recessive loss-of-function non-nodulation mutants of allotetraploid soybean(Glycine max L. Merr.) // Plant and Cell Physiology. – 2010. – Vol. 51, № 2. – P. 201214.93. Inoue H., Nojima H., Okayama H. High efficiency transformation of Escherichiacoli with plasmids // Gene. – 1990.
– Vol. 96, № 1. – P. 23-28.94. Inoue T., Higuchi M., Hashimoto Y., Seki M., Kobayashi M., Kato T., Tabata S.,Shinozaki K., Kakimoto T. Identification of CRE1 as a cytokinin receptor fromArabidopsis // Nature. – 2001. – Vol. 409, № 6823. – P. 1060-1063.95. Ishikawa K., Yokota K., Li Y. Y., Wang Y., Liu C.-T., Suzuki S., Aono T., OyaizuH. Isolation of a novel root-determined hypernodulation mutant rdh1 of Lotus japonicus// Soil Science & Plant Nutrition. – 2008.
– Vol. 54, № 2. – P. 259-263.96. Janssen B.-J., Williams A., Chen J.-J., Mathern J., Hake S., Sinha N. Isolation andcharacterization of two knotted-like homeobox genes from tomato // Plant molecularbiology. – 1998. – Vol. 36, № 3. – P. 417-425.97. Jardinaud M.-F., Boivin S., Rodde N., Catrice O., Kisiala A., Lepage A., Moreau S.,Roux B., Cottret L., Sallet E. A laser dissection-RNAseq analysis highlights theactivation of cytokinin pathways by nod factors in the medicago truncatula rootepidermis // Plant physiology. – 2016.
– Vol. 171, № 3. – P. 2256-2276.14098. Jasinski S., Piazza P., Craft J., Hay A., Woolley L., Rieu I., Phillips A., Hedden P.,Tsiantis M. KNOX Action in Arabidopsis Is Mediated by Coordinate Regulation ofCytokinin and Gibberellin Activities // Current Biology. – 2005. – Vol. 15, № 17. – P.1560-1565.99.
Jeudy C., Ruffel S., Freixes S., Tillard P., Santoni A. L., Morel S., Journet E. P.,Duc G., Gojon A., Lepetit M. Adaptation of Medicago truncatula to nitrogen limitationis modulated via local and systemic nodule developmental responses // NewPhytologist.
– 2010. – Vol. 185, № 3. – P. 817-828.100. Jones K. M., Kobayashi H., Davies B. W., Taga M. E., Walker G. C. Howrhizobial symbionts invade plants: the Sinorhizobium–Medicago model // NatureReviews Microbiology. – 2007. – Vol. 5, № 8. – P. 619-633.101. Kaló P., Gleason C., Edwards A., Marsh J., Mitra R. M., Hirsch S., Jakab J., SimsS., Long S. R., Rogers J.
Nodulation signaling in legumes requires NSP2, a member ofthe GRAS family of transcriptional regulators // Science. – 2005. – Vol. 308, № 5729. –P. 1786-1789.102. Kanamori N., Madsen L. H., Radutoiu S., Frantescu M., Quistgaard E. M., MiwaH., Downie J. A., James E. K., Felle H. H., Haaning L. L. A nucleoporin is required forinduction of Ca2+ spiking in legume nodule development and essential for rhizobial andfungal symbiosis // Proceedings of the National Academy of Sciences of the UnitedStates of America.
– 2006. – Vol. 103, № 2. – P. 359-364.103. Kerstetter R., Vollbrecht E., Lowe B., Veit B., Yamaguchi J., Hake S. Sequenceanalysis and expression patterns divide the maize knotted1-like homeobox genes intotwo classes // The Plant Cell. – 1994. – Vol. 6, № 12. – P. 1877-1887.104. Kim D., Cho Y. h., Ryu H., Kim Y., Kim T.
H., Hwang I. BLH1 and KNAT3modulate ABA responses during germination and early seedling development inArabidopsis // The Plant Journal. – 2013. – Vol. 75, № 5. – P. 755-766.105. Kim H. J., Ryu H., Hong S. H., Woo H. R., Lim P. O., Lee I. C., Sheen J., Nam H.G., Hwang I.
Cytokinin-mediated control of leaf longevity by AHK3 through141phosphorylation of ARR2 in Arabidopsis // Proceedings of the National Academy ofSciences of the United States of America. – 2006. – Vol. 103, № 3. – P. 814-819.106. Kimura S., Koenig D., Kang J., Yoong F. Y., Sinha N. Natural variation in leafmorphology results from mutation of a novel KNOX gene // Current Biology. – 2008. –Vol. 18, № 9. – P. 672-677.107.
Krusell L., Madsen L. H., Sato S., Aubert G., Genua A., Szczyglowski K., Duc G.,Kaneko T., Tabata S., de Bruijn F. Shoot control of root development and nodulation ismediated by a receptor-like kinase // Nature. – 2002. – Vol. 420, № 6914. – P. 422-426.108. Krusell L., Rasmussen I., Gausing K. DNA binding sites recognised in vitro by aknotted class 1 homeodomain protein encoded by the hooded gene, k, in barley(Hordeum vulgare) // FEBS letters.
– 1997. – Vol. 408, № 1. – P. 25-29.109. Krusell L., Sato N., Fukuhara I., Koch B. E., Grossmann C., Okamoto S., Oka‐KiraE., Otsubo Y., Aubert G., Nakagawa T. The Clavata2 genes of pea and Lotus japonicusaffect autoregulation of nodulation // The Plant Journal. – 2011. – Vol. 65, № 6. – P.861-871.110. Kuderová A., Urbánková I., Válková M., Malbeck J., Brzobohatý B., NémethováD., Hejátko J. Effects of conditional IPT-dependent cytokinin overproduction on rootarchitecture of Arabidopsis seedlings // Plant and Cell Physiology. – 2008. – Vol. 49, №4.
– P. 570-582.111. Kurakawa T., Ueda N., Maekawa M., Kobayashi K., Kojima M., Nagato Y.,Sakakibara H., Kyozuka J. Direct control of shoot meristem activity by a cytokininactivating enzyme // Nature. – 2007. – Vol. 445, № 7128. – P. 652-655.112. Kuroha T., Tokunaga H., Kojima M., Ueda N., Ishida T., Nagawa S., Fukuda H.,Sugimoto K., Sakakibara H.
Functional analyses of LONELY GUY cytokininactivating enzymes reveal the importance of the direct activation pathway inArabidopsis // The Plant Cell Online. – 2009. – Vol. 21, № 10. – P. 3152-3169.113. Laplaze L., Benkova E., Casimiro I., Maes L., Vanneste S., Swarup R., Weijers D.,Calvo V., Parizot B., Herrera-Rodriguez M. B. Cytokinins act directly on lateral root142founder cells to inhibit root initiation // The Plant Cell.
– 2007. – Vol. 19, № 12. – P.3889-3900.114. Larrainzar E., Riely B. K., Kim S. C., Carrasquilla-Garcia N., Yu H.-J., Hwang H.J., Oh M., Kim G. B., Surendrarao A. K., Chasman D. Deep sequencing of theMedicago truncatula root transcriptome reveals a massive and early interaction betweennodulation factor and ethylene signals // Plant physiology. – 2015. – Vol. 169, № 1. – P.233-265.115.
Lauressergues D., Delaux P. M., Formey D., Lelandais‐Brière C., Fort S., CottazS., Bécard G., Niebel A., Roux C., Combier J. P. The microRNA miR171h modulatesarbuscular mycorrhizal colonization of Medicago truncatula by targeting NSP2 // ThePlant Journal. – 2012. – Vol. 72, № 3.
– P. 512-522.116. Leibfried A., To J. P., Busch W., Stehling S., Kehle A., Demar M., Kieber J. J.,Lohmann J. U. WUSCHEL controls meristem function by direct regulation ofcytokinin-inducible response regulators // Nature. – 2005. – Vol. 438, № 7071. – P.1172-1175.117. Levy J., Bres C., Geurts R., Chalhoub B., Kulikova O., Duc G., Journet E.-P., AnéJ.-M., Lauber E., Bisseling T. A putative Ca2+ and calmodulin-dependent proteinkinase required for bacterial and fungal symbioses // Science.
– 2004. – Vol. 303, №5662. – P. 1361-1364.118. Li D., Kinkema M., Gresshoff P. M. Autoregulation of nodulation (AON) in Pisumsativum (pea) involves signalling events associated with both nodule primordiadevelopment and nitrogen fixation // Journal of plant physiology. – 2009. – Vol.
166, №9. – P. 955-967.119. Li E., Bhargava A., Qiang W., Friedmann M. C., Forneris N., Savidge R. A.,Johnson L. A., Mansfield S. D., Ellis B. E., Douglas C. J. The Class II KNOX geneKNAT7 negatively regulates secondary wall formation in Arabidopsis and isfunctionally conserved in Populus // New Phytologist.
– 2012. – Vol. 194, № 1. – P.102-115.143120. Li E., Wang S., Liu Y., Chen J. G., Douglas C. J. OVATE FAMILY PROTEIN4(OFP4) interaction with KNAT7 regulates secondary cell wall formation in Arabidopsisthaliana // The Plant Journal. – 2011. – Vol. 67, № 2. – P. 328-341.121. Libbenga K., Van Iren F., Bogers R., Schraag-Lamers M. The role of hormonesand gradients in the initiation of cortex proliferation and nodule formation in Pisumsativum L // Planta. – 1973. – Vol.
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