• Title of article

    Localization of an Ascorbate-Reducible Cytochrome b561 in the Plant Tonoplast

  • Author/Authors

    Griesen، Daniel نويسنده , , Su، Dan نويسنده , , Berczi، Alajos نويسنده , , Asard، Han نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2004
  • Pages
    -725
  • From page
    726
  • To page
    0
  • Abstract
    As a free radical scavenger, and cofactor, ascorbate (ASC) is a key player in the regulation of cellular redox processes. It is involved in responses to biotic and abiotic stresses and in the control of enzyme activities and metabolic reactions. Cytochromes (Cyts) b561 catalyze ASC-driven trans-membrane electron transport and contribute to ASC-mediated redox reactions in subcellular compartments. Putative Cyts b561 have been identified in Arabidopsis (ecotype Columbia) on the basis of sequence similarity to their mammalian counterparts. However, little is known about the function or subcellular localization of this unique class of membrane proteins. We have expressed one of the putative Arabidopsis Cyt b561 genes (CYBASC1) in yeast and we demonstrate that this protein encodes an ASC-reducible btype Cyt with absorbance characteristics similar to that of other members of this family. Several lines of independent evidence demonstrate that CYBASC1 is localized at the plant tonoplast (TO). Isoform-specific antibodies against CYBASC1 indicate that this protein cosediments with the TO marker on sucrose gradients. Moreover, CYBASC1 is strongly enriched in TO-enriched membrane fractions, and TO fractions contain an ASC-reducible b-type Cyt with (alpha)-band absorbance maximum near 561 nm. The TO ASC-reducible Cyt has a high specific activity, suggesting that it is a major constituent of this membrane. These results provide evidence for the presence of trans-membrane redox components in this membrane type, and they suggest the coupling of cytoplasmic and vacuolar metabolic reactions through ASC-mediated redox activity.
  • Keywords
    Consciousness , Nonlocality , Patterned photostimulation , Visual evoked potential , Transferred potential , Dolphins , Chimpanzees , Auditory stimulation , Transcranial magnetic stimulation
  • Journal title
    PLANT PHYSIOLOGY
  • Serial Year
    2004
  • Journal title
    PLANT PHYSIOLOGY
  • Record number

    113441