Expression of alpha- and beta-tubulin genes during dimorphic-phase transitions of Histoplasma capsulatum

1989 ◽  
Vol 9 (5) ◽  
pp. 2042-2049
Author(s):  
G S Harris ◽  
E J Keath ◽  
J Medoff
Keyword(s):  
Phase Transitions ◽  
Histoplasma Capsulatum ◽  
Blot Hybridization ◽  
Dot Blot ◽  
Dimorphic Fungus ◽  
Tubulin Gene ◽  
Beta Tubulin ◽  
Two Dimensional Gel Electrophoresis ◽  
Western Blots ◽  
Alpha Tubulin

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.

scholarly journals Expression of alpha- and beta-tubulin genes during dimorphic-phase transitions of Histoplasma capsulatum.

1989 ◽  
Vol 9 (5) ◽  
pp. 2042-2049 ◽  
Author(s):  
G S Harris ◽  
E J Keath ◽  
J Medoff
Keyword(s):  
Phase Transitions ◽  
Histoplasma Capsulatum ◽  
Blot Hybridization ◽  
Dot Blot ◽  
Dimorphic Fungus ◽  
Tubulin Gene ◽  
Beta Tubulin ◽  
Two Dimensional Gel Electrophoresis ◽  
Western Blots ◽  
Alpha Tubulin

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.

Tandem arrangement of tubulin genes in the protozoan parasite Leishmania enriettii

1983 ◽  
Vol 3 (6) ◽  
pp. 1070-1076
Author(s):  
S M Landfear ◽  
D McMahon-Pratt ◽  
D F Wirth
Keyword(s):  
Tandem Repeat ◽  
Blot Hybridization ◽  
Protozoan Parasite ◽  
Southern Blot Hybridization ◽  
Beta Tubulin ◽  
Developmentally Regulated ◽  
Alpha Tubulin ◽  
Tubulin Genes ◽  
Southern Blot Hybridization Analysis ◽  
Leishmania Enriettii

The arrangement of developmentally regulated alpha- and beta-tubulin genes has been studied in the parasitic protozoan Leishmania enriettii by using Southern blot hybridization analysis. The alpha-tubulin genes occur in a tandem repeat whose monomeric unit may be represented by a 2-kilobase PstI fragment. Similarly, the beta-tubulin genes probably occur in a separate tandem repeat consisting of approximately 4-kilobase units unlinked to the alpha-tubulin repeats.

scholarly journals 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.

1989 ◽  
Vol 9 (3) ◽  
pp. 875-884 ◽  
Author(s):  
T S Hays ◽  
R Deuring ◽  
B Robertson ◽  
M Prout ◽  
M T Fuller
Keyword(s):  
Drosophila Melanogaster ◽  
Missense Mutation ◽  
Null Allele ◽  
Genetic Interaction ◽  
Structural Proteins ◽  
Interacting Proteins ◽  
Tubulin Gene ◽  
Beta Tubulin ◽  
Gene Encoding ◽  
Alpha Tubulin

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.

scholarly journals Tandem arrangement of tubulin genes in the protozoan parasite Leishmania enriettii.

1983 ◽  
Vol 3 (6) ◽  
pp. 1070-1076 ◽  
Author(s):  
S M Landfear ◽  
D McMahon-Pratt ◽  
D F Wirth
Keyword(s):  
Tandem Repeat ◽  
Blot Hybridization ◽  
Protozoan Parasite ◽  
Southern Blot Hybridization ◽  
Beta Tubulin ◽  
Developmentally Regulated ◽  
Alpha Tubulin ◽  
Tubulin Genes ◽  
Southern Blot Hybridization Analysis ◽  
Leishmania Enriettii

The arrangement of developmentally regulated alpha- and beta-tubulin genes has been studied in the parasitic protozoan Leishmania enriettii by using Southern blot hybridization analysis. The alpha-tubulin genes occur in a tandem repeat whose monomeric unit may be represented by a 2-kilobase PstI fragment. Similarly, the beta-tubulin genes probably occur in a separate tandem repeat consisting of approximately 4-kilobase units unlinked to the alpha-tubulin repeats.

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

1989 ◽  
Vol 9 (3) ◽  
pp. 875-884
Author(s):  
T S Hays ◽  
R Deuring ◽  
B Robertson ◽  
M Prout ◽  
M T Fuller
Keyword(s):  
Drosophila Melanogaster ◽  
Missense Mutation ◽  
Null Allele ◽  
Genetic Interaction ◽  
Structural Proteins ◽  
Interacting Proteins ◽  
Tubulin Gene ◽  
Beta Tubulin ◽  
Gene Encoding ◽  
Alpha Tubulin

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.

scholarly journals Characterization of Alpha and Beta Tubulin Genes in the Dimorphic Fungus Histoplasma capsulatum

Microbiology ◽  
1989 ◽  
Vol 135 (7) ◽  
pp. 1817-1832 ◽  
Author(s):  
G. Spatafora Harris ◽  
E. J. Keath ◽  
J. Medoff
Keyword(s):  
Histoplasma Capsulatum ◽  
Dimorphic Fungus ◽  
Beta Tubulin ◽  
Tubulin Genes

scholarly journals mRNAs for alpha- and beta-tubulin and flagellar calmodulin are among those coordinately regulated when Naegleria gruberi amebae differentiate into flagellates.

1987 ◽  
Vol 105 (3) ◽  
pp. 1303-1309 ◽  
Author(s):  
D K Shea ◽  
C J Walsh
Keyword(s):  
Calcium Binding ◽  
In Vitro Translation ◽  
Class Iii ◽  
Beta Tubulin ◽  
Two Dimensional Gel Electrophoresis ◽  
Alpha Tubulin ◽  
Heat Stable ◽  
Flagellar Proteins ◽  
Naegleria Gruberi

Three of four mRNAs that are specific to the differentiation of Naegleria gruberi amebae into flagellates (Mar, J., J. H. Lee, D. Shea, and C. J. Walsh, 1986, J. Cell Biol., 102:353-361) have been identified as coding for flagellar proteins. The products of these mRNAs, which are coordinately regulated during the differentiation, were identified by in vitro translation of hybrid-selected RNA followed by two-dimensional gel electrophoresis and antibody binding. Six cross-hybridizing clones complementary to a 1.7-kb RNA (class II) all selected mRNA that was translated into two alpha-tubulins. The principal in vitro product, alpha-1, comigrated with a cytoplasmic alpha-tubulin, while the minor product with a more acidic pI, alpha-2, comigrated with flagellar alpha-tubulin. While Naegleria flagellar alpha-tubulin was found to be acetylated based on its reaction with a monoclonal antibody specific to this form, we suggest that alpha-2 is not likely to arise due to acetylation in vitro but probably represents the product of a second alpha-tubulin gene. The class III clone, also complementary to a 1.7-kb RNA, selected beta-tubulin mRNA. In the course of this work it was found, using monoclonal antibodies to the alpha- and beta-subunits of tubulin, that Naegleria alpha-tubulin migrated faster than beta-tubulin on SDS-PAGE. The class IV clone, which hybridizes with a 0.5-kb RNA, selected an mRNA that was translated into a heat stable calcium-binding protein, flagellar calmodulin.

Transfer and amplification of a mutant beta-tubulin gene results in colcemid dependence: use of the transformant to demonstrate regulation of beta-tubulin subunit levels by protein degradation

1986 ◽  
Vol 6 (5) ◽  
pp. 1422-1429
Author(s):  
C Whitfield ◽  
I Abraham ◽  
D Ascherman ◽  
M M Gottesman
Keyword(s):  
Cho Cells ◽  
Single Gene ◽  
Chinese Hamster ◽  
Temperature Sensitive ◽  
Wild Type ◽  
Tubulin Gene ◽  
Beta Tubulin ◽  
Alpha Tubulin ◽  
Tubulin Subunit ◽  
Steady State Levels

Total genomic DNA from a temperature-sensitive, colcemid-resistant Chinese hamster ovary (CHO) cell mutant expressing an electrophoretic variant beta-tubulin was used to transform wild-type CHO cells to colcemid-resistant cells at 37 degrees C. Southern blot analysis of the transformant demonstrated the three- to fivefold amplification of one of many beta-tubulin sequences compared with that of the wild type or mutant, thereby identifying a functional tubulin gene in CHO cells. This amplification of one tubulin-coding sequence resulted in a threefold increase in two beta-tubulin mRNA species, suggesting that both species may be encoded by a single gene. Pulse-chase experiments showed that in the transformant, total beta-tubulin was synthesized and degraded faster than in the revertant or wild-type cells, so that the steady-state levels of beta-tubulin and alpha-tubulin were unchanged in the transformant compared with those of wild-type, mutant, or revertant cells. Increased ratios of mutant to wild-type beta-tubulin made the transformant dependent on microtubule-depolymerizing drugs for growth at 37 but not 34 degrees C and supersensitive to the microtubule-stabilizing drug taxol at 34 degrees C.

scholarly journals Molecular analysis of hereditary elliptocytosis with reduced protein 4.1 in the French Northern Alps

Blood ◽  
1991 ◽  
Vol 78 (8) ◽  
pp. 2113-2119 ◽  
Author(s):  
S Feddal ◽  
G Brunet ◽  
L Roda ◽  
S Chabanis ◽  
N Alloisio ◽  
...  
Keyword(s):  
Messenger Rna ◽  
Blot Hybridization ◽  
Limited Area ◽  
Dot Blot ◽  
Western Blots ◽  
Genetic Transmission ◽  
Protein 4.1 ◽  
Hereditary Elliptocytosis ◽  
Heterozygous Form ◽  
Northern Alps

4.1(-) hereditary elliptocytosis (HE) is a variety of elliptocytosis resulting from the reduction (heterozygosity) or the absence (homozygosity) of protein 4.1. It is nearly always encountered in its heterozygous form. It has been found among Caucasians and North Africans in a sporadic fashion. We report the study on nine family cases of 4.1(-) HE. They were recruited independently (to the exclusion of any other variety of HE) in a limited area around the city of Annecy (French Northern Alps). The mode of genetic transmission, as well as the clinical, morphologic, and protein phenotypes fully conformed to the classical description. Western blots ruled out the existence of any protein 4.1 species of abnormal size. No obvious DNA rearrangement was detectable in any of the nine families with three 4.1 cDNA probes covering the entire coding sequence and part of the flanking 5′ and 3′ untranslated sequences. On the basis of five polymorphic sites (Bgl II, 2; Pvu II, 3), we found five different haplotypes in normal members of the 4.1(-) families. 4.1(-) HE was associated with the most common haplotype in all the propositi. 4.1 mRNA was studied in four families. Dot-blot hybridization experiments and Northern blots failed to show any detectable change in three families. On the other hand, they showed a 2-kb deletion in the 4.1(-) messenger RNA 5′-moiety in one family. These findings emphasize the heterogeneity of 4.1(-) HE at the molecular level.

Transcriptional regulation of tubulin gene expression in differentiating trochoblasts during early development of Patella vulgata

Development ◽  
1994 ◽  
Vol 120 (10) ◽  
pp. 2835-2845
Author(s):  
W.G. Damen ◽  
L.A. van Grunsven ◽  
A.E. van Loon
Keyword(s):  
Gene Expression ◽  
Gene Product ◽  
Cell Lines ◽  
Upstream Region ◽  
Tubulin Gene ◽  
Beta Tubulin ◽  
Cell Stage ◽  
Alpha Tubulin ◽  
Tubulin Genes ◽  
Tubulin Mrna

The expression of alpha- and beta-tubulin genes during the early development of the marine mollusk Patella vulgata has been investigated. From the 32-cell stage onwards, an enhanced expression of both alpha- and beta-tubulin mRNAs was detected in the primary trochoblasts. After one additional cleavage, these cells become cleavage-arrested and then form cilia. They are the first cells to differentiate during Patella development. Later, alpha- and beta-tubulin mRNA is also found in the accessory and secondary trochoblasts. Together these three cell-lines form the prototroch, the ciliated locomotory organ of the trochophore larva. The early and abundant expression of tubulin genes precede and accompany cilia formation in the trochoblasts and provides us with an excellent molecular differentiation marker for these cells. Apart from the trochoblasts, tubulin gene expression was also found in other cells at some stages. At the 88-cell stage, elevated tubulin mRNA levels were found around the large nucleus of the mesodermal stem cell 4d. In later stages, tubulin gene expression was detected in the cells that form the flagella of the apical tuft and in the refractive bodies. An alpha-tubulin gene was isolated and characterized. A lacZ fusion gene under control of the 5′ upstream region of this tubulin gene was microinjected into embryos at the two-cell stage. The reporter gene product was only detected in the three trochoblast cell-lines at the same time as tubulin genes were expressed in these cells. Reporter gene product was not detected in any other cells. Thus, this 5′ upstream region of this alpha-tubulin gene contains all the elements required for the correct spatiotemporal pattern of expression.

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