Comparison of promoter activities of heterologous and homologous promoters in Bacillus subtilis

Summary We have constructed promoter probe vectors with the Escherichia coli galactokinase monitoring system that can be used in Bacillus subtilis. In vivo studies with these vectors demonstrated that the E. coli trp and tac(trp::lac) promoter regions could be utilized in B. subtilis. These promoter regions and the promoter region for the erythromycin resistance gene originating from Staphylococcus aureus were preferentially utilized during the stationary growth phase of B. subtilis, whereas the B. subtilis P21K and P29K promoters were utilized during the exponential growth phase and decreased rapidly during the stationary phase. The apparent strength of these promoters of E. coli in B. subtilis, in terms of galactokinase units, was comparable with those of the B. subtilis promoters.     

A simple method to generate non-trivial alternate alignments of protein sequences

A major problem in sequence alignments based on the standard dynamic programming method is that the optimal path does not necessarily yield the best equivalencing of residues assessed by structural or functional criteria. An algorithm is presented that finds suboptimal alignments of protein sequences by a simple modification to the standard dynamic programming method. The standard pairwise weight matrix elements are modified in order to penalize, but not eliminate, the equivalencing of residues obtained from previous alignments. The algorithm thereby yields a limited set of alternate alignments that can differ considerably from the optimal. The approach is benchmarked on the alignments of immunoglobulin domains. Without a prior knowledge of the optimal choice of gap penalty, one of the suboptimal alignments is shown to be more accurate than the optimal.     

Identification of siRNA generating hot spots in multiple viral suppressors to generate broad-spectrum antiviral resistance in plants

Viruses are one of the most devastating plant pathogens causing severe economic losses worldwide. RNA silencing is a robust technology to knock down the expression of specific genes. This mechanism can be exploited to generate virus resistant plants through expression of the viral derived sequences. Viruses in turn have evolved to encode suppressors of RNA silencing to combat host defense. Mixed infection of plants is of common occurrence in nature and simultaneous targeting of suppressor(s) of multiple viruses offers an effective strategy. In this study, we have in silico designed siRNAs against suppressors of the two most devastating viruses of tomato, leaf curl causing tomato begomoviruses and Cucumber mosaic virus. Three different siRNA prediction programs were used to evaluate siRNAs generating capability of each sequence and common putative candidate siRNAs were selected fulfilling the stringent parameters. Our results indicated that in the case of each suppressor a particular region of 100–150 base pairs could be source of potent siRNAs referred as hotspots. Expression of these viral hot spots as a single construct in the plants would facilitate development of transgenic plants with a high degree of broad spectrum resistance against multiple viruses.

Electronic supplementary material

The online version of this article (doi:10.1007/s12298-014-0264-0) contains supplementary material, which is available to authorized users.     

Endogenous viral sequences and their potential contribution to heritable virus resistance in plants

Tobacco endogenous pararetroviruses (TEPRVs) represent the first virus-derived repetitive sequence family found in plants. The sequence conservation of TEPRVs and the lack of an exogenous form of the virus suggest that TEPRVs serve a beneficial function, perhaps by furnishing virus resistance via homologous sequence interactions. This hypothesis is supported by the observation that TEPRVs are methylated and negligibly transcribed. Moreover, transgenes driven by the TEPRV enhancer are silenced and methylated when introduced into tobacco, but remain active and unmethylated in non-host species devoid of sequences homologous to TEPRVs. In transgenic Arabidopsis, the TEPRV enhancer is active primarily in shoot meristems. This suggests that the virus giving rise to TEPRVs could infect germ cell precursors, a prerequisite for meiotically heritable insertions into host chromosomes. The copy number, organization and methylation of TEPRVs in tetraploid tobacco and one of its diploid ancestors, Nicotiana sylvestris, the presumed original host for the virus, have remained constant since polyploid formation. The remarkable conservation of these features in two independently evolving species further supports a role for TEPRVs in viral immunity.     

An equilibrium model for coat protein mediated resistance to viral infection in plants

Virally infected plants are resistant to secondary viral infection by similar viruses. This phenomenon has been used to confer virus resistance. Here we develop an equilibrium model of viral Coat Protein Mediated Resistance (CP-MR). This model successfully explains qualitative experimental observations. Our model also suggests an approach of developing transgenic viral infection resistant plant with minimal yield penalty.     

Evolutionary conservation of kinetochore protein sequences in plants

The evolutionary conservation of structural/functional kinetochore proteins has been studied on isolated nuclei and pro-/metaphase chromosomes of mono- and dicot plants. The cross-reactivities of antibodies against human CENPC, CENPE and CENPF, and against maize CENPCa with the centromeric regions of mitotic chromosomes of Vicia faba and/or Hordeum vulgare are shown. Putative homologs of the kinetochore protein SKP1 (suppressor of kinetochore protein 1p of yeast) were found in both species and of CBF5p (centromere binding factor 5 of yeast) in barley. Antibodies against synthetic peptides derived from partial sequences encoding these proteins were produced and recognized the centromeric regions on mitotic chromosomes as detected by indirect immunofluorescence.     

High-level transient production of a heterologous protein in plants by optimizing induction of a chemically inducible viral amplicon expression system

We have demonstrated that the method of chemical induction using a chemically inducible viral amplicon expression system can be optimized to increase expression of a heterologous protein in plants. A cucumber mosaic virus inducible viral amplicon (CMViva) expression system was used to transiently produce a recombinant human blood protein, alpha-1-antitrypsin (AAT), by co-infiltrating intact and detached Nicotiana benthamiana leaves with two Agrobacterium tumefaciens strains, one containing the CMViva expression cassette carrying the AAT gene and the other containing a binary vector carrying the gene silencing suppressor p19. Infiltrated plants were induced by either topical applications or pressure injections and inducer was applied at either a single or multiple time points. Applying induction solution every 2 days via topical application resulted in increasing maximum levels of biologically functional rAAT from 0.71% to 1.3% of the total soluble protein (TSP) in detached plant leaves, a 1.8-fold improvement. Multiple applications of induction solution via pressure injection into intact leaves resulted in maximum levels of biologically functional rAAT being elevated 3-fold up to 2.4% of TSP compared to 0.8% of TSP when using the conventional method of a single topical application, and expression levels remained high 6 days post-induction. Overall production of rAAT in intact leaves was found to have a maximum level of 5.8% of TSP or 390 mg rAAT per kg leaf tissue when applying multiple injections of chemical induction solution.     

Comparative expression analysis of two sugarcane polyubiquitin promoters and flanking sequences in transgenic plants

GUS (uidA) reporter gene expression for two sugarcane polyubiquitin promoters, ubi4 and ubi9, was compared to expression from the maize Ubi-1 promoter in stable transgenic rice (only ubi9) and sugarcane (ubi4 and ubi9). Ubi9 drove high-level GUS expression, comparable to the maize Ubi-1 promoter, in both callus and regenerated plants of rice transformed by Agrobacterium. This high level expression was inherited in R1 plants. Expression from ubi4 and ubi9 was quite high in sugarcane callus transformed via particle bombardment. Expression dropped to very low or undetectable levels in the resulting plants; this drop in expression resulted from PTGS. PTGS in regenerated sugarcane plants also occurred with the maize Ubi-1 promoter. In sugarcane callus, ubi4 was HS inducible, but ubi9 was not. This physiological difference corresponds to a MITE insertion that is present in the putative HSEs of ubi9 but not present in ubi4.     

Analysis of heat shock promoters inHansenula polymorpha: TheTPS1 promoter, a novel element for heterologous gene expression

The strength and regulatory characteristics of the heat-inducibleHSA1, HSA2 andTPS1 promoters were compared with those of the well-established, carbon source-regulatedFMD promoter in aHansenula polymorpha-based host systemin vivo. In addition, theSaccharomyces cerevisiae-derivedADH1 promoter was analysed. WhileADH1 promoter showed to be of poor activity in the foreign host, the strength of the heat shockTPS1 promoter was found to exceed that of theFMD promoter, which at present is considered to be the strongest promoter for driving heterologous gene expression inH. polymorpha.     

Development of a new tobamovirus-based viral vector for protein expression in plants

Plants are becoming an interesting alternative system for the heterologous production of pharmaceutical proteins, providing a more scalable, cost-effective, and biologically safer option than the current expression systems. The development of plant virus expression vectors has allowed rapid and high-level transient expression of recombinant genes, and, in turn, provided an attractive plant-based production platform. Here we report the development of vectors based on the tobamovirus Pepper mild mottle virus (PMMoV) to be used in transient expression of foreign genes. In this PMMoV vector, a middle part of the viral coat protein gene was replaced by the green fluorescent protein (GFP) gene, and this recombinant genome was assembled in a binary vector suitable for plant agroinoculation. The accumulation of GFP was evaluated by observation of green fluorescent signals under UV light and by western blotting. Furthermore, by using this vector, the multiepitope gene for chikungunya virus was successfully expressed and confirmed by western blotting. This PMMoV-based vector represents an alternative system for a high-level production of heterologous protein in plants.

     

Unwinding of heterologous DNA by RecA protein during the search for homologous sequences.

The search for homologous sequences promoted by RecA protein in vitro involves a presynaptic filament and naked duplex DNA, the multiple contacts of which produce nucleoprotein networks or coaggregates. The single-stranded DNA within the presynaptic filaments, however, is extended to an axial spacing 1.5 times that of B-form DNA. To investigate this paradoxical difference between the spacing of bases in the RecA presynaptic filament versus the target duplex DNA, we explored the effect of heterologous contacts on the conformation of DNA, and vice versa. In the presence of wheat germ topoisomerase I, RecA presynaptic filaments induced a rapid, limited reduction in the linking number of heterologous circular duplex DNA. This limited unwinding of heterologous duplex DNA, termed heterologous unwinding, was detected within 30 seconds and reached a steady state within a few minutes. Presynaptic filaments that were formed in the presence of ATP gamma S and separated from free RecA protein by gel filtration also generated a ladder of topoisomers upon incubation with relaxed duplex DNA and topoisomerase. The inhibition of heterologous contacts by 60 mM-NaCl or 5 mM-ADP resulted in a corresponding decrease in heterologous unwinding. In reciprocal fashion, the stability or number of heterologous contacts with presynaptic filaments was inversely related to the linking number of circular duplex DNA. These observations show that heterologous contacts with the presynaptic filament cause a limited unwinding of the duplex DNA, and conversely that the ability of the DNA to unwind stabilizes transient heterologous contacts.     

转基因植物表达药用蛋白的研究进展

基因工程技术的进步使得转基因植物广泛应用于工业、农业各个领域,尤其在医药制造领域。研究成果表明,转基因植物作为生物反应器在制备药用蛋白,如重组疫苗、重组动物抗体、细胞因子等方面较其他表达系统,如微生物及动物表达系统具有成本低、应用安全等优势,但在工业化技术方面仍存在障碍。     

Transient expression of the uidA gene in Pinus pinea cotyledons: A study of heterologous promoter sequences

Transfer and expression of the β-glucuronidase gene (uidA) in cultured cotyledons of stone pine (Pinus pinea L.) was obtained by microprojectile bombardment. Conditions for optimum transient expression were established by using plasmid pBI121 delivered by 1.0 μm-diameter gold particles, into 1-day-old cultured cotyledons. Helium pressure of 6.2 MPa, microcarrier travel distance of 6 cm, and 0.8 μg of plasmid DNA per bombardment, were the best parameters for high levels of transient uidA expression. By using these parameters, 98% of bombarded cotyledons showed β-glucuronidase activity, with a mean of 63 Gus foci per cotyledon. This system was used to study the expression of uidA gene driven by several heterologous promoters. The expression under the control of the sunflower polyubiquitin gene (UbB1) promoter (Δ1 deletion) was higher (99% of GUS positive cotyledons) than under the control of the CaMV35S promoter, whereas the rice actin and the maize alcohol dehydrogenase gene promoters gave lower uidA expression, as determined histochemically. These results were confirmed by using the GUS fluorometric assay. Use of a deletion of the sunflower polyubiquitin promoter resulted in GUS activity detectable 35 days after bombardment, and significant levels of GUS activity were confirmed at the end of that period. The results will be useful to design protocols for stable transformation and high levels of transgene expression in P. pinea. This revised version was published online in June 2006 with corrections to the Cover Date.     

Differential roles for MBD2 and MBD3 at methylated CpG islands,active promoters and binding to exon sequences

The heterogeneous collection of nucleosome remodelling and deacetylation (NuRD) complexes can be grouped into the MBD2- or MBD3-containing complexes MBD2–NuRD and MBD3–NuRD. MBD2 is known to bind to methylated CpG sequences in vitro in contrast to MBD3. Although functional differences have been described, a direct comparison of MBD2 and MBD3 in respect to genome-wide binding and function has been lacking. Here, we show that MBD2–NuRD, in contrast to MBD3–NuRD, converts open chromatin with euchromatic histone modifications into tightly compacted chromatin with repressive histone marks. Genome-wide, a strong enrichment for MBD2 at methylated CpG sequences is found, whereas CpGs bound by MBD3 are devoid of methylation. MBD2-bound genes are generally lower expressed as compared with MBD3-bound genes. When depleting cells for MBD2, the MBD2-bound genes increase their activity, whereas MBD2 plus MBD3-bound genes reduce their activity. Most strikingly, MBD3 is enriched at active promoters, whereas MBD2 is bound at methylated promoters and enriched at exon sequences of active genes.