Диссертация (1144724), страница 77
Текст из файла (страница 77)
— P. 1077-1087.401. Montiel J., Downie J.A., Farkas A., Bihari P., Herczeg R., Bálint B.,Mergaert P., Kereszt A., Kondorosi É. Morphotype of bacteroids in differentlegumes correlates with the number and type of symbiotic NCR peptides //Proceedings of the National Academy of Sciences of the United States of America.— 2017. — V. 114, № 19. — P. 5041-5046.402. Montiel J., Szűcs A., Boboescu I.Z., Gherman V.D., Kondorosi É., KeresztA. Terminal bacteroid differentiation is associated with variable morphologicalchanges in legume species belonging to the inverted repeat-lacking clade //Molecular Plant-Microbe Interactions. — 2016.
— V. 29, № 3. — P. 210-219.403. Moreau P., Brandizzi F., Hanton S., Chatre L., Melser S., Hawes C., SatiatJeunemaitre B. The plant ER–Golgi interface: a highly structured and dynamicmembrane complex // Journal of Experimental Botany. — 2006. — V. 58, № 1. —P. 49-64.404. Morett E., Buck M. In vivo studies on the interaction of RNA polymeraseσ54 with the Klebsiella pneumoniae and Rhizobium meliloti nifH promoters: Therole of NifA in the formation of an open promoter complex // Journal of MolecularBiology.
— 1989. — V. 210, № 1. — P. 65-77.405. Morett E., Cannon W., Buck M. The DNA-binding domain of thetranscriptional activator protein NifA resides in its carboxy terminus, recognisesthe upstream activator sequences of nif promoters and can be separated from thepositive control function of NifA // Nucleic Acids Research. — 1988. — V. 16, №24. — P.
11469-11488.406. Morieri G., Martinez E.A., Jarynowski A., Driguez H., Morris R., OldroydG.E., Downie J.A. Host‐specificMedicagoNod‐ factruncatula nodule infection differentially induce calcium influx and calciumspiking in root hairs // New Phytologist. — 2013. — V. 200, № 3. — P.
656-662.407. Mortier V., De Wever E., Vuylsteke M., Holsters M., Goormachtig S.Nodule numbers are governed by interaction between CLE peptides and cytokininsignaling // The Plant Journal. — 2012. — V. 70, № 3. — P. 367-376.Список литературы482408. Mortier V., Wasson A., Jaworek P., De Keyser A., Decroos M., Holsters M.,Tarkowski P., Mathesius U., Goormachtig S. Role of LONELY GUY genes inindeterminate nodulation on Medicago truncatula // New Phytologist. — 2014.
—V. 202, № 2. — P. 582-593.409. Morzhina E.V., Tsyganov V.E., Borisov A.Y., Lebsky V.K., TikhonovichI.A. Four developmental stages identified by genetic dissection of pea (Pisumsativum L.) root nodule morphogenesis // Plant Science. — 2000. — V. 155, № 1.— P. 75-83.410. Moscatiello R., Baldan B., Squartini A., Mariani P., Navazio L.Oligogalacturonides: novel signaling molecules in Rhizobium-legumecommunications // Molecular Plant-Microbe Interactions. — 2012. — V. 25, №11.
— P. 1387-1395.411. Moss G.I., Hall K.C., Jackson M.B. Ethylene and the responses of roots ofmaize (Zea mays L.) to physical impedance // New Phytologist. — 1988. — V.109, № 3. — P. 303-311.412. Mousavi S.A., Willems A., Nesme X., de Lajudie P., Lindström K. Revisedphylogeny of Rhizobiaceae: Proposal of the delineation of Pararhizobium gen.nov., and 13 new species combinations // Systematic and Applied Microbiology.— 2015. — V. 38, № 2. — P. 84-90.413. Müller A., Guan C., Gälweiler L., Tänzler P., Huijser P., Marchant A., ParryG., Bennett M., Wisman E., Palme K. AtPIN2 defines a locus of Arabidopsis forroot gravitropism control // The EMBO Journal.
— 1998. — V. 17, № 23. — P.6903-6911.414. Murakami Y., Miwa H., Imaizumi-Anraku H., Kouchi H., Downie J.A.,Kawaguchi M., Kawasaki S. Positional cloning identifies Lotus japonicus NSP2, aputative transcription factor of the GRAS family, required for NIN and ENOD40gene expression in nodule initiation // DNA Research. — 2006. — V. 13, № 6. —P.
255-265.415. Murashige T., Skoog F. A revised medium for rapid growth and bio assayswith tobacco tissue cultures // Physiologia Plantarum. — 1962. — V. 15, № 3. —P. 473-497.416. Murray J.D., Karas B.J., Sato S., Tabata S., Amyot L., Szczyglowski K. Acytokinin perception mutant colonized by Rhizobium in the absence of noduleorganogenesis // Science. — 2007. — V. 315, № 5808. — P. 101-104.417. Murset V., Hennecke H., Pessi G. Disparate role of rhizobial ACCdeaminase in root-nodule symbioses // Symbiosis.
— 2012. — V. 57, № 1. — P.43-50.418. Nagata M., Murakami E.-i., Shimoda Y., Shimoda-Sasakura F., Kucho K.-i.,Suzuki A., Abe M., Higashi S., Uchiumi T. Expression of a class 1 hemoglobingene and production of nitric oxide in response to symbiotic and pathogenicbacteria in Lotus japonicus // Molecular Plant-Microbe Interactions. — 2008. —V. 21, № 9. — P. 1175-1183.419. Nagata M., Suzuki A. Effects of phytohormones on nodulation and nitrogenfixation in leguminous plants // Advances in Biology and Ecology of NitrogenFixation / Ohyama T. — Rijeka: InTech, 2014. — P.
Ch. 06.Список литературы483420. Neumann H., Werner D. Gene expression of Medicago sativa inoculatedwith Sinorhizobium meliloti as modulated by the xenobiotics cadmium andfluoranthene // Zeitschrift für Naturforschung C, 2000. — P. 222-232.421. Newcomb W. A correlated light and electron microscopic study of symbioticgrowth and differentiation in Pisum sativum root nodules // Canadian Journal ofBotany. — 1976. — V. 54, № 18.
— P. 2163-2186.422. Niehaus K., Kapp D., Pühler A. Plant defence and delayed infection ofalfalfa pseudonodules induced by an exopolysaccharide (EPS I)-deficientRhizobium meliloti mutant // Planta. — 1993. — V. 190, № 3. — P. 415-425.423. Niemietz C.M., Tyerman S.D. Channel-mediated permeation of ammoniagas through the peribacteroid membrane of soybean nodules // FEBS Letters. —2000. — V. 465, № 2-3. — P. 110-114.424. Niwa S., Kawaguchi M., Imaizumi-Anraku H., Chechetka S.A., Ishizaka M.,Ikuta A., Kouchi H. Responses of a model legume Lotus japonicus to lipochitinoligosaccharide nodulation factors purified from Mesorhizobium loti JRL501 //Molecular Plant-Microbe Interactions. — 2001. — V. 14, № 7. — P. 848-856.425.
Novák K. Allelic relationships of pea nodulation mutants // Journal ofHeredity. — 2003. — V. 94, № 2. — P. 191-193.426. Novák K., Pešina K., Nebesářová J., Škrdleta V., Lisá L., Našinec V.Symbiotic tissue degradation pattern in the ineffective nodules of three nodulationmutants of pea (Pisum sativum L.) // Annals of Botany. — 1995. — V. 76, № 3.
—P. 303-313.427. Novak K., Skrdleta V., Nemcova M., Lisa L. Behavior of pea nodulationmutants as affected by increasing nitrate level // Symbiosis. — 1993. — V. 15. —P. 195-206.428. Nutman P.S. Genetical factors concerned in the symbiosis of clover andnodule bacteria // Nature. — 1946. — V. 157. — P. 463-465.429. Nutman P.S. Studies on the physiology of nodule formation III. Experimentson the excision of root-tips and nodules // Annals of Botany. — 1952.
— V. 16, №1. — P. 79-103.430. Obbard J.P., Jones K.C. The effect of heavy metals on dinitrogen fixation byRhizobium-white colover in a range of long-term sewage sludge amended andmetal-contaminated soils // Environmental Pollution. — 1993. — V. 79, № 2. —P. 105-112.431. Oger E., Marino D., Guigonis J.-M., Pauly N., Puppo A.
Sulfenylatedproteins in the Medicago truncatula–Sinorhizobium meliloti symbiosis // Journal ofProteomics. — 2012. — V. 75, № 13. — P. 4102-4113.432. Oka-Kira E., Tateno K., Miura K.-i., Haga T., Hayashi M., Harada K., SatoS., Tabata S., Shikazono N., Tanaka A., Watanabe Y., Fukuhara I., Nagata T.,Kawaguchi M. klavier (klv), a novel hypernodulation mutant of Lotus japonicusaffected in vascular tissue organization and floral induction // The Plant Journal.
—2005. — V. 44, № 3. — P. 505-515.433. Okada K., Shimura Y. Reversible root tip rotation in Arabidopsis seedlingsinduced by obstacle-touching stimulus // Science. — 1990. — V. 250, № 4978. —P. 274-276.Список литературы484434. Okamoto S., Ohnishi E., Sato S., Takahashi H., Nakazono M., Tabata S.,Kawaguchi M.
Nod factor/nitrate-induced CLE genes that drive HAR1-mediatedsystemic regulation of nodulation // Plant and Cell Physiology. — 2009. — V. 50,№ 1. — P. 67-77.435. Okamoto S., Shinohara H., Mori T., Matsubayashi Y., Kawaguchi M. Rootderived CLE glycopeptides control nodulation by direct binding to HAR1 receptorkinase // Nature Communications. — 2013. — V. 4. — P. 2191.436. Oldroyd G.E. Speak, friend, and enter: signalling systems that promotebeneficial symbiotic associations in plants // Nature Reviews Microbiology. —2013.
— V. 11, № 4. — P. 252-263.437. Oldroyd G.E., Downie J.A. Calcium, kinases and nodulation signalling inlegumes // Nature Reviews Molecular Cell Biology. — 2004. — V. 5, № 7. — P.566-576.438. Oldroyd G.E., Downie J.A. Nuclear calcium changes at the core ofsymbiosis signalling // Current opinion in Plant biology. — 2006.
— V. 9, № 4. —P. 351-357.439. Oldroyd G.E., Downie J.A. Coordinating nodule morphogenesis withrhizobial infection in legumes // Annual Review of Plant Biology. — 2008. — V.59. — P. 519-546.440. Oldroyd G.E.D., Dixon R. Biotechnological solutions to the nitrogenproblem // Current Opinion in Biotechnology. — 2014. — V. 26. — P. 19-24.441. Oldroyd G.E.D., Engstrom E.M., Long S.R. Ethylene inhibits the Nod factorsignal transduction pathway of Medicago truncatula // The Plant Cell. — 2001. —V. 13, № 8. — P. 1835-1849.442. Oldroyd G.E.D., Long S.R. Identification and characterization ofnodulation-signaling pathway 2, a gene of Medicago truncatula involved in Nodfactor signaling // Plant Physiology. — 2003.
— V. 131, № 3. — P. 1027-1032.443. Oldroyd G.E.D., Murray J.D., Poole P.S., Downie J.A. The rules ofengagement in the legume-rhizobial symbiosis // Annual Review of Genetics. —2011. — V. 45, № 1. — P. 119-144.444. Oono R., Anderson C.G., Denison R.F. Failure to fix nitrogen by nonreproductive symbiotic rhizobia triggers host sanctions that reduce fitness of theirreproductive clonemates // Proceedings of the Royal Society B: BiologicalSciences. — 2011. — V.