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Regulation of variant surface glycoprotein (VSG) mRNA turnover in Trypanosoma brucei was studied in bloodstream forms, in procyclic cells, and during in vitro transformation of bloodstream forms to procyclic cells by approach-to-equilibrium labeling and pulse-chase experiments. Upon initiation of transformation at 27 degrees C in the presence of citrate-cis-aconitate, the half-life of VSG mRNA was reduced from 4.5 h in bloodstream forms to 1.2 h in transforming cells. Concomitantly, an approximately 25-fold decrease in the rate of transcription was observed, resulting in a 100-fold reduction in the steady-state level of de novo-synthesized VSG mRNA. This low level of expression was maintained for at least 7 h, finally decreasing to an undetectable level after 24 h. Transcription of the VSG gene in established procyclic cells was undetectable. For comparison, the turnover of polyadenylated and nonpolyadenylated RNA, beta-tubulin mRNA, and mini-exon-derived RNA (medRNA) was studied. For medRNA, no significant changes in the rate of transcription or stability were observed during differentiation. In contrast, while the rate of transcription of beta-tubulin mRNA in in vitro-cultured bloodstream forms, transforming cells, and established procyclic cells was similar, the half life was four to five times longer in procyclic cells (t1/2, 7 h) than in cultured bloodstream forms (t1/2, 1.4 h) or transforming cells (t1/2, 1.7 h). Inhibition of protein synthesis in bloodstream forms at 37 degrees Celsius caused a dramatic 20-fold decrease in the rate of VSG mRNA synthesis and a 6-fold decrease in half-life to 45 min, while beta-tubulin mRNA was stabilized 2- to 3-fold and mRNA stability remained unaffected. It is postulated that triggering transformation or inhibiting protein synthesis induces changes in the abundance of the same regulatory molecules which effect the shutoff of VSG gene transcription in addition to shortening the half-life of VSG mRNA.
Mol Cell Biol 1987 Mar
PMID:RNA turnover in Trypanosoma brucei. 243 40

The process of trans splicing is essential to the maturation of all mRNAs in the Trypanosomatidae, a family of protozoan parasites, and to specific mRNAs in several species of nematode. In Trypanosoma brucei, a 39-nucleotide (nt) leader sequence originating from a small, 139-nt donor RNA (the spliced leader [SL] RNA) is spliced to the 5' end of mRNAs. An intermediate in this trans-splicing process is a Y structure which contains the 3' 100 nt of the SL RNA covalently linked to the pre-mRNA via a 2'-5' phosphodiester bond at the branch point residue. We mapped the branch points in T. brucei alpha- and beta-tubulin pre-mRNAs. The primary branch acceptors for the alpha- and beta-tubulins are 44 and 56 nt upstream of the 3' splice sites, respectively, and are A residues. Minor branch acceptors were detected 42 and 49 nt upstream of the alpha-tubulin splice site and 58 nt upstream of the splice site in beta-tubulin. The regions surrounding these branch points lack homology to the consensus sequences determined for mammalian cells and yeasts; there is also no conservation among the sequences themselves. Thus, the identified sequences suggest that the mechanism of branch point recognition in T. brucei differs from the mechanism of recognition by U2 RNA that has been proposed for other eucaryotes.
Mol Cell Biol 1989 Oct
PMID:Mapping of branch sites in trans-spliced pre-mRNAs of Trypanosoma brucei. 247 24

Studies of gene expression during blastocyst formation in mouse preimplantation development have been limited by the amount of RNA available per embryo. Our present approach to this problem has been to construct a large, representative, blastocyst cDNA library in lambda gt11. Random hexadeoxynucleotides were used as primers with total blastocyst RNA serving as template. RNA collected from 4,100 32-64 cell embryos was used to generate a library with an initial size of 30 X 10(6) recombinants. By using clone frequency as a measure of relative mRNA abundance, our data support previous work on the relative and absolute amounts of actin, histone H2a, and intracisternal A particle. Furthermore, we provide estimates for the abundance of cytokeratin endo A, cytokeratin endo B, and beta-tubulin from clone frequency data. Insert sizes for isolated clones range from 200 bp to 3.6 kb with full-length or near-full-length insert sizes for selected clones, indicating that random primer methods generate cDNAs which can represent a significant portion of the mRNA. We have so far characterized products whose abundance is equal to or greater than 0.002% of total RNA. This library offers the potential for the analyses of presumptive regulatory gene products in the mouse preimplantation embryo which are represented as low abundance (less than 1% of mRNA) RNAs.
Mol Reprod Dev 1989
PMID:Estimates of mRNA abundance in the mouse blastocyst based on cDNA library analysis. 248 15

The expression of MAP2 during rat brain development was studied by using specific antibodies and cDNA probes. MAP2 cDNAs were isolated from a rat brain lambda gt11 library, and their identity was confirmed by the reactivity of their fusion proteins with several independent monoclonal antibodies that recognize MAP2. Northern blot analyses of the RNA prepared from whole brains, cerebral cortex, hypothalamus, brain stem, olfactory bulbs, and cerebellum showed that the levels of MAP2 mRNA increase during the initial phase of development, reach a maximum between postnatal weeks 2 and 3, and then decrease in the adult. The time course and the kinetics of this change varied between different brain regions and appeared to reflect the pattern of morphological changes in these regions. RNA blots were also analyzed with beta-tubulin and beta-actin cDNA probes to ensure the quality and the quantity of the RNA. The levels of MAP2 mRNA and protein showed similar changes during the initial part of brain development and suggested a transcriptional control. However, while MAP2 protein levels remained high throughout development, MAP2 mRNA levels decreased in adulthood. We suggest that the increased stability of the MAP2 molecule may be a contributing factor in the developmental regulation of steady-state levels of MAP2.
J Mol Neurosci 1989
PMID:Regulation of microtubule-associated protein 2 (MAP2) mRNA expression during rat brain development. 248 43

In this paper we demonstrate that failure to complement between mutations at separate loci can be used to identify genes that encode interacting structural proteins. A mutation (nc33) identified because it failed to complement mutant alleles of the gene encoding the testis-specific beta 2-tubulin of Drosophila melanogaster (B2t) did not map to the B2t locus. We show that this second-site noncomplementing mutation is a missense mutation in alpha-tubulin that results in substitution of methionine in place of valine at amino acid 177. Because alpha- and beta-tubulin form a heterodimer, our results suggest that the genetic interaction, failure to complement, is based on the structural interaction between the protein products of the two genes. Although the nc33 mutation failed to complement a null allele of B2t (B2tn), a deletion of the alpha-tubulin gene to which nc33 mapped complemented B2tn. Thus, the failure to complement appears to require the presence of the altered alpha-tubulin encoded by the nc33 allele, which may act as a structural poison when incorporated into either the tubulin heterodimer or microtubules.
Mol Cell Biol 1989 Mar
PMID:Interacting proteins identified by genetic interactions: a missense mutation in alpha-tubulin fails to complement alleles of the testis-specific beta-tubulin gene of Drosophila melanogaster. 249 48

In the presence of the microtubule inhibitor benomyl at micron concentrations, cells of Neurospora crassa wild type strain St. Lawrence 74A were found to secrete high amounts of an Mr 60 000 protein into the culture medium (about 35 micrograms/ml after a 12 h treatment). The secretion also occurred after treatment with the other antitubulin drugs carbendazim (MBC), nocodazole, thiabendazole, and griseofulvin. This secretion is apparently induced by the specific action of benomyl on N. crassa beta-tubulin as no secretion of the Mr 60 000 protein could be detected after treatment of the benomyl-resistant mutant bml 511 (r), mutated in its beta-tubulin gene (Orbach et al., Mol. Cell. Biol. 6, 2452-2461 (1986)). The secretion was abolished by 12 microM cycloheximide, a protein synthesis inhibitor. The Mr 60 000 protein could be separated into two main and four secondary components by two-dimensional gel electrophoresis (pI 6.67 and 6.52 and pI 6.93, 6.81, 6.44, and 6.32, respectively). The Mr 60 000 protein was not a major intracellular protein of benomyl-treated cells and could only be revealed by immunoblotting with polyclonal antibodies raised against the extracellular form. It was undetectable in untreated cells collected at various stages of vegetative growth or in their culture medium.
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PMID:Secretion of an Mr 60000 protein by benomyl-treated cells of Neurospora crassa. 253 75

Recent investigations have confirmed the presence of one alpha-tubulin gene (TUB1) and one beta-tubulin gene (TUB2) in the dimorphic fungus Histoplasma capsulatum. In the present study, Northern blot (RNA blot) analyses revealed multiple alpha-tubulin transcripts and a single beta-tubulin transcript in the yeast and mycelial phases of the high-virulence 217B strain and low-virulence Downs strain. S1 nuclease protection assays demonstrated one initiation start site and two major stop sites for the TUB1 transcripts, suggesting that variations in 3' processing generate the alpha-tubulin messages of 2.5 and 2.0 kilobases. Dot blot hybridization experiments indicated that tubulin gene expression is developmentally regulated during the dimorphic phase transitions. alpha- and beta-tubulin mRNAs increased six- to eightfold during the yeast-to-mycelium conversion and decreased two- to threefold during the reverse transition. These changes in tubulin mRNA content coincided with major morphological events associated with H. capsulatum development. Western blots (immunoblots) of H. capsulatum yeast-specific proteins resolved by two-dimensional gel electrophoresis demonstrated a single alpha- and a single beta-tubulin isoform. Multiple tubulin polypeptides expressed in mycelia are probably products of posttranslational modifications.
Mol Cell Biol 1989 May
PMID:Expression of alpha- and beta-tubulin genes during dimorphic-phase transitions of Histoplasma capsulatum. 254 58

Long-term effects of lesions were analyzed in terms of gene expression. Nine months after unilateral 6-hydroxydopamine (6-OHDA) lesions of the substantia nigra pars compacta (s. nigra), the remaining dopaminergic (DAergic) neurons (tyrosine hydroxylase (TH) cells determined by immunocytochemistry (ICC] on the lesioned side were atrophic with smaller nucleoli. By in situ hybridization, the DAergic neurons on the lesioned side had a 50% smaller TH-mRNA concentration than on the contralateral non-lesioned side. However, beta-tubulin mRNA concentration in DAergic neurons was unaffected by the lesion. The lesions did not alter TH-mRNA concentration in the contralateral non-lesioned side by comparison with unoperated controls. We propose that chronic lesions have long-term effects on gene expression because of damage sustained during compensatory hyperactivity after the lesion, or because of decreased trophic support from other neurons.
Brain Res Mol Brain Res 1989 May
PMID:Chronic lesions differentially decrease tyrosine hydroxylase messenger RNA in dopaminergic neurons of the substantia nigra. 256 83

The consequences of altering the levels of alpha- and beta-tubulin in Saccharomyces cerevisiae were examined by constructing fusions of the structural genes encoding the tubulins to strong galactose-inducible promoters. Overexpression of beta-tubulin (TUB2) was lethal: cells arrested in the G2 stage of the cell cycle exhibited an increased frequency of chromosome loss, were devoid of microtubules, and accumulated beta-tubulin in a novel structure. Overexpression of the major alpha-tubulin gene (TUB1) was not lethal and did not affect chromosome segregation. The rate of alpha-tubulin mRNA and protein synthesis was increased, but the protein did not accumulate. Overexpression of both alpha- and beta-tubulin together resulted in arrested cell division, and cells accumulated excess tubules that contained both alpha- and beta-tubulin. Transient overexpression of both tubulins resulted in a high frequency of chromosome loss. These data suggest that strong selective pressure exists to prevent excess accumulation of microtubules or beta-tubulin and suggest a model by which this goal may be achieved by selective degradation of unassembled alpha-tubulin. Furthermore, the phenotype of beta-tubulin overexpression is similar to the phenotype of a beta-tubulin deficiency. These results add to a number of recent studies demonstrating that mutant phenotypes generated by overexpression can be informative about the function of the gene product.
Mol Cell Biol 1989 Mar
PMID:Dominant effects of tubulin overexpression in Saccharomyces cerevisiae. 265 85

beta-Tubulin synthesis in eucaryotic cells is subject to control by an autoregulatory posttranscriptional mechanism in which the first four amino acids of the beta-tubulin polypeptide act either directly or indirectly to control the stability of beta-tubulin mRNA. To investigate the contribution of this amino-terminal domain to microtubule assembly and dynamics, we introduced a series of deletions encompassing amino acids 2 to 5 of a single mammalian beta-tubulin isotype, M beta 1. Constructs carrying such deletions were inserted into an expression vector, and the ability of the altered polypeptide to coassemble into microtubules was tested by using an anti-M beta 1-specific antibody. We show that the M beta 1 beta-tubulin polypeptide was competent for coassembly into microtubules in transient transfection experiments and in stably transfected cell lines when it lacked either amino acid 2 or amino acids 2 and 3. The capacity of these mutant beta-tubulins to coassemble into polymerized microtubules was only slightly diminished relative to that of unaltered beta-tubulin, and their expression did not influence the viability or growth properties of cell lines carrying these deletions. However, more extensive amino-terminal deletions either severely compromised or abolished the capacity for coassembly. In analogous experiments in which alterations were introduced into the amino-terminal domain of a mammalian alpha-tubulin isotype, M alpha 4, deletion of amino acid 2 did not affect the ability of the altered polypeptide to coassemble, although removal of additional amino-terminal residues essentially abolished the capacity for competent coassembly. The stability of the altered assembly-competent alpha- and beta-tubulin polypeptides was measured in pulse-chase experiments and found to be indistinguishable from the stability of the corresponding unaltered polypeptides. An assembly-competent M alpha 4 polypeptide carrying a deletion encompassing the 12 carboxy-terminal amino acids also had a half-life indistinguishable from that of the wild-type alpha-tubulin molecule. These data suggest that the universally conserved amino terminus of beta-tubulin acts largely in a regulatory role and that the carboxy-terminal domain of alpha-tubulin is not essential for coassembly in mammalian cells in vivo.
Mol Cell Biol 1989 Aug
PMID:Assembly properties of altered beta-tubulin polypeptides containing disrupted autoregulatory domains. 267 73

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