Synergistic effect on biosynthesis of Panax notoginseng saponins by overexpressing a transcription factor PnbHLH and RNA interference of cycloartenol synthase gene / 中国中药杂志

This study cloned the transcription factor gene PnbHLH which held an open reading frame of 966 bp encoding 321 amino acids. This study constructed the overexpression vector of transcription factor PnbHLH of Panax notoginseng. The combination of PnbHLH overexpression and RNAi of the key enzyme gene PnCAS involved in the phytosterol biosynthesis was achieved in P. notoginseng cells, thus exploring the biosynthetic regulation of P. notoginseng saponins(PNS) by the synergistic effect of PnbHLH overexpression and PnCAS RNAi. The results showed that the PnbHLH transcription factor interacted with the promoters of key enzyme genes PnDS, PnSS and PnSE in the biosynthetic pathway of PNS, and then regulated the expression levels of key enzyme genes and affected the biosynthesis of saponins indirectly. Further study indicated that the synergistic effect of PnbHLH overexpression and PnCAS RNAi was a more effective approach to regulate the biosynthesis of saponins. Compared with the wild type and PnCAS RNAi cells of P. notoginseng, the contents of total saponins and monomeric saponins(Rd, Rb_1, Re, Rg_1 and R_1) were increased to some extent in the cell lines of PnbHLH overexpression and PnCAS RNAi. This indicated that the two ways of forward regulation and reverse regulation of saponin biosynthesis showed superposition effect. This study explored a more rational and efficient regulation strategy of PNS biosynthesis based on the advantages of multi-point regulation of transcription factors as well as the down-regulation of by-product synthesis of saponins.

Functional analysis of a chitinase gene PnCHI1 from Panax notoginseng / 中国中药杂志

Chitinases, a glycosidase enzyme that hydrolyzes chitin to N-acetylglucosamine, are widely found in plant cells, and they are an important part of plant antifungal defense system. The function of a Panax notoginseng chitinase gene PnCHI1 was characterized in this paper. Expression vector of PnCHI1 was constructed and transiently expressed in onion epidermal cells, and laser scanning confocal microscopy demonstrated that PnCHI1 was localized in the cell wall. Prokaryotic expression vector of PnCHI1 was also constructed, and recombinant protein of PnCHI1 was induced and purified. In vitro antibacterial assay showed that recombinant PnCHI1 protein had strong inhibitory activity on the mycelium growth of Fusarium solani, F. oxysporum and F. verticillioide. The function of PnCHI1 was further verified by reverse genetics. PnCHI1 expression vector was transferred into tobacco by Agrobacterium tumefaciens and expression of PnCHI1 was confirmed by qRT-PCR. It was found by leaf inoculation experiment that resistance of transgenic tobacco to F. solani was significantly increased. It is conclnded that: PnCHI1 is a chitinase localized in the cell wall, which inhibits several fungi which cause the root rot disease of P. notoginseng. Overexpression of this chitinase gene in tobacco greatly increased resistance to F. solani. PnCHI1 may be an important resistance gene in P. notoginseng that participates in the defense against root rot disease.

Cloning and expression analysis of a chitinase gene PnCHI1 from Panax notoginseng / 中国中药杂志

Chitinases(EC3.2.1.14), which are present in various organisms, catalyze the hydrolytic cleavage of chitin and play a vital role in plant defense mechanisms against fungal pathogens.In addition, the chitinases are well known to regulate plant growth and development and are involved in programmed cell death(PCD).A chitinase expressed sequence tag(EST) was isolated from Panax notoginseng, and the full-length cDNA of this EST was cloned with the method of rapid amplification of cDNA ends and named as PnCHI1. PnCHI1 was 1 022 bp in length and contained an intact open reading frame(ORF) of 822 bp, a 26 bp 5'-untranslated region(UTR), and a 174 bp 3'-UTR.The predicted protein of PnCHI1 with 273 amino acid residues belongs to glycoside hydrolase family 19 and fell into the class IV of chitinases through phylogenetic analysis.QRT-PCR analysis showed that the expression of PnCHI1 was induced by methyl jasmonate, ethylene, H2O2, and salicylic acid.PnCHI1 was quickly induced after inoculation with Alternaria panax.Moreover, the expression level of PnCHI1 was increased after pretreatment with methyl jasmonate, and then the transcription level of PnCHI1was sharp increased after inoculation with Fusarium solani,and the highest transcription level was achieved at 4 h post inoculation.But the expression level of PnCHI1 in the sterile water pretreated P.notoginseng was increased gradually after inoculation with F.solani, and the highest expression level was achieved at 48 h post inoculation.All the results of present study indicated that PnCHI1 was involved in defense response of P.notoginseng against the F.solani and A.panax.

The construction of over-expression vector for Panax notoginseng SS gene and its transformation / 药学学报

PNS (Panax notoginseng saponins) is the main medical bioactive component in Panax notoginseng. The medical value of PNS cannot be extended because of its low production. With the deep study of saponins biosynthetic pathway, the control of PNS biosynthesis through metabolic engineering has gradually become possible. In this study, the Squalene synthase (SS) over-expression vector was established. By the way of agrobacterium-mediated method, the vector was transfered and integrated into the Panax notoginseng genome. The result of the PCR detection and the saponin content detection shows that over-expression SS is able to produce high level of Panax notoginseng saponins, and confirms the regulatory function of SS in the biosynthesis of ginsenosides in Panax notoginseng. It provides a theoretical basis and technical basis for the construction of PNS homologous or heterologous efficient expression system in the future.

Immunogenicity of Lactobacillus-expressing VP2 and VP3 of the infectious pancreatic necrosis virus (IPNV) in rainbow trout.

Infectious pancreatic necrosis virus (IPNV) infects salmonid fish with high mortality and causes serious economic losses to salmonid aquaculture. Lactobacillus strains have a number of properties that make them attractive candidates as delivery vehicles for the presentation to the mucosa of compounds with pharmaceutical interest, in particular vaccines. Here, Lactobacilli/Escherichia coli shuttle vector pPG1 (surface-displayed) or pPG2 (secretory) with the capsid VP2 gene inserted was transformed into Lactobacillus casei to yield two recombinant strains: Lc:PG1-VP2 and Lc:PG2-VP2, respectively. Rainbow trout immunized respectively with Lc:PG1-VP2, Lc:PG2-VP2, Lc:PG1-VP3 and Lc:PG2-VP3 elicited anti-IPNV immune responses (serum IgM) via oral route. Statistical results of serum IgM titer with neutralizing activity showed that immunogenicity of Lc:PG2-VP2 was more powerful than that of Lc:PG1-VP2 (P < 0.001), Lc:PG1-VP3 (P < 0.001) and Lc:PG2-VP3 (P < 0.001), which was confirmed by viral loads reduction analyzed by real-time RT-PCR in orally immunized rainbow trout after virus challenge. Comparing with negative control, rainbow trout orally dosed with Lc:PG2-VP2 resulted in ∼46-fold reduction in virus load on days 10 post viral challenge as well as Lc:PG1-VP2(∼20-fold), Lc:PG2-VP3(∼6-fold) and Lc:PG1-VP3(∼3-fold). Taken together, Lc:PG2-VP2 exhibited a more appropriate candidate as live bacteria vaccine against IPNV infection in rainbow trout.

Construction and characterization of Lactobacillus pentosus expressing the D antigenic site of the spike protein of Transmissible gastroenteritis virus.

This study explored the feasibility of Lactobacillus pentosus as a live vehicle to deliver and express antigen. First of all, L. pentosus transformed by electroporation with the plasmids pg611-6D (anchored) and pg612-6D (secretory) based on the xylose operon generated the recombinant strains rLppg611-6D and rLppg612-6D, respectively, expressing the D antigenic site of the spike (S) protein of Transmissible gastroenteritis virus (TGEV), for intragastric administration in mice. Secondly, we collected serum, fecal, nasal, ophthalmic, and vaginal samples from pre-immune mice and after the first immunization (on days 7, 14, 21, 28, 35, and 42) that were used to analyze the levels of immunoglobulins G and A against TGEV by using ELISA. In addition, a plaque reduction assay was performed using sera from groups pg611, pg612-6D, pg11-6D, and phosphate-buffered saline (blank control) to analyze TGEV-neutralizing antibody activity in vitro. A statistically significant difference in serum tests between groups demonstrated that rLppg612-6D induced better immunogenicity than rLppg611-6D, making rLppg612-6D the better candidate for oral vaccine. Taken together, L. pentosus possessed the potential to become a novel vector for mucosal vaccine in the future.

The Strategy of Citrinin Production Control in Monascus / 中国生物工程杂志

Pepole pay more attention to the medicinal value and health function of Monascus day by day,however,the existence of citrinin restricted the further development of Monascus products heavily. How to ruduce the content of citrinin is a problem need to be solved urgently.Briefly introduced the toxicity,the biosynthetic pathway,and the relative standards of citrinin in monascus. According to the research progress on citrinin,the strategies of citrinin control were described from the three aspects of fermentation technology,mutation breeding,and genetic engineering. The expectation about the direction of citrinin in the future was also discussed.