A cDNA clone from Zea mays endosperm sucrose synthetase mRNA

The mating-related loci sexM and sexP of the zygomycetous fungus Mucor mucedo and their transcriptional regulation by trisporoid pheromones

The putative mating type locus of mucoralean fungi consists of a single high mobility group (HMG)-domain transcription factor gene, sexM or sexP, flanked by genes for an RNA helicase and a triosephosphate transporter. We used degenerate primers derived from the amino acid sequence of the RNA helicase to sequence a fragment of this gene from Mucor mucedo. This fragment was extended by inverse PCR to obtain the complete sequences of the sex loci from both mating types of M. mucedo. The sex loci in M. mucedo reflect the general picture obtained previously for Phycomyces blakesleeanus, presenting a single HMG-domain transcription factor gene, sexM and sexP in the minus and plus mating types, respectively. These are located next to a gene for RNA helicase. Transcriptional analysis by quantitative real-time PCR showed that only transcription of sexM is considerably stimulated by adding trisporoid pheromones, thus mimicking sexual stimulation, whereas sexP is only slightly affected. These differences in regulation between sexM and sexP are supported by the observation that the promoter sequences controlling these genes show no similarities. The protein structures themselves are considerably different. The SexM, but not the SexP protein harbours a nuclear localization sequence. The SexM protein is indeed transported to nuclei. This was shown by means of a GFP fusion construct that was used to study the localization of SexM in the yeast Saccharomyces cerevisiae. The fusion protein is highly enriched in nuclei.

cDNA cloning and induction of the alcohol dehydrogenase gene (Adh1) of maize

cDNA clones of Adh1, one of two genes encoding alcohol dehydrogenase (ADH; alcohol:NAD(+) oxidoreductase, EC 1.1.1.1) in the maize genome, have been isolated. They were derived from mRNA extracted from anaerobically treated roots of maize seedlings. Identification was initially made on the basis of molecular weight and electrophoretic properties of the in vitro polypeptide obtained in hybridization-release-translation experiments. The identification was confirmed by antibody precipitation and by the use of maize stocks having different genetic constitutions at the Adh1 locus. The sequence of the longest cDNA segment, approximately 900 base pairs, was determined and appears to code for 168 COOH-terminal amino acids and to have a 3' nontranslated region of 364 base pairs. Reverse Southern hybridizations established that two different Adh1-S stocks produce a mRNA of 1,650 nucleotides, whereas an additional mRNA of 1,750 nucleotides is produced in three Adh1-F stocks. A 50-fold increase in Adh1 mRNA level occurs during anaerobiosis, reaching a maximum at 5 hr. Return to aerobic conditions indicates a half-life of more than 18 hr for the anaerobically induced Adh1 mRNA.

Rapid transient induction of phenylalanine ammonia-lyase mRNA in elicitor-treated bean cells

DNAs complementary to a size-selected fraction of poly(A)(+) RNA present in elicitor-treated cells of bean (Phaseolus vulgaris L.) were inserted into pAT153 and used to transform Escherichia coli strain C600. Five clones were identified by hybrid-selected translation and cross-hybridization that contained sequences complementary to mRNA encoding phenylalanine ammonia-lyase (EC 4.3.1.5), which catalyzes the first reaction of phenylpropanoid biosynthesis. The longest insert contained a single open reading frame of 1520 base pairs together with 223 base pairs of 3' untranslated sequence. RNA blot hybridization showed that elicitor caused a rapid, marked but transient increase in phenylalanine ammonia-lyase mRNA that was closely correlated with changes in translatable mRNA activity in vitro and enzyme synthesis in vivo. Blot hybridization of newly synthesized mRNA purified by organomercurial affinity chromatography following in vivo pulse-labeling with 4-thiouridine indicates that elicitor caused a rapid stimulation of phenylalanine ammonia-lyase mRNA synthesis as an early in the defense response leading to accumulation of phenylpropanoid-derived phytoalexins.

Cloning of the Bz2 locus of Zea mays using the transposable element Ds as a gene tag

The Bz2 locus of Zea mays has been cloned, utilizing the presence of the transposable element Dissociation (Ds) at the locus as a gene flag. The Ds element inserted in the bz2-m allele was identified among many members of the Ac/Ds family in a Southern blot analysis of a population segregating for bz2-m and Bz2. After cloning a DNA fragment from the bz2-m allele, sequences flanking the Ds insertion were shown to be Bz2-specific and were used to isolate a homologous fragment from a wild-type Bz2 line. The Ds insertion in the bz2-m allele was found to be a Ds2 element identical to the Ds insertion in adh1-2F11.

4-Dihydromethyltrisporate dehydrogenase, an enzyme of the sex hormone pathway in Mucor mucedo, is constitutively transcribed but its activity is differently regulated in (+) and (−) mating types

4-Dihydromethyltrisporate dehydrogenase (TDH) converts the (+) mating type sex pheromone 4-dihydromethyltrisporate into methyltrisporate. In Mucor mucedo, this conversion is required only in the (-) mating type. Expression of the TDH encoding TSP1 gene was analyzed qualitatively using reverse-transcribed PCR. TSP1 is constitutively transcribed in the (+) and in the (-) mating type, irrespective of the mating situation. By immunodetection, the translation product is also formed constitutively. In contrast to gene expression, TDH enzyme activity depends on the sexual status of the mycelium. Activity is restricted to the sexually stimulated (-) mating type. Non-stimulated (-), as well as stimulated and non-stimulated (+) mycelia exhibit no activity and do not influence activity in stimulated (-) mycelia. Time course analysis shows strongly increased enzyme activity at 80 min after stimulation. Low activity exists from the onset of stimulation, indicating that additional regulation mechanisms are involved in TDH function.

A dominant negative mutant of cyclin-dependent kinase A reduces endoreduplication but not cell size or gene expression in maize endosperm

Cells in maize (Zea mays) endosperm undergo multiple cycles of endoreduplication, with some attaining DNA contents as high as 96C and 192C. Genome amplification begins around 10 d after pollination, coincident with cell enlargement and the onset of starch and storage protein accumulation. Although the role of endoreduplication is unclear, it is thought to provide a mechanism that increases cell size and enhances gene expression. To investigate this process, we reduced endoreduplication in transgenic maize endosperm by ectopically expressing a gene encoding a dominant negative mutant form of cyclin-dependent kinase A. This gene was regulated by the 27-kD gamma-zein promoter, which restricted synthesis of the defective enzyme to the endoreduplication rather than the mitotic phase of endosperm development. Overexpression of a wild-type cyclin-dependent kinase A increased enzyme activity but had no effect on endoreduplication. By contrast, ectopic expression of the defective enzyme lowered kinase activity and reduced by half the mean C-value and total DNA content of endosperm nuclei. The lower level of endoreduplication did not affect cell size and only slightly reduced starch and storage protein accumulation. There was little difference in the level of endosperm gene expression with high and low levels of endoreduplication, suggesting that this process may not enhance transcription of genes associated with starch and storage protein synthesis.

Sucrose biosynthesis in a prokaryotic organism: Presence of two sucrose-phosphate synthases in Anabaena with remarkable differences compared with the plant enzymes

Biosynthesis of sucrose-6-P catalyzed by sucrose-phosphate synthase (SPS), and the presence of sucrose-phosphate phosphatase (SPP) leading to the formation of sucrose, have both been ascertained in a prokaryotic organism: Anabaena 7119, a filamentous heterocystic cyanobacterium. Two SPS activities (SPS-I and SPS-II) were isolated by ion-exchange chromatography and partially purified. Four remarkable differences between SPSs from Anabaena and those from higher plants were shown: substrate specificity, effect of divalent cations, native molecular mass, and oligomeric composition. Both SPS-I and SPS-II accept Fru-6-P (K(m) for SPS-I = 0.8 +/- 0.1 mM; K(m) for SPS-II = 0.7 +/- 0.1 mM) and UDP-Glc as substrates (K(m) for SPS-I = 1.3 +/- 0.4 mM; K(m) for SPS-II = 4.6 +/- 0.4 mM), but unlike higher plant enzymes, they are not specific for UDP-Glc. GDP-Glc and TDP-Glc are also SPS-I substrates (K(m) for GDP-Glc = 1.2 +/- 0.2 mM and K(m) for TDP-Glc = 4.0 +/- 0.4 mM), and ADP-Glc is used by SPS-II (K(m) for ADP-Glc = 5.7 +/- 0.7 mM). SPS-I has an absolute dependence toward divalent metal ions (Mg2+ or Mn2+) for catalytic activity, not found in plants. A strikingly smaller native molecular mass (between 45 and 47 kDa) was determined by gel filtration for both SPSs, which, when submitted to SDS/PAGE, showed a monomeric composition. Cyanobacteria are, as far as the authors know, the most primitive organisms that are able to biosynthesize sucrose as higher plants do.

Expression of two cloned mRNA sequences during development and germination of spores of the sensitive fern, Onoclea sensibilis L

A library of complementary DNA (cDNA) clones has been prepared from poly(A)+RNA of spores of the sensitive fern, Onoclea sensibilis L. By differential hybridization with labeled probes made to poly(A)+RNA of spores, gametophytes and leaves, two spore-specific clones (pOSS68 and pOSS194) were selected and characterized. Northern blot analysis showed that RNA sequences homologous to the two cDNA clones first appear in the post-meiotic spore and increase in abundance during spore maturity. Both RNA sequences decay during photoinduced germination of the spores and do not reappear in the gametophytes. In spores imbibed in the dark under conditions which do not favor germination, no significant decrease in pOSS194-mRNA abundance is noted. In contrast, the decrease in pOSS68 mRNA in dark-imbibed spores parallels that observed in photoinduced spores. The predicted amino-acid sequence of pOSS194 has a striking similarity to the early light-inducible proteins expressed during the greening of etiolated pea and barley seedlings, whereas that of pOSS68 shows some homology to proteins encoded by late-embryogenesis-abundant mRNAs of angiosperm embryos.

Sucrose Synthase Expression during Cold Acclimation in Wheat

When wheat (Triticum aestivum) seedlings are exposed to a cold temperature (2-4 degrees C) above 0 degrees C, sucrose accumulates and sucrose synthase activity increases. The effect of a cold period on the level of sucrose synthase (SS) was investigated. Using antibodies against wheat germ SS, Western blots studies showed that the amount of the SS peptide increased during 14 days in the cold, when plants were moved from 23 degrees C to 4 degrees C. The level of SS diminished when plants were moved back to 23 degrees C. Northern blots of poly(A)(+) RNA, confirmed a five- to sixfold induction of SS in wheat leaves during cold acclimation. These results indicate that SS is involved in the plant response to a chilling stress.

Linked sucrose synthase genes in group-7 chromosomes in hexaploid wheat (Triticum aestivum L.)

A cDNA library from developing wheat endosperm was screened for sucrose-synthase clones using a maize cDNA probe corresponding to the Sh1 locus under non-stringent conditions. Five positive clones were isolated and initially classified into two types on the basis of their relative ability to hybridize with the probe and of their partial restriction maps. Determination of the nucleotide sequences indicated homology between the two types of wheat clones, with type 1 showing higher homology to the maize Sh1 locus than to type-2 sequences. The inserts cloned in plasmids pST8 (type 1) and pST3 (type 2) were used as probes to determine the chromosomal locations of the two types of genes. DNAs from compensated nulli-tetrasomic and ditelosomic lines of wheat cultivar Chinese Spring were cleaved with EcoRI and analysed in Southern blots. DNA segments of the two types were thus identified in the short arms of chromosomes 7A, 7D, and, possibly, 7B. The two types of linked loci have been designated Ss1 and Ss2, respectively.

Cloned mitochondrial DNA from the zygomycete Absidia glauca promotes autonomous replication in Saccharomyces cerevisiae

We have cloned fragments from mitochondrial and chromosomal DNA of the zygomycete Absidia glauca in Saccharomyces cerevisiae using the ARS selection vector YIp5. Though it has not been possible to select ARS elements from chromosomal DNA, we succeeded in isolating two clones of mitochondrial origin that support autonomous replication in bakers' yeast. DNA from these plasmids has been shown to hybridize with mitochondrial DNA from both mating types. Generation times of the transformed yeast strain in selective medium are around 20 h. In liquid minimal medium only 6% of the cells contain the plasmid; in complete medium a mitotic stability of 50% has been determined.

The hypervariable region in the genes coding for entomopathogenic crystal proteins of Bacillus thuringiensis: nucleotide sequence of the kurhd1 gene of subsp. kurstaki HD1

One of the genes for the entomophatogenic crystal protein of Bacillus thuringiensis (subsp. kurstaki strain HD1) has been cloned in Escherichia coli, and its nucleotide sequence determined completely. The gene is contained within a 4360-bp-long HpaI-PstI DNA restriction fragment and codes for a polypeptide of 1,155 amino acid residues. The protoxin protein has a predicted Mr of 130,625. The E. coli-derived protoxin gene product is biologically active against Heliothis virescens larvae in a biotest assay. Extensive computer comparisons with other published B. thuringiensis subsp. kurstaki strains HD1, HD73, and B. thuringiensis subsp. sotto gene sequences reveal hypervariable regions in the first half of the protoxin coding sequence. These regions are responsible for the biological activity of the protein product of the cloned gene, and may explain the different biological activities of these different protoxins.

Strain-dependent variation in ribosomal DNA arrangement in Absidia glauca

Restriction analysis of total DNA from the zygomycete Absidia glauca reveals a pattern of prominent bands on a homogeneous background. By Southern blot analysis with 32P-end-labelled ribosomal RNA most of these bands could unequivocally be identified as repetitive copies of ribosomal DNA. There are marked differences in restriction patterns of rDNA between all seven strains tested, even of strains belonging to mating type pairs, presumably isolated from the same location. By using purified rRNAs as probes in hybridization experiments, evidence is presented that 5S rRNA is part of the ribosomal repetitive unit. A more detailed analysis of one strain pair [A. glauca CBS 100.48 (+)/101.48 (-)] provided evidence that the (+) strain, in addition to one rDNA repeat unit common to both strains, contains a second one, derived from the common form by a small deletion.

Phytochrome control of RNA levels in developing pea and mung-bean leaves

We have examined phytochrome effects on the abundance of transcripts from several nuclear and chloroplast genes in buds of dark-grown pea seedlings and primary leaves of dark-grown mung-bean seedlings. Probes for nuclear-coded RNAs were selected from a library of cDNA clones and included those corresponding to the small subunit (SS) of ribulosebisphosphate carboxylase and a chlorophyll a/b binding protein (AB). Transcripts from chloroplast genes for RuBP carboxylase large subunit (LS) and a 32,000-dalton photosystem II polypeptide (PII) were assayed with cloned fragments of the chloroplast genome. In addition, we present data on transcripts from a number of other nuclear genes of unknown function, several of which change in abundance during light-induced development. Transcript levels were measured as a proportion of total RNA by a dot blot assay in which RNA from different tissues or stages is fixed to nitrocellulose and hybridized with (32)P-labeled probes prepared from cloned DNAs. Several patterns of induction can be seen. For example, although both SS and AB RNAs show positive, red/far-red reversible responses in both pea and mung bean, in pea buds the induction ratio for SS RNA is much higher than that for AB RNA, while just the reverse is true for mung-bean leaves. In addition, treatment with lowfluence red light produces full induction of the pea AB RNA, while SS RNA in the same tissue does not reach a maximum steady-state level until after about 24 h of supplementary high-intensity white light. In pea buds, chloroplast genes (LS, PII) also show clear responses to phytochrome, as measured by the steady-state levels of their RNA products. Chloroplast DNA levels (as a fraction of the total cellular DNA) show the same response pattern, which may indicate that in peas many of the light effects we see are related to a general stimulation of chloroplast development. In mung beans, the levels of plastid DNA and RNA are already quite high in the leaves of 7-d dark-grown seedlings, and light effects are much less pronounced. The results are consistent with the notion that chloroplast development is arrested at a later stage in dark-grown mung-bean leaves than in etiolated pea buds.

Molecular cloning and analysis of cDNA sequences derived from poly A+ RNA from barley endosperm: identification of B hordein related clones

A collection of over 130 cDNA clones has been constructed in the bacterial plasmids pPH207 and pBR322 using as template the poly A+ RNA from membrane-bound polysomes of barley endosperm (cv. Sundance). Fifty four B hordein cDNA clones have been identified by cross-hybridization analysis and in vitro translation of plasmid-selected mRNAs. Hybridization of 11 of the B hordein cDNA clones to Northern blots of size-fractionated RNA indicated that the B hordein mRNA is ca. 1300 nucleotides long. One cDNA clone, pHvE-c16, has been partially sequenced and shown by comparison with C-terminal and other peptide sequences to be related to B1 hordein polypeptides. The results obtained from the analysis of the B hordein cDNA clones support the idea that the Hor 2 locus, which specifies the B hordeins, is complex and codes for a family of related mRNA species.