Диссертация (1144724), страница 72
Текст из файла (страница 72)
S. — Dordrecht: Springer Netherlands, 2000. — P.181-194.214. Guan D., Stacey N., Liu C., Wen J., Mysore K.S., Torres-Jerez I., Vernié T.,Tadege M., Zhou C., Wang Z.-y., Udvardi M.K., Oldroyd G.E.D., Murray J.D.Rhizobial infection is associated with the development of peripheral vasculature innodules of Medicago truncatula // Plant Physiology. — 2013. — V. 162, № 1. —P. 107-115.215. Guefrachi I., Nagymihaly M., Pislariu C.I., Van de Velde W., Ratet P., MarsM., Udvardi M.K., Kondorosi E., Mergaert P., Alunni B. Extreme specificity ofСписок литературы466NCR gene expression in Medicago truncatula // BMC Genomics.
— 2014. — V.15, № 1. — P. 712.216. Guinel F.C. Getting around the legume nodule: I. The structure of theperipheral zone in four nodule types // Botany. — 2009a. — V. 87, № 12. — P.1117-1138.217. Guinel F.C. Getting around the legume nodule: II. Molecular biology of itsperipheral zone and approaches to study its vasculature // Botany. — 2009b. — V.87, № 12. — P.
1139-1166.218. Guinel F.C. Ethylene, a hormone at the center-stage of nodulation //Frontiers in Plant Science. — 2015. — V. 6, № 1121.219. Guinel F.C., Geil R.D. A model for the development of the rhizobial andarbuscular mycorrhizal symbioses in legumes and its use to understand the roles ofethylene in the establishment of these two symbioses // Canadian Journal ofBotany. — 2002. — V.
80, № 7. — P. 695-720.220. Guinel F.C., LaRue T.A. Light microscopy study of nodule initiation inPisum sativum L. cv Sparkle and in its low-nodulating mutant E2 (sym 5) // PlantPhysiology. — 1991. — V. 97, № 3. — P. 1206-1211.221. Guinel F.C., Sloetjes L.L. Ethylene is involved in the nodulation phenotypeof Pisum sativum R50 (sym 16), a pleiotropic mutant that nodulates poorly and haspale green leaves // Journal of Experimental Botany.
— 2000. — V. 51, № 346. —P. 885-894.222. Hakoyama T., Niimi K., Yamamoto T., Isobe S., Sato S., Nakamura Y.,Tabata S., Kumagai H., Umehara Y., Brossuleit K., Petersen T.R., Sandal N.,Stougaard J., Udvardi M.K., Tamaoki M., Kawaguchi M., Kouchi H., SuganumaN. The integral membrane protein SEN1 is required for symbiotic nitrogen fixationin Lotus japonicus nodules // Plant and Cell Physiology. — 2012a. — V. 53, № 1.— P. 225-236.223. Hakoyama T., Oi R., Hazuma K., Suga E., Adachi Y., Kobayashi M., AkaiR., Sato S., Fukai E., Tabata S., Shibata S., Wu G.-J., Hase Y., Tanaka A.,Kawaguchi M., Kouchi H., Umehara Y., Suganuma N. The SNARE proteinSYP71 expressed in vascular tissues is involved in symbiotic nitrogen fixation inLotus japonicus nodules // Plant Physiology.
— 2012b. — V. 160, № 2. — P. 897905.224. Hall K.J., Parker J.S., Ellis T.H.N., Turner L., Knox M.R., Hofer J.M.I., LuJ., Ferrandiz C., Hunter P.J., Taylor J.D., Baird K. The relationship betweengenetic and cytogenetic maps of pea. II. Physical maps of linkage mappingpopulations // Genome. — 1997. — V. 40, № 5. — P. 755-769.225. Hamada T., Ueda H., Kawase T., Hara-Nishimura I. Microtubules contributeto tubule elongation and anchoring of endoplasmic reticulum, resulting in highnetwork complexity in Arabidopsis thaliana // Plant Physiology.
— 2014. — P. pp.114.252320.226. Hammond-Kosack K.E., Jones J.D. Resistance gene-dependent plantdefense responses // The Plant Cell. — 1996. — V. 8, № 10. — P. 1773-1791.Список литературы467227. Hamza M.A., Anderson W.K. Soil compaction in cropping systems: Areview of the nature, causes and possible solutions // Soil and Tillage Research.
—2005. — V. 82, № 2. — P. 121-145.228. Hancock J.T., Desikan R., Clarke A., Hurst R.D., Neill S.J. Cell signallingfollowing plant/pathogen interactions involves the generation of reactive oxygenand reactive nitrogen species // Plant Physiology and Biochemistry. — 2002. — V.40, № 6. — P. 611-617.229. Handberg K., Stougaard J. Lotus japonicus, an autogamous, diploid legumespecies for classical and molecular genetics // The Plant Journal. — 1992.
— V. 2,№ 4. — P. 487-496.230. Haney C.H., Long S.R. Plant flotillins are required for infection by nitrogenfixing bacteria // Proceedings of the National Academy of Sciences of the UnitedStates of America. — 2010. — V. 107, № 1. — P. 478-483.231. Haney C.H., Riely B.K., Tricoli D.M., Cook D.R., Ehrhardt D.W., LongS.R. Symbiotic rhizobia bacteria trigger a change in localization and dynamics ofthe Medicago truncatula receptor kinase LYK3 // The Plant Cell.
— 2011. — V.23, № 7. — P. 2774-2787.232. Hanikenne M., Talke I.N., Haydon M.J., Lanz C., Nolte A., Motte P.,Kroymann J., Weigel D., Krämer U. Evolution of metal hyperaccumulationrequired cis-regulatory changes and triplication of HMA4 // Nature. — 2008. — V.453. — P. 391-395.233. Hartmann K., Peiter E., Koch K., Schubert S., Schreiber L.
Chemicalcomposition and ultrastructure of broad bean (Vicia faba L.) nodule endodermis incomparison to the root endodermis // Planta. — 2002. — V. 215, № 1. — P. 14-25.234. Hartwig U.A., Joseph C.M., Phillips D.A. Flavonoids released naturallyfrom alfalfa seeds enhance growth rate of Rhizobium meliloti // Plant Physiology.— 1991.
— V. 95, № 3. — P. 797-803.235. Hayashi S., Gresshoff P.M., Ferguson B.J. Mechanistic action ofgibberellins in legume nodulation // Journal of Integrative Plant Biology. — 2014.— V. 56, № 10. — P. 971-978.236. Hayashi S., Reid D.E., Lorenc M.T., Stiller J., Edwards D., Gresshoff P.M.,Ferguson B.J. Transient Nod factor-dependent gene expression in the nodulationcompetent zone of soybean (Glycine max [L.] Merr.) roots // Plant BiotechnologyJournal. — 2012. — V.
10, № 8. — P. 995-1010.237. Hayat S., Hayat Q., Alyemeni M.N., Ahmad A. Salicylic acid enhances theefficiency of nitrogen fixation and assimilation in Cicer arietinum plants grownunder cadmium stress // Journal of Plant Interactions. — 2014. — V. 9, № 1. — P.35-42.238. Heckmann A.B., Lombardo F., Miwa H., Perry J.A., Bunnewell S., ParniskeM., Wang T.L., Downie J.A. Lotus japonicus nodulation requires two GRASdomain regulators, one of which is functionally conserved in a non-legume // PlantPhysiology. — 2006. — V. 142, № 4. — P. 1739-1750.239.
Heckmann A.B., Sandal N., Bek A.S., Madsen L.H., Jurkiewicz A., NielsenM.W., Tirichine L., Stougaard J. Cytokinin induction of root nodule primordia inСписок литературы468Lotus japonicus is regulated by a mechanism operating in the root cortex //Molecular Plant-Microbe Interactions. — 2011. — V.
24, № 11. — P. 1385-1395.240. Heidstra R., Geurts R., Franssen H., Spaink H.P., Van Kammen A.,Bisseling T. Root hair deformation activity of nodulation factors and their fate onVicia sativa // Plant Physiology. — 1994. — V. 105, № 3. — P. 787-797.241. Heidstra R., Yang W.C., Yalcin Y., Peck S., Emons A.M., Kammen van A.,Bisseling T. Ethylene provides positional information on cortical cell division butis not involved in Nod factor-induced root hair tip growth in Rhizobium-legumeinteraction // Development. — 1997. — V.
124, № 9. — P. 1781-1787.242. Held M., Hou H., Miri M., Huynh C., Ross L., Hossain M.S., Sato S., TabataS., Perry J., Wang T.L., Szczyglowski K. Lotus japonicus cytokinin receptors workpartially redundantly to mediate nodule formation // The Plant Cell. — 2014. — V.26, № 2. — P. 678-694.243. Hernandez L.E., Garate A., Carpena‐Ruiznitrogen fixing pea plants grown in perlite and vermiculite // Journal of PlantNutrition. — 1995. — V. 18, № 2.
— P. 287-303.244. Hérouart D., Baudouin E., Frendo P., Harrison J., Santos R., Jamet A., Vande Sype G., Touati D., Puppo A. Reactive oxygen species, nitric oxide andglutathione: a key role in the establishment of the legume–Rhizobium symbiosis? //Plant Physiology and Biochemistry. — 2002. — V. 40, № 6. — P. 619-624.245. Hichri I., Boscari A., Castella C., Rovere M., Puppo A., Brouquisse R. Nitricoxide: a multifaceted regulator of the nitrogen-fixing symbiosis // Journal ofExperimental Botany. — 2015.
— V. 66, № 10. — P. 2877-2887.246. Hirsch A.M. Developmental biology of legume nodulation // NewPhytologist. — 1992. — V. 122, № 2. — P. 211-237.247. Hirsch A.M., Bhuvaneswari T.V., Torrey J.G., Bisseling T. Early nodulingenes are induced in alfalfa root outgrowths elicited by auxin transport inhibitors //Proceedings of the National Academy of Sciences of the United States of America.— 1989. — V.
86, № 4. — P. 1244-1248.248. Hirsch A.M., Smith C.A. Effects of Rhizobium meliloti nif and fix mutantson alfalfa root nodule development // Journal of Bacteriology. — 1987. — V. 169,№ 3. — P. 1137-1146.249. Hirsch S., Kim J., Muñoz A., Heckmann A.B., Downie J.A., Oldroyd G.E.D.GRAS proteins form a DNA binding complex to induce gene expression duringnodulation signaling in Medicago truncatula // The Plant Cell. — 2009. — V. 21,№ 2.
— P. 545-557.250. Hogetsu T., Oshima Y. Immunofluorescence microscopy of microtubulearrangement in root cells of Pisum sativum L. var Alaska // Plant and CellPhysiology. — 1986. — V. 27, № 6. — P. 939-945.251. Horváth B., Domonkos Á., Kereszt A., Szűcs A., Ábrahám E., Ayaydin F.,Bóka K., Chen Y., Chen R., Murray J.D., Udvardi M.K., Kondorosi É., Kaló P.Loss of the nodule-specific cysteine rich peptide, NCR169, abolishes symbioticnitrogen fixation in the Medicago truncatula dnf7 mutant // Proceedings of theNational Academy of Sciences of the United States of America.
— 2015. — V.112, № 49. — P. 15232-15237.Список литературы469252. Hossain M.S., Liao J., James E.K., Sato S., Tabata S., Jurkiewicz A.,Madsen L.H., Stougaard J., Ross L., Szczyglowski K. Lotus japonicus ARPC1 isrequired for rhizobial infection // Plant Physiology.