MELANDRI, BRUNO ANDREA
MELANDRI, BRUNO ANDREA
DIP. DI BIOLOGIA EVOLUZIONISTICA SPERIMENTALE
A point mutation in the ATP synthase of Rhodobacter capsulatus results in differential contributions of ΔpH and Δφ in driving the ATP synthesis reaction
2002 Turina P.; Melandri B.A.
A single-point mutation in the ATP synthase of Rb. capsulatus impairing the stability of the protonmotive forceactivated state
2004 S. Anefors; D. Giovannini; P. Turina; W. Junge; A. Mulkidjanian; B. Feniouk; B. A. Melandri
Activation of the H+-ATP synthase in the photosynthetic bacterium Rhodobacter capsulatus
1992 Turina P.; Rumberg B.; Melandri B.A.; Graber P.
ATP hydrolysis in ATP synthases can be differently coupled to proton transport and modulated by ADP and phosphate: a structure based model of the mechanism.
2010 M. D'Alessandro; B.A. Melandri
ATP synthesis in chromatophores driven by artificially induced ion gradients
1991 TURINA P.; MELANDRI B.A.; GRABER P.
Correlation Between Buffering Capacity and Proton Efflux in Bacterial Chromatophores
1990 Turina, M. P.; Venturoli, G.; Melandri, B. A.
Effect of Pi and ADP on the intrinsic uncoupling in the isolated and reconstituted ATPsynthase of E-coli
2008 D'Alessandro M.; Turina P.; Melandri B.A.
EFFECT OF THE gammaM23-K MUTATION ON ATP SYNTHASE ACTIVATION BY THE PROTONMOTIVE FORCE AND ON COUPLING ATP HYDROLYSIS TO PROTON TRANSLOCATION
2006 Rebecchi A .; Feniouk B.; Turina P.; Melandri B.A.
Evaluation of the buffer capacity and permeability constant for protons in chromatophores from Rhodobacter capsulatus
1990 TURINA M.P.; VENTUROLI G.; MELANDRI B.A.
Heterogeneity of photosynthetic membranes from Rhodobacter capsulatus: Size dispersion and ATP synthase distribution
2007 Gubellini F.; Francia F.; Turina P.; Lévy D.; Venturoli G.; Melandri B.A.
INTRINSIC UNCOUPLING IN THE ATP SYNTHASE OF E.COLI
2006 M. D’Alessandro; S. Anefors; P. Turina; B.A. Melandri
Intrinsic uncoupling in the ATP synthase of Escherichia coli.
2008 D'Alessandro M.; Turina P.; Melandri B.A.
Light-harvesting complex I stabilizes P+QB- charge separation in reaction centers of Rhodobacter sphaeroides.
2004 F. FRANCIA; M. DEZI; A. REBECCHI; A. MALLARDI; G. PALAZZO; B.A. MELANDRI; VENTUROLI G.
Met23Lys mutation in subunit gamma of F(O)F(1)-ATP synthase from Rhodobacter capsulatus impairs the activation of ATP hydrolysis by protonmotive force.
2007 Feniouk B.A.; Rebecchi A.; Giovannini D.; Anefors S.; Mulkidjanian A.Y.; Junge W.; Turina P.; Melandri B.A.
Modulation of coupling in the Escherichia coli ATP synthase by ADP and Pi: Role of the ε subunit C-terminal domain
2017 D'Alessandro, M.; Turina, P; Melandri, B.A.; Dunn, S.D.
MODULATION OF PROTON PUMPING EFFICIENCY IN BACTERIAL ATP SYNTHASES
2006 P. Turina; A. Rebecchi; M. D'Alessandro; S. Anefors; B.A. Melandri
Modulation of proton pumping efficiency in bacterial ATP synthases.
2006 Turina M.P.; Rebecchi A.; D'Alessandro M.; Anefors S.; Melandri B.A.
Photosynthesis research in Italy: a review
2006 Forti G.; Agostiano A.; Barbato R.; Bassi R.; Brugnoli E.; Finazzi G.; Garlaschi F.M.; Jennings R.C.; Melandri B.A.; Trotta M.; Venturoli G.; Zanetti G.; Zannoni D.; Zucchelli G.
Physiological ligands ADP and Pi modulate the degree of intrinsic coupling in the ATP synthetase of the photosynthetic bacterium Rhodobacter capsulatus
2004 TURINA M.P.; GIOVANNINI D.; GUBELLINI F.; MELANDRI B.
Preface
2004 MELANDRI B.A.; SOLAINI G.