Water deficit modulates gene expression in growing zones of soybean seedlings. Analysis of differentially expressed cDNAs,a new β-tubulin gene,and expression of genes encoding cell wall proteins

Transfer of soybean seedlings to low-water-potential vermiculite (_w = –0.3 MPa) results in a reversible decrease in hypocotyl growth and modulation of several polysomal mRNAs (Plant Physiol 92: 205–214). We report here the isolation of two cDNA clones (pGE16 and pGE95) which correspond to genes whose mRNA levels are increased, and one cDNA clone (pGE23) which corresponds to a gene whose mRNA level is decreased in the hypocotyl zone of cell elongation by water deficit. In well-watered seedlings mRNAs hybridizing to pGE16 and pGE95 are most abundant in mature regions of the seedling, but in water-deficient seedlings mRNA levels are reduced in mature regions and enhanced in elongating regions. RNA corresponding to soybean proline-rich protein 1 (sbPRP1) shows a similar tissue distribution and response to water deficit. In contrast, in well-watered seedlings, the gene corresponding to pGE23 was highly expressed in the hypocotyl and root growing zones. Transfer of seedlings to low-water-potential vermiculite caused a rapid decrease in mRNA hybridizing to pGE23. Sequence analysis revealted that pGE23 has high homology with -tubulin. Water deficit also reduced the level of mRNA hybridizing to JCW1, an auxin-modulated gene, although with different kinetics. Furthermore, mRNA encoding actin, glycine-rich proteins (GRPs), and hydroxyproline-rich glycoproteins (HRGPs) were down-regulated in the hypocotyl zone of elongation of seedlings exposed to water deficit. No effect of water deficit was observed on the expression of chalcone synthase. Decreased expression of -tubulin, actin, JCW1, HRGP and GRP and increased expression of sbPRP1, pGE95 and pGE16 in the hypocotyl zone of cell elongation could participate in the reversible growth inhibition observed in water-deficient soybean seedlings.     

Cloning and expression of a β-galactosidase gene of Bacillus circulans

A gene of β-galactosidase from Bacillus circulans ATCC 31382 was cloned and sequenced on the basis of N-terminal and internal peptide sequences isolated from a commercial enzyme preparation, Biolacta(?). Using the cloned gene, recombinant β-galactosidase and its deletion mutants were overexpressed as His-tagged proteins in Escherichia coli cells and the enzymes expressed were characterized.     

Structure and expression of a barley acidic β-glucanase gene

A barley acidic -1,3-glucanase gene was recovered from a barley genomic library by homology with a partial cDNA of barley basic -1,3-glucanase isoenzyme GII. The gene, Abg2, is homologous to the PR2 family of pathogenesis-related -1,3-glucanase genes. The ABG2 protein has 81% amino acid similarity to barley basic -1,3-glucanase GII. The ABG2 protein is encoded as a preprotein of 336 amino acids including a 28 amino acid signal peptide. A 299 bp intron occurs within codon 25. The mature ABG2 protein has a predicted mass of 32642 Da and a calculated isoelectric point of 4.9. The second exon of the Abg2 gene shows a strong preference for G+C in the third position of degenerate codons. The Abg2 gene was functionally expressed in Escherichia coli. Abg2 mRNA is constitutively expressed in barley root; leaf expression of Abg2 mRNA is induced by mercuric chloride and infection by Erysiphe graminis f. sp. hordei. Southern blot analysis indicates that Abg2 is a member of a small gene family.     

Oct-1 functions as a transactivator in the hormonal induction of β-casein gene expression

An adverse environmental experience of the growing fetus leads to permanent changes in the structure and contractile function of the heart; however, the mechanisms are incompletely understood. To examine if a maternal low protein (LP) diet can modulate the gene and protein expression of the Ca²⁺-cycling proteins in the neonatal heart, we employed a rat model in which pregnant dams were fed diets containing either 180 (normal) or 90 g (low) casein/kg diet for 2 weeks before mating and throughout pregnancy. A significant reduction in the L-type Ca²⁺-channel mRNA level in the LP group was detected at 1, 7, and 14 days of age. Although ryanodine receptor (RyR) mRNA levels progressively declined in the aging heart in both groups, the RyR mRNA levels were consistently higher in the LP group. A reduction in RyR protein content was seen only in the hearts of the LP group at 7 days of age. The Na⁺-Ca²⁺-exchanger (NCX) mRNA level was also markedly increased at all ages. Although an increase in sarco(endo)plasmic reticulum ATPase 2a (SERCA) 2a mRNA was only detected in the LP group at 7 days of age, corresponding protein level was depressed. On the other hand, an initial decrease (at 1 day of age) followed by an increase (at 14 and 28 days of age) in phospholamban (PLB) mRNA levels was detected. Although PLB protein level was also depressed at 1 day of age in the LP group, a marked increase was seen at 7 days of age. Moreover, the ratio of serine 16 and threonine 17 phosphorylated PLB to non-phosphorylated PLB was reduced at 7 days of age in the hearts of offspring of the LP group. These data suggest that maternal LP diet can induce alterations in the gene expression and protein levels of the Ca²⁺-cycling proteins in the neonatal heart.     

Restricted β-galactosidase expression of a hygromycin-lacZ gene targeted to the β- actin locus and embryonic lethality of β-actin mutant mice

Transgenic Research -     

Cloning and expression in Saccharomyces cerevisiae of a β-amylase gene from the oomycete Saprolegnia ferax

Genomic DNA and cDNA encoding the -amylase from the oomycete, Saprolegnia ferax, were cloned into Saccharomyces cerevisiae and analyzed. The Spl. ferax -amylase gene consisted of a 1350 bp open reading frame, encoding a protein of 450 amino acids with a calculated mass of 49353 Da, and was not interrupted by any intron. The deduced amino acid sequence of the -amylase gene had 42% similarity to the -amylase of Arabidopsis thaliana. The -amylase gene was expressed in Sacc. cerevisiae and its product was secreted into the culture medium.     

Regulation of the α-expansin gene OsEXPA8 expression affects root system architecture in transgenic rice plants

Expansins are cell wall proteins implicated in the control of plant growth via loosening of the extracellular matrix, and are encoded by a large gene family. However, data linked to loss of function of single genes which support the role of expansins in root growth remain limited. In this study, we used RNA interference to examine the biological functions of the rice α-expansin gene OsEXPA8. Repression of OsEXPA8 expression in rice impaired the root system architecture and plant growth significantly, leading to shorter primary roots and fewer lateral roots. Accordingly, the cell size of the root vascular bundle reduced drastically. Notably, OsEXPA8 silencing impaired root hair elongation; moreover, plant height was clearly reduced. Transient expression of OsEXPA8-GFP in onion epidermal cells verified that OsEXPA8 is located on the cell wall. OsEXPA8 was expressed predominantly in the root and shoot of one-week-old rice seedlings, and highly induced by NaCl but suppressed by nitrate and phosphate starvation. In addition, atomic force microscopy was used to explore alterations in cell wall nanomechanics caused by OsEXPA8 protein reduction, which showed that the wall stiffness (Young’s modulus) of OsEXPA8-silenced suspension cells was increased significantly. Taken together, our results suggest that OsEXPA8 is critical for root system architecture, which supports the hypothesis that expansins are involved in enhancing plant growth by mediating cell wall loosening.     

Cloning, sequence analysis, and heterologous expression of a β-mannanase gene from Bacillus subtilis Z-2

Mannanase, an extracellular enzyme that catalyzes the hydrolysis of hemicelluloses to produce oligosaccharides, has potential to be applied in food industries. In this study a mannanase gene from B. subtilis Z-2 was isolated through PCR screening of a genomic DNA library. The nucleotide sequence of the mannanase gene, man, contained an open reading frame of 1080 bp, which codes for a deduced 26 amino-acid signal peptide and a mature protein with a deduced molecular mass of 38 kDa. The man gene can both be expressed heterologously into the periplasm from the plasmid pET22b(+) containing an intact signal peptide (pET-NdeI18) or the pelB signal peptide of the pET22b(+)vector (pET-NcoI3). Escherichia coli BL21 (DE3) containing pET-NcoI3 secreted about twice as much mannanase as that harboring pET-NdeI18. The E. coli DH5α expression of man was under the control of the lac promoter in the pRK415 vector; it was much more effective when the Shine Dalgarno (SD) sequence was changed from GGGGAG to AAGGAG and the start codon was changed from TTG to ATG, respectively. These results suggest that genetic modification of the SD sequence and start codon is practical for a high-level mannanase expression in different bacterial strains. Published in Russian in Molekulyarnaya Biologiya, 2006, Vol. 40, No. 3, pp. 418–424. This article was submitted by the authors in English.     

Cloning, analysis and expression of the gene for β-glycosidase of Thermus caldophilus GK24 and properties of the enzyme

The gene (bglT) encoding Thermus caldophilus GK24 -glycosidase (Tca -glycosidase) was cloned and sequenced. The gene contains an open reading frame encoding 431 amino acids with a M _r of 48 658 Da. The bglT gene was expressed under the control of tac promoter on a high-copy plasmid in E. coli. The recombinant Tca -glycosidase was purified 41.5-fold with a 59% yield and a specific activity of 83 U mg^–1 protein.     

Constitutive high-level expression of a codon-optimized β-fructosidase gene from the hyperthermophile Thermotoga maritima in Pichia pastoris

Enzymes for use in the sugar industry are preferred to be thermotolerant. In this study, a synthetic codon-optimized gene encoding a highly thermostable β-fructosidase (BfrA, EC 3.2.1.26) from the bacterium Thermotoga maritima was expressed in the yeast Pichia pastoris. The gradual increase of the transgene dosage from one to four copies under the control of the constitutive glyceraldehyde 3-phosphate dehydrogenase promoter had an additive effect on BfrA yield without causing cell toxicity. Maximal values of cell biomass (115 g/l, dry weight) and overall invertase activity (241 U/ml) were reached at 72 h in fed-batch fermentations using cane sugar as the main carbon source for growth. Secretion driven by the Saccharomyces cerevisiae α-factor signal peptide resulted in periplasmic retention (44 %) and extracellular release (56 %) of BfrA. The presence of N-linked oligosaccharides did not influence the optimal activity, thermal stability, kinetic properties, substrate specificity, and exo-type action mode of the yeast-secreted BfrA in comparison to the native unglycosylated enzyme. Complete inversion of cane sugar at initial concentration of 60 % (w/v) was achieved by periplasmic BfrA in undisrupted cells reacting at pH 5.5 and 70 °C, with average productivity of 4.4 g of substrate hydrolyzed per grams of biomass (wet weight) per hour. The high yield of fully active glycosylated BfrA here attained by recombinant P. pastoris in a low-cost fermentation process appears to be attractive for the large-scale production of this thermostable enzyme useful for the manufacture of inverted sugar syrup.     

Transient expression of the β-glucuronidase gene in embryogenic callus of Picea mariana following microprojection

A microprojection protocol using the DuPont Biolistic particle delivery system and the -glucuronidase (GUS) reporter gene fused with the 35S promoter of Cauliflower mosaic virus (CaMV) was developed for Picea mariana callus. Comparison of four tungsten microprojectile sizes showed the highest transient gene expression with 1.11m diameter particles. Adsorption of DNA on the microcarriers using calcium chloride led to higher GUS gene activity than using polyethylene glycol. GUS gene activity in P. mariana was the highest when cells were treated 5 and 6 days after subculturing to fresh media. The wheat ABA-inducible Em gene promoter yielded 4.5 times higher GUS gene activity than the 35S CaMV promoter. Comparison of transient GUS gene expression among 10 P. mariana embryogenic cell lines from six different open-pollinated families showed comparable gene activity, with the exception of one family showing no GUS gene activity.