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PLANT PHYSIOLOGY , Vol 106, Issue 1 375-382, Copyright © 1994 by American Society of Plant Biologists
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MOLECULAR BIOLOGY AND GENE REGULATION |
Isolation and Characterization of cDNAs Encoding the Vacuolar H+-Pyrophosphatase of Beta vulgaris
Y. Kim, E. J. Kim and P. A. Rea
Plant Science Institute, Department of Biology, University of Pennsylvania, Philadelphia, Pennsylvania 19104-6018
The H+-pyrophosphatase (V-PPase) of plant vacuolar membranes catalyzes the
electrogenic translocation of H+ from the cytosol to vacuole lumen and, in
parallel with the vacuolar H+-ATPase located in the same membrane,
establishes the inside-acid, inside-positive H+-electrochemical potential
difference responsible for energizing the H+-coupled transport of solutes
into the vacuole. The results of previous investigations suggest that the
gene encoding the substrate-binding subunit of the V-PPase is present in a
single copy in the genome of Arabidopsis thaliana (V. Sarafian, Y. Kim,
R.J. Poole, P.A. Rea [1992] Proc Natl Acad Sci USA 89: 1775-1779), but it
is not known whether the situation in Arabidopsis is typical of most
vascular plants. With the objective of assessing the general applicability
of this finding and acquiring sequence data for structure-function analyses
of the enzyme from Beta vulgaris, we have sought to isolate cDNAs encoding
the V-PPase from this organism by screening a Beta cDNA library constructed
in [lambda]ZAP with the Arabidopsis cDNA insert (AVP) encoding the V-PPase.
The results of these investigations demonstrate that at least two genes
encode the V-PPase in Beta. Restriction and sequence analyses of the cDNAs
from Beta reveal two classes, designated BVP1 and BVP2. BVP1 and BVP2
encode closely related but distinct polypeptides with computed masses of
80,550 and 80,000 D, respectively, exhibiting 88% identity with each other
and 89% identity with the corresponding polypeptide from Arabidopsis. The
nucleotide sequences of BVP1 and BVP2, on the other hand, are 70% identical
within their coding regions but less than 28 and 53% identical within their
respective 5[prime] and 3[prime] noncoding regions. Southern analyses of
Beta genomic DNA confirm that two genes encode the V-PPase, and northern
analyses of polyadenylated RNA isolated from a range of tissue types and
probed with RNAs transcribed from the 3[prime] noncoding sequences of BVP1
or BVP2 indicate that both genes are expressed in the intact plant. On the
basis of these findings and the recent demonstration of the sufficiency of
the substrate-binding polypeptide, alone, for all of the known catalytic
functions of the V-PPase (E.J. Kim, R.-G. Zhen, P.A. Rea [1994] Proc Natl
Acad Sci USA [91: 6128-6132]), the two cDNA species isolated from Beta are
concluded to encode variants, possibly isoforms, of the enzyme.
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