Scientific Publications using Walz Devices

Source: Google Scholar.
Keywords: (Walz OR Waltz) Effeltrich.
Date: February 7, 2024

Ʃ = 11227

Per Year

Source: Google Scholar.
Keywords: (Walz OR Waltz) Effeltrich.
Date: February 7, 2024.

Ʃ = 11227


Selected Publications for DUAL-KLAS-NIR


Degen GE, Jackson PJ, Proctor MS, Zoulias N, Casson SA, Johnson MP: High cyclic electron transfer via the PGR5 pathway in the absence of photosynthetic control.

Plant Physiology 192: 370-386 (

Furutani R, Wada S, Ifuku K, Maekawa S, Miyake C: Higher reduced state of Fe/S-signals, with the suppressed oxidation of P700, causes PSI inactivation in Arabidopsis thaliana.

Antioxidants 12: 21 (

Gunell S, Lempiäinen T, Rintamäki, Aro E-M, Tikkanen M: Enhanced function of non-photoinhibited photosystem II complexes upon PSII photoinhibition.

BBA-Bioenergetics 1864: 148978 (

Ishii A, Shan J, Sheng X, Kim E, Watanabe A, Yokono M, Noda C, Song C, Murata K, Liu Z, Minagawa J: The photosystem I supercomplex from a primordial green alga Ostreococcus tauri harbors three light-harvesting complex trimers.

eLife12: e84488 (

Keller J-M, Frieboes MJ, Jödecke L, Kappel S, Wulff N, Rindfleisch T, Sandoval-Ibanez O, Gerlach I, Thiele W, Bock R, Eirich J, Finkemeier I, Schünemann D, Zoschke R, Schöttler MA, Armbruster U: Eukaryote-specific assembly factor DEAP2 mediates an early step of photosystem II assembly in Arabidopsis.

Plant Physiology, in press (

Niu Y, Lazár D, Holzwarth AR, Kramer DM, Matsubara S, Fiorani F, Poorter H, Schrey SD, Nedbal L: Plants cope with fluctuating light be frequency-dependent nonphotochemical quenching and cyclic electron transport.

New Phytologist 239: 1869-1886 (

Ohnishi M, Maekawa S, Wada S, Ifuku K, Miyake C: Evaluating the oxidation rate of reduced ferredoxin in Arabidopsis thaliana independent of photosynthetic linear electron flow: plausible activity of ferredoxin-dependent cyclic electron flow around photosystem I.

International Journal of Molecular Sciences 24: 12145 (

Santana-Sánchez A, Nikkanen L, Werner E, Tóth G, Ermakova M, Kosourov S, Walter J, He M, Aro E-M, Allahverdiyeva Y: Flv3A facilitates O2 photoreduction and affects H2 photoproduction independently of Flv1A in diazotrophic Anabaena filaments.

New Phytologist 237: 126-139 (


Appel J, Craig S, Theune M, Hüren V, Künzel S, Forberich B, Bryan S, Gutekunst K: Evidence for electron transfer from the bidirectional hydrogenase to the photosynthetic complex I (NDH-1) in the Cyanobacterium Synechocystis sp. PCC 6803.

Microorganisms 10: 1617 (

Burgstaller H, Wang Y, Caliebe J, Hueren V, Appel J, Boehm M, Leitzke S, Theune M, King PW, Gutekunst: Synechocystis sp. PCC 6803 requires the bidirectional hydrogenase to metabolize glucose and arginine under oxic conditions.

Frontiers in Microbiology 13: 896190 (

Lazár D, Niu Y, Nedbal L: Insight on the regulation of photosynthesis in pea leaves exposed to oscillating light.

Journal of Experimental Botany 73: 6380-6393 (

Lempiäinen T, Rintamäki E, Aro E-M, Tikkanen M: Plants acclimate to photosystem I photoinhibition by readjusting the photosynthetic machinery.

Plant, Cell and Environment 10: 2954-2971 (

Lucius S, Theune M, Arrivault S, Hildebrandt S, Mullineaux CW, Gutekunst K, Hagemann: CP12 fine-tunes the Calvin-Benson cycle and carbohydrate metabolism in cyanobacteria.

Frontiers in Plant Science 13: 1028794 (

Schansker G: Determining Photosynthetic Control, a probe for the balance between electron transport and Calvin-Benson cycle activity, with the DUAL-KLAS-NIR.

Photosynthesis Research 153: 191-204 (

Schmidtpott SM, Danho S, Kumar V, Seidel T, Schöllhorn W, Dietz K-J: Scrutinizing the impact of alternating electromagnetic fields on molecular features of the model plant Arabidopsis thaliana.

International Journal of Environmental Research and Public Health 19: 5144 (


Balti H, Abassi M, Dietz K-J, Kumar V: Differences in ionic, enzymatic, and photosynthetic features characterize distinct salt tolerance in eucalyptus species.

Plants 10: 1401 (

Flannery SE, Hepworth C, Wood WHJ, Pastorelli F, Hunter CN, Dickman MJ, Jackson PJ, Johnson MP: Developmental acclimation of the thylakoid proteome to light intensity in Arabidopsis.

The Plant Journal 105: 223–244 (

Hepworth C, Wood WHJ, Emrich-Mills TZ, Procter MS, Casson S, Johnson MP: Dynamic thylakoid stacking and state transitions work synergistically to avoid acceptor-side limitation of photosystem I.

Nature Plants 7: 87-98 (

Mattila H, Sotoudehnia P, Kuuslampi T, Stracke R, Mishra KB, Tyystjärvi E: Singlet oxygen, flavonols and photoinhibition in green and senescing silver birch leaves.

Trees 35: 1267–1282 (

Rühle T, Dann M, Reiter B, Schünemann D, Naranjo B, Penzler J-F, Kleine T, Leister D: PGRL2 triggers degradation of PGR5 in the absence of PGRL1.

Nature Communications 12: 3941 (

Santana-Sanchez A, Nikkanen L, Toth G, Ermakova M, Kosourov S, Walter J, He M, Aro E-M, Allahverdiyeva Y: Flv3A facilitates O2 photoreduction and affects H2 photoproduction independently of Flv1A in diazotrophic Anabaena filaments.

bioRxiv (

Shimakawa G, Miyake C: Photosynthetic linear electron flow drives CO2 assimilation in maize leaves.

International Journal of Molecular Sciences 22: 4894 (

Theune ML, Hildebrant S, Steffen-Heins A, Bilger W, Gutekunst K, Appel J: In-vivo quantification of electron transport makes up about 35% in a cyanobacterium.

Biochimica et Biophysica Acta 1862: 148353 (

Wang Y, Chen X, Spengler K, Terberger K, Boehm M, Appel J, Barske T, Timm S, Battchikova N, Hagemann M, Gutekunst K: Pyruvate:ferredoxin oxidoreductase and low abundant ferredoxins support aerobic photomixotrophic growth in cyanobacteria.

bioRxiv (


Fitzpatrick D, Aro E-M, Tiwari A: A commonly used photosynthetic inhibitor fails to block electron flow to Photosystem I in intact systems.

Frontiers in Plant Science 11: 382 (

Furutani R, Makino A, Suzuki Y, Wada S, Shimakawa G, Miyake C: Intrinsic fluctuations in transpiration induce photorespiration to oxidize P700 in photosystem I.

Plants 9: 1761 (

Nikkanen L, Santana Sánchez A, Ermakova M, Rögner M, Cournac L, Allahverdiyeva Y: redundancy and crosstalk between flavodiiron proteins and NDH-1 in Synechocystis sp. PCC 6803.

BioRxiv (

Nikkanen L, Santana Sánchez S, Ermakova M, Rögner M, Cournac L, Allahverdiyeva Y: Functional redundancy between flavodiiron proteins and NDH-1 in Synechoscystis sp. PCC 6803.

The Plant Journal 103: 1460-1476 (

Sétif P, Shimakawa G, Krieger-Liszkay A, Miyake C: Identification of the electron donor tot flavodiiron proteins in Synechocystis sp. PCC 6803 by in vivo spectroscopy.

Biochimica et Biophysica Acta 1861: 148256 (

Shimakawa G, Sétif P, Krieger-Liszkay A: Near-infrared in vivo measurements of photosystem I and its luminal electron donors with a recently developed spectrophotometer.

Photosynthesis Research 145: 31-41 (

Telman W, Liebthal M, Dietz K-J: Redox regulation by peroxiredoxins is linked to their thioredoxin-dependent oxidase function.

Photosynthesis Research 145: 31-41 (


Kadota K, Furutani R, Makino A, Suzuki Y, Wada S, Miyake C: Oxidation of P700 induces alternative electron flow in photosystem I in wheat leaves.

Plants 8: 152 (

Kumar V, Vogelsang L, Seidel T, Schmidt R, Weber M, Reichelt M, Meyer A, Clemens S, Sharma SS, Dietz K-J: Interference between arsenic-induced toxicity and hypoxia.

Plant Cell and Environment 42: 574-590 (

Lima-Melo Y, Gollan PJ, Tikkanen M, Silveira JAG, Aro E-M: Consequences of photosystem-I damage and repair on photosynthesis and carbon use in Arabidopsis thaliana.

Plant Journal 97: 1061-1072 (

Nikkanen L, Guinea Diaz M, Toivola J, Tiwari A, Rintamäki E: Multilevel regulation of non-photochemical quenching and state transitions by chloroplast NADPH-dependent thioredoxin reductase.

Physiologia Plantarum 166: 211-225 (

Sétif P, Boussac A, Krieger-Liszkay A: Near-infrared in vitro measurements of photosystem I cofactors and electron-transfer partners with a recently developed spectrophotometer.

Photosynthesis Research 142: 307-319 (

Telman W, Liebthal M, Dietz K-J: Redox regulation by peroxiredoxins is linked to their thioredoxin-dependent oxidase function

Photosynthesis Research, in press (


Nikkanen L, Toivola J, Trotta A, Guinea Diaz M, Tikkanen M, Aro E-M, Rintamäki E: Regulation of cyclic electron flow by chloroplast NADPH-dependent thioredoxin system.

Plant Direct 2: e00093 (

Shimakawa G, Miyake C: Changing frequency of fluctuating light reveals the molecular mechanism for P700 oxidation in plant leaves.

Plant Direct 2: e00073 (

Takagi D, Miyake C: PROTON GRADIENT REGULATION 5 supports linear electron flow to oxidize photosystem I.

Physiologia Plantarum 164: 337–348 (

Vaseghi M-J, Chibani K, Telman W, Liebthal MF, Gerken M, Schnitzer H, Müller SM, Dietz K-J: The chloroplast 2-cysteine peroxiredoxin functions as thioredoxin oxidase in redox regulation of chloroplast metabolism.

eLife 7: e38194 (


Schreiber U: Redox changes of ferredoxin, P700, and plastocyanin measured simultaneously in intact leaves.

Photosynthesis Research 134: 343–360 (


Klughammer C, Schreiber U: Deconvolution of ferredoxin, plastocyanin, and P700 transmittance changes in intact leaves with a new type of kinetic LED array spectrophotometer.

Photosynthesis Research 128: 195–214 (

Schreiber U, Klughammer C: Analysis of photosystem I donor and acceptor sides with a new type of online-deconvoluting kinetic LED-array spectrophotometer.

Plant and Cell Physiology 57: 1454–1467 (