UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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Through reverse transcription-polymerase chain reaction using degenerate oligonucleotide primers, a VCP homolog was identified in African trypanosomes. Sequence analysis shows a 72 and 64% deduced amino acid identity, respectively, with mouse VCP and yeast Cdc48p. Southern analysis indicates tbVCP to have a single locus with two alleles. Antibodies generated against recombinant protein recognize a 95 kDa protein in whole cell lysates of both procyclic and bloodstream trypanosomes. There is an approximately four-fold greater expression of TbVCP protein in the procyclic stage of the trypanosome life cycle. Subcellular fractionation and immunofluorescence with anti-TbVCP antibodies indicate the majority of TbVCP to be cytoplasmically localized with a small subset associated with membranes. Sucrose velocity sedimentation and gel filtration size analysis studies suggest that TbVCP is a homohexameric particle as has been demonstrated with other VCP homologs. Also like other VCP homologs, TbVCP contains an NEM-inhibitable ATPase activity. This is the first characterization of an AAA (ATPases Associated with a variety of cellular Activities) family member in African trypanosomes.
Mol Biochem Parasitol 1999 Jan 05
PMID:Molecular cloning and biochemical characterization of a VCP homolog in African trypanosomes. 1002 5

The suppressor mutation, named sfhC21, that allows Escherichia coli ftsH null mutant cells to survive was found to be an allele of fabZ encoding R-3-hydroxyacyl-ACP dehydrase, involved in a key step of fatty acid biosynthesis, and appears to upregulate the dehydrase. The ftsH1(Ts) mutation increased the amount of lipopolysaccharide at 42 degrees C. This was accompanied by a dramatic increase in the amount of UDP-3-O-(R-3-hydroxymyristoyl)-N-acetylglucosamine deacetylase [the IpxC (envA) gene product] involved in the committed step of lipid A biosynthesis. Pulse-chase experiments and in vitro assays with purified components showed that FtsH, the AAA-type membrane-bound metalloprotease, degrades the deacetylase. Genetic evidence also indicated that the FtsH protease activity for the deacetylase might be affected when acyl-ACP pools were altered. The biosynthesis of phospholipids and the lipid A moiety of lipopolysaccharide, both of which derive their fatty acyl chains from the same R-3-hydroxyacyl-ACP pool, is regulated by FtsH.
Mol Microbiol 1999 Feb
PMID:Balanced biosynthesis of major membrane components through regulated degradation of the committed enzyme of lipid A biosynthesis by the AAA protease FtsH (HflB) in Escherichia coli. 1004 27

L6 myoblasts stably transfected with a GLUT4 cDNA harboring an exofacial myc epitope tag (L6-GLUT4myc myoblasts) were used to study the role of protein kinase B alpha (PKBalpha)/Akt1 in the insulin-induced translocation of GLUT4 to the cell surface. Surface GLUT4myc was detected by immunofluorescent labeling of the myc epitope in nonpermeabilized cells. Insulin induced a marked translocation of GLUT4myc to the plasma membrane within 20 min. This was prevented by transient transfection of a dominant inhibitory construct of phosphatidylinositol (PI) 3-kinase (Deltap85alpha). Transiently transfected cells were identified by cotransfection of green fluorescent protein. A constitutively active PKBalpha, created by fusion of a viral Gag protein at its N terminus (GagPKB), increased the cell surface density of GLUT4myc compared to that of neighboring nontransfected cells. A kinase-inactive, phosphorylation-deficient PKBalpha/Akt1 construct with the mutations K179A (substitution of alanine for the lysine at position 179), T308A, and S473A (AAA-PKB) behaved as a dominant-negative inhibitor of insulin-dependent activation of cotransfected wild-type hemagglutinin (HA)-tagged PKB. Furthermore, AAA-PKB markedly inhibited the insulin-induced phosphorylation of cotransfected BAD, demonstrating inhibition of the endogenous PKB/Akt. Under the same conditions, AAA-PKB almost entirely blocked the insulin-dependent increase in surface GLUT4myc. PKBalpha with alanine substitutions T308A and S473A (AA-PKB) or K179A (A-PKB) alone was a less potent inhibitor of insulin-dependent activation of wild-type HA-PKB or GLUT4myc translocation than was AAA-PKB. Cotransfection of AAA-PKB with a fourfold DNA excess of HA-PKB rescued insulin-stimulated GLUT4myc translocation. AAA-PKB did not prevent actin bundling (membrane ruffling), though this response was PI 3-kinase dependent. Therefore, it is unlikely that AAA-PKB acted by inhibiting PI 3-kinase signaling. These results outline an important role for PKBalpha/Akt1 in the stimulation of glucose transport by insulin in muscle cells in culture.
Mol Cell Biol 1999 Jun
PMID:Protein kinase B/Akt participates in GLUT4 translocation by insulin in L6 myoblasts. 1033 Jan 41

The 19S regulatory complex (RC) of 26S proteasomes is a 900-1000 kDa particle composed of 18 distinct subunits (S1-S15) ranging in molecular mass from 25 to 110 kDa. This particle confers ATP-dependence and polyubiquitin (polyUb) recognition to the 26S proteasome. The symmetry and homogenous structure of the proteasome contrasts sharply with the remarkable complexity of the RC. Despite the fact that the primary sequences of all the subunits are now known, insight has been gained into the function of only eight subunits. The six ATPases within the RC constitute a subfamily (S4-like ATPases) within the AAA superfamily and we have shown that they form specific pairs in vitro. We have now determined that putative coiled-coils within the variable N-terminal regions of these proteins are likely to function as recognition elements that direct the proper placement of the ATPases within the RC. We have also begun mapping putative interactions between non-ATPase subunits and S4-like ATPases. These studies have allowed us to build a model for the specific arrangement of 9 subunits within the human regulatory complex. This model agrees with recent findings by Glickman et al. who have reported that two subcomplexes, termed the base and the lid, form the RC of budding yeast 26S proteasomes.
Mol Biol Rep 1999 Apr
PMID:Assembly of the regulatory complex of the 26S proteasome. 1036 41

As initial steps to define how the 26S proteasome degrades ubiquitinated proteins in plants, we have characterized many of the subunits that comprise the proteolytic complex from Arabidopsis thaliana. A set of 23 Arabidopsis genes encoding the full complement of core particle (CP) subunits and a collection encoding 12 out of 18 known eukaryotic regulatory particle (RP) subunits, including six AAA-ATPase subunits, were identified. Several of these 26S proteasome genes could complement yeast strains missing the corresponding orthologs. Using this ability of plant subunits to functionally replace yeast counterparts, a parallel structure/function analysis was performed with the RP subunit RPN 10/MCB1, a putative receptor for ubiquitin conjugates. RPN10 is not essential for yeast viability but is required for amino acid analog tolerance and degradation of proteins via the ubiquitin-fusion degradation pathway, a subpathway within the ubiquitin system. Surprisingly, we found that the C-terminal motif required for conjugate recognition by RPN10 is not essential for in vivo functions. Instead, a domain near the N-terminus is required. We have begun to exploit the moss Physcomitrella patens as a model to characterize the plant 26S proteasome using reverse genetics. By homologous recombination, we have successfully disrupted the RPN10 gene. Unlike yeast rpn10delta strains which grow normally, Physcomitrella rpn10delta strains are developmentally arrested, being unable to initiate gametophorogenesis. Further analysis of these mutants revealed that RPN10 is likely required for a developmental program triggered by plant hormones.
Mol Biol Rep 1999 Apr
PMID:Structure and functional analysis of the 26S proteasome subunits from plants. 1036 60

A gene encoding a cell division control protein from the hyperthermophilic archaeon Pyrococcus kodakaraensis KOD1, Pk-cdcA, was cloned and sequenced. The Pk-cdcA gene is composed of 2508 nucleotides, encoding a protein of 835 amino acids with a molecular mass of 93,666 Da. Pk-CdcA has a typical Walker-type ATPase motif and was classified as a new member of the CDC48/VCP subfamily of so-called AAA proteins. In addition, Pk-CdcA possesses a unique region composed of charged amino acids, which is not observed in other homologs from Archaea. Transcription of the gene was analyzed by primer extension and Northern analyses, revealing that Pk-cdcA is transcribed from a site 77 bases upstream of the initiation codon. Pk-CdcA and its deletion mutant Pk-CdcAdelta63, which lacks the unique inserted region, were expressed in Escherichia coli cells as His-tagged fusion proteins and purified. Both Pk-CdcA and Pk-CdcAdelta63 possess an ATPase activity, as do other CDC48/VCP proteins. However, Pk-CdcAdelta63 showed a higher level of ATPase activity and greater thermostability than Pk-CdcA. Furthermore, Pk-CdcAdelta63 has a higher Vmax value than wild type, even though the Km was unchanged. These observations indicated that the inserted region affects enzyme stability and activity. In order to investigate intracellular expression levels of Pk-CdcA, Western analysis was performed using anti-Pk-CdcA antisera obtained from immunized BALB/C mice. Equal levels of Pk-CdcA expression were observed during exponential and stationary phases. Growth phase-specific fragmentation of Pk-CdcA was found in stationary-phase cells.
Mol Gen Genet 1999 Oct
PMID:Pk-cdcA encodes a CDC48/VCP homolog in the hyperthermophilic archaeon Pyrococcus kodakaraensis KOD1: transcriptional and enzymatic characterization. 1058 45

The frameshift signal of the avian coronavirus infectious bronchitis virus (IBV) contains two cis-acting signals essential for efficient frameshifting, a heptameric slippery sequence (UUUAAAC) and an RNA pseudoknot structure located downstream. The frameshift takes place at the slippery sequence with the two ribosome-bound tRNAs slipping back simultaneously by one nucleotide from the zero phase (U UUA AAC) to the -1 phase (UUU AAA). Asparaginyl-tRNA, which decodes the A-site codon AAC, has the modified base Q at the wobble position of the anticodon (5' QUU 3') and it has been speculated that Q may be required for frameshifting. To test this, we measured frameshifting in cos cells that had been passaged in growth medium containing calf serum or horse serum. Growth in horse serum, which contains no free queuine, eliminates Q from the cellular tRNA population upon repeated passage. Over ten cell passages, however, we found no significant difference in frameshift efficiency between the cell types, arguing against a role for Q in frameshifting. We confirmed that the cells cultured in horse serum were devoid of Q by purifying tRNAs and assessing their Q-content by tRNA transglycosylase assays and coupled HPLC-mass spectroscopy. Supplementation of the growth medium of cells grown either on horse serum or calf serum with free queuine had no effect on frameshifting either. These findings were recapitulated in an in vitro system using rabbit reticulocyte lysates that had been largely depleted of endogenous tRNAs and resupplemented with Q-free or Q-containing tRNA populations. Thus Q-base is not required for frameshifting at the IBV signal and some other explanation is required to account for the slipperiness of eukaryotic asparaginyl-tRNA.
J Mol Biol 2000 Jan 14
PMID:The Q-base of asparaginyl-tRNA is dispensable for efficient -1 ribosomal frameshifting in eukaryotes. 1062 18

We have studied the hydration and dynamics of RNA C2'-OH in a DNA. RNA hybrid chimeric duplex [d(CGC)r(aaa)d(TTTGCG)](2). Long-lived water molecules with correlation time tau(c) larger than 0.3 ns were found close to the RNA adenine H2 and H1' protons in the hybrid segment. A possible long-lived water molecule was also detected close to the methyl group of 7T in the RNA-DNA junction but not to the other two thymine bases (8T and 9T). This result correlates with the structural studies that only DNA residue 7T in the RNA-DNA junction adopts an O4'-endo sugar conformation (intermediate between B-form and A-form), while the other DNA residues including 3C in the DNA-RNA junction, adopt C1'-exo or C2'-endo conformations (in the B-form domain). Based on the NOE cross-peak patterns, we have found that RNA C2'-OH tends to orient toward the O3' direction, forming a possible hydrogen bond with the 3'-phosphate group. The exchange rates for RNA C2'-OH were found to be around 5-20 s(-1), compared to 26.7(+/-13.8) s(-1) reported previously for the other DNA.RNA hybrid duplex. This slow exchange rate may be due to the narrow minor groove width of [d(CGC)r(aaa)d(TTTGCG)](2), which may trap the water molecules and restrict the dynamic motion of hydroxyl protons. The distinct hydration patterns of the RNA adenine H2 and H1' protons and the DNA 7T methyl group in the hybrid segment, as well as the orientation and dynamics of the RNA C2'-OH protons, may provide a molecular basis for further understanding the structure and recognition of DNA.RNA hybrid and chimeric duplexes.
J Mol Biol 2000 Feb 04
PMID:Hydration of [d(CGC)r(aaa)d(TTTGCG)](2). 1065 92

To examine normal and aberrant translation initiation in Saccharomyces cerevisiae mitochondria, we fused the synthetic mitochondrial reporter gene ARG8m to codon 91 of the COX2 coding sequence and inserted the chimeric gene into mitochondrial DNA (mtDNA). Translation of the cox2(1-91)::ARG8m mRNA yielded a fusion protein precursor that was processed to yield wild-type Arg8p. Thus mitochondrial translation could be monitored by the ability of mutant chimeric genes to complement a nuclear arg8 mutation. As expected, translation of the cox2(1-91)::ARG8m mRNA was dependent on the COX2 mRNA-specific activator PET111. We tested the ability of six triplets to function as initiation codons in both the cox2(1-91)::ARG8m reporter mRNA and the otherwise wild-type COX2 mRNA. Substitution of AUC, CCC or AAA for the initiation codon abolished detectable translation of both mRNAs, even when PET111 activity was increased. The failure of these mutant cox2(1-91)::ARG8m genes to yield Arg8p demonstrates that initiation at downstream AUG codons, such as COX2 codon 14, does not occur even when normal initiation is blocked. Three mutant triplets at the site of the initiation codon supported detectable translation, with efficiencies decreasing in the order GUG, AUU, AUA. Increased PET111 activity enhanced initiation at AUU and AUA codons. Comparisons of expression, at the level of accumulated product, of cox2(1-91)::ARG8m and COX2 carrying these mutant initiation codons revealed that very low-efficiency translation can provide enough Cox2p to sustain significant respiratory growth, presumably because Cox2p is efficiently assembled into stable cytochrome oxidase complexes.
Mol Gen Genet 2000 Jan
PMID:In vivo analysis of mutated initiation codons in the mitochondrial COX2 gene of Saccharomyces cerevisiae fused to the reporter gene ARG8m reveals lack of downstream reinitiation. 1066 64

The mouse SKD1 is an AAA-type ATPase homologous to the yeast Vps4p implicated in transport from endosomes to the vacuole. To elucidate a possible role of SKD1 in mammalian endocytosis, we generated a mutant SKD1, harboring a mutation (E235Q) that is equivalent to the dominant negative mutation (E233Q) in Vps4p. Overexpression of the mutant SKD1 in cultured mammalian cells caused defect in uptake of transferrin and low-density lipoprotein. This was due to loss of their receptors from the cell surface. The decrease of the surface transferrin receptor (TfR) was correlated with expression levels of the mutant protein. The mutant protein displayed a perinuclear punctate distribution in contrast to a diffuse pattern of the wild-type SKD1. TfR, the lysosomal protein lamp-1, endocytosed dextran, and epidermal growth factor but not markers for the secretory pathway were accumulated in the mutant SKD1-localized compartments. Degradation of epidermal growth factor was inhibited. Electron microscopy revealed that the compartments were exaggerated multivesicular vacuoles with numerous tubulo-vesicular extensions containing TfR and endocytosed horseradish peroxidase. The early endosome antigen EEA1 was also redistributed to these aberrant membranes. Taken together, our findings suggest that SKD1 regulates morphology of endosomes and membrane traffic through them.
Mol Biol Cell 2000 Feb
PMID:The mouse SKD1, a homologue of yeast Vps4p, is required for normal endosomal trafficking and morphology in mammalian cells. 1067 28

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