Partial characterization of Agrobacterium vitis strains

Seventeen strains of Agrobacterium vitis (formerly classified A. tumefaciens biovar 3) were characterized using part of the T-DNA and virA regions of the Ti plasmid as probes. All strains except one were of the wide host range (WHR) strains and were classified into two groups depending on their ability to utilize octopine or nopaline. These WHR type oncogenic strains had homology with the limited host range type (LHR) virA gen of A. vitis but not with the WHR virA gene of A. tumefaciens. The frequency of T-DNA excision in some Agrobacterium strains was estimated with the plasmid pTMA which mimics T-DNA excision from Ti plasmid DNA. In an A. vitis strain isolated from grapevine, T-DNA excision occurred after co-cultivation with grapevine tissues, but not with acetosyringone. In contrast, in A. tumefaciens, T-DNA excision occurred after co-cultivation with acetosyringone, but not with grapevine tissue

Engineering pan–HIV-1 neutralization potency through multispecific antibody avidity

Deep mining of B cell repertoires of HIV-1-infected individuals has resulted in the isolation of dozens of HIV-1 broadly neutralizing antibodies (bNAbs). Yet, it remains uncertain whether any such bNAbs alone are sufficiently broad and potent to deploy therapeutically. Here, we engineered HIV-1 bNAbs for their combination on a single multispecific and avid molecule via direct genetic fusion of their Fab fragments to the human apoferritin light chain. The resulting molecule demonstrated a remarkable median IC50 value of 0.0009 g/mL and 100% neutralization coverage of a broad HIV-1 pseudovirus panel (118 isolates) at a 4 g/mL cutoff-a 32-fold enhancement in viral neutralization potency compared to a mixture of the corresponding HIV-1 bNAbs. Importantly, Fc incorporation on the molecule and engineering to modulate Fc receptor binding resulted in IgG-like bioavailability invivo. This robust plug-and-play antibody design is relevant against indications where multispecificity and avidity are leveraged simultaneously to mediate optimal biological activity.The following reagents were obtained through the NIH AIDS Reagent Program, Division of AIDS, National Institute of Allergy and Infectious Diseases: TZM-bl cells (ARP-8129; contributed by Dr. John C. Kappes and Dr. Xiaoyun Wu); anti–HIV-1 gp160 monoclonal antibody (N6/ PGDM1400x10E8v4) (ARP-13390; contributed by Drs. Ling Xu and Gary Nabel); HIV-1 NL4-3 ΔEnv Vpr luciferase reporter vector (pNL4-3.Luc.R-E-) (ARP-3418; contributed by Dr. Nathaniel Landau and Aaron Diamond); plasmids pcDNA3.1 D/V5-His TOPO-expressing HIV-1 Env/Rev (ARP-11017, ARP-11018, ARP-11024, and ARP-11022; contributed by Drs. David Montefiori, Feng Gao, and Ming Li); plasmid pcDNA3.1(+)-expressing HIV-1 Env/Rev (ARP-11037; contributed by Drs. B. H. Hahn and D. L. Kothe); plasmid pcDNA3.1 D/V5-His TOPO-expressing HIV-1 Env/Rev (ARP-11308; contributed by Drs. D. Montefiori, F. Gao, C. Wil- liamson, and S. Abdool Karim); plasmid pcDNA3.1 V5-His TOPO-expressing HIV-1 Env/Rev (ARP-11309; contributed by Drs. B. H. Hahn, Y. Li, and J. F. Sala- zar-Gonzalez); HIV-1 BG505 Env expression vector (BG505.W6M.ENV.C2) (ARP- 11518; contributed by Dr. Julie Overbaugh); HIV-1 Env expression vector (CRF02_AG clone 257) (ARP-11599; contributed by Drs. D. Ellenberger, B. Li, M. Callahan, and S. Butera); plasmid pcDNA3.1 V5-His TOPO-expressing HIV-1 CNE8 Env (ARP-12653; contributed by Drs. Linqi Zhang, Hong Shang, David Montefiori, Tsinghua University (Beijing, China), China Medical University (Bei- jing, China), and Duke University (Durham, NC); HIV-1 SF162 gp160 expression vector (ARP-10463; contributed by Drs. Leonidas Stamatatos and Cecilia Cheng- Mayer); plasmid pcDNA3.1 V5-His TOPO-expressing HIV-1 Env/Rev (ARP-11034; contributed by Drs. B. H. Hahn, X. Wei, and G. M. Shaw); plasmid pcDNA3.1/V5- His TOPO-expressing HIV Env/Rev (ARP-11038; contributed by Drs. B. H. Hahn and D. L. Kothe); plasmid pcDNA3.1 V5-His TOPO-expressing HIV-1 Env/Rev (ARP-11310; contributed by Drs. B. H. Hahn, Y. Li, and J. F. Salazar-Gonzalez); HIV-1 Env expression vector (p16845 env) (ARP-11503; contributed by Drs. R. Paranjape, S. Kulkarni, and D. Montefiori); HIV-1 1054 Env expression vector (p1054.TC4.1499) (ARP-11561) and 6244 Env expression vector (p6244_13.B5.4576) (ARP-11566; contributed by Drs. Beatrice H. Hahn, Brandon F. Keele, and George M. Shaw); HIV-1 ZM246F Env expression vector (pZM246F_C1G) (ARP-11830; contributed by Dr. Beatrice Hahn); HIV-1 Env expression vector (CRF02_AG clone 278) (ARP-11605; contributed by Drs. Michael Thomson, Ana Revilla, Elena Delgado, David Montefiori, Sonia P erez Castro, Centro Nacional de Microbiologia, Instituto de Salud Carlos III (Majada- honda, Madrid, Spain), Complejo Hospitalario Santa Mar ıa Madre (Orense, Spain), Duke University (Durham, NC), and the CAVD; and NL4-3 Env expression vector (pDOLHIVenv) (from Dr. Eric Freed and Dr. Rex Risser). The following reagents were kindly provided by CAVD: X2988, ZM106.9, and 3817. We thank S. Tabruyn and F. Arbogast for their assistance with in vivo studies. We thank the SickKids-University Health Network Flow Cytometry Facility. This work wassupported by Natural Sciences and Engineering Research Council of Canada (NSERC) Discovery Grant 6280100058 (J.-P.J.) and by Operating Grant PJ4- 169662 from the Canadian Institutes of Health Research (CIHR; B.T. and J.-P.J.). This research was also supported by the European Union’s Horizon 2020 research and innovation program under Marie Sklodowska-Curie Grant 790012 (E.R.), a Hospital for Sick Children Restracomp Postdoctoral Fellowship (C.B.A.), an NSERC postgraduate doctoral scholarship (T.Z.), a predoctoral fel- lowship from the Basque Government (PRE_2019_2_0046) (S.I.), the Canadian Institute for Advanced Research (CIFAR) Azrieli Global Scholar program (J.-P.J.), the Ontario Early Researcher Awards program (J.-P.J.), and the CanadaResearch Chairs program (B.T. and J.-P.J.). This work was supported, in part, by NSERC Discovery Grant RGPIN-2019-06442 and CIHR Project Grant–Priority Announcement PJH-175379 to C.G., and a CIHR Canada Graduate Scholarship (CGS-M) to J.B. Further support was obtained from the Spanish Ministry of Sci- ence, Innovation and Universities (MCIU) with the support of the Spanish Research Agency/The European Regional Development Fund (AEI/FEDER) (RTI2018-095624-B-C21) (J.L.N.) and the Basque Government (IT1196-19) (J.L.N.). Biophysical data were collected at the Structural & Biophysical Core facility supported by the Canada Foundation for Innovation and Ontario Research Fun

Engineering pan-HIV-1 neutralization potency through multispecific antibody avidity

Deep mining of B cell repertoires of HIV-1–infected individuals has resulted in the isolation of dozens of HIV-1 broadly neutralizing antibodies (bNAbs). Yet, it remains uncertain whether any such bNAbs alone are sufficiently broad and potent to deploy therapeutically. Here, we engineered HIV-1 bNAbs for their combination on a single multispecific and avid molecule via direct genetic fusion of their Fab fragments to the human apoferritin light chain. The resulting molecule demonstrated a remarkable median IC50 value of 0.0009 µg/mL and 100% neutralization coverage of a broad HIV-1 pseudovirus panel (118 isolates) at a 4 µg/mL cutoff—a 32-fold enhancement in viral neutralization potency compared to a mixture of the corresponding HIV-1 bNAbs. Importantly, Fc incorporation on the molecule and engineering to modulate Fc receptor binding resulted in IgG-like bioavailability in vivo. This robust plug-and-play antibody design is relevant against indications where multispecificity and avidity are leveraged simultaneously to mediate optimal biological activity.This work was supported by Natural Sciences and Engineering Research Council of Canada (NSERC) Discovery Grant 6280100058 (J.-P.J.) and by Operating Grant PJ4-169662 from the Canadian Institutes of Health Research (CIHR; B.T. and J.-P.J.). This research was also supported by the European Union’s Horizon 2020 research and innovation program under Marie Sklodowska-Curie Grant 790012 (E.R.), a Hospital for Sick Children Restracomp Postdoctoral Fellowship (C.B.A.), an NSERC postgraduate doctoral scholarship (T.Z.), a predoctoral fellowship from the Basque Government (PRE_2019_2_0046) (S.I.), the Canadian Institute for Advanced Research (CIFAR) Azrieli Global Scholar program (J.-P.J.), the Ontario Early Researcher Awards program (J.-P.J.), and the Canada Research Chairs program (B.T. and J.-P.J.). This work was supported, in part, by NSERC Discovery Grant RGPIN-2019-06442 and CIHR Project Grant–Priority Announcement PJH-175379 to C.G., and a CIHR Canada Graduate Scholarship (CGS-M) to J.B. Further support was obtained from the Spanish Ministry of Science, Innovation and Universities (MCIU) with the support of the Spanish Research Agency/The European Regional Development Fund (AEI/FEDER) (RTI2018-095624-B-C21) (J.L.N.) and the Basque Government (IT1196-19) (J.L.N.). Biophysical data were collected at the Structural & Biophysical Core facility supported by the Canada Foundation for Innovation and Ontario Research Fund.Peer reviewe

Molecular techniques for pathogen identification and fungus detection in the environment

Many species of fungi can cause disease in plants, animals and humans. Accurate and robust detection and quantification of fungi is essential for diagnosis, modeling and surveillance. Also direct detection of fungi enables a deeper understanding of natural microbial communities, particularly as a great many fungi are difficult or impossible to cultivate. In the last decade, effective amplification platforms, probe development and various quantitative PCR technologies have revolutionized research on fungal detection and identification. Examples of the latest technology in fungal detection and differentiation are discussed here

A TaqMan real-time PCR assay for Rhizoctonia cerealis and its use in wheat and soil

Rhizoctonia cerealis causes sharp eyespot in cereals and the pathogen survives as mycelia or sclerotia in soil. Real-time Polymerase Chain Reaction (qPCR) assays based on TaqMan chemistry are highly suitable for use on DNA extracted from soil. We report here the first qPCR assay for R. cerealis using TaqMan primers and a probe based on a unique Sequence Characterised Amplified Region (SCAR). The assay is highly specific and did not amplify DNA from a range of other binucleate Rhizoctonia species or isolates of anastomosis groups of Rhizoctonia solani. The high sensitivity of the assay was demonstrated in soils using a bulk DNA extraction method where 200 μg sclerotia in 50 g of soil were detected. DNA of the pathogen could also be amplified from asymptomatic wheat plants. Using the assay on soil samples from fields under different crop rotations, R. cerealis was most frequently detected in soils where wheat was grown or soil under pasture. It was detected least frequently in fields where potatoes were grown. This study demonstrates that assays derived from SCAR sequences can produce specific and sensitive qPCR assays

The cost-effectiveness of providing antenatal lifestyle advice for women who are overweight or obese: the LIMIT randomised trial

Background: Overweight and obesity during pregnancy is common, although robust evidence about the economic implications of providing an antenatal dietary and lifestyle intervention for women who are overweight or obese is lacking. We conducted a health economic evaluation in parallel with the LIMIT randomised trial. Women with a singleton pregnancy, between 10+0-20+0weeks, and BMI ≥ 25 kg/m2were randomised to Lifestyle Advice (a comprehensive antenatal dietary and lifestyle intervention) or Standard Care. The economic evaluation took the perspective of the health care system and its patients, and compared costs encountered from the additional use of resources from time of randomisation until six weeks postpartum. Increments in health outcomes for both the woman and infant were considered in the cost-effectiveness analysis. Mean costs and effects in the treatment groups allocated at randomisation were compared, and incremental cost effectiveness ratios (ICERs) and confidence intervals (95%) calculated. Bootstrapping was used to confirm the estimated confidence intervals, and to generate acceptability curves representing the probability of the intervention being cost-effective at alternative monetary equivalent values for the outcomes avoiding high infant birth weight, and respiratory distress syndrome. Analyses utilised intention to treat principles. Results: Overall, the increase in mean costs associated with providing the intervention was offset by savings associated with improved immediate neonatal outcomes, rendering the intervention cost neutral (Lifestyle Advice Group 11261.19±14573.97 versus Standard Care Group 11306.70±14562.02; p=0.094). Using a monetary value of $20,000 as a threshold value for avoiding an additional infant with birth weight above 4 kg, the probability that the antenatal intervention is cost-effective is 0.85, which increases to 0.95 when the threshold monetary value increases to$45,000. Conclusions: Providing an antenatal dietary and lifestyle intervention for pregnant women who are overweight or obese is not associated with increased costs or cost savings, but is associated with a high probability of cost effectiveness. Ongoing participant follow-up into childhood is required to determine the medium to long-term impact of the observed, short-term endpoints, to more accurately estimate the value of the intervention on risk of obesity, and associated costs and health outcomes

Suppression of Rhizoctonia solani anastomosis group 8 in Australia and its biological nature

The nature of suppression in a field soil showing a decline in the Rhizoctonia barepatch disease of wheat (causal agent Rhizoctonia solani AG-8), in a minimum tillage system in southern Australia was investigated. The suppressive characteristics of the soil could be transferred to an autoclaved or pasteurized soil by adding 10% (w/w) of the unsterilised soil. This resulted in less disease following inoculation with R. solani AG-8. No transfer of suppression was observed when non-suppressive soil from an adjacent trial was added to the autoclaved or pasteurised soil. Gamma irradiation or pasteurisation at 60, 70 or 80 degrees C for 30 min eliminated both the ability of the soil to suppress disease and also differences in the soil microflora of suppressive soil and non-suppressive soil observed in untreated or 50 degrees C steam pasteurised soils. This is the first report of biologically-based suppression of this root rotting disease of wheat caused by R. solani AG-8