Metabolic regulation of quiescence in plants.

Quiescence is a crucial survival attribute in which cell division is repressed in a reversible manner. Although quiescence has long been viewed as an inactive state, recent studies have shown that it is an actively monitored process that is influenced by environmental stimuli. Here, we provide a perspective of the quiescent state and discuss how this process is tuned by energy, nutrient and oxygen status, and the pathways that sense and transmit these signals. We not only highlight the governance of canonical regulators and signalling mechanisms that respond to changes in nutrient and energy status, but also consider the central significance of mitochondrial functions and cues as key regulators of nuclear gene expression. Furthermore, we discuss how reactive oxygen species and the associated redox processes, which are intrinsically linked to energy carbohydrate metabolism, also play a key role in the orchestration of quiescence.

Cell surface receptor kinase FERONIA linked to nutrient sensor TORC signaling controls root hair growth at low temperature linked to low nitrate in Arabidopsis thaliana.

Root hairs (RH) are excellent model systems for studying cell size and polarity since they elongate several hundred-fold their original size. Their tip growth is determined both by intrinsic and environmental signals. Although nutrient availability and temperature are key factors for a sustained plant growth, the molecular mechanisms underlying their sensing and downstream signaling pathways remain unclear. We use genetics to address the roles of the cell surface receptor kinase FERONIA (FER) and the nutrient sensing TOR Complex 1 (TORC) in RH growth. We identified that low temperature (10°C) triggers a strong RH elongation response in Arabidopsis thaliana involving FER and TORC. We found that FER is required to perceive limited nutrient availability caused by low temperature. FERONIA interacts with and activates TORC-downstream components to trigger RH growth. In addition, the small GTPase Rho of plants 2 (ROP2) is also involved in this RH growth response linking FER and TOR. We also found that limited nitrogen nutrient availability can mimic the RH growth response at 10°C in a NRT1.1-dependent manner. These results uncover a molecular mechanism by which a central hub composed by FER-ROP2-TORC is involved in the control of RH elongation under low temperature and nitrogen deficiency.

ROPGAP-dependent interaction between brassinosteroid and ROP2-GTPase signaling controls pavement cell shape in Arabidopsis.

The epidermal pavement cell shape in Arabidopsis is driven by chemical and mechanical cues that direct partitioning mechanisms required for the establishment of the lobe- and indentation-defining polar sites. Brassinosteroid (BR) hormones regulate pavement cell morphogenesis, but the underlying mechanism remains unclear. Here, we identified two PLECKSTRIN HOMOLOGY GTPase-ACTIVATING proteins (PHGAPs) as substrates of the GSK3-like kinase BR-INSENSITIVE2 (BIN2). The phgap1phgap2 mutant displayed severe epidermal cell shape phenotypes, and the PHGAPs were markedly enriched in the anticlinal face of the pavement cell indenting regions. BIN2 phosphorylation of PHGAPs was required for their stability and polarization. BIN2 inhibition activated ROP2-GTPase signaling specifically in the lobes because of PHGAP degradation, while the PHGAPs restrained ROP2 activity in the indentations. Hence, we connect BR and ROP2-GTPase signaling pathways via the regulation of PHGAPs and put forward the importance of spatiotemporal control of BR signaling for pavement cell interdigitation.

Diverse nitrogen signals activate convergent ROP2-TOR signaling in Arabidopsis.

The evolutionarily conserved target-of-rapamycin (TOR) kinase coordinates cellular and organismal growth in all eukaryotes. Amino acids (AAs) are key upstream signals for mammalian TOR activation, but how nitrogen-related nutrients regulate TOR signaling in plants is poorly understood. Here, we discovered that, independent of nitrogen assimilation, nitrate and ammonium function as primary nitrogen signals to activate TOR in the Arabidopsis leaf primordium. We further identified that a total of 15 proteinogenic AAs are also able to activate TOR, and the first AAs generated from plant specific nitrogen assimilation (glutamine), sulfur assimilation (cysteine), and glycolate cycle (glycine), exhibit the highest potency. Interestingly, nitrate, ammonium, and glutamine all activate the small GTPase Rho-related protein from plants 2 (ROP2), and constitutively active ROP2 restores TOR activation under nitrogen-starvation conditions. Our findings suggest that specific evolutionary adaptations of the nitrogen-TOR signaling pathway occurred in plant lineages, and ROP2 can integrate diverse nitrogen and hormone signals for plant TOR activation.

The TOR-Auxin Connection Upstream of Root Hair Growth.

Plant growth and productivity are orchestrated by a network of signaling cascades involved in balancing responses to perceived environmental changes with resource availability. Vascular plants are divided into the shoot, an aboveground organ where sugar is synthesized, and the underground located root. Continuous growth requires the generation of energy in the form of carbohydrates in the leaves upon photosynthesis and uptake of nutrients and water through root hairs. Root hair outgrowth depends on the overall condition of the plant and its energy level must be high enough to maintain root growth. TARGET OF RAPAMYCIN (TOR)-mediated signaling cascades serve as a hub to evaluate which resources are needed to respond to external stimuli and which are available to maintain proper plant adaptation. Root hair growth further requires appropriate distribution of the phytohormone auxin, which primes root hair cell fate and triggers root hair elongation. Auxin is transported in an active, directed manner by a plasma membrane located carrier. The auxin efflux carrier PIN-FORMED 2 is necessary to transport auxin to root hair cells, followed by subcellular rearrangements involved in root hair outgrowth. This review presents an overview of events upstream and downstream of PIN2 action, which are involved in root hair growth control.

AtrbohD functions downstream of ROP2 and positively regulates waterlogging response in Arabidopsis.

NADPH oxidase AtrbohD plays very important roles in modulating many cellular processes through production of signal molecules reactive oxygen species in Arabidopsis. However, whether it regulates the response to waterlogging stress is unclear. In this report, we showed that expression of AtrbohD was markedly induced by waterlogging stress, and mutation in AtrbohD led to clear sensitivity of Arabidopsis plants to waterlogging stress. Moreover, waterlogging-promoted increases in alcohol dehydrogenase (ADH) activity, ADH1 expression and H2O2 accumulation were significantly attenuated in two mutant lines of AtrbohD. These results indicate that AtrbohD is required for Arabidopsis tolerance to waterlogging stress. Besides, GUS staining experiments revealed that disruption of small G protein ROP2 encoding gene evidently suppressed the increase of AtrbohD expression while defect of AtrbohD did not prominently affect the abundance enhancements of ROP2 transcripts under waterlogged conditions. Together, these data suggest that AtrbohD functions downstream of ROP2 to positively regulate the response to waterlogging stress in Arabidopsis.

[Construction and expression of multi-gene recombinant plasmid pEG-FP-N1-HBsAg-ROP2].

OBJECTIVE: To construct pEGFP-N1-HBsAg-ROP2 recombinant expression plasmid and transfect HEK293T cells for expression, and pay a way for Toxoplasma gondii nucleic acid vaccine development. METHODS: According to the HBsAg gene sequence and pcDNA3-p30-ROP2 recombinant plasmid restriction sites, the HBsAg gene was amplified by PCR. The HBsAg gene was cloned into the pcDNA3-p30-ROP2 and instead of p30 gene. The HBsAg-ROP2 fragment was amplified by PCR and digested with Hind Ⅲ and Kpn Ⅰ to clone into the pEGFP-N1 eukaryotic expression vector and construct the recombinant pEGFP-N1-HBsAg-ROP2. The expression vector was transfected into HEK293T cells based on the identification of PCR amplification, restriction endonucleases and sequencing. RESULTS: The PCR product of HBsAg was about 700 bp, which was consistent with the theoretical value. Two bands of about 5.4 kb and 1.9 kb were obtained after double enzyme digestion with pcDNA3HBsAg-ROP2 recombinant plasmid. The recombinant plasmid pEGFP-N1-HBsAg-ROP2 was double-digested to generate an empty vector fragment of about 4.7 kb and a band of about 1.9 kb of HBsAg-ROP2 fragment. The results of sequencing showed that the sequence was 99.84% identical with the published sequence in GenBank. The target plasmid was successfully transfected into HEK293T cells, and the expression was correct, the protein concentration was 3.08 mg/ml. CONCLUSIONS: The recombinant plasmid pEGFP-N1-HBsAg-ROP2 is successfully constructed and expressed efficiently.

Evaluation of Immune Responses Induced by GRA7 and ROP2 Genes by DNA Vaccine Cocktails Against Acute Toxoplasmosis in BALB/c Mice.

BACKGROUND: The severe damages of toxoplasmosis clearly indicate the need for the development of a more effective vaccine. Immunization with plasmid DNA is a promising vaccination technique. Therefore, GRA7 plasmid was prepared to be used as a vaccine. The purpose of this study was evaluation of immunization with cocktail DNA vaccine including plasmids encoding Toxoplasma gondii ROP2 and GRA7 in BALB/c mice. METHODS: In this study, 733 bp of GRA7 gene was cloned in pCDNA3.1 plasmid as an expression vector. The plasmids containing GRA7 and ROP2 genes were administered via IM according to immunized mice three times with a 3 week interval. For lymphocyte proliferation and cytokine assay, splenocytes of immunized mice were cultured for proliferation and cytokine assay. The other mice in each group were inoculated by the parasite and mortality of the mice was evaluated on a daily basis. RESULTS: The cytokine assay results and lymphocyte proliferation response in cocktail DNA vaccines showed that IFN-γ levels were significantly higher than controls (p<0.05), whereas IL-4 expression level in BALB/c mice immunized with cocktail was lower than that in control groups and these results are confirmed by MTT test. Predominance of the levels of IgG2a over IgG1 was observed in sera of the immunized mice. Furthermore, IgG2a values in cocktail DNA vaccines pcGRA7 were significantly higher than control group (p<0.01). In contrast, IgG1 antibodies were similar between the two groups (p>0.5). So, survival time in the immune groups was significantly prolonged in comparison to control ones (p<0.01). CONCLUSION: The immunized mice by DNA vaccine produce higher titration of IFNγ, indicated with Th1 response which is confirmed by high level of IgG2a. These data demonstrate that the cocktail GRA7/ROP2 is a potential vaccine candidate against toxoplasmosis.

Vaccine potential of antigen cocktails composed of recombinant Toxoplasma gondii TgPI-1, ROP2 and GRA4 proteins against chronic toxoplasmosis in C3H mice.

The development of an effective and safe vaccine to prevent Toxoplasma gondii infection is an important aim due to the great clinical and economic impact of this parasitosis. We have previously demonstrated that immunization with the serine protease inhibitor-1 (TgPI-1) confers partial protection to C3H/HeN and C57BL/6 mice. In order to improve the level of protection, in this work, we combined this novel antigen with ROP2 and/or GRA4 recombinant proteins (rTgPI-1+rROP2, rTgPI-1+rGRA4, rTgPI-1+rROP2+rGRA4) to explore the best combination against chronic toxoplasmosis in C3H/HeN mice. All tested vaccine formulations, administered following a homologous prime-boost protocol that combines intradermal and intranasal routes, conferred partial protection as measured by the reduction of brain cyst burden following oral challenge with tissue cysts of Me49 T. gondii strain. The highest level of protection was achieved by the mixture of rTgPI-1 and rROP2 proteins with an average parasite burden reduction of 50% compared to the unvaccinated control group. The vaccine-induced protective effect was related to the elicitation of systemic cellular and humoral immune responses that included antigen-specific spleen cell proliferation, the release of Th1/Th2 cytokines, and the generation of antigen-specific antibodies in serum. Additionally, mucosal immune responses were also induced, characterized by secretion of antigen-specific IgA antibodies in intestinal lavages and specific mesenteric lymph node cell proliferation. Our results demonstrate that rTgPI-1+rROP2 antigens seem a promising mixture to be combined with other immunogenic proteins in a multiantigenic vaccine formulation against toxoplasmosis.

Construction and expression of multi-gene recombinant plasmid pEG-FP-N1-HBsAg-ROP2 / 中国血吸虫病防治杂志

Objective To construct pEGFP-N1-HBsAg-ROP2 recombinant expression plasmid and transfect HEK293T cells for expression,and pay a way for Toxoplasma gondii nucleic acid vaccine development. Methods According to the HBsAg gene sequence and pcDNA3-p30-ROP2 recombinant plasmid restriction sites,the HBsAg gene was amplified by PCR.The HB-sAg gene was cloned into the pcDNA3-p30-ROP2 and instead of p30 gene.The HBsAg-ROP2 fragment was amplified by PCR and digested with HindⅢand KpnⅠto clone into the pEGFP-N1 eukaryotic expression vector and construct the recombinant pEGFP-N1-HBsAg-ROP2.The expression vector was transfected into HEK293T cells based on the identification of PCR amplifi-cation,restriction endonucleases and sequencing.Results The PCR product of HBsAg was about 700 bp,which was consis-tent with the theoretical value.Two bands of about 5.4 kb and 1.9 kb were obtained after double enzyme digestion with pcDNA3-HBsAg-ROP2 recombinant plasmid.The recombinant plasmid pEGFP-N1-HBsAg-ROP2 was double-digested to generate an empty vector fragment of about 4.7 kb and a band of about 1.9 kb of HBsAg-ROP2 fragment.The results of sequencing showed that the sequence was 99.84% identical with the published sequence in GenBank.The target plasmid was successfully transfect-ed into HEK293T cells,and the expression was correct,the protein concentration was 3.08 mg/ml.Conclusion The recombi-nant plasmid pEGFP-N1-HBsAg-ROP2 is successfully constructed and expressed efficiently.

COP1 integrates light signals to ROP2 for cell cycle activation.

The exquisite regulation of cell division at the shoot apex according to the external environmental cues enables plants to adapt the ever-changing environment. We have recently shown that light direct signaling and carbohydrate (sugar) energy signaling are both essential for the activation of cell division at the shoot apex. Light is converted to auxin signal to activate small GTPase 2 (ROP2). Subsequently, the activated ROP2 directly interacts with Target of Rapamycin (TOR) protein kinase, a pivotal regulator of cell division, to promote its kinase activity. However, neither light nor auxin alone can activate TOR kinase without the presence of sugar. In this addendum, we showed that Constitutive Photomorphogenesis 1 (COP1) acts as an upstream factor of ROP2. COP1 regulates ROP2 and TOR activity in an auxin dependent manner. The development of true leaves in the cop1-6 mutant under darkness is compromised by auxin biosynthesis inhibitor yucasin and TOR chemical inhibitor torin2. Together, our results suggested that COP1 regulates auxin-ROP2-TOR signaling in response to light.

Differential TOR activation and cell proliferation in Arabidopsis root and shoot apexes.

The developmental plasticity of plants relies on the remarkable ability of the meristems to integrate nutrient and energy availability with environmental signals. Meristems in root and shoot apexes share highly similar molecular players but are spatially separated by soil. Whether and how these two meristematic tissues have differential activation requirements for local nutrient, hormone, and environmental cues (e.g., light) remain enigmatic in photosynthetic plants. Here, we report that the activation of root and shoot apexes relies on distinct glucose and light signals. Glucose energy signaling is sufficient to activate target of rapamycin (TOR) kinase in root apexes. In contrast, both the glucose and light signals are required for TOR activation in shoot apexes. Strikingly, exogenously applied auxin is able to replace light to activate TOR in shoot apexes and promote true leaf development. A relatively low concentration of auxin in the shoot and high concentration of auxin in the root might be responsible for this distinctive light requirement in root and shoot apexes, because light is required to promote auxin biosynthesis in the shoot. Furthermore, we reveal that the small GTPase Rho-related protein 2 (ROP2) transduces light-auxin signal to activate TOR by direct interaction, which, in turn, promotes transcription factors E2Fa,b for activating cell cycle genes in shoot apexes. Consistently, constitutively activated ROP2 plants stimulate TOR in the shoot apex and cause true leaf development even without light. Together, our findings establish a pivotal hub role of TOR signaling in integrating different environmental signals to regulate distinct developmental transition and growth in the shoot and root.

Immunogenicity of dominant epitopes of complex antigen rhoptry protein 2-sunface protein 1 derived from Toxoplasma gondii / 中华传染病杂志

Objective To analyze the immunogenicity of dominant epitope of complex antigen of rhoptry protein 2 (ROP2 ) and major surface protein 1 (SAG1 ) derived from Toxoplasma gondii (T .gondii) .Methods Dominant epitope of ROP2‐SAG1 containing both dominant T‐and B‐cell epitopes was predicted and selected from T . gondii with bioinformatics methods .The gene fragment cloned into pET32a expression vector was transformed into the competent cell (Escherichia coli strain Rosetta) and expressed under the induction .The protein purified by nitrilotriacetic acid (Ni‐NTA) agarose resin were finally identified by sodium dodecyl sulfate‐polyacrylamide gel electrophoresis . Japanese rabbits were immunized subcutaneously with purified epitope protein in contrast with control group immunized with pET32a protein or phosphate buffevred saline (PBS) .The sera from immunized rabbits were collected at week 0 , week 2 and week 4 for determination of epitope‐specific antibody IgG using enzyme‐linked immunosorbent assay ,and immunodot assay was used to further confirm the specificity of antibody .After BALB/c mice were immunized with purified epitope proteins ,the capacity of production of interferon‐γ(IFN‐γ) in splenocytes was detected by enzyme‐linked immunospot assay .Results Relative molecular weight 30 000 of dominant epitope was derived from prokaryotic system .Then the rabbits immunized with purified dominant epitope could produce corresponding epitope‐specific antibody IgG . And with the increased frequency of immunization ,the level of antibody gradually increased .At week 2 and 4 ,higher antibody response were observed in group of rabbit immunized with dominant epitope than those of control group(1.454±0.098vs0.616±0.084,F=0.000,P<0.05;2.299±0.224vs1.580±0.192,F=0 .112 ,P< 0 .05) .The antibody titer at week 4 was as high as 1∶40 960 .Immunodot assay further confirmed the antibody specificity against the dominant epitope .The level of IFN‐γ in splenocytes from mice immunized with dominant epitope after stimulation with three epitope specific CTL peptides (epitope peptides 1 [19 .333 ± 1 .528]/100 000 cells ,epitope peptides 2 ([40 .333 ± 1 .528]/100 000 cells) ,epitope peptides 3 ([70 .667 ± 1 .890]/100 000 cells) was significantly higher than that of PBS control group (epitope peptides 1 [1 .033 ± 0 .150]/100 000 cells ,epitope peptides 2 [1 .045 ± 0 .110]/100 000 cells , epitope peptides 3 [1 .041 ± 0 .120]/100 000 cells , F=0 .284 ,0 .000 and 0 .284 ,respectively ;all P<0 .05) . The level of IFN‐γ from splenocytes stimulated with combined peptide with cytotoxic T lymphocyte (CTL) epitope peptide and helper T cell epitope peptide (epitope peptides 3) was significantly higher than that with single CTL epitope peptides (epitope peptides 1 and epitope peptides 2 , F=5 .796 and 0 .000 ,respectively ;both P<0 .05) .Conclusion Screened dominant epitopes of ROP2‐SAG1 from T .gondii derived from prokaryotic expression system exhibit remarkable immunogenicity .

Construction and identification of Complex DNA vaccine of hepatitis B and Toxoplasma gondii.

OBJECTIVE: To construct and identify multi-gene recombinant expression vector pcDNA3-HBsAg-p30-ROP2. METHOD: Primers were designed according to the gene sequences of restriction enzyme cutting site of recombinant pcDNA3-p30-ROP2 and hepatitis B surface antigen (HBsAg). The target fragment of HBsAg was amplified and cloned to expression vector pcDNA3-p30-ROP2 by restriction enzyme digestion and ligation. The recombinant expression vector pcDNA3-HBsAg-p30-ROP2 was identified by PCR detection, followed by enzyme restriction and sequencing. RESULTS: The target fragment of HBsAg was successfully amplified, and the multi-gene eukaryotic expression vector pcDNA3-HBsAg-p30-ROP2 was established. PCR detection and restriction enzyme digestion showed that the length of the target fragment was consistent with the theoretical value. The recombinant expression vector contained the complete sequences of p30-ROP2 compound gene and HBsAg. CONCLUSION: Multi-gene recombinant expression vector pcDNA3-HBsAg-p30-ROP2 was successfully established. The constructed expression vector could be used to develop multi-gene nucleic acid vaccines.

High expression of water-soluble recombinant antigenic domains of Toxoplasma gondii secretory organelles.

Recombinant antigenic proteins of Toxoplasma gondii are alternative source of antigens which are easily obtainable for serodiagnosis of toxoplasmosis. In this study, highly antigenic secretory organellar proteins, dense granular GRA2 and GRA3, rhoptrial ROP2, and micronemal MIC2, were analyzed by bioinformatics approach to express as water-soluble forms of antigenic domains. The transmembrane region and disorder tendency of 4 secretory proteins were predicted to clone the genes into pGEX-4T-1 vector. Recombinant plasmids were transformed into BL21 (DE3) pLysS E. coli, and GST fusion proteins were expressed with IPTG. As a result, GST fusion proteins with GRA225-105, GRA339-138, ROP2324-561, and MIC21-284 domains had respectively higher value of IgG avidity. The rGST-GRA225-105 and rGST-GRA339-138 were soluble, while rGST-ROP2324-561 and rGST-MIC21-284 were not. GRA231-71, intrinsically unstructured domain (IUD) of GRA2, was used as a linker to enhance the solubility. The rGST-GRA231-71-ROP2324-561, a chimeric protein, appeared to be soluble. Moreover, rGST-GRA231-71-MIC21-284 was also soluble and had higher IgG avidity comparing to rGST-MIC21-284. These 4 highly expressed and water-soluble recombinant antigenic proteins may be promising candidates to improve the serodiagnosis of toxoplasmosis in addition to the major surface antigen of SAG1.

Construction and identification of pcDNA3-HBsAg-p30-ROP2 expression vec-tor / 中国血吸虫病防治杂志

Objective To construct a multi-gene recombinant pcDNA3-HBsAg-p30-ROP2 expression vector and identify it preliminarily. Methods According to recombinant pcDNA3-p30-ROP2 restriction sites,HBV HBsAg gene sequences of primers were designed and synthesized to amplify target fragment,and then cloned into pcDNA3-HbsAg-p30-ROP2 expression vector. Af-ter sequencing,it was identified finally by restriction enzyme digestion and other molecular biology techniques. Results HBV HBsAg gene segment was amplified by PCR and the multi-gene recombinant pcDNA3-HBsAg-p30-ROP2 expression vector was constructed and identified to be correct as theoretical values. The PCR and restriction enzyme digestion results showed that HBsAg and p30-ROP2 gene in recombinant plasmid were confirmed by DNA sequencing. Conclusion The multi-gene recombinant pcD-NA3-HBsAg-p30-ROP2 expression vector is successfully constructed.

High Expression of Water-Soluble Recombinant Antigenic Domains of Toxoplasma gondii Secretory Organelles

Recombinant antigenic proteins of Toxoplasma gondii are alternative source of antigens which are easily obtainable for serodiagnosis of toxoplasmosis. In this study, highly antigenic secretory organellar proteins, dense granular GRA2 and GRA3, rhoptrial ROP2, and micronemal MIC2, were analyzed by bioinformatics approach to express as water-soluble forms of antigenic domains. The transmembrane region and disorder tendency of 4 secretory proteins were predicted to clone the genes into pGEX-4T-1 vector. Recombinant plasmids were transformed into BL21 (DE3) pLysS E. coli, and GST fusion proteins were expressed with IPTG. As a result, GST fusion proteins with GRA225-105, GRA339-138, ROP2324-561, and MIC21-284 domains had respectively higher value of IgG avidity. The rGST-GRA225-105 and rGST-GRA339-138 were soluble, while rGST-ROP2324-561 and rGST-MIC21-284 were not. GRA231-71, intrinsically unstructured domain (IUD) of GRA2, was used as a linker to enhance the solubility. The rGST-GRA231-71-ROP2324-561, a chimeric protein, appeared to be soluble. Moreover, rGST-GRA231-71-MIC21-284 was also soluble and had higher IgG avidity comparing to rGST-MIC21-284. These 4 highly expressed and water-soluble recombinant antigenic proteins may be promising candidates to improve the serodiagnosis of toxoplasmosis in addition to the major surface antigen of SAG1.

Identification of differentially expressed proteins in sulfadiazine resistant and sensitive strains of Toxoplasma gondii using difference-gel electrophoresis (DIGE).

Treatment options for toxoplasmosis in humans are generally limited to the use of sulfonamide and/or pyrimethamine-based compounds. However, there is increasing evidence for clinical therapy failures in patients suggesting the existence of drug resistance in these classes of drug. In vitro resistance to sulfadiazine has been detected in three strains of Toxoplasma gondii isolated from clinical cases. In order to begin to understand the mechanisms of resistance, we undertook a difference-gel electrophoresis (DIGE) approach combined with mass spectrometry to identify proteins that are differentially expressed in sulfadiazine-resistance strains of the parasite. Naturally resistant strains TgA 103001 (Type I), TgH 32006 (Type II) and TgH 32045 (Type II variant) were compared to sensitive strains RH (Type I) and ME-49 (Type II) using DIGE and the modulated proteins analyzed using LC-MS/MS. In total, 68 differentially expressed protein spots were analyzed by mass spectrometer and 31 unique proteins, including four hypothetical proteins, were identified. Among the differentially expressed proteins, 44% were over-expressed in resistant strains and 56% were over-expressed in sensitive strains. The virulence-associated rhoptry protein, ROP2A, was found in greater abundance in both naturally resistant Type II strains TgH 32006 and TgH 32045 compared to the sensitive strain ME-49. Enolase 2 and IMC1 were found to be in greater abundance in sensitive strains RH and ME-49, and MIC2 was found to be more abundant in the sensitive strain ME-49. Proteins regulation of ROP2, MIC2, ENO2, IMC1 and GRA7 were confirmed by Western blot analysis. In addition, gene expression patterns of ROP2, MIC2, ENO2 and IMC1 were analyzed with qRT-PCR. This study provides the first proteomics insights into sulfadiazine resistance in T. gondii resistant strains isolated from clinical cases.

Toxoplasma gondii: cloning, sequencing, expression, and antigenic characterization of ROP2, GRA5 and GRA7

Toxoplasma gondii is an intracellular obligate protozoan, which infects humans and warm-blooded animals. The aim of the present study was to clone the rop2, gra5 and gra7 genes from T. gondii RH strain and to produce recombinant proteins. The rop2, gra5 and gra7 gene fragments produced by polymerase chain reaction were cloned into the pET102/D-TOPO® vector which contains thioredoxin and polyhistidine tags at the C- and N-ends, respectively, and is expressed in Escherichia coli BL21(DE-3). The expression fusion proteins were found almost entirely in the insoluble form in the cell lysate. These recombinant proteins were purified with an Ni-NTA column. Concentrations of the recombinant antigens produced in the E. coli BL21-star ranged from 300 to 500 μg/ml growth media, which was used to immunize rabbits. We observed an identity ranging from 96 to 97% when nucleotide sequences were compared to GenBank database sequences. Immunocharacterization of proteins was made by indirect immunofluorescence assay. These proteins will be used for serodiagnosis and vaccination.

Expression and identification of the multiple gene ROP2-P30 of Toxoplasma gondii in E.coli BL21 / 中国人兽共患病学报

To obtain the functional fusion protein of rhoptry protein 2, compound rhoptry protein2 and surface antigen 1 of Toxoplasma gondii. the ROP2 and P30 genes from genomic DNA of T.gondii RH strain were amplified by PCR, and were inserted into pMD18-T cloning vector. Then the ROP2 fragment was subcloned to pET-30a(+) plasmid digested by EcoRⅠand Hind Ⅲ to construct plasmid pET-ROP2. Furthermore,the P30 fragment was subcloned into pET-ROP2 digested by BglⅡand EcoRⅠto create plasmid pET-ROP2-P30, the resulting recombinant plasmids , transformed into E.coli BL21 (DE3), were induced with IPTG. and the proteins identified by SDS-PAGE were further purified and refolded. The biological activity was analyzed by Western blot with specific antibody. It was found that the sizes of ROP2 and ROP2-P30 were 1212 and 1896bp with corresponding molecular weight 50- kDa and 75-kDa, respectively. The recombinant protein ROP2 (50-kDa) could specifically react with rabbit-polyclonal antiserum, and complex fusion protein ROP2-P30 (75- kDa) could react with P30 monoclonal antibody.