Biosynthesis of Δ-aminolevulinate in greening barley leaves VI. Activation of glutamate by ligation to RNA
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Biosynthesis of Δ-aminolevulinate in greening barley leaves VI. Activation of glutamate by ligation to RNA. / Kannangara, C. Gamini; Gough, Simon P.; Oliver, Richard P.; Rasmussen, Søren K.
In: Carlsberg Research Communications, Vol. 49, No. 3, 01.01.1984, p. 417-437.Research output: Contribution to journal › Journal article › Research › peer-review
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T1 - Biosynthesis of Δ-aminolevulinate in greening barley leaves VI. Activation of glutamate by ligation to RNA
AU - Kannangara, C. Gamini
AU - Gough, Simon P.
AU - Oliver, Richard P.
AU - Rasmussen, Søren K.
PY - 1984/1/1
Y1 - 1984/1/1
N2 - The components involved in the enzymic conversion of glutamate to δ-aminolevulinate have been separated into three fractions; a Blue Sepharose bound, a chlorophyllin-(or heme) Sepharose bound and an unbound fraction. Combination of these three fractions reconstituted δ-aminolevulinate synthesis from glutamate. Participation of a specific RNA in δ-aminolevulinate synthesis was established by isolating a homogeneous RNA from the chlorophyllin-Sepharose bound fraction and reconstituting δ-aminolevulinate synthesis in the presence of the unbound and Blue Sepharose bound fractions. The RNA involved in δ-aminolevulinate synthesis was purified by high-pressure liquid chromatography and preparative gel electrophoresis. In the presence of the Blue Sepharose bound fraction, ATP and Mg2+, glutamate bound covalently to this RNA. Co(III)-ATP-o-phenanthroline bound to the RNA and strongly inhibited glutamyl-RNA formation, whereas heme and Mg-protoporphyrin at 50 μM were only slightly inhibitory. The chlorophyllin-Sepharose bound fraction also contained two other glutamate acceptor RNAs. RNAase A and snake venom phosphodiesterase strongly reduced δ-aminolevulinate synthesis and glutamyl-RNA formation, whereas addition of DNAase or spleen phosphodiesterase was only slightly inhibitory. The RNA became sensitive to the spleen enzyme after phenol extraction of the chlorophyllin-Sepharose bound fraction. E. coli tRNAGlu orwheat germ tRNA did not reconstitute δ-aminolevulinate synthesis when combined with the Blue Sepharose bound and unbound fractions. The RNA involved in δ-aminolevulinate synthesis hybridised to a 3.9 kb Hind III Pst I restriction endonuclease fragment from the barley chloroplast genome located in the large single copy region 38 kb from the large subunit gene for RuBP carboxylase and 12 kb from the inverted repeats. Glutamate 1-semialdehyde aminotransferase was labelled during35S-incorporation into greening barley leaves but not during incorporation into isolated plastids. It is suggested that an NADPH-dependent dehydrogenase involved in the reduction of glutamyl-RNA to glutamate 1-semialdehyde is present in the Blue Sepharose bound fraction.
AB - The components involved in the enzymic conversion of glutamate to δ-aminolevulinate have been separated into three fractions; a Blue Sepharose bound, a chlorophyllin-(or heme) Sepharose bound and an unbound fraction. Combination of these three fractions reconstituted δ-aminolevulinate synthesis from glutamate. Participation of a specific RNA in δ-aminolevulinate synthesis was established by isolating a homogeneous RNA from the chlorophyllin-Sepharose bound fraction and reconstituting δ-aminolevulinate synthesis in the presence of the unbound and Blue Sepharose bound fractions. The RNA involved in δ-aminolevulinate synthesis was purified by high-pressure liquid chromatography and preparative gel electrophoresis. In the presence of the Blue Sepharose bound fraction, ATP and Mg2+, glutamate bound covalently to this RNA. Co(III)-ATP-o-phenanthroline bound to the RNA and strongly inhibited glutamyl-RNA formation, whereas heme and Mg-protoporphyrin at 50 μM were only slightly inhibitory. The chlorophyllin-Sepharose bound fraction also contained two other glutamate acceptor RNAs. RNAase A and snake venom phosphodiesterase strongly reduced δ-aminolevulinate synthesis and glutamyl-RNA formation, whereas addition of DNAase or spleen phosphodiesterase was only slightly inhibitory. The RNA became sensitive to the spleen enzyme after phenol extraction of the chlorophyllin-Sepharose bound fraction. E. coli tRNAGlu orwheat germ tRNA did not reconstitute δ-aminolevulinate synthesis when combined with the Blue Sepharose bound and unbound fractions. The RNA involved in δ-aminolevulinate synthesis hybridised to a 3.9 kb Hind III Pst I restriction endonuclease fragment from the barley chloroplast genome located in the large single copy region 38 kb from the large subunit gene for RuBP carboxylase and 12 kb from the inverted repeats. Glutamate 1-semialdehyde aminotransferase was labelled during35S-incorporation into greening barley leaves but not during incorporation into isolated plastids. It is suggested that an NADPH-dependent dehydrogenase involved in the reduction of glutamyl-RNA to glutamate 1-semialdehyde is present in the Blue Sepharose bound fraction.
KW - affinity chromatography
KW - aminoacyl synthetase
KW - chlorophyll biosynthesis
KW - chlorophyllin-Sepharose
KW - glutamyl tRNA
KW - HPLC
KW - RNAase
KW - tRNA
UR - http://www.scopus.com/inward/record.url?scp=0013185858&partnerID=8YFLogxK
U2 - 10.1007/BF02907783
DO - 10.1007/BF02907783
M3 - Journal article
AN - SCOPUS:0013185858
VL - 49
SP - 417
EP - 437
JO - Carlsberg Research Communications
JF - Carlsberg Research Communications
SN - 0105-1938
IS - 3
ER -
ID: 204472301