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Query: UNIPROT:P62988 (Ubiquitin)
 4,326 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have cloned a nuclear gene from the marine red alga Gracilaria verrucosa that encodes the complete 779 amino-acid mitochondrial aconitase (m-ACN), the first characterized from a photosynthetic organism. The N-terminal 28 deduced amino acids are predicted to constitute the mitochondrial transit peptide, the first described from a red alga. Putative transcriptional cis-acting elements were identified in the upstream untranslated region. The G. verrucosa m-ACN gene (m-ACN) is present in a single copy and is located ca. 1.5 kb upstream from the single-copy polyubiquitin gene. The single spliceosomal intron is located near the 5' end of the region encoding the mature m-ACN in precisely the same location and phase as intron 2 in Caenorhabditis elegans m-ACN; sequences at its 3' and 5' splice junctions and at the predicted lariat branch point conform well to the eukaryote consensus sequences. Multiple protein-sequence alignment of m-ACN, bacterial aconitase (b-ACN) and iron-responsive element-binding protein (IRE-BP), and phylogenetic analyses, revealed that m-ACN does not share a recent common ancestry with either b-ACN or IRE-BP.
Plant Mol Biol 1995 Jul
PMID:Characterization of the nuclear gene encoding mitochondrial aconitase in the marine red alga Gracilaria verrucosa. 764 96

Ubiquitin is a 76-residue protein which is highly conserved among eukaryotes. Sponge (Porifera) ubiquitin, isolated from Geodia cydonium, is encoded by a gene (termed GCUBI) with six repeats, GCUBI-1 to GCUBI-6. All repeat units encode the same protein (with one exception: GCUBI-4 encodes ubiquitin with a change of Leu to Val at position 71). On the nt level the sequences of the six repeats differ considerably. All changes (except in GCUBI-4) are silent substitutions, which do not affect the protein structure. However, there is one major difference between the repeats: Codons from both codon families (TCN and AGPy) are simultaneously used for the serine at position 65. Using this characteristic the repeats were divided into two groups: Group I: GCUBI-1,3 (TCT codon) and GCUBI-5 (TCC); Group II: GCUBI-2,4,6 (AGC codon). Mutational analysis suggests that the sponge polyubiquitin gene evolved from an ancestral monoubiquitin gene by gene duplication and successive tandem duplications. The ancestral monoubiquitin gene most probably coded for threonine (ACC) at position 65. The first event, duplication of the monoubiquitin gene, happened some 110 million years ago. Since sponges from the genus Geodia are known from the Cretaceous (145 million) to recent time, it is very likely that all events in the evolution of polyubiquitin gene occurred in the same genus. Alignment data of the "consensus" ubiquitin nt sequences of different animals (man to protozoa) reflect very well the established phylogenetic relationships of the chosen organisms and show that the sponge ubiquitin gene branched off first from the multicellular organisms.
J Mol Evol 1994 Oct
PMID:Phylogenetic relationship of ubiquitin repeats in the polyubiquitin gene from the marine sponge Geodia cydonium. 796 67

We have used the promoter, 1st exon and 1st intron of the maize polyubiquitin gene (Ubi-1) for rice transformation experiments and revealed the characteristic expression of Ubi-1 gene: (1) Ubi-1 gene is not regulated systemically but rather individual cells respond independently to the heat or physical stress; (2) Ubi-1 gene changes its tissue-specific expression in response to stress treatment; (3) the expression of Ubi-1 gene is dependent on cell cycle.
Plant Mol Biol 1994 Nov
PMID:Non-systemic expression of a stress-responsive maize polyubiquitin gene (Ubi-1) in transgenic rice plants. 799 91

The degradation of many proteins requires their prior attachment to ubiquitin. Proteolytic substrates are characteristically multiubiquitinated through the formation of ubiquitin-ubiquitin linkages. Lys-48 of ubiquitin can serve as a linkage site in the formation of such chains and is required for the degradation of some substrates of this pathway in vitro. We have characterized the recessive and dominant effects of a Lys-48-to-Arg mutant of ubiquitin (UbK48R) in Saccharomyces cerevisiae. Although UbK48R is expected to terminate the growth of Lys-48 multiubiquitin chains and thus to exert a dominant negative effect on protein turnover, overproduction of UbK48R in wild-type cells results in only a weak inhibition of protein turnover, apparently because the mutant ubiquitin can be removed from multiubiquitin chains. Surprisingly, expression of UbK48R complements several phenotypes of polyubiquitin gene (UB14) deletion mutants. However, UbK48R cannot serve as a sole source of ubiquitin in S. cerevisiae, as evidenced by its inability to rescue the growth of ubi1 ubi2 ubi3 ubi4 quadruple mutants. When provided solely with UbK48R, cells undergo cell cycle arrest with a terminal phenotype characterized by replicated DNA, mitotic spindles, and two-lobed nuclei. Under these conditions, degradation of amino acid analog-containing proteins is severely inhibited. Thus, multiubiquitin chains containing Lys-48 linkages play a critical role in protein degradation in vivo.
Mol Cell Biol 1994 Aug
PMID:Inhibition of proteolysis and cell cycle progression in a multiubiquitination-deficient yeast mutant. 803 26

Ubiquitin genes provide a model for studying the effects of concerted evolution on the evolution of a family of short repeated sequences. Previous work has demonstrated the occurrence of within-locus concerted evolution and raised the question of the effectiveness of between-locus concerted evolution for ubiquitin repeats. In this study comparative analysis of additional nucleotide sequences of ubiquitin tandem repeats provides further details of within-locus concerted evolution. Moreover, the availability of multiple polyubiquitin loci and ubiquitin fusion loci within a species makes possible the detection of between-locus concerted evolution. These data indicate that concerted evolution is an effective force for homogenizing repeats between, as well as within, loci.
Mol Phylogenet Evol 1993 Dec
PMID:Ubiquitins revisited: further examples of within- and between-locus concerted evolution. 804 84

The foraminifera are one of the last major groups of eukaryotes for which no published DNA sequences exist. DNA sequence of ubiquitin repeat units from 5 foraminifera (representing 3 suborders), a diatom, and a dinoflagellate were characterized using the polymerase chain reaction, cloning, and sequencing. The phylogenetic utility of ubiquitin DNA sequence is discussed in reference to a full eukaryote data base. The foraminifera are possibly a polyphyletic group, whereas the phylogenetic placement of the diatom and the dinoflagellate are congruent with existing hypotheses. The lack of a noneukaryote root and limited phylogenetically informative sequence information indicate that polyubiquitin may not be useful for phylogenetic reconstruction of all eukaryotes.
Mol Mar Biol Biotechnol 1994 Feb
PMID:Phylogenetic utility of ubiquitin DNA sequence from 3 marine protist lineages. 805 61

The FAU gene (FBR-MuSV associated ubiquitously expressed gene) encodes the ribosomal protein S30 fused with a Ubiquitin-like molecule. The FAU gene is expressed in a wide range of tissues, is evolutionarily conserved, and has putative tumour suppressor activity in vitro. The human FAU gene maps to the long arm of chromosome 11 band q13, close to the PYGM locus. This locus is tightly linked to the Multiple Endocrine Neoplasia type 1 (MEN1) locus. The FAU gene properties, together with its chromosomal localisation on 11q13, make it a candidate gene for MEN1. To test this hypothesis we screened 33 unrelated patients with MEN1 for constitutional genetic alterations in the FAU gene by Southern blot analysis, denaturing gradient gel electrophoresis (DGGE) and in two cases complemented by DNA sequencing to confirm the DGGE data. Furthermore, 10 parathyroid and pancreatic tumours from MEN1 patients and 15 each of sporadic parathyroid and pituitary tumours were similarly examined. In addition, we studied the expression of the FAU gene at the RNA level in 9 MEN1-associated tumours by Northern blot analysis. No FAU gene anomalies could be demonstrated by any of these techniques. We conclude that FAU is not likely to be the MEN1 tumour suppressor gene.
Hum Mol Genet 1993 Apr
PMID:Exclusion of FAU as the multiple endocrine neoplasia type 1 (MEN1) gene. 809 2

UBI4, the polyubiquitin gene of Saccharomyces cerevisiae, is expressed at a low level in vegetative cells, yet induced strongly in response to starvation, cadmium, DNA-damaging agents and heat shock. UBI4 is also expressed at a higher basal level in cells growing by respiration as compared to glucose-repressed cells growing by fermentation. This higher UBI4 expression of respiratory cultures probably helps to counteract the greater oxidative stress of respiratory growth. The effects of inactivating UBI4 on high temperature viability are more marked with respiratory cultures. Also loss of UBI4 leads to a considerably increased rate of killing of respiring cells by hydrogen peroxide, whereas the same gene inactivation has relatively little effect on the peroxide sensitivity of cells in which mitochondrial functions are repressed. This is the first study to reveal that ubiquitin levels in cells can influence their ability to withstand oxidative stress.
Mol Gen Genet 1994 May 10
PMID:Polyubiquitin gene expression contributes to oxidative stress resistance in respiratory yeast (Saccharomyces cerevisiae). 819 89

Clathrin-mediated vesicular transport is important for normal growth of the yeast Saccharomyces cerevisiae. Previously, we identified a genetic locus (SCD1) that influences the ability of clathrin heavy-chain-deficient (Chc-) yeast cells to survive. With the scd1-v allele, Chc- yeast cells are viable but grow poorly; with the scd1-i allele, Chc- cells are inviable. To identify the SCD1 locus and other genes that can rescue chc1 delta scd1-i cells to viability, a multicopy suppressor selection strategy was developed. A strain of scd1-i genotype carrying the clathrin heavy-chain gene under GAL1 control (GAL1:CHC1) was transformed with a YEp24 yeast genomic library, and colonies that could grow on glucose were selected. Plasmids from six distinct genetic loci, none of which encoded CHC1, were recovered. One of the suppressor loci was shown to be UBI4, the polyubiquitin gene. UBI4 rescues only in high copy number and is not allelic to SCD1. The conjugation of ubiquitin to intracellular proteins can mediate their selective degradation. Since UBI4 is required for survival of yeast cells under stress and is induced during starvation, ubiquitin expression in GAL1:CHC1 cells was examined. After a shift to growth on glucose to repress synthesis of clathrin heavy chains, UBI4 mRNA levels were elevated > 10-fold, whereas the quantity of free ubiquitin declined severalfold relative to that of Chc+ cells. In addition, novel higher-molecular-weight ubiquitin conjugates appeared in clathrin-deficient cells. We suggest that higher levels of ubiquitin are required for turnover of mislocalized or improperly processed proteins that accumulate in the absence of clathrin and that ubiquitin may play a general role in turnover of proteins in the secretory or endocytic pathway.
Mol Cell Biol 1993 Jan
PMID:Suppressors of clathrin deficiency: overexpression of ubiquitin rescues lethal strains of clathrin-deficient Saccharomyces cerevisiae. 838 Feb 27

Analysis of gene expression in Trypanosoma cruzi has been impeded by the lack of efficient, stable, DNA-mediated transfection systems. We describe here the establishment of such a system for T. cruzi. Stable transformants were isolated following integration of the circular transforming plasmid into the chromosome by homologous recombination. Mutants with a disrupted PUB12.5 polyubiquitin gene, resulting from targeted integration of the plasmid vector, have been isolated. A mutant harboring the disrupted PUB12.5 gene lacks the intact PUB12.5 mRNA as well as transcripts corresponding to the truncated gene. Genomic Southern-blot analysis indicates that the inserted plasmid is tandemly repeated in each of the clones analyzed. A secondary recombination event in one clone resulted in a deletion within the 2.65 calmodulin-ubiquitin locus, encompassing the sequence from the CalA2 calmodulin gene to the PUB12.5 polyubiquitin gene.
Mol Biochem Parasitol 1993 Jan
PMID:Stable transformation of Trypanosoma cruzi: inactivation of the PUB12.5 polyubiquitin gene by targeted gene disruption. 838 Dec 5


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