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Query: UNIPROT:P06889 (Mol)
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The heterogeneity of alpha-tubulin and the relative proportions of the tubulin isotypes were investigated in brain membranes of rats of 1, 25 and 180 days of age by using four anti-alpha-tubulin antibodies: a) the monoclonal DM1A antibody, specific for alpha-tubulin; b) the monoclonal 6-11B-1 antibody, specific for acetylated tubulin; c) a polyclonal antibody (Glu antibody), specific for detyrosinated tubulin; and d) a polyclonal antibody (Tyr antibody), specific for tyrosinated tubulin. We found that rat brain membranes contain the three tubulin isotypes mentioned above. The proportions of tyrosinated and detyrosinated tubulin relative to total alpha-tubulin were somewhat lower in membrane than in cytosol in animals of 25 and 180 days of age. At day one of development, the proportions in membrane were similar to those found in cytosol. With respect to the acetylated form, it was about 20 times higher in membrane than in cytosol at the three ages studied. The proportion of acetylated tubulin was determined in different subcellular fractions: myelin, synaptic vesicles, mitochondria, microsomes, and plasma membrane. While the amount of total tubulin differed between the different subcellular fractions, the proportion of acetylated tubulin relative to total alpha-tubulin was constant and similar to that found in total membranes. The proportion of acetylated tubulin was also investigated in non-neural tissues (kidney, liver and lung). Although values for cytosol were about 10-fold higher than that found in brain cytosol, no detectable values for membranes could be obtained in these organs.
Mol Cell Biochem 1992 Jun 26
PMID:Tyrosinated, detyrosinated and acetylated tubulin isotypes in rat brain membranes. Their proportions in comparison with those in cytosol. 164 Sep 31

We have isolated and analyzed the tubA and tubB alpha-tubulin genes of Aspergillus nidulans. The nucleotide sequences of these genes predict polypeptides of 447 amino acids for tubA and 450 for tubB. The predicted amino acids sequences exhibit 28% divergence between the two polypeptides. This is the second known case of such high divergence between alpha-tubulins within the same species. The tubB gene is unique in that it codes for an extra glycine residue between what are usually the second and third amino acids. RNA blot analysis demonstrates that the tubA and tubB transcripts are each 1.8 kb long. The level of tubA transcript remains the same throughout the cell cycle. The level of tubB transcript does not change at any particular stage in the cell cycle but increases continuously during spore germination. The tubA gene was previously mapped to linkage group eight, and we have now mapped the tubB gene to linkage group four. Gene disruption in heterokaryons suggests that the phenotypic consequences of disruption are different for the tubA and tubB genes. Molecular disruption of tubA results in a block in nuclear division whereas in tubB it gives rise to abnormal cell and nuclear morphology.
Mol Gen Genet 1991 Jan
PMID:Two alpha-tubulin genes of Aspergillus nidulans encode divergent proteins. 167 37

Evidence is given for altered gene expression in the hippocampus in response to entorhinal cortex lesioning. Three RNA markers encoding glial fibrillary acidic protein, apolipoprotein E and alpha-tubulin were isolated from a rat hippocampal cDNA library by differential screening with cDNA probes from entorhinal cortex lesioned and control rat hippocampus RNA. By Northern blot analysis, mRNA for apolipoprotein E and alpha-tubulin increased to peak around 6 days after the lesion and returned to near control level at 30 days. The increased synthesis of both mRNAs coincides with the acute phase of synaptogenesis, protein synthesis, and polyribosomes accumulation in the deafferented hippocampal area.
Brain Res Mol Brain Res 1991 Feb
PMID:Cloning of hippocampal poly(A) RNA sequences that increase after entorhinal cortex lesion in adult rat. 167 53

The Xenopus laevis alpha-tubulin gene X alpha T14, which is highly expressed during oogenesis, exhibits accurate and efficient transcription initiation when microinjected into X. laevis oocytes. However, we found previously in nuclease protection assays of transcripts from injected X alpha T14 that many protected fragments that were shorter than expected could be produced. We show here by exonuclease VII mapping, Northern (RNA) blotting, and gel fractionation of RNA that these fragments were caused by truncated transcripts that share the same initiation sites as mature transcripts but whose 3' ends are located in the 5' leader just 45 to 72 nucleotides downstream. We present evidence from the analysis of in vitro pulse-labeled RNA that these truncated transcripts are formed by premature transcription termination rather than by RNA processing. At low template levels, very little premature termination occurred, but as more DNA was injected, the proportion of transcripts that were prematurely terminated increased steadily, even at template levels at which the initiation machinery was unsaturated. At high template levels, most transcripts were prematurely terminated. These results suggest that some sort of saturable antitermination function operates in oocytes in a manner that is dependent on the number of appropriate templates available rather than on the number of polymerases that initiate transcription. They also suggest that measures of initiation frequency may not always be a reliable means of assessing the amount of transcription of injected genes in oocytes.
Mol Cell Biol 1990 Feb
PMID:Premature termination of transcription can be induced on an injected alpha-tubulin gene in Xenopus oocytes. 168 98

The identification of a cDNA (MR19) corresponding to a maize alpha-tubulin and homologous genomic clones (MG19/6 and MG19/14) is described. The cDNA has been isolated by differential screening of a cDNA maize root library. We have found two alpha-tubulin genes in a tandem arrangement in the genomic clones, separated by approximately 1.5 kbp. One of the genes (gene I) contains an identical nucleotide sequence which corresponds to the cDNA clone. The two deduced proteins from DNA sequences are very similar (only two conservative replacements in 451 amino acids) and they share a high homology as compared with the published alpha-tubulin sequences from other systems and in particular with the Arabidopsis thaliana and Chlamydomonas reinhardtii sequences reported. The structure of both genes is also very similar; it includes two introns, of 1.7 kbp and 0.8 kbp respectively, in each gene and only one intron placed at a homologous position in relation to Arabidopsis thaliana genes. By using specific 3' probes it appears that both genes are preferentially expressed in the radicular system of the plant. The alpha-tubulin gene family of Zea mays seems to be represented by at least 3 or 4 members.
Plant Mol Biol 1990 Jan
PMID:A tandem of alpha-tubulin genes preferentially expressed in radicular tissues from Zea mays. 171

Tubulin synthesis is controlled by an autoregulatory mechanism through which an increase in the intracellular concentration of tubulin subunits leads to specific degradation of tubulin mRNAs. The sequence necessary and sufficient for the selective degradation of a beta-tubulin mRNA in response to changes in the level of free tubulin subunits resides within the first 13 translated nucleotides that encode the amino-terminal sequence of beta-tubulin, Met-Arg-Glu-Ile (MREI). Previous results have suggested that the sequence responsible for autoregulation resides in the nascent peptide rather than in the mRNA per se, raising the possibility that the regulation of the stability of tubulin mRNA is mediated through binding of tubulin or some other cellular factor to the nascent amino-terminal tubulin peptide. We now show that this putative cotranslational interaction is not mediated by tubulin alone, as no meaningful binding is detectable between tubulin subunits and the amino-terminal beta-tubulin polypeptide. However, microinjection of a monoclonal antibody that binds to the beta-tubulin nascent peptide selectively disrupts the regulation of beta-tubulin, but not alpha-tubulin, synthesis. This finding provides direct evidence for cotranslational degradation of beta-tubulin mRNA mediated through binding of one or more cellular factors to the beta-tubulin nascent peptide.
Mol Cell Biol 1992 Feb
PMID:Physical evidence for cotranslational regulation of beta-tubulin mRNA degradation. 173 44

Insulin has rapid pleiotropic effects on cellular metabolism. In certain cell types, insulin can cause morphological changes by inducing rearrangements of cytoskeletal components, but the regulation of cytoskeletal gene expression by insulin has not been previously described. In the present work insulin was found to rapidly, but transiently, increase transcription of the cytoskeletal beta-actin and alpha-tubulin genes in rat H4IIE hepatoma cells. Insulin-induced transcription of beta-actin mRNA was evident within 5 min and was maximal by 10-15 min at 1000% above control levels. beta-Actin transcription was induced at insulin concentrations as low as 5 x 10(-12) M insulin and was maximal at 5 x 10(-9) M. Transcription of the alpha-tubulin gene was also rapidly stimulated by physiological concentrations of insulin, but only to 300-400% above basal levels. For both the beta-actin and alpha-tubulin genes, the induction of transcription was transient, with a return to basal levels by 60-120 min. Transcription of neither the skeletal or cardiac alpha-actin gene nor the beta-tubulin gene was altered by insulin administration. Messenger RNA levels for the beta-actin and alpha-tubulin genes increased, but to a lesser extent than transcription, since these mRNAs were abundant and stable before the transient induction of transcription. Inhibitors of protein synthesis, in the presence or absence of insulin, also acutely stimulated transcription of these genes.
Mol Endocrinol 1992 Jan
PMID:Induction of cytoskeletal gene expression by insulin. 173 64

Previous suggestions (Hubert, J. J., Schenk, D. B., Skelly, H., and Leffert, H. L. (1986) Biochemistry 25, 4156-4163) of tissue-specific isoforms or nonexistence of hepatic Na,K-ATPase beta 1-subunits were reevaluated by quantifying beta 1-subunit mRNA levels in quiescent and proliferating liver. RNA was extracted from caudate liver lobes of sham or 67% hepatectomized adult rats and from primary cultures of adult rat hepatocytes that simulate developmental and regenerating growth transitions. Northern blot analysis with a 32P-labeled full-length Na,K-ATPase beta 1-cDNA probe (Mercer, R. W., Schneider, J. W., Savitz, A., Emmanuel, J., Benz, T.J., and Levenson, R. (1986) Mol. Cell. Biol. 6, 3884-3890) revealed four (approximately 2.7, 2.4, 1.7-1.8, and 1.5 kilobases) low abundance mRNA species in quiescent tissue, freshly isolated hepatocytes, and cultured hepatocytes derived from lag or late stationary phase (1-2 days or 11-12 days postplating, respectively). In contrast, proliferating liver from 4 h post-67% hepatectomized rats or cultured hepatocytes in logarithmic growth phase contained levels of beta 1-subunit mRNA which exceeded quiescent levels by 4-35-fold. Membrane Na,K-ATPase activity also increased 2-3-fold during liver regeneration 12-24 h after partial hepatectomy. When proliferation in vitro was augmented by transforming growth factor-alpha, a hepatocyte mitogen, or reinitiated in late stationary phase by a change to fresh culture medium containing rat serum, beta 1-subunit mRNA expression was restimulated 4-20-fold. Parallel measurements of alpha-tubulin mRNA induction showed relatively nonsynchronous or invariant changes during hepatocyte proliferative transitions; similar results were obtained after Northern blots with a sodium pump alpha I-subunit cDNA probe. No detectable hybridization signals were observed when either rat kidney or hepatocyte RNAs from freshly isolated and cultured cells or regenerating tissues were probed for the sodium pump 3.4-kilobase mRNA beta 2-isoform. These observations suggest that enhanced hepatic beta 1-subunit gene expression is linked specifically to growth-associated increases in Na,K-ATPase activity, hepatocyte proliferation, and mitogen activation.
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PMID:Induction of sodium pump beta 1-subunit mRNA expression during hepatocellular growth transitions in vitro and in vivo. 185 Nov 73

We have compared benzimidazole (BZ) susceptible (s) and resistant (R) strains of Haemonchus contortus from sheep by two-dimensional polyacrylamide gel electrophoresis (2-D PAGE), Western blotting and ELISA techniques. The S strain bound more drug per mg protein than the R strain. BZ binding could be resolved into high-affinity and low-affinity binding. Low-affinity binding in parasite preparations devoid of tubulin was observed, but high-affinity binding occurred only in preparations containing tubulin. Resistance was associated with a decrease in the high affinity component. The S and R strains were shown by ELISA to contain similar total amounts of tubulin. By 2-D PAGE, the beta-tubulin isoform pattern of the S strain was different from that of the R strain, but the alpha-tubulin isoform patterns of the 2 strains were similar. BZ resistance was associated with a decrease in high-affinity BZ binding to tubulin and an alteration in beta-tubulin isoform pattern.
Mol Biochem Parasitol 1991 Jul
PMID:Beta-tubulin and benzimidazole resistance in the sheep nematode Haemonchus contortus. 185 82

Phorbol esters selectively and reversibly disassemble the contractile apparatus of cultured skeletal muscle as well as inhibit the synthesis of many contractile proteins without inhibiting that of housekeeping proteins. We now demonstrate that phorbol esters reversibly decrease the mRNA levels of at least six myofibrillar genes: myosin heavy chain, myosin light chain 1/3, myosin light chain 2, cardiac and skeletal alpha-actin, and skeletal troponin T. The steady-state message levels decrease 50- to 100-fold after 48 h of exposure to phorbol esters. These decreases can be attributed at least in part to decreases in transcription rates. For at least two genes, cardiac and skeletal alpha-actin, some of the decreases are the result of increased mRNA turnover. In contrast, the cardiac troponin T steady-state message level does not change, and its transcription rate decreases only transiently upon exposure to phorbol esters. Phorbol esters do not decrease the expression of the housekeeping genes, alpha-tubulin, beta-actin, and gamma-actin. Phorbol esters do not decrease the steady-state message levels of MyoD1, a gene known to be important in the activation of many skeletal muscle-specific genes. Cycloheximide blocks the phorbol ester-induced decreases in transcription, message stability, and the resulting steady-state message level but does not block the tetradecanoyl phorbol acetate-induced rapid disassembly of the I-Z-I complexes. These results suggests a common mechanism for the regulation of many myofibrillar genes independent of MyoD1 mRNA levels, independent of housekeeping genes, but dependent on protein synthesis.
Mol Cell Biol 1991 Sep
PMID:Phorbol esters selectively and reversibly inhibit a subset of myofibrillar genes responsible for the ongoing differentiation program of chick skeletal myotubes. 187 33


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