Revisiting the iron pools in cucumber roots: identification and localization (NDA@SZTAKI, Nemzeti Digitális Adattár, National Digital Data Archive)

Revisiting the iron pools in cucumber roots: identification and localization

Metaadatok

Tartalom:	http://real.mtak.hu/40558/
Archívum:	MTA Könyvtár
Gyûjtemény:	Status = Published Type = Article
Cím:	Revisiting the iron pools in cucumber roots: identification and localization
Létrehozó:	KovÃ¡cs, Krisztina PechouÅ¡ek, JiÅ™Ã Machala, Libor ZboÅ™il, Radek KlencsÃ¡r, ZoltÃ¡n Solti, ÃdÃ¡m TÃ³th, Brigitta MÃ¼ller, Brigitta Pham, Hong Diep KristÃ³f, ZoltÃ¡n Fodor, Ferenc
Kiadó:	Springer Verlag (Germany)
Dátum:	2016-07
Téma:	QD03 Inorganic chemistry / szervetlen kÃ©mia QK10 Plant physiology / nÃ¶vÃ©nyÃ©lettan QK20 Plant morphology. Plant anatomy / nÃ¶vÃ©nymorfolÃ³gia, -anatÃ³mia
Tartalmi leírás:	Iron may accumulate in various chemical forms during its uptake and assimilation in roots. The permanent and transient Fe microenvironments formed during these processes in cucumber which takes up Fe in a reduction based process (Strategy I), have been investigated. The identification of Fe microenvironments was carried out with 57Fe MÃ¶ssbauer spectroscopy and immunoblotting, whereas reductive washing and high resolution microscopy was applied for the localization. In plants supplied with 57FeIII-citrate, a transient presence of Fe-carboxylates in removable forms and the accumulation of partly removable, amorphous hydrous ferric oxide/hydroxyde have been identified in the apoplast and on the root surface, respectively. The latter may at least partly be the consequence of bacterial activity at the root surface. Ferritin accumulation did not occur at optimal Fe supply. Under Fe deficiency, highly soluble ferrous hexaaqua complex is transiently formed along with the accumulation of Fe-carboxylates, likely Fe-citrate. As 57Fe-citrate is non-removable from the root samples of Fe deficient plants the major site of accumulation is suggested to be the root xylem. Reductive washing results in another ferrous microenvironment remaining in the root apoplast, the FeII-bipyridyl complex, which accounts for ~30% of the total Fe content of the root samples treated for 10 min and rinsed with CaSO4 solution. When 57FeIII-EDTA or 57FeIII-EDDHA was applied as Fe-source higher soluble ferrous Fe accumulation was accompanied by a lower total Fe content, confirming that chelates are more efficient in maintaining soluble Fe in the medium while less stable natural complexes as Fe-citrate may perform better in Fe accumulation.
Nyelv:	magyar
Típus:	Article NonPeerReviewed info:eu-repo/semantics/article
Formátum:	text
Azonosító:	http://real.mtak.hu/40558/1/manuscript-Kov%C3%A1cs-Planta-1... KovÃ¡cs, Krisztina and PechouÅ¡ek, JiÅ™Ã and Machala, Libor and ZboÅ™il, Radek and KlencsÃ¡r, ZoltÃ¡n and Solti, ÃdÃ¡m and TÃ³th, Brigitta and MÃ¼ller, Brigitta and Pham, Hong Diep and KristÃ³f, ZoltÃ¡n and Fodor, Ferenc (2016) Revisiting the iron pools in cucumber roots: identification and localization. PLANTA, 244. pp. 167-179. ISSN 0032-0935
Kapcsolat:	http://real.mtak.hu/40558/ http://dx.doi.org/10.1007/s00425-016-2502-x doi:10.1007/s00425-016-2502-x