Reassessing the Cost-Effectiveness of High-Provitamin A Bananas to Reduce Vitamin A Deficiency in Uganda

Kozicka, Marta; Elsey, Julia; Ekesa, Béatrice; Ajambo, Susan; Kikulwe, Enoch; Gotor, Elisabetta

doi:10.3389/fsufs.2021.649424

Cited by 4 publications

(5 citation statements)

References 36 publications

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“…Taking the full cost of research and development into account, the GM M9 could save 19% DALY under the pessimistic scenario in comparison to the baseline DALY, and 40% under the optimistic scenario. These findings suggest that GM PVA matooke is cost-effective based on the criteria by the World Bank and World Health Organization [41].…”

Section: Genetically Modified Matooke For Enhanced Pro-vitamin Amentioning

confidence: 78%

“…Matooke is deficient in VA or plant-derived provitamin A carotenoids (PVA), mainly α-and β-carotenes. The overreliance on matooke arguably contributes to exacerbating VAD in the country, but simultaneously makes matooke a valuable food vehicle to deliver PVA through biofortification [40,41]. Conventional breeding methods to develop PVAbiofortified matooke are constrained by its low genetic variability, polyploidy nature, female sterility, limited seed production, and high costs for space and time requirements [23,34].…”

Section: Genetically Modified Matooke For Enhanced Pro-vitamin Amentioning

confidence: 99%

“…A study concerning GM bananas in Uganda concludes the better-off and bettereducated demographic segments appeared more against GM bananas both in urban and rural regions [42]. In western and central Uganda, the maximum adoption rates of GM bananas were estimated at 56% and 35%, with an average of 43% across the two regions [41]. One study further explores what variables would influence Ugandan farmers' attitudes toward GM bananas [4].…”

Section: Genetically Modified Matooke For Enhanced Pro-vitamin Amentioning

confidence: 99%

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Overview of the Current Status of Uganda’s Banana Sector: Formalizing the Matooke Sector may not be the Best Policy Option

Lee

2023

TOASJ

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Banana or matooke holds a matchless place in the Ugandan livelihoods. It serves as a food security crop, income source, main dish, cultural artifact, and other daily purposes. The crop is grown mainly for subsistence with little input investment, resulting in overall low productivity. Currently, the southwestern region of the country is the largest banana-producing area overtaking the central, and the geographical shifts are aligned with the gradual changes in the Ugandan society as well as the agro environments. Different from conventional thoughts, the matooke value chain does not appear to marginalize a particular group, farmers. Matooke producers maintain wide varietal diversity based on specific production goals, and improved hybrid adoption is low due to unique banana-plot replacement, cultivar diversity, and plantlet delivery systems. High adoption of biofortified matooke appears questionable because of genetic modification and other relevant issues. Overall, the matooke value chain seems to operate rather flexibly, being built on organized informality and social networks. This implies that pushing for a formalized system may not be the best policy decision for the matooke sector. Nonetheless, public interventions could be prioritized for improved matooke production and distribution by investing in extension services, grading criteria, and road/infrastructure.

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Section: Genetically Modified Matooke For Enhanced Pro-vitamin Amentioning

confidence: 78%

Section: Genetically Modified Matooke For Enhanced Pro-vitamin Amentioning

confidence: 99%

Section: Genetically Modified Matooke For Enhanced Pro-vitamin Amentioning

confidence: 99%

See 1 more Smart Citation

Overview of the Current Status of Uganda’s Banana Sector: Formalizing the Matooke Sector may not be the Best Policy Option

Lee

2023

TOASJ

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“…For genetically biofortified crops to have a significant impact, it is imperative that there is acceptance by farmers and consumers in target populations. For example, Biodiversity International identified banana varieties naturally rich in provitamin A, and has proposed them as an option to tackle vitamin A deficiency in Uganda (Tutwiler, 2016;Paul et al, 2017Paul et al, , 2018Kozicka et al, 2021). While these varieties have been successful in Burundi and the Democratic Republic of Congo, they may struggle with Ugandan consumers as these varieties are not the preferred cultivar of cooking banana in Uganda (Ekesa et al, 2015(Ekesa et al, , 2017Paul et al, 2017Paul et al, , 2018.…”

Section: Opportunities and Prospects For Zn Biofortificationmentioning

confidence: 99%

Zinc in plants: Integrating homeostasis and biofortification

et al. 2022

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Zinc plays many essential roles in life. As a strong Lewis acid that lacks redox activity under environmental and cellular conditions, the Zn 2+ cation is central in determining protein structure and catalytic function of nearly 10% of most eukaryotic proteomes. While specific functions of zinc have been elucidated at a molecular level in a number of plant proteins, wider issues abound with respect to the acquisition and distribution of zinc by plants. An important challenge is to understand how plants balance between Zn supply in soil and their own nutritional requirement for zinc, particularly where edaphic factors lead to a lack of bioavailable zinc or, conversely, an excess of zinc that bears a major risk of phytotoxicity. Plants are the ultimate source of zinc in the human diet, and human Zn deficiency accounts for over 400 000 deaths annually. Here, we review the current understanding of zinc homeostasis in plants from the molecular and physiological perspectives. We provide an overview of approaches pursued so far in Zn biofortification of crops. Finally, we outline a ''push-pull'' model of zinc nutrition in plants as a simplifying concept. In summary, this review discusses avenues that can potentially deliver wider benefits for both plant and human Zn nutrition.

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“…To complement these resources and enable various options like experimental data overlay on metabolic pathways, we set up the latest version of PathwayTools v25 [ 51 ], named MusaCyc, that comprises a comprehensive set of interfaces to cover user needs. For instance, the carotenoid pathway has been actively studied in banana [ 52 – 54 ] and the Phytoene desaturase (PDS) enzyme, that can cause albinism when disrupted, was used as a proof of concept for gene editing. Using MusaCyc, the PDS gene can be easily found ( Figure 3C ).…”

Section: Tools and Interfacesmentioning

confidence: 99%

The banana genome hub: a community database for genomics in the Musaceae

Droc

Guillaume

Guignon

et al. 2022

Horticulture Research

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The Banana Genome Hub provides centralized access for genome assemblies, annotations, and the extensive related omics resources available for bananas and banana relatives. A series of tools and unique interfaces are implemented to harness the potential of genomics in bananas, leveraging the power of comparative analysis, while recognizing the differences between datasets. Besides effective genomic tools like BLAST and the JBrowse genome browser, additional interfaces enable advanced gene search and gene family analyses including multiple alignments and phylogenies. A synteny viewer enables the comparison of genome structures between chromosome-scale assemblies. Interfaces for differential expression analyses, metabolic pathways and GO enrichment were also added. A catalogue of variants spanning the banana diversity is made available for exploration, filtering, and export to a wide variety of software. Furthermore, we implemented new ways to graphically explore gene presence-absence in pangenomes as well as genome ancestry mosaics for cultivated bananas. Besides, to guide the community in future sequencing efforts, we provide recommendations for nomenclature of locus tags and a curated list of public genomic resources (assemblies, resequencing, high density genotyping) and upcoming resources—planned, ongoing or not yet public. The Banana Genome Hub aims at supporting the banana scientific community for basic, translational, and applied research and can be accessed at https://banana-genome-hub.southgreen.fr

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Reassessing the Cost-Effectiveness of High-Provitamin A Bananas to Reduce Vitamin A Deficiency in Uganda

Cited by 4 publications

References 36 publications

Overview of the Current Status of Uganda’s Banana Sector: Formalizing the Matooke Sector may not be the Best Policy Option

Overview of the Current Status of Uganda’s Banana Sector: Formalizing the Matooke Sector may not be the Best Policy Option

Zinc in plants: Integrating homeostasis and biofortification

The banana genome hub: a community database for genomics in the Musaceae

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