How effective and safe is Bt-maize in South Africa?

The South African National Biodiversity Institute (SANBI) recently released the outcome of the South Africa-Norway bio-safety cooperation project 'Monitoring the environmental impacts of GM maize in South Africa'. This project studied possible impacts of commercial genetically modified (GM) maize (MON810 maize), containing the Cry1Ab protein (Bt-protein), on the South African environment. The report addresses concerns about Bt-technology in GM maize in South Africa, in particular the development of possible resistance of target insects to the Bt-toxin and of unintended effects of GM maize on non-target organisms.http://www.sajs.co.z

In-vitro proliferation of Musa balbisiana improves with increased vitamin concentration and dark culturing

Musa balbisiana is a wild banana genotype with important traits such as drought tolerance and disease resistance. Uniform and clean plants are often required to study these traits in different laboratories but plants can only be generated through a tissue culture process yet for a long time a protocol for regeneration of the same has not been available. Here, we demonstrate that modification of the anti-oxidant content of the in- vitro plant proliferation medium through adjusting the concentration of ascorbic acid and thiamine HCl in the basal MS medium together with subjecting the explants to dark culturing conditions improved proliferation of M. balbsiana by over 10 fold. These treatments resulted in 40 shoots per initial explant material at the best performance

Loop replacement design : a new way to improve potency of plant cystatins

Comment on https://doi.org/10.1111/febs.16288Plant cystatins function as competitive inhibitors of cysteine proteases. Similar to other defence proteins, cystatins include hypervariable, positively selected amino acid sites presumably impacting their biological activity. Protein engineering approaches, such as point mutations, at these functionally relevant amino acid sites have already been found to be a powerful tool in improving the inhibitory properties of cystatins. Such engineered cystatins not only better protect against digestive proteases of herbivorous arthropods but also against cysteine proteases of several other plant pests as well as against cysteine proteases produced in plant during stress-induced senescence. Despite previous engineering successes, an urgent need still exists to further improve both plant cystatin potency and specificity. Tremblay and colleagues propose in this issue a new cystatin engineering strategy to substitute the function-related structural elements (SEs) of a cystatin by the corresponding elements of an alternative cystatin. This strategy, possibly combined with direct cystatin gene editing in a target plant, might provide an innovative way to control cysteine protease activity.NRF incentive funding.https://febs.onlinelibrary.wiley.com/journal/17424658hj2023Forestry and Agricultural Biotechnology Institute (FABI)Plant Production and Soil Scienc

Unlocking the potential of orphan legumes

Orphan, or underutilized, legumes are domesticated legumes with useful properties, but with less importance than major world crops due to use and supply constraints. However, they play a significant role in many developing countries, providing food security and nutrition to consumers, as well as income to resource-poor farmers. They have been largely neglected by both researchers and industry due to their limited economic importance in the global market. Orphan legumes are better adapted than the major legume crops to extreme soil and climatic conditions, with high tolerance to abiotic environmental stresses such as drought. As a stress response they can also produce compounds with pharmaceutical value. Orphan legumes are therefore a likely source of important traits for introduction into major crops to aid in combating the stresses associated with global climate change. Modern large-scale genomics techniques are now being applied to many of these previously understudied crops, with the first successes reported in the genomics area. However, greater investment of resources and manpower are necessary if the potential of orphan legumes is to be unlocked and applied in the future.http://jxb.oxfordjournals.org2018-12-21Forestry and Agricultural Biotechnology Institute (FABI)Plant Production and Soil Scienc

Plant Vacuolar Processing Enzymes

Plant proteomes contain hundreds of proteases divided into different families based on evolutionary and functional relationship. In particular, plant cysteine proteases of the C1 (papain-like) and C13 (legumain-like) families play key roles in many physiological processes. The legumain-like proteases, also called vacuolar processing enzymes (VPEs), perform a multifunctional role in different plant organs and during different stages of plant development and death. VPEs are similar to animal caspases, and although caspase activity was identified in plants almost 40 years ago, there still remains much research to be done to gain a complete understanding of their various roles and functions in plants. Here we not only summarize the current existing knowledge of plant VPEs, including recent developments in the field, but also highlight the future prospective areas to be investigated to obtain a more detailed understanding of the role of VPEs in plants

Transformation of tef (Eragrostis tef) by Agrobacterium through immature embryo regeneration system for inducing semi-dwarfism

Successful application of genetic transformation for integration of a transgene is much dependent upon availability of an efficient in vitro plant regeneration procedure and detection of transgene insertion and expression. Isolated immature embryos (IEs) of E. tef cultivar DZ-01-196 were used for embryogenic callus formation and the callus was transformed with GA inactivating gene PcGA2ox under the control of a triple CaMV 35S promoter using Agrobacterium transformation procedure. Embryogenic callus was induced from immature embryos in a medium containing KBP minerals in the presence of 2,4- dichlorophenoxiyacetic acid. The embryogenic calli were further inoculated with Agrobacterium and the calli were grown in co-cultivation medium (CCM) followed by selection in KBP and regeneration (K4NB) media. Putatively transformed E. tef embryogenic calli were tolerant to treatment with the selectable marker kanamycin, while 75mg l-1 geneticin inhibited growth of non-transformed shoots derived from matured embryos completely after 12 days. A total of 55 plants were regenerated from all the embryogenic calli to fully viable plants setting seeds at maturity. Eight putatively transformed T0 plants were produced carrying the transgene in their genome which was detected by PCR. Sequence analysis confirmed amplified PCR products to have 97.2 and 99.8% sequence identity to PcGA2ox and nptII, respectively. However, detection of the transgene, PcGA2ox or nptII, in T1 plants was inconsistent although phenotypic analysis of T1 plants showed changes in pheno-morphic and agronomic characters such as plant height, number of internodes, tillering, panicle length, biomass, yield as well as GA content. Culm reduction was due to absence of elongation of the upper-most internodes. Panicle length in semi-dwarfed plants showed no relation with culm length. GA analysis showed plants with semi-dwarf phenotype to be associated with a low level of bioactive GA1 and its immediate precursors. Up to 3.7 fold increase in grain yield per plant was found in some semi-dwarfed plants.Ethiopian Institute of Agricultural Research, the University of Pretoria (FABI in Faculty of Plant Science) and the Rothamsted International.http://www.elsevier.com/locate/sajbhb201

Identification and Application of Phenotypic and Molecular Markers for Abiotic Stress Tolerance in Soybean

Neurology & clinical neurophysiolog

Factors facilitating sustainable scientific partnerships between developed and developing countries

International scientific partnerships are key to the success of strategic investments in plant science research and the farm-level adoption of new varieties and technologies, as well as the coherence of agricultural policies across borders to address global challenges. Such partnerships result not only in a greater impact of published research enhancing the career development of early and later stage researchers, but they also ensure that advances in plant science and crop breeding technologies make a meaningful contribution to society by brokering acceptance of emerging solutions to the world problems. We discuss the evidence showing that despite a lack of funding, scientists in some African countries make a significant contribution to global science output. We consider the criteria for success in establishing long-term scientific partnerships between scientists in developing countries in Southern Africa (“the South”) and developed countries such as the UK (“the North”). We provide our own personal perspectives on the key attributes that lead to successful institutional collaborations and the establishment of sustainable networks of successful “North-South” scientific partnerships. In addition, we highlight some of the stumbling blocks which tend to hinder the sustainability of long-term “North-South” scientific networks. We use this personal knowledge and experiences to provide guidelines on how to establish and maintain successful long-term “North-South” scientific partnerships.National Research Foundation of South Africa, Winter Cereal Trust and African Union Research Grant Programme funded by the European Union.http://journals.sagepub.com/home/oaghj2021Forestry and Agricultural Biotechnology Institute (FABI)Plant Production and Soil Scienc

Characterization of drought-tolerance traits in nodulated soya beans : the importance of maintaining photosynthesis and shoot biomass under drought-induced limitations on nitrogen metabolism

Drought is the single most important factor limiting soya bean (Glycine max L. Merr.) yields in the field. The following study was therefore undertaken to identify phenotypic markers for enhanced drought tolerance in nodulated soya beans. Leaf and nodule parameters were compared in three genotypes: Prima 2000, glyphosate-resistant A5409RG and Jackson, which had similar shoot biomass and photosynthesis rates at the third trifoliate leaf stage under waterreplete conditions. When water was withheld at the third trifoliate leaf stage, photosynthesis, nodule numbers, nodule biomass and symbiotic nitrogen fixation (SNF) were greatly decreased. Significant cultivar–drought interactions were observed with respect to photosynthesis, which also showed a strong positive correlation with nodule SNF, particularly under drought conditions. Prima leaves had high water-use efficiencies, and they also maintained high photosynthetic electron transport efficiencies under long-term drought. Moreover, Prima had the highest shoot biomass under both water-replete and drought conditions. A-5409RG was the most drought-sensitive genotype showing early closure of stomata and rapid inhibition of photosynthesis in response to drought. In addition to classifying the genotypes in relation to drought tolerance, the results demonstrate that the ability to sustain shoot biomass under nitrogen limitation is an important parameter, which can be easily applied in germplasm screening for drought tolerance in soya bean.This work was funded under EU-FP7 (PIRSES-GA-2008- 230830 LEGIM). BAF was financially supported by CIAT, Colombia.http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1439-037

Defining biotechnological solutions for insect control in sub-Saharan Africa

CITATION: Botha, A., et al. 2019. Defining biotechnological solutions for insect control in sub-Saharan Africa. Food and Energy Security 9(1), doi:10.1002/fes3.191The original publication is available at https://onlinelibrary.wiley.com/journal/20483694Africa is burdened by food insecurity with nearly a billion people suffering from starvation, undernutrition, and malnutrition. Climate change prediction models forecast changes in rainfall patterns and rising temperature regimes, with impacts particularly on Southern and East Africa. These predictions are especially concerning for the production of major food crops, such as maize, sorghum, millet, and groundnut, because median temperature increases are associated with increased pest pressure and changes in migratory patterns. These factors will result in significantly more pest invasions and an increased need for innovative insect management practices. This review focuses on pest control strategies, highlighting important examples, their economic impact, and new alternative pest control strategies. African policymakers remain hesitant to move forward with establishing biosafety laws and commercializing GM crops, and it is often difficult to implement regulatory measures in smallholder agriculture to increase efficacy.https://onlinelibrary.wiley.com/doi/full/10.1002/fes3.191Publisher's versio