Effect of androgens on histochemical fibre type

Summary The temporal muscles of the guinea pig show a sexual differentiation reflected in their histochemical enzyme pattern. Using histochemical methods for mitochondrial (SDH, -GPDH), and glycolytic enzymes (phosphorylase, LDH) it could be shown, that in adult animals the male muscle is a white muscle with marked activity of glycolytic enzymes, the female muscle a red muscle displaying high activity of mitochondrial enzymes. This differential enzyme pattern can be converted by the application of testosterone to the female type during the postnatal development. The male sex hormone thus affects the histochemical enzyme pattern of the muscle, converting the red, female into a white, male muscle in the female guinea pig.     

Molecular cloning and sequencing analysis of a β-tubulin gene from Lupinus albus

Genomic -Dash library constructed from Lupinus albus nuclear DNA was screened using a fragment of the -tubulin cDNA ( 8–31) clone of Chlamydomonas reinhardtii as probe. One of the positive recombinant phages was isolated, subcloned and analysed by sequencing. We present here nucleotide and derived amino acid sequences of the -tubulin gene, designated as L1 and identified by similarity with other -tubulins. The L1-encoded protein reveals a very high degree of similarity with other plant tubulins and contains consensus sequences for binding guanine base, phosphate and Mg²⁺. Northern analysis of total RNA isolated from roots, leaves, flowers and pools revealed that Lupinus albus -tubulin genes are constitutively expressed in all studied plant tissues.     

The isolation,characterization and sequence of two divergent β-tubulin genes from soybean (Glycine max L.)

Two divergent -tubulin genes (designated S-1 and S-2) were isolated by screening a soybean genomic library with a Chlamydomonas reinhardtii -tubulin cDNA probe. Restriction fragment analysis of the clones recovered, and of soybean genomic DNA, indicated that these represent two unique classes of structurally different -tubulin genes in the soybean genome. However, it is possible that unidentified members of these classes or additional highly divergent classes of -tubulin genes (thus far undetected) exist in the soybean genome. The S-1 and S-2 genomic clones were sequenced, revealing that both are potentially functional genes which would encode -tubulins of 445 and 449 amino acids, respectively. A comparison of their derived amino acid sequences with -tubulins from several organisms showed that they are most homologous to Chlamydomonas -tubulin (85–87%), with lesser degrees of homology to -tubulins of vertebrate species (79–83%), Trypanosoma brucei (80–81%) and Saccharomyces cerevisiae (66–68%). The amino acid sequences of S-1 and S-2 are as divergent from each other as they are from the Chlamydomonas -tubulin. The amino acids at the diverged positions in S-2 are nearly all conservative substitutions while in S-1, 18 of the 69 substitutions were non-conservative. Both soybean -tubulin genes contain two introns in exactly the same positions. The first soybean intron is located in the same position as the third intron of the Chlamydomonas -tubulin genes. Codon usage in the two soybean -tubulins is remarkably similar (D ²=0.87), but differs from codon usage in other soybean genes.     

A novel pollen-specific α-tubulin in sunflower: structure and characterization

We describe here a new -tubulin isoform from sunflower we named -tubulin. -tubulin is the most divergent higher-plant -tubulin described so far, having an unusual deletion in the H1/B2 loop and a glutamine-rich C-terminus. We constructed a three-dimensional model and discuss its implications. Using specific antibodies, we show that -tubulin expression is restricted to the male gametophyte. -tubulin mRNA represents 90% of -tubulin mRNA and a small percentage of total pollen mRNA. Among the plants tested, -tubulin was only detected in sunflower and in Cosmos. Since both plants are Asteraceae, we propose that -tubulin is specific to this family. Our results suggest that -tubulin can inhibit tubulin assembly in pollen. This hypothesis is reinforced by the fact that -tubulin is found in a complex with -tubulin in mature sunflower pollen.     

Post-translational modifications of α-tubulin in<Emphasis Type="Italic"> Zea mays</Emphasis> L. are highly tissue specific

To further understand post-translational modifications (PTMs) of plant -tubulin, post-translationally modified -tubulin isoforms from selected tissues of Zea mays L. were examined using two-dimensional electrophoresis and immunoblotting. Except for polyglycylated tubulin, tyrosinated, detyrosinated, acetylated and polyglutamylated -tubulin isoforms were all present in maize tissues. Tyrosinated -tubulin was the predominant variant in all cases, with isoforms 1–4 (5) being the most common components. Leaves exhibited a striking difference in PTM patterns of -tubulin isoforms compared to other tissues examined. In leaves, several major specific isoforms were highly modified by detyrosination, acetylation and polyglutamylation. In pollen and anthers, only the most abundant isoform 3 was acetylated to an appreciable extent, and no acetylated isoform was found in roots. Similarly, in pollen, anthers and roots, only 3 was appreciably polyglutamylated. Additionally, a detyrosinated isoform 6 was present in anthers and in leaves, while the tyrosinated isoform 6 seemed to be pollen specific. These results indicate that certain types of PTM of plant -tubulin preferentially occur in a tissue-specific way.Abbreviations 1-, 2-D one-, two-dimensional - MT microtubule - PTM post-translational modification     

Transfer of Hessian fly resistance from ‘Chaupon’ rye to hexaploid wheat via a 2BS/2RL wheat-rye chromosome translocation

Summary Four wheat-rye lines derived from a cross between hexaploid wheat ND 7532 and Chaupon rye were homogeneous for resistance to biotype L of the Hessian fly,Mayetiola destructor. Because the wheat parent was susceptible and the rye parent was resistant to larval feeding, resistance was derived from rye. Resistance of Chaupon and the wheat-rye lines was expressed as larval antibiosis. First-instar larvae died after feeding on plants. Chromosomal analyses using C- and N-banding techniques were performed on plants of each line to identify genomes and structural changes of chromosomes. Results showed that two of the resistant lines were chromosome addition lines carrying either the complete rye chromosome,2R, or only the long arm of2R. The other two resistant lines were identified as being2BS/ 2RL wheat-rye translocation lines. It was concluded, therefore, that the long arm of rye chromosome2R carries a gene or gene complex that conditions antibiosis to Hessian fly larvae and, in the2BS/2RL translocation lines, this rye chromatin is cytologically stable and can be used directly in wheat breeding programs.Cooperative investigations of the Kansas Agricultural Experiment Station, Departments of Agronomy, Entomology, and Plant Pathology, Wheat Genetics Resource Center, and the U.S. Department of Agriculture, Agricultural Research Service, Kansas State University. Contribution No. 89-507-JPartly supported by the Deutsche Forschungsgemeinschaft     

Characterisation of the cDNA clones of two β-tubulin genes and their expression in the potato plant (Solanum tuberosum L.)

The cDNA clones of two potato -tubulin genes were isolated from a tuberising stolon tip library. Analysis of 20 positive clones showed that they represented one or another of two different but very similar -tubulin genes, designated TUBST1 and TUBST2. The expression pattern of -tubulin genes in the potato plant was investigated by RNA blot analysis and by RT-PCR. Southern analysis of potato genomic DNA with coding and non-coding -tubulin probes revealed that there are multiple -tubulin genes in the potato genome and that there is likely to be considerable divergence in the 3 non-coding sequences. Phylogenetic analysis of plant -tubulin genes is described.     

Mammalian Sperm Tubulin: An Exceptionally Large Number of Variants Based on Several Posttranslational Modifications

Extraction of demembranated bull sperm flagella by SDS was used to maximize tubulin solubilization. The - and -tubulin separated by SDS-PAGE were treated with endoproteinases LysC and AspN, respectively. Carboxy-terminal fragments were isolated by Mono Q chromatography and reversed-phase HPLC. Automated sequencing and mass spectrometry revealed an astonishingly high number of tubulin variants. Many variants were due to polyglutamylation and in particular to polyglycylation. The number of side-chain glycyl residues ranged from 0 to 28 in and 0 to 15 in . Corresponding values for side-chain glutamyl residues were 0–6 in and 0–3 in . Additional variability was based on carboxy-terminal detyrosination and partial loss of the penultimate glutamate. A major glycylation site in - and -tubulin was mapped. Some variants seem to display both glycyl and glutamyl side chains.     

Beta-tubulins are encoded by at least four genes in the brown algaEctocarpus variabilis

Complementary DNA clones of two mRNA species that encode -tubulin in the brown algaEctocarpus variabilis have been isolated. Sequence analysis revealed that the encoded proteins are very similar in primary structure to homologues in other eukaryotes, and differ from each other at six of 447 amino acid residues. The 6 message shows a preference for C-or G-terminated codons, using only 49 codons. The 5 message has a lesser codon bias, and makes a minor contribution to the -tubulin mRNA pool. Southern analysis ofE. variabilis DNA demonstrated a -tubulin gene family of at least four members.     

A highly conserved α-tubulin sequence from Prunus amygdalus

The sequence of an -tubulin from Prunus amygdalus has been obtained by cDNA cloning. When this sequence is compared to that of the Tub1 gene from maize it shows a very high degree of similarity, much higher than any of the -tubulin sequences reported so far from plants. The expression of this gene is high in the stages of seed development where a high divisional activity is present. It is preferentially expressed in the radicular tissues as it is gene Tub1 in maize. Southern analysis indicates that this gene may from a subfamily of -tubulin genes having similar sequence and tissue specificity and existing at least in maize and in Prunus.     

Characterization of two beta-tubulin genes from Geotrichum candidum.

Summary The -tubulin genes G1 and G2 from the phytopathogenic hemiascomycete Geotrichum candidum were found to be highly diverged in amino acid sequence from those of other filamentous fungi. G1 and G2 were also divergent from each other, with the coding regions sharing only 66% nucleotide sequence homology and 64% amino acid identity. However, the proteins shared 82% similarity and only 25 of the 161 non-identical amino acid substitutions were non-conservative. The organization of G1 is similar to other fungal -tubulin genes, but G2 has several unusual features; it has 2 amino acid additions in the N-terminal 40 residues and must employ an uncommon 5 splice junction sequence in preference to an overlapping perfect consensus. The amino acid change found to confer benomyl resistance in Neurospora crassa was also present in G2. G1 has four introns which are located similarly to those of -tubulin genes in other fungi. G2, however, has a single intron in a unique location. Translational fusions employing the 5 non-coding regions of the two Geotrichum -tubulin genes were made with the hygromycin phosphotransferase gene and shown to function in Schizosaccharomyces pombe and Trichoderma hamatum. However, G. candidum could not be transformed with these or other tested plasmids commonly used for fungal transformation.     

Synonymous nucleotide substitution rates of β-tubulin and histone genes conform to high overall genomic rates in rodents but not in sea urchins

Summary Sea urchin and rodent genomes have been posited to evolve rapidly as indicated by divergences in single copy nuclear DNA sequences. We have examined whether the synonymous substitution rates of three highly conserved genes, -tubulin, histone H4, and histone H3, adhere to these high genomic substitution rates by comparing sequences between two sea urchins,Strongylocentrotus purpuratus andLytechinus pictus, and between rodents and humans. Whereas the rate of change between the 3 untranslated regions of the -tubulin cDNA ofS. purpuratus (Sp-1), sequenced in this study, and ofL. pictus (Lp-3) was consistent with the overall rate of change estimated from previous DNA hybridization results between these species, the synonymous substitution rates for the carboxyl domains of these -tubulins, as well as for the late histones H4 and H3, were significantly depressed. In contrast, synonymous nucleotide substitution rates between rodents and between rodent and human for the carboxyl domain proper of identical -tubulin isotypes and for histone H4 and H3.1 did not differ from the overall rate of change for the rodent genomes. Moreover, an analysis of paralogous human and mouse -tubulin sequences supported the conclusion that the synonymous substitution rates in the mouse were higher than those in the human. Differences in constraint on evolutionary change were not evident strictly from the conserved amino acid sequences and base compositions of these genes. Other constraining influences seemed more relevant to the departure of the synonymous substitution rates of the sea urchin -tubulin and histone coding regions from the average genomic rate.     

Endosperm-specific demethylation and activation of specific alleles of α-tubulin genes of Zea mays L.

We have investigated the methylation status of the -tubulin genes, and the degree of accumulation of their mRNAs in endosperm, embryo and seedling tissues of Zea mays L. We have found that many of the -tubulin genes are differentially demethylated in the endosperm relative to the embryo and seedling. However, only for tub2 and tub4 could a correlation between DNA demethylation and increased RNA accumulation be detected. By analyzing the inbred lines W64A and A69Y and their reciprocal crosses, we have also identified in the endosperm two -tubulin genes, tub3 and tub4, that are differentially demethylated if transmitted by the maternal germline, but that remain hypermethylated when transmitted by the paternal germline.     

The β-tubulin gene family of pea: Primary structures,genomic organization and intron-dependent evolution of genes

One gene and two cDNAs encoding three different -tubulins (TUB1, TUB2, TUB3) of pea have been cloned and sequenced. The derived amino acid sequences show between 92% and 96% identity relative to one another and to most other -tubulins of higher plants and green algae. Two notable extremes are the high similarity of 98% between pea TUB3 and maize -tubulin 2 and the relatively low similarity (90%) of the hypocotyl-specific -tubulin 1 of soybean to the pea sequences. These similarities do not reflect the molecular phylogeny but rather differences in evolutionary rate of -tubulins which are differentially regulated during plant development. Genomic Southern blots reveal a -tubulin gene family in pea with at least four separate members including two TUB1 genes, one TUB2 gene and one TUB3 gene. This contradicts an earlier report by Rahaet al. (Plant Mol Biol 9: 565–571, 1987) suggesting a tandem repeat organization of tubulin genes in pea. The pea TUB1 gene has two introns in identical positions compared to the -tubulin genes fromArabidopsis and soybean. In an attempt to reconstruct the universal ancestor of all present-day tubulin genes the intron positions in 38 different - and -tubulin genes from plants, animals, fungi and protozoa were compared. This comparison shows that the primordial gene probably had many introns (more than 20) separating protoexons of 15 to 20 codons in agreement with the exon theory of genes. It also supports the view that, during the course of evolutions introns have shifted and were deleted preferentially in the 3 part of the genes. Similar observations have been made previously for other genes. They can be interpreted in terms of a homologous recombination of genes with their modified (incorrectly spliced) and reverse-transcribed pre-mRNAs.     

Immunological homologues of theArabidopsis thaliana β1 tubulin are polyglutamylated inNicotiana tabacum

Summary Peptide-specific antibody AAB1, raised to the C-terminal 13 amino acids ofArabidopsis thaliana 1 tubulin, identifies a single electrophoretically separable -tubulin on 2-D-gel Western blots of total protein extracts fromA. thaliana seedlings. We show that AAB1 crossreacts with two of the eight polyglutamylated -tubulin isoforms present in purifiedNicotiana tabacum tubulin fractionated by high-resolution isoelectric focussing. Immunolocalisation studies using AAB1 revealed that the twoN. tabacum polyglutamylated 1-tubulin isoforms are utilised in all four plant microtubule arrays (the interphase cortical array, the preprophase band, the spindle and the phragmoplast) indicating that there is no apparent subcellular sorting of these isotypes.Abbreviations AAB1 Anti-Ambidopsis thaliana 1-tubulin antibody - HRIF high-resolution isoelectric focussing     

Adventitious shoot regeneration from leaf explants of tissue cultured and greenhouse-grown raspberry

Adventitious shoot regeneration was observed using leaf-petiole explants from shoot-proliferating cultures of Comet red raspberry (Rubus idaeus L.). A maximum regeneration rate of 70% (3.7 shoots/explant) was obtained using 4.5–9.1 M (1–2 mg l^–1) N-phenyl-N-1,2,3-thiadiazol-5-ylurea (thidiazuron or TDZ) with 2.5–4.9 M (0.5–1 mg l^–1) 1H-indole-3-butanoic acid (IBA) or 2.3 M (0.5 mg l^–1) TDZ with 4.9 M (1 mg l^–1) IBA in modified Murashige-Skoog medium. TDZ was more effective than N-(phenylmethyl)-1H-purin-6-amine (BA) at promoting regeneration in combinations tested with IBA (maximum 50% regeneration rate; 1.8 shoots/explant). Variation in the agar concentration or incubation temperature, orientation or scoring of the leaf-petiole explants and use of separate leaf or petiole explants had no effect on shoot regeneration. Incubation in the dark for 1, 2 or 3 weeks prior to growth in the light did not influence the percent regeneration rate but depressed the number of adventitious shoots. Explant source, from micropropagated shoots or greenhouse-grown plants, had an effect on shoot regeneration that was genotype dependent. Only 8 of 22 (36%) raspberry cultivars were capable of regeneration from leaf explants derived from greenhouse-grown plants.     

Molecular basis for determining the sensitivity of eucaryotes to the antimitotic drug rhizoxin

Summary Rhizoxin, an antibiotic, exhibits potent anti-mitotic activity against most eucaryotic cells including those of higher vertebrates, plants and fungi by binding to -tubulin. ThebenA gene of three independently isolated rhizoxin-resistant (Rhi^r) mutants ofAspergillus nidulans was cloned, sequenced and compared with that of the wild-type, rhizoxin-sensitive (Rhi^s) strain. In all three Rhi^r mutants, the AAC codon for Asn-100 of thebenA -tubulin gene was altered to ATC, coding for Ile. Sequence displacement experiments confirmed that the substitution of Ile for Asn-100 confers resistance to rhizoxin in this organism. The amino acid sequences of -tubulin surrounding the 100th amino acid residue from the N-terminus including Asn-100 are highly conserved with a few exceptions. The fission yeastSchizosaccharomyces pombe and the budding yeastSaccharomyces cerevisiae are naturally occurring Rhi^r organisms whose -tubulin genes encode Ile and Val respectively at the 100th amino acid residue. The Ile-100 ofS. pombe and the Val-100 ofS. cerevisiae were altered to Asn using site-directed mutagenesis and gene displacement techniques. The resultant haploid strains of these two yeasts uniquely expressing -tubulin (Asn-100) instead of -tubulin (Ile-100 or Val-100) were found to be Rhi^s. Haploid yeast expressing -tubulin (Asn-100) is normal except for its sensitivity to rhizoxin. These results suggest that rhizoxin resistance has a common basis in both naturally occurring species and experimentally selected mutants in the substitution of Ile or Val for Asn-100 in -tubulin.     

Molecular characterization of four β-tubulin genes from dinitroaniline susceptible and resistant biotypes of Eleusine indica

Dinitroaniline herbicides are antimicrotubule drugs that bind to tubulins and inhibit polymerization. As a result of repeated application of dinitroaniline herbicides, resistant biotypes of goosegrass (Eleusine indica) developed in previously susceptible wild-type populations. We have previously reported that -tubulin missense mutations correlate with dinitroaniline response phenotypes (Drp) (Plant Cell 10: 297–308, 1998). In order to ascertain associations of other tubulins with dinitroaniline resistance, four -tubulin cDNA classes (designated TUB1, TUB2, TUB3, and TUB4) were isolated from dinitroaniline-susceptible and -resistant biotypes. Sequence analysis of the four -tubulin cDNA classes identified no missense mutations. Identified nucleotide substitutions did not result in amino acid replacements. These results suggest that the molecular basis of dinitroaniline resistance in goosegrass differs from those of colchicine/dinitroaniline cross-resistant Chlamydomonas reinhardtii and benzimidazole-resistant fungi and yeast. Expression of the four -tubulins was highest in inflorescences. This is in contrast to -tubulin TUA1 that is expressed predominantly in roots. Collectively, these results imply that -tubulin genes are not associated with dinitroaniline resistance in goosegrass. Phylogenetic analysis of the four -tubulins, together with three -tubulins, suggests that the resistant biotype developed independently in multiple locations rather than spreading from one location.     

In vitro micropropagation of Piper longum – an important medicinal plant

Efficient and rapid tissue culture systems were developed for Piper longum, an important medicinal plant, through shoot tip multiplication and direct regeneration. Multiple shoots were induced from shoot tips cultured on agar-based Murashige and Skoog (MS) medium containing 4.44–22.19 M benzyladenine (BA) and 4.64–13.9 M kinetin (K). Maximum number of shoots were induced with 8.9 M BA and 4.64 M K. Adventitious shoot regeneration from leaf segments was achieved on MS containing 3.6–22.19 M BA along with 3.31–12.4 M picloram (P). Shoot differentiation occurred directly from the leaf bases without intermediale callus formation. Maximum shoot buds were obtained on MS medium with 17.76 M BA and 8.28 M P. Elongated shoots were separated and rooted in MS supplemented with 2.46 M indole butyric acid (IBA). Plantlets, thus developed were established in soil.     

γ-Tubulin localization changes from discrete polar organizers to anastral spindles and phragmoplasts in mitosis of Marchantia polymorpha L.

Summary. Unlike the astral mitotic spindle that is organized at discrete centriolar centrosomes, the spindle of land plants is typically anastral and its origin has remained obscure. Gamma tubulin (-tubulin), an important component of the centrosome, has been demonstrated at microtubule-nucleating sites in plant cells. Mitotic spindles of certain hepatics are initiated at distinct acentriolar polar organizers (POs) that appear de novo at the onset of mitosis. Data on the relationship of -tubulin to POs and to microtubule arrays throughout the cell cycle were collected from rapidly dividing cells of Marchantia polymorpha (Bryophyta) that were triple-stained for -tubulin, microtubules, and nuclei. POs at opposite ends of the elongated nucleus in early prophase stain brightly for -tubulin and astral microtubules emanating from them initiate the spindle. As the spindle develops, however, the -tubulin becomes dispersed from the highly concentrated spherical form of the POs to more diffusely organized cups at tips of the fusiform nucleus. By the end of prophase, all astral microtubules have disappeared and the -tubulin is located in several minipoles along the now broad polar regions of the spindle. At metaphase, -tubulin extends into the spindle itself. By telophase, the -tubulin has migrated from distal to proximal surfaces of the sister nuclei and extends into the phragmoplast. Upon completion of cytokinesis, -tubulin appears diminished and surrounds the nuclear envelopes. These data show that -tubulin is only briefly concentrated in the PO, migrates in a cell-cycle-specific manner, and is consistently present at all putative sites of microtubule nucleation.