Soong Yu Kuo scite author profile

Vacuolar proton-pyrophosphatase (H(+)-PPase) of mung bean seedlings contains a single kind of polypeptide with a molecular mass of approx. 73 kDa. However, in this study, a molecular mass of approx. 140 kDa was obtained for the purified vacuolar H(+)-PPase by size-exclusion gel-filtration chromatography, suggesting that the solubilized form of this enzyme is a dimer. Radiation inactivation analysis of tonoplast vesicles yielded functional masses of 141.5 +/- 10.8 and 158.4 +/- 19.5 kDa for PP1 hydrolysis activity and its supported proton translocation respectively. These results confirmed the in situ dimeric structure of the membrane-bound H(+)-PPase of plant vacuoles. Further target-size analysis showed that the functional unit of purified vacuolar H(+)-PPase was 71.1 +/- 6.7 kDa, indicating that only one subunit of the purified dimeric complex would sufficiently display its enzymic reaction. Moreover, in the presence of valinomycin and KCl, the functional size of membrane-bound H(+)-PPase was decreased to approx. 63.4 +/- 6.3 kDa. A working model was proposed to elucidate the structure of native H(+)-PPase on vacuolar membrane as a functional dimer. Factors that would disturb the membrane, e.g. membrane solubilization and the addition of valinomycin and KCl, may induce an alteration in its enzyme structure, subsequently resulting in a different functional size.

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Purification and Characterization of Thylakoid Membrane-Bound Inorganic Pyrophosphatase fromSpinacia oleraciaL

Jiang

Fan

Yang

et al. 1997

Archives of Biochemistry and Biophysics

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Subunit interaction of vacuolar H+-pyrophosphatase as determined by high hydrostatic pressure

Yang

Tsai

et al. 1998

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Vacuolar H+-pyrophosphatase (H+-PPase) from etiolated hypocotyls of mung bean (Vigna radiata L.) is a homodimer with a molecular mass of 145 kDa. The vacuolar H+-PPase was subjected to high hydrostatic pressure to investigate its structure and function. The inhibition of H+-PPase activity by high hydrostatic pressure has a pressure-, time- and protein-concentration-dependent manner. The Vmax value of vacuolar H+-PPase was dramatically decreased by pressurization from 293.9 to 70.2 micromol of PPi (pyrophosphate) consumed/h per mg of protein, while the Km value decreased from 0.35 to 0.08 mM, implying that the pressure treatment increased the affinity of PPi to vacuolar H+-PPase but decreased its hydrolysis. The physiological substrate and its analogues enhance high pressure inhibition of vacuolar H+-PPase. The HPLC profile reveals high pressure treatment of H+-PPase provokes the subunit dissociation from an active into inactive form. High hydrostatic pressure also induces the conformational change of vacuolar H+-PPase as determined by spectroscopic techniques. Our results indicate the importance of protein-protein interaction for this novel proton-translocating enzyme. Working models are proposed to interpret the pressure inactivation of vacuolar H+-PPase. We also suggest that association of identical subunits of vacuolar H+-PPase is not random but proceeds in a specific manner.

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An Essential Arginyl Residue in the Tonoplast Pyrophosphatase from Etiolated Mung Bean Seedlings

Kuo

Pan²

1990

Plant Physiol.

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Tonoplast membrane of etiolated mung bean (Vinga radiata.L.) seedlings contained HW-translocating pyrophosphatase (PPase).Modification of tonoplast vesicles and partially purified PPase from etiolated mung bean seedlings with arginine-specific reagents, phenylglyoxal (PGO) and 2,3-butanedione (BD), resulted in a marked decline in HW-translocating PPase activity. The halfmaximal inhibition was brought about by 20 millimolar PGO and 50 millimolar BD for membrane bound and 1.5 millimolar PGO and 5.0 millimolar BD for soluble PPase, respectively. The substrate, Mg2 -pyrophosphate, provided partial protection against inactivation by these reagents. Loss of activity of partially purified PPase followed pseudo-first order kinetics. The double logarithm plots of pseudo-first order rate constant versus reagent concentrations gave slopes of 0.88 (PGO) and 0.90 (BD), respectively, suggesting that the inactivation may possibly result from reaction of at least one arginyl residue at the active site of H+-translocating PPase.

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Soong Yu Kuo

Evidence that inhibitors of anion exchange induce a transmembrane conformational change in band 3.

Subunit structure of vacuolar proton-pyrophosphatase as determined by radiation inactivation

Purification and Characterization of Thylakoid Membrane-Bound Inorganic Pyrophosphatase fromSpinacia oleraciaL

Subunit interaction of vacuolar H+-pyrophosphatase as determined by high hydrostatic pressure

An Essential Arginyl Residue in the Tonoplast Pyrophosphatase from Etiolated Mung Bean Seedlings

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