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Query: EC:4.1.1.32 (
phosphoenolpyruvate carboxykinase
)
4,204
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A gene (SCPEPCD1) encoding
phosphoenolpyruvate carboxylase
(
PEPC
) was isolated from the C-4 monocot sugarcane (Saccharum hybrid var. H32-8560). SCPEPCD1 is ca. 6800 bp long, with 10 exons. The entire gene sequence from -1561 to 262 bp downstream of the putative poly(A) addition signal is reported. A low-level, essentially constitutive pattern of expression, amino acid sequence similarities to other '
housekeeping
'
PEPC
enzymes, and the absence of DNA sequence elements conserved in the upstream region of maize and sorghum C-4-specific
PEPC
genes indicate that SCPEPCD1 encodes a
housekeeping
PEPC
. Despite this, a motif proposed to act as a phosphorylation site in light-mediated activation of photosynthetic
PEPC
enzymes [10] is present in the SCPEPCD1 protein; evidence is presented for the presence of this site in other
housekeeping
PEPC
proteins.
...
PMID:Structure and expression of a sugarcane gene encoding a housekeeping phosphoenolpyruvate carboxylase. 145 Mar 81
Although
housekeeping
functions have been shown for the
phosphoenolpyruvate carboxylase
(EC 4.1.1.31, PEPC) in plants and in prokaryotes, PEPC is mainly known for its specific role in the primary photosynthetic CO2 fixation in C4 and CAM plants. We have shown that in Sorghum, a monocotyledonous C4 plant, the enzyme is encoded in the nucleus by a small multigene family. Here we report the entire nucleotide sequence (7.5 kb) of the third member (CP21) that completes the structure of the Sorghum PEPC gene family. Nucleotide composition, CpG islands and GC content of the three Sorghum PEPC genes are analysed with respect to their possible implications in the regulation of expression. A study of structure/function and phylogenetic relationships based on the compilation of all PEPC sequences known so far is presented. Data demonstrated that: (1) the different forms of plant PEPC have very similar primary structures, functional and regulatory properties, (2) neither apparent amino acid sequences nor phylogenetic relationships are specific for the C4 and CAM PEPCs and (3) expression of the different genes coding for the Sorghum PEPC isoenzymes is differently regulated (i.e. by light, nitrogen source) in a spatial and temporal manner. These results suggest that the main distinguishing feature between plant PEPCs is to be found at the level of genes expression rather than in their primary structure.
...
PMID:Sorghum phosphoenolpyruvate carboxylase gene family: structure, function and molecular evolution. 844 42
Cloning of the 5 -flanking region of the rat pp120 gene has indicated that it is a
housekeeping
gene: it lacks a functional TATA box and contains several Sp1 binding sites and multiple transcription initiation sites at nucleotides -101, -71, -41, and -27 spread over a GC-rich area. A fragment between nucleotides -21 and -1609 exhibited promoter activity when ligated in a sense orientation into a promoterless luciferase reporter plasmid and transiently transfected into rat H4-II-E hepatoma cells. 5' progressive deletion and block substitution analyses revealed that the three proximal Sp1 boxes (boxes 3, 5, and 6) are required for basal transcription of the pp120 gene. Promoter activity was stimulated 2-3-fold in response to insulin, dexamethasone, insulin plus dexamethasone, and cAMP. Although unaltered by phorbol esters alone, promoter activity was stimulated 4-5-fold in response to phorbol esters plus cAMP. Several motifs resembling response elements for insulin (in the rat
phosphoenolpyruvate carboxykinase
gene), glucocorticoids, cAMP, and phorbol esters as well as a number of putative binding sites for activating proteins-1 (Jun/Fos) and -2, and liver-specific factors were detected. The role of these sites in tissue-specific expression of pp120 remains to be investigated.
...
PMID:Cloning and characterization of a functional promoter of the rat pp120 gene, encoding a substrate of the insulin receptor tyrosine kinase. 862 19
A
phosphoenolpyruvate carboxylase
(
PEPCase
) cDNA was isolated from Aloe arborescens, a monocot CAM plant. Northern analysis of the
PEPCase
transcript indicated that it is specifically expressed in green leaves, strongly suggesting its involvement in CAM photosynthesis. No diurnal change in expression level was evident. Western blot analysis also showed no alteration of the amount of the
PEPCase
protein. These results suggest that circadian rhythm in
PEPCase
activity may be regulated post-translationally. The representative cDNA clone contained an ORF encoding 964 amino acid residues. Deduced amino acid sequence of the aloe
PEPCase
is highly conserved as compared with other PEPCases. The phosphorylation site which may be modified by PEPC-kinase was conserved. An evolutional map with known PEPCases suggested that CAM-type PEPCases were located between C4 and
housekeeping
PEPCases.
...
PMID:Isolation of a cDNA for a phosphoenolpyruvate carboxylase from a monocot CAM-plant, Aloe arborescens: structure and its gene expression. 888 25
Three different cDNAs for
phosphoenolpyruvate carboxylase
(
PEPC
) were isolated from soybean root nodules. The full-length cDNA of the most abundant isoform (GmPEPC7) was very similar to another one (GmPEPC15), the nucleotide sequence of which is identical to that of a reported clone (gmppc1) (Vazquez-Tello, A., Whittier, R.F., Kawasaki, T., Sugimoto, T., Kawamura, Y. and Shibata, D. (1993) Plant Physiol. 103, 1025-1026). In the coding region, the newly isolated GmPEPC7 and the previously reported were gmppc1 99% and 98% identical at the amino acid and nucleotide levels, respectively. In contrast, they exhibited only 39% identity in the 3' non-coding region, indicating that they are encoded by distinct genes. Northern blot analysis with 3' non-coding regions as isoform-specific probes showed that GmPEPC7 is nodule-enhanced whereas GmPEPC15 (gmppc1) is expressed in most soybean tissues. The third clone (GmPEPC4) was much less homologous to the above two clones and thus was not further characterized. It was also shown by in situ hybridization that the nodule-enhanced isoform is expressed in all cell types in nodules, including in Bradyrhizobium-infected and uninfected cells and cortical cells. A relatively strong hybridization signal was detected in the vascular bundle pericycle. Southern blot analysis indicated that there are only two
PEPC
genes exhibiting a high degree of similarity in the soybean genome, one for the nodule-enhanced GmPEPC7 and the other for the constitutively expressed gmppc1. A phylogenetic tree based on the amino acid sequences of soybean PEPCs and nodule-enhanced PEPCs of alfalfa and pea suggested that the soybean nodule-enhanced isoform evolved from the
housekeeping
PEPC
gene after the ureid-translocating and amide-translocating legumes diverged from each other.
...
PMID:Expression of a soybean nodule-enhanced phosphoenolpyruvate carboxylase gene that shows striking similarity to another gene for a house-keeping isoform. 968 Sep 82
This study provides the first comparative analysis of
phosphoenolpyruvate carboxylase
isoforms (PEPc; EC 4.1.1.31) in an obligate crassulacean acid metabolism (CAM) plant, Vanilla planifolia Salisb. (Orchidaceae). Nocturnal CO2 fixation and malate accumulation by the leaves and the green stem show that these organs perform CAM. The chloroplast-containing aerial roots, however, exhibit C3 photosynthesis. The catalytic activity of PEPc was highest in the leaves compared with the stem and aerial roots. The Km (PEP) and Ki (malate) were similar in the PEPc extracted from leaf and aerial roots, and significant higher in stem. cDNA was obtained from those tissues and also from the soil-grown roots, and various cDNA clones were detected and amplified by means of RT-PCR and RACE-PCR. The amino-acid sequences of the PEPc isoforms deduced from the cDNA showed a great degree of homology, and Southern blot analysis suggests that the encoding genes form a small multigene family of at least two members. One PEPc isoform (PpcV1) is assumed to be related to CAM because, as shown by northern blot analysis, it is mainly expressed in the CAM-performing organs, i.e. in the leaves and the stem. A further isoform (PpcV2) was identified in the soil-grown roots and aerial roots, but northern blots show that to some extent PpcV2 is also expressed in the leaf and the stem tissues. Thus, it is assumed that PpcV2 encodes the
housekeeping
isoform of PEPc. Altogether, the present study provides support in favour of the view that isoforms of PEPc are related to specific functions.
...
PMID:Identification of phosphoenolpyruvate carboxylase isoforms in leaf, stem and roots of the obligate CAM plant Vanilla planifolia Salib. (Orchidaceae): a physiological and molecular approach. 986 26
We have determined the genomic organization of two closely related
phosphoenolpyruvate carboxylase
genes in soybean, GmPEPC7, which is expressed at high levels in root nodules, and the
housekeeping
gene GmPEPC15. Their nucleotide sequences, including most introns and 5;-flanking regions within 600 bp upstream from the transcription start sites, are well conserved, suggesting that they were duplicated quite recently. To gain insights into the process of evolution of the tissue-specifically expressed GmPEPC7gene, we produced chimeric constructs carrying either the GmPEPC7or GmPEPC15promoter fused to the beta-glucuronidase gene. The expression patterns of the reporter observed in nodules that developed on transgenic hairy roots reflected the levels of mRNA levels produced by the genes in wild-type soybean plants, indicating that the GmPEPC7promoter directs nodule-specific expression. Loss-of-function experiments showed that the segment of GmPEPC7between -466 and -400, designated as the "switch region" (SR), was necessary for expression in nodules, although proteins that bind to SR were not detectable in a gel-retardation assay. Another gel-retardation assay indicated that putative nodule nuclear proteins bind specifically to the region of GmPEPC7between -400 and -318, designated as the "amplifier region" (AR). Both SR and AR have characteristic sequences that are not found in the GmPEPC15promoter. Furthermore, experiments using hybrid promoters derived from GmPEPC15demonstrated that AR confers high-level expression in nodules only in combination with SR. When wild-type soybean plants were subjected to prolonged darkness and subsequently illuminated, the level of GmPEPC7mRNA in nodules decreased and then recovered. This study suggests that the acquisition of two interdependent cis-acting elements resulted in molecular evolution of the nodule-enhanced GmPEPC7gene.
...
PMID:Regulatory regions and nuclear factors involved in nodule-enhanced expression of a soybean phosphoenolpyruvate carboxylase gene: implications for molecular evolution. 1268 74
The
phosphoenolpyruvate carboxylase
(
PEPC
) gene family of Arabidopsis is composed of four genes. Based on sequence analysis it was deduced that Atppc1, Atppc2 and Atppc3 genes encode plant-type PEPCs, whereas Atppc4 encodes a
PEPC
without phosphorylation motif, but no data at the protein level have been reported. Here, we describe the analysis of the four Arabidopsis
PEPC
polypeptides, which were expressed in Escherichia coli. Immunological characterization with anti plant-type
PEPC
and an anti-AtPPC4 antibody, raised in this work, showed that the bacterial-type
PEPC
is unrelated with plant-type PEPCs. Western-blot analysis of different Arabidopsis organs probed with anti plant-type
PEPC
antibodies detected a double band, the one with low molecular weight corresponding to the three plant-type PEPCs. The high molecular weight subunit is not encoded by any of the Arabidopsis
PEPC
genes. No bands were detected with the anti-AtPPC4 antibody.
PEPC
genes show differential expression in Arabidopsis organs and in response to environmental stress. Atppc2 transcripts were found in all Arabidopsis organs suggesting that it is a
housekeeping
gene. In contrast, Atppc3 gene was expressed in roots and Atppc1 in roots and flowers, as Atppc4. Highest
PEPC
activity was found in roots, which showed expression of the four
PEPC
genes. Salt and drought exerted a differential induction of
PEPC
gene expression in roots, Atppc4 showing the highest induction in response to both stresses. These results show that
PEPC
is part of the adaptation of the plant to salt and drought and suggest that this is the function of the new bacterial-type
PEPC
.
...
PMID:Arabidopsis phosphoenolpyruvate carboxylase genes encode immunologically unrelated polypeptides and are differentially expressed in response to drought and salt stress. 1628 77
The aquatic monocot Hydrilla verticillata (L.f.) Royle is a well-documented facultative C4 NADP-malic enzyme species in which the C4 and Calvin cycles operate in the same cell with the specific carboxylases confined to the cytosol and chloroplast, respectively. Several key components had already been characterized at the molecular level, thus the purpose of this study was to begin to identify other, less obvious, elements that may be necessary for a functional single-cell C4 system. Using differential display, mRNA populations from C3 and C4 H. verticillata leaves were screened and expression profiles compared. From this study, 65 clones were isolated and subjected to a customized macroarray analysis; 25 clones were found to be upregulated in C4 leaves. Northern and semi-quantitative RT-PCR analyses were used for confirmation. From these screenings, 13 C4 upregulated genes were identified. Among these one encoded a previously recognized C4
phosphoenolpyruvate carboxylase
, and two encoded distinct pyruvate orthophosphate dikinase isoforms, new findings for H. verticillata. Genes that encode a transporter, an aminotransferase and two chaperonins were also upregulated. Twelve false positives, mostly
housekeeping
genes, were determined from the Northern/semi-quantitative RT-PCR analyses. Sequence data obtained in this study are listed in the dbEST database (DV216698 to DV216767). As a single-cell C4 system that lacks Kranz anatomy, a better understanding of how H. verticillata operates may facilitate the design of a transgenic C4 system in a C3 crop species.
...
PMID:Identification of C4 responsive genes in the facultative C4 plant Hydrilla verticillata. 1662 82
The genus Clusia includes species that exhibit either the C3 or crassulacean acid metabolism (CAM) mode of photosynthesis, or those that are able to switch between both modes according to water availability. In order to screen for species-specific genetic variability, we investigated the key carboxylase for CAM,
phosphoenolpyruvate carboxylase
(
PEPC
). Sequence analysis of DNA isolated from the obligate CAM species, Clusia hilariana, the obligate C3 species, Clusia multiflora, and an intermediate species that can switch between C3 and CAM photosynthesis, Clusia minor, revealed three different isoforms for C. hilariana and one each for the other two species. Sequence alignments indicated that
PEPC
from the intermediate species had high homology with the C3 protein and with one of CAM plant proteins. These were assumed to constitute '
housekeeping
' proteins, which can also support CAM in intermediate species. The other two isoforms of the CAM plant C. hilariana were either CAM-specific or showed homologies with
PEPC
from roots. Phylogenetic trees derived from neighbour-joining analysis of amino acid sequences from 13 different Clusia species resulted in two distinct groups of plants with either '
housekeeping
'
PEPC
only, or additionally CAM-related isoforms. Only C. hilariana showed the third, probably root-specific isoform. The high homology of the
PEPC
from the intermediate species with the C3 protein indicates that for the reversible transition from the C3 to CAM mode of photosynthesis, the C3 type of
PEPC
is sufficient. Its expression, however, is strongly increased under CAM-inducing conditions. The use of the C3 isoform could have facilitated the evolution of CAM within the genus, which occurred independently for several times.
...
PMID:Phosphoenolpyruvate carboxylase genes in C3, crassulacean acid metabolism (CAM) and C3/CAM intermediate species of the genus Clusia: rapid reversible C3/CAM switches are based on the C3 housekeeping gene. 1708 Dec 45
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