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Query: EC:3.2.1.31 (
beta-glucuronidase
)
7,680
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Glyoxysomal
citrate synthase
in pumpkin is synthesized as a precursor that has a cleavable presequence at its N-terminal end. To investigate the role of the presequence in the transport of the protein to the microbodies, we generated transgenic Arabidopsis plants that expressed
beta-glucuronidase
with the N-terminal presequence of the precursor to the glyoxysomal
citrate synthase
of pumpkin. Immunogold labeling and cell fractionation studies showed that the chimeric protein was transported into microbodies and subsequently was processed. The chimeric protein was transported to functionally different microbodies, such as glyoxysomes, leaf peroxisomes, and unspecialized microbodies. These observations indicated that the transport of glyoxysomal
citrate synthase
is mediated by its N-terminal presequence and that the transport system is functional in all plant microbodies. Site-directed mutagenesis of the conserved amino acids in the presequence caused abnormal targeting and inhibition of processing of the chimeric protein, suggesting that the conserved amino acids in the presequence are required for recognition of the target or processing.
...
PMID:Targeting and processing of a chimeric protein with the N-terminal presequence of the precursor to glyoxysomal citrate synthase. 883 11
Glyoxysomal malate dehydrogenase (gMDH) is an enzyme of the glyoxylate cycle that participates in degradation of storage oil. We have cloned a cDNA for gMDH from etiolated pumpkin cotyledons that encodes a polypeptide consisting of 356 amino acid residues. The nucleotide and N-terminal amino acid sequences revealed that gMDH is synthesized as a precursor with an N-terminal extrapeptide. The N-terminal presequence of 36 amino acid residues contains two regions homologous to those of other microbody proteins, which are also synthesized as large precursors. To investigate the functions of the N-terminal presequence of gMDH, we generated transgenic Arabidopsis that expressed a chimeric protein consisting of
beta-glucuronidase
and the N-terminal region of gMDH. Immunological and immunocytochemical studies revealed that the chimeric protein was imported into microbodies such as glyoxysomes and leaf peroxisomes and was then subsequently processed. Site-directed mutagenesis studies showed that the conserved amino acids in the N-terminal presequence, Arg-10 and His-17, function as recognition sites for the targeting to plant microbodies, and Cys-36 in the presequence is responsible for its processing. These results correspond to those from the analyses of glyoxysomal
citrate synthase
(gCS), which was also synthesized as a large precursor, suggesting that common mechanisms that can recognize the targeting or the processing of gMDH and gCS function in higher plant cells.
...
PMID:Glyoxysomal malate dehydrogenase in pumpkin: cloning of a cDNA and functional analysis of its presequence. 955 62
Employing transgenic Arabidopsis plants, we analyzed the mechanism for the translocation of peroxisomal proteins from the cytosol into the matrix that is mediated by the N-terminal targeting signal. A hybrid Arabidopsis variety was generated which accumulates two kinds of originally bacterial proteins,
beta-glucuronidase
(GUS) and a GUS chimeric protein designated as CS-delta C42-GUS, that carries the N-terminal targeting signal for glyoxysomal
citrate synthase
. Because the CS-delta C42-GUS is targeted to peroxisomes but had never been observed to be processed to produce the mature protein, it can be distinguished from the GUS protein by its molecular size. Cell fractionation analyses showed that the native GUS protein, although lacking the targeting signal, was co-localized with the CS-delta C42-GUS protein in the peroxisomes of the hybrid plant. It is suggested that the native GUS protein forms oligomeric structures with the peroxisome-targeted chimeric proteins and can therefore be transported into peroxisomes. Sucrose density gradient centrifugation revealed that the native GUS and the chimeric GUS indeed are present both as a dimer and a tetramer in the Arabidopsis hybrid variety.
...
PMID:Oligomeric proteins containing N-terminal targeting signals are imported into peroxisomes in transgenic Arabidopsis. 1048 23
Plant peroxisomes contain at least four proteins, namely,
citrate synthase
, malate dehydrogenase, long-chain acyl-CoA oxidase, and 3-ketoacyl-CoA thiolase, which are synthesized as large precursors with an N-terminal cleavable presequence. Each presequence has a conserved domain (R[I/L/Q]-X5-HL) that is homologous to peroxisomal targeting signal 2 from mammals and yeasts. In addition, a cysteine residue is found at the C-terminal ends of the presequences, whose function has not yet been described. The authors analyzed the function of the presequences and the conserved amino acids using transgenic Arabidopsis plants, which accumulate
beta-glucuronidase
carrying the presequence of the peroxisomal proteins from plants. Immunological and immunocytochemical studies on the transgenic plants showed that a conserved sequence in the extrapeptides is essential for targeting to peroxisomes, and a cysteine residue at the cleavage site is involved in the processing of the presequence. These results suggest that the presequences of the peroxisomal proteins function as targeting signals, and are necessary for the recognition of the processing.
...
PMID:Transport of peroxisomal proteins synthesized as large precursors in plants. 1133 56
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