Control of Synthesis of Functional mRNA Coding for Phenylalanine Ammonia-Lyase from Rhodosporidium toruloides
AUTOR(ES)
Gilbert, Harry J.
RESUMO
The regulation of functional mRNA coding for phenylalanine ammonia-lyase (PAL) from Rhodosporidium toruloides was investigated. Polyadenylic acid [poly(A)]-containing RNA was an efficient template for in vitro translation in rabbit reticulocyte lysate. Non-poly(A)-containing RNA did not stimulate in vitro protein synthesis. Several lines of experimental evidence indicate that mRNA from R. toruloides directs PAL synthesis in reticulocyte lysate: (i) the major radioactive product in immunoprecipitates when lysates, incubated with yeast poly(A)-containing RNA, were reacted with PAL-antiserum had the same molecular weight as native PAL (75,000); (ii) this major radioactive product competes with authentic PAL for binding to PAL-antiserum; and (iii) partial proteolytic peptide maps of the in vitro translation product were very similar to those of native PAL. The levels of functional mRNA coding for PAL, when R. toruloides was grown in different physiological conditions, were determined by quantitation of PAL synthesized in vitro when RNA was added to reticulocyte lysate. Functional PAL mRNA was six times higher in yeast grown on phenylalanine compared with glucose-phenylalanine minimal medium. No functional PAL mRNA was detected in yeast grown on glucose-ammonia minimal medium in the presence or absence of phenylalanine. These observed changes in functional PAL mRNA were similar to levels of PAL catalytic and antigenic activity. The kinetics of functional PAL mRNA synthesis and degradation were studied. Maximum levels of functional PAL mRNA were observed within 60 min of transfer to PAL-inducing growth conditions. Poly(A)-containing RNA and functional PAL mRNA were rapidly degraded when cells were transferred from phenylalanine to glucose-ammonia minimal medium, with half-lives of 25 and 10 min, respectively. Thus, it is suggested that the alterations in the amount of PAL in cells of R. toruloides grown in different physiological conditions primarily result from alteration in the amount of functional mRNA coding for the enzyme.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=221757Documentos Relacionados
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