Light piping driven photosynthesis in the soil: low-light adapted active photosynthetic apparatus in the under-soil hypocotyl segments of bean (Phaseolus vulgaris) (NDA@SZTAKI, Nemzeti Digitális Adattár, National Digital Data Archive)

Light piping driven photosynthesis in the soil: low-light adapted active photosynthetic apparatus in the under-soil hypocotyl segments of bean (Phaseolus vulgaris)

Metaadatok

Tartalom:	http://real.mtak.hu/63181/
Archívum:	MTA Könyvtár
Gyûjtemény:	Status = Published Type = Article
Cím:	Light piping driven photosynthesis in the soil: low-light adapted active photosynthetic apparatus in the under-soil hypocotyl segments of bean (Phaseolus vulgaris)
Létrehozó:	Kakuszi, Andrea SÃ¡rvÃ¡ri, Ã‰va Solti, ÃdÃ¡m CzÃ©gÃ©ny, Gyula Hideg, Ã‰va Hunyadi-GulyÃ¡s, Ã‰va BÃ³ka, KÃ¡roly BÃ¶ddi, BÃ©la
Kiadó:	Elsevier Science Publishers B.V.
Dátum:	2016-06-08
Téma:	QK10 Plant physiology / nÃ¶vÃ©nyÃ©lettan QK20 Plant morphology. Plant anatomy / nÃ¶vÃ©nymorfolÃ³gia, -anatÃ³mia
Tartalmi leírás:	Photosynthetic activity was identified in the under-soil hypocotyl part of 14-day-old soil-grown bean plants (Phaseolus vulgaris L. cv. Magnum) cultivated in pots under natural light-dark cycles. Electron microscopic, proteomic and fluorescence kinetic and imaging methods were used to study the photosynthetic apparatus and its activity. Under-soil shoots at 0-2 cm soil depth featured chloroplasts with low grana and starch grains and with pigment-protein compositions similar to those of the above-soil green shoot parts. However, the relative amounts of photosystem II (PSII) supercomplexes were higher; in addition a PIP-type aquaporin protein was identified in the under-soil thylakoids. Chlorophyll-a fluorescence induction measurements showed that the above- and under-soil hypocotyl segments had similar photochemical yields at low (10-55 Âµmol photons m-2 s-1) light intensities. However, at higher photon flux densities the electron transport rate decreased in the under-soil shoot parts due to inactivation of the PSII reaction centers. These properties show the development of a low-light adapted photosynthetic apparatus driven by light piping of the above-soil shoot. The results of this paper demonstrate that the classic model assigning source and sink functions to above- and under-soil tissues is to be refined, and a low-light adapted photosynthetic apparatus in under-soil bean hypocotyls is capable of contributing to its own carbon supply.
Nyelv:	magyar
Típus:	Article PeerReviewed info:eu-repo/semantics/article
Formátum:	text
Azonosító:	http://real.mtak.hu/63181/3/Kakuszi_et_al.pdf Kakuszi, Andrea and SÃ¡rvÃ¡ri, Ã‰va and Solti, ÃdÃ¡m and CzÃ©gÃ©ny, Gyula and Hideg, Ã‰va and Hunyadi-GulyÃ¡s, Ã‰va and BÃ³ka, KÃ¡roly and BÃ¶ddi, BÃ©la (2016) Light piping driven photosynthesis in the soil: low-light adapted active photosynthetic apparatus in the under-soil hypocotyl segments of bean (Phaseolus vulgaris). JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY B-BIOLOGY, 161. pp. 422-429. ISSN 1011-1344
Kapcsolat:	http://real.mtak.hu/63181/ https://doi.org/10.1016/j.jphotobiol.2016.06.009 10.1016/j.jphotobiol.2016.06.009