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The large subunit (mol wt: 65,000) of sweet potato succinatedehydrogenase was isolated by SDS-polyacrylamide gel electrophoresisof a succinate dehydrogenase preparation, which had been partiallypurified from root mitochondria by solubilizing the enzyme withEmulgen 810, DEAE-cellulose column chromatography, and polyacrylamidegel electrophoresis. Antibody to the purified large subunitwas produced in a rabbit, and the antiserum obtained was judgedto be specific to the large subunit based on the results ofdouble immunodiffusion tests and immunoelectrophoresis. Rocketimmunoelectrophoresis with the antiserum showed that the increasein succinate dehydrogenase activity during the ageing of sliced,sweet potato root tissue was due to an increase in the amountof enzyme protein. Both the increases in the activity of succinatedehydrogenase and in the amount of the large subunit proteinwere inhibited by cycloheximide or chloramphenicol. We proposethat synthesis of the large subunit of succinate dehydrogenaseon cytoplasmic ribosomes is controlled by a mitochondrial translationproduct(s).
1 This work was supported in part by a research fund from TheIshida Foundation, Nagoya, Japan. (Received November 28, 1981; Accepted February 17, 1982) 相似文献
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Suzuki Masaharu; Koide Yasuhiro; Hattori Tsukaho; Nakamura Kenzo; Asahi Tadashi 《Plant & cell physiology》1995,36(6):1067-1074
Deletion analysis of the promoter region of a gene for catalase,cat2, from castor bean (Ricinus communis) was performed to identifythe cis-regulatory elements responsible for the expression ofa rß-glucuronidase (GUS) fusion gene during seed formationand postembryonic development in transgenic tobacco. The analysisshowed that multiple cis-elements contribute to the activityof the cat2 promoter during seed formation and postembryonicdevelopment. The 5'-upstream regions from 1,241 to 816bp, from 720 to 682 bp, and from 632 to535 bp, relative to the site of initiation of translationof cat2, contributed positively to the activity of the cat2promoter during both stages. By contrast, the region from 816to 720 bp had a negative effect at both stages. The regionfrom 682 to 632 bp contributed positively to theactivity during seed formation but negatively during postembyonicdevelopment. Histochemical analysis revealed that the multiplecis-elements determined not only the level of expression ofthe chimeric gene but also the tissue-specificity of such expression.For example, the region from 1,241 to 816 bp allowedexpression of the chimeric gene in the axis of the embryo ofthe dry seed, as well as in the cortex of the middle part ofthe hypocotyl and at the base of epicotyl in the young seedling.
1Present address: Department of Plant Molecular and Cell Biology,University of Florida, Gainesville, Florida 32611-0511, U.S.A.
2Present address: Center for Molecular Biology and Genetics,Mie University, 1515 Kamihama, Tsu, Mie, 519 Japan
3Present address: Faculty of Biotechnology, Fukui PrefecturalUniversity, 4-1-1 Kenjojima, Matsuoka-cho, Yoshida-gun, Fukui,910-11 Japan 相似文献
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Structural relationship among the members of a multigene family coding for the sweet potato tuberous root storage protein 总被引:8,自引:0,他引:8
Sporamin, the major soluble protein of the sweet potato tuberous root, is coded for by a multigene family. Fourty-nine essentially full-length sporamin cDNAs isolated from tuberous root cDNA library have been classified by cross hybridization, restriction endonuclease cleavage pattern and ribonuclease cleavage mapping. All the cDNAs fall into one of the two distinct homology groups, subfamilies A and B, which correspond to the polypeptide classes sporamin A and B, respectively. At least 5 different sequences are detected in both of the 22 sporamin A and 27 sporamin B cDNAs. Comparison of the nucleotide sequences of the coding region of three each of sporamin A and B subfamily members, four from cDNAs and two from genomic clones, indicates that intra-subfamily homologies (94 to 98%) are much higher than inter-subfamily homologies (82 to 84%), and there are deletions or insertions of one or two codons at three locations which characterize each subfamily. Large portions of base substitutions in the coding region accompany amino acid substitutions. In contrast to the coding region, most of the structural differences among the members in the 5 and 3 noncoding regions are deletions or insertions. 相似文献