Abstract
In order to purify the lipoamide dehydrogenase associated with the glycine decarboxylase complex of pea leaf mitochondria, the activity of free lipoamide dehydrogenase has been separated from those of the pyruvate and 2-oxoglutarate dehydrogenase complexes under conditions in which the glycine decarboxylase dissociates into its component subunits. This free lipoamide dehydrogenase which is normally associated with the glycine decarboxylase complex has been further purified and the N-terminal amino acid sequence determined. Positive cDNA clones isolated from both a pea leaf and embryo lambda gt11 expression library using an antibody raised against the purified lipoamide dehydrogenase proved to be the product of a single gene. The amino acid sequence deduced from the open reading frame included a sequence matching that determined directly from the N terminus of the mature protein. The deduced amino acid sequence shows good homology to the sequence of lipoamide dehydrogenase associated with the pyruvate dehydrogenase complex from Escherichia coli, yeast, and humans. The corresponding mRNA is strongly light-induced both in etiolated pea seedlings and in the leaves of mature plants following a period of darkness. The evidence suggests that the mitochondrial enzyme complexes: pyruvate dehydrogenase, 2-oxoglutarate dehydrogenase, and glycine decarboxylase all use the same lipoamide dehydrogenase subunit.
Highlights
From theCambridge Laboratory, Agricultural andFood Research Council Instituteof Plant Science Research,John Innes Centre
The antibody raised against the purified lipoamide dehy- lpd genetogether with the aceE and aceF genes, which encode drogenase proved to be the product of a single gene. two other subunits of PDC, form an operon
Homology to the sequence of lipoamide dehydrogenase ODC and probably PDC and GDC, LPD-Val is specificto the associated with the pyruvate dehydrogenase complex branched chain oxo acid dehydrogenase complex (Sokatch et otsffdhropleaoalohltmtnoeytwddhdEierinsnpmogcgeghiametaeonrRscpaiechNseehoerAdi,nialod2iidncs-rogoisoalsxtiflr,oeaogdnynnlazeudgyratlkmsyaitnnr,eleaicasgttolnshehem.deatdT-vphienehluhesdemxyouedefacsrv:neomipddsgy.aeebrTntnuuochavtreseheaestca,ieuponngelrdagtrniee-t-sstsashE3ulau.i,bvsbu1eaun9crni8etkte3cnre;aioSnuswstomlokyncaaii(tcadcBitehdeunadrtaminfnwsiideniedtohBtpaauhlnG.ir,lnDau1stmCy9,1p8f.9ri9T8oc)4ahm.lF)isalrienaptudphonpaedtemheaaneirndfsbaue,eendhrrcgoeothwbieoyitecndvaroelbo.frag,(cL1etto9nPe8arDbis9ae-e) glycine decarboxylase all use the same lipoamide de- the only example characterized to datein which an LDH
Summary
From theCambridge Laboratory, Agricultural andFood Research Council Instituteof Plant Science Research,John Innes Centre. Homology to the sequence of lipoamide dehydrogenase ODC and probably PDC and GDC, LPD-Val is specificto the associated with the pyruvate dehydrogenase complex branched chain oxo acid dehydrogenase complex (Sokatch et otsffdhropleaoalohltmtnoeytwddhdEierinsnpmogcgeghiametaeonrRscpaiechNseehoerAdi,nialod2iidncs-rogoisoalsxtiflr,oeaogdnynnlazeudgyratlkmsyaitnnr,eleaicasgttolnshehem.deatdT-vphienehluhesdemxyouedefacsrv:neomipddsgy.aeebrTntnuuochavtreseheaestca,ieuponngelrdagtrniee-t-sstsashE3ulau.i,bvsbu1eaun9crni8etkte3cnre;aioSnuswstomlokyncaaii(tcadcBitehdeunadrtaminfnwsiideniedtohBtpaauhlnG.ir,lnDau1stmCy9,1p8f.9ri9T8oc)4ahm.lF)isalrienaptudphonpaedtemheaaneirndfsbaue,eendhrrcgoeothwbieoyitecndvaroelbo.frag,(cL1etto9nPe8arDbis9ae-e) glycine decarboxylase all use the same lipoamide de- the only example characterized to datein which an LDH hydrogenase subunit. Lipoamide dehydrogenase (LDH)’ is a FAD-containing polypeptide, which catalyzes the reduction of the lipoamide group in a number of multisubunit enzyme complexes. It has been extensively studied in bothbacterialand eukaryotic species as the E3 component of a-keto acid dehydrogenase complexes (pyruvate dehydrogenase (PDC), 2-oxoglutarate with PDC and 2-ODC activity (Dickinson et al, 1986).
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