Your search keyword '"Paterne, Agre"' showing total 25 results

1. Variation in protein content, starch components, selected minerals and their bioavailability in bambara groundnut accessions

Author

Siwale, Julius, Labuschagne, Maryke, Gerrano, Abe Shegro, Paterne, Agre, and Mbuma, Ntombokulunga W.

Published

2023

2. Habitat range shift and prediction of the potential future distribution of Ricinodendron heudelotii (Baill.) Heckel in Benin (West Africa)

Author

Guillaume Hounsou-Dindin, Rodrigue Idohou, Paterne Agre, Achille Hounkpèvi, Aristide Cossi Adomou, Achille Ephrem Assogbadjo, and Romain Glèlè Kakaï

Subjects

biomod2, Climate change, Habitat suitability modelling, Spatial distribution, Wild oil species, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Ricinodendron heudelotii (Baill.) Heckel is an important nutraceutical reservoir. Its Sustainable exploitation requires information on its potential distribution in the current context of rapid population growth and climate change threats. This study aimed to map the suitable areas for its domestication and conservation under current and future climate conditions in Benin. Occurrence data were recorded and combined with the environmental layers of two climatic scenarios (optimistic RCP 4.5 and pessimistic RCP 8.5) following the biodiversity modelling approach (biomod2). Currently, about four percent (5082 Km2) of the country's area mainly located in the sub-humid and the humid zones were potentially suitable for R. heudelotii distribution. Under future climatic conditions the potentially suitable areas were mainly in the sub-humid zone, but almost all the highly suitable areas located in the humid zone will become medium suitable areas by the years 2055 and 2085 horizons. This study shows that, whatever the future climatic scenarios, R. heudelotii will substantially maintain the size of its range across the country. These findings allow undertaking anticipated actions to better adapt to the potential effects of climate change and to better guide policies for the conservation and development of forest resources.

Published

2023

3. Genome-wide association studies of Striga resistance in extra-early maturing quality protein maize inbred lines

Author

Gbemisola Okunlola, Baffour Badu-Apraku, Omolayo Ariyo, Paterne Agre, Queen Offernedo, and Moninuola Ayo-Vaughan

Subjects

Genetics, QH426-470

Abstract

AbstractIdentification of genes associated with StrigaStrigaStrigaStrigaStrigaStriga

Published

2022

4. Genetic diversity in Colocasia esculenta and Xanthosoma mafaffa in Togo, West Africa

Author

Damigou Bammite, Peter Joseph Matthews, Yao Dodzi Dagnon, Akouèthê Agbogan, Paterne Agre, Oluyemi Titilola Akintayo, Komi Odah, Alexandre Dansi, Michael Abberton, and Koffi Sodokè Tozo

Subjects

Crop diversity, new cocoyam, SSR, taro, Togo, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Taro and new cocoyam are root and leaf crops commonly grown in tropical to warm temperate regions. In Togo, they are neglected and underutilised. Here we report the genetic diversity of 26 accessions of taro and 101 accessions of new cocoyam. Analysis of simple sequence repeats revealed low polymorphic information content of 0.43 and 0.25 in taro and new cocoyam, respectively. PCA scatterplots and Neighbour Joining dendrograms based on the SSR data clustered accessions into groups that more-or-less correspond to morphological diversity in both species. AMOVA within and between morphological groups revealed greater variances within groups than between. This indicates weak genetic differentiation between morphological groups, particularly for taro. Genetic diversity was greater among taro cultivars. Taro has a longer history of introduction and dispersal in Africa, and has had more opportunity for multiple introduction and local cultivar development. Different strategies are suggested for future development of these crops in Togo and Africa. For taro, further studies of existing diversity and recent experimental introduction, has spread widely in Africa with little genetic diversity. For this crop, international collaboration is needed to clarify taxonomy, and to introduced further cultivars for evaluation under local conditions in Africa.

Published

2021

5. Genome-wide association study of Striga resistance in early maturing white tropical maize inbred lines

Author

Adewale, Samuel Adeyemi, Badu-Apraku, Baffour, Akinwale, Richard Olutayo, Paterne, Agre Angelot, Gedil, Melaku, and Garcia-Oliveira, Ana Luísa

Published

2020

6. Farmers’ perception of termites in agriculture production and their indigenous utilization in Northwest Benin

Author

Laura Estelle Yêyinou Loko, Azize Orobiyi, Paterne Agre, Alexandre Dansi, Manuele Tamò, and Yves Roisin

Subjects

Management, Pest, Taxonomy, Termites, Usages, Vernacular nomenclature, Other systems of medicine, RZ201-999, Botany, QK1-989

Abstract

Abstract Background Although termites are considered as agricultural pests, they play an important role in maintaining the ecosystem. Therefore, it matters to investigate the farmers’ perception of the impacts of the termites on the agriculture and their indigenous utilization. Methods A semi-structured questionnaire was used to interview 94 farmers through 10 villages of Atacora department, in the northwestern region of Benin, to obtain information for the development of successful strategies of termite management and conservation. Their perceptions on the importance and management of termites along with the indigenous nomenclature and utilization of termite mounds were assessed. Termite species identified by farmers were collected and preserved in 80% alcohol for identification. Results Eight crops were identified by farmers as susceptible to termites with maize, sorghum, and yam as being the most susceptible. According to farmers, the susceptibility to termites of these crops is due to their high-water content and sweet taste. A total of 27 vernacular names of termites were recorded corresponding to 10 species, Amitermes evuncifer, Macrotermes subhyalinus, and Trinervitermes oeconomus being the most damaging termite species. All the names given to termite species had a meaning. The drought was identified by farmers as the main factor favouring termite attacks. Demolition of termite mounds in the fields was the most commonly reported control method. Salt and other pesticides were commonly used by farmers to protect stored farm products. The lack of effective control methods is the main constraint for termite management. In northwestern Benin, farmers reported different purpose utilizations of termite mounds and termites. Conclusions The study has shown that farmers perceived termites as pests of several agricultural crops and apply various indigenous control practices whose efficiency need to be verified. Utilization of termites and termite mound soil as food and medicinal resources underlines the need for a more focused approach to termite control for the conservation of non-pest termite species. The sensitization of farmers on the importance of termites as well as the development of an integrated control method to combat termite pests proved necessary.

Published

2017

7. Genotyping-by-Sequencing to Unlock Genetic Diversity and Population Structure in White Yam (Dioscorea rotundata Poir.)

Author

Ranjana Bhattacharjee, Paterne Agre, Guillaume Bauchet, David De Koeyer, Antonio Lopez-Montes, P. Lava Kumar, Michael Abberton, Patrick Adebola, Asrat Asfaw, and Robert Asiedu

Subjects

white yam, West Africa, SNP markers, genetic diversity, population structure, Agriculture

Abstract

White yam (Dioscorearotundata Poir.) is one of the most important tuber crops in West Africa, where it is indigenous and represents the largest repository of biodiversity through several years of domestication, production, consumption, and trade. In this study, the genotyping-by-sequencing (GBS) approach was used to sequence 814 genotypes consisting of genebank landraces, breeding lines, and market varieties to understand the level of genetic diversity and pattern of the population structure among them. The genetic diversity among different genotypes was assessed using three complementary clustering methods, the model-based admixture, discriminant analysis of principal components (DAPC), and phylogenetic tree. ADMIXTURE analysis revealed an optimum number of four groups that matched with the number of clusters obtained through phylogenetic tree. Clustering results obtained from ADMIXTURE analysis were further validated using DAPC-based clustering. Analysis of molecular variance (AMOVA) revealed high genetic diversity (96%) within each genetic group. A network analysis was further carried out to depict the genetic relationships among the three genetic groups (breeding lines, genebank landraces, and market varieties) used in the study. This study showed that the use of advanced sequencing techniques such as GBS coupled with statistical analysis is a robust method for assessing genetic diversity and population structure in a complex crop such as white yam.

Published

2020

8. Genome-Wide Association Analysis for Tuber Dry Matter and Oxidative Browning in Water Yam (Dioscorea alata L.)

Author

Cobes Gatarira, Paterne Agre, Ryo Matsumoto, Alex Edemodu, Victor Adetimirin, Ranjana Bhattacharjee, Robert Asiedu, and Asrat Asfaw

Subjects

DArT sequencing, gene annotation, marker–trait association, yam tuber quality, Botany, QK1-989

Abstract

Yam (Dioscorea spp.) is a nutritional and medicinal staple tuber crop grown in the tropics and sub-tropics. Among the food yam species, water yam (Dioscorea alata L.) is the most widely distributed and cultivated species worldwide. Tuber dry matter content (DMC) and oxidative browning (OxB) are important quality attributes that determine cultivar acceptability in water yam. This study used a single nucleotide polymorphism (SNP) assay from a diversity arrays technology (DArT) platform for a genome-wide association study (GWAS) of the two quality traits in a panel of 100 water yam clones grown in three environments. The marker–trait association analysis identified significant SNPs associated with tuber DMC on chromosomes 6 and 19 and with OxB on chromosome 5. The significant SNPs cumulatively explained 45.87 and 12.74% of the total phenotypic variation for the tuber DMC and OxB, respectively. Gene annotation for the significant SNP loci identified important genes associated in the process of the proteolytic modification of carbohydrates in the dry matter accumulation pathway as well as fatty acid β-oxidation in peroxisome for enzymatic oxidation. Additional putative genes were also identified in the peak SNP sites for both tuber dry matter and enzymatic oxidation with unknown functions. The results of this study provide valuable insight for further dissection of the genetic architecture of tuber dry matter and enzymatic oxidation in water yam. They also highlight SNP variants and genes useful for genomics-informed selection decisions in the breeding process for improving food quality traits in water yam.

Published

2020

9. Resistance of dried chips of yam (Dioscorea cayenensis-D. rotundata complex) landraces to Dinoderus porcellus Lesne (Coleoptera: Bostrichidae)

Author

Laura Estelle Yêyinou Loko, Annick Christelle Gnaho, Azize Orobiyi, Paterne Agre, Alexandre Dansi, and Manuele Tamò

Subjects

antixenosis, antibiosis, dinoderus porcellus, varietal resistance, yam chips, Agriculture, Food processing and manufacture, TP368-456

Abstract

Yams (Dioscorea spp.) are one of the food crops that contribute to food security and poverty alleviation in Benin and, like several other products, the post-harvest phase is threatened by the rotting of fresh tubers. To overcome this constraint, yam tubers are traditionally processed into dried chips which unfortunately are severely attacked by Dinoderus porcellus Lesne (Coleoptera: Bostrichidae). Research studies on relative resistance of dried chips of 24 yam landraces to the attack of D. porcellus during storage were carried out using free-choice tests (antixenosis) and non-choice tests under laboratory conditions. Attractiveness of yam chips, mortality of initial pest populations, weight loss, and also the Dobie’s index of susceptibility were considered as indicators of resistance. The results revealed that the landraces Boniwouré and Wonmangou were significantly less attractive and consumed by D. porcellus. The highest mortality rate of D. porcellus was observed on the landrace Boniwouré followed by Alahina. Based on the Dobie index of susceptibility five yam landraces (Gaboubaba, Boniwouré, Alahina, Yakanougo, and Wonmangou) were scored as resistant to D. porcellus. All the remaining landraces were categorized as moderately resistant. Based on the present study, these five resistant landraces deserve special consideration and may be recommended for relatively longer storage to achieve the goal of sustainable management of D. porcellus.

Published

2017

10. Genome analyses reveal the hybrid origin of the staple crop white Guinea yam (Dioscorea rotundata)

Author

Sugihara, Yu, Kwabena Darkwa, Yaegashi, Hiroki, Natsume, Satoshi, Shimizu, Motoki, Abe, Akira, Hirabuchi, Akiko, Ito, Kazue, Oikawa, Kaori, Muluneh Oli, Ohta, Atsushi, Matsumoto, Ryo, Paterne Agre, Koeyer, David De, Babil Pachakkil, Yamanaka, Shinsuke, Muranaka, Satoru, Takagi, Hiroko, White, Ben, Asiedu, Robert, Innan, Hideki, Asrat Asfaw, Adebola, Patrick, and Terauchi, Ryohei

Subjects

domestication, wild progenitors, hybrid, population genomics, Guinea yam, Uncategorized

Abstract

White Guinea yam (Dioscorea rotundata) is an important staple tuber crop in West Africa. However, its origin remains unclear. In this study, we resequenced 336 accessions of white Guinea yam and compared them with the sequences of wild Dioscorea species using an improved reference genome sequence of D. rotundata. In contrast to a previous study suggesting that D. rotundata originated from a subgroup of Dioscorea praehensilis, our results suggest a hybrid origin of white Guinea yam from crosses between the wild rainforest species D. praehensilis and the savannah-adapted species Dioscorea abyssinica. We identified a greater genomic contribution from D. abyssinica in the sex chromosome of Guinea yam and extensive introgression around the SWEETIE gene. Our findings point to a complex domestication scenario for Guinea yam and highlight the importance of wild species as gene donors for improving this crop through molecular breeding., 西アフリカの主食作物ギニアヤムの起源を解明 --ギニアヤムはサバンナと熱帯雨林に生育する野生種の雑種起源--. 京都大学プレスリリース. 2020-12-11.

Published

2020

11. Comparative assessment of genetic diversity matrices and clustering methods in white Guinea yam (Dioscorea rotundata) based on morphological and molecular markers

Author

Guillaume Bauchet, Ryohei Terauchi, Adrian F. Powell, Paterne Agre, Asrat Asfaw, Kohtaro Iseki, Robert Asiedu, Bunmi Olasanmi, Patrick Adebola, Kwabena Darkwa, Ryo Matsumoto, David De Koeyer, and Satoru Muranaka

Subjects

0301 basic medicine, Germplasm, Genetic Markers, lcsh:Medicine, Article, 03 medical and health sciences, 0302 clinical medicine, Genetic variation, Genetics, Genetic variability, Cluster analysis, lcsh:Science, Genetic diversity, Multidisciplinary, biology, Dioscorea, lcsh:R, UPGMA, Genetic Variation, biology.organism_classification, 030104 developmental biology, Phenotype, Dioscorea rotundata, Evolutionary biology, lcsh:Q, Plant sciences, human activities, 030217 neurology & neurosurgery, Distance matrices in phylogeny

Abstract

Understanding the diversity and genetic relationships among and within crop germplasm is invaluable for genetic improvement. This study assessed genetic diversity in a panel of 173 D. rotundata accessions using joint analysis for 23 morphological traits and 136,429 SNP markers from the whole-genome resequencing platform. Various diversity matrices and clustering methods were evaluated for a comprehensive characterization of genetic diversity in white Guinea yam from West Africa at phenotypic and molecular levels. The translation of the different diversity matrices from the phenotypic and genomic information into distinct groups varied with the hierarchal clustering methods used. Gower distance matrix based on phenotypic data and identity by state (IBS) distance matrix based on SNP data with the UPGMA clustering method found the best fit to dissect the genetic relationship in current set materials. However, the grouping pattern was inconsistent (r = − 0.05) between the morphological and molecular distance matrices due to the non-overlapping information between the two data types. Joint analysis for the phenotypic and molecular information maximized a comprehensive estimate of the actual diversity in the evaluated materials. The results from our study provide valuable insights for measuring quantitative genetic variability for breeding and genetic studies in yam and other root and tuber crops.

Published

2020

12. Phenotypic and molecular assessment of genetic structure and diversity in a panel of winged yam (Dioscorea alata) clones and cultivars

Author

Robert Asiedu, Guillaume Bauchet, Paterne Agre, Kwabena Darkwa, Flora Asibe, Alex Edemodu, Asrat Asfaw, and Patrick Adebola

Subjects

0106 biological sciences, 0301 basic medicine, Agricultural genetics, Breeding program, Genotyping Techniques, Population, lcsh:Medicine, Quantitative trait locus, Biology, 01 natural sciences, Polymorphism, Single Nucleotide, Article, 03 medical and health sciences, Quantitative Trait, Heritable, Genetic variability, education, lcsh:Science, Genetic Association Studies, Phylogeny, Genetic diversity, education.field_of_study, Multidisciplinary, Dioscorea, lcsh:R, Genetic Variation, Phenotypic trait, Plant Breeding, 030104 developmental biology, Phenotype, Evolutionary biology, Genetic gain, Genetic structure, lcsh:Q, 010606 plant biology & botany

Abstract

A better understanding of the structure and extent of genetic variability in a breeding population of a crop is essential for translating genetic diversity to genetic gain. We assessed the nature and pattern of genetic variability and differentiation in a panel of 100 winged-yam (Dioscorea alata) accessions using 24 phenotypic traits and 6,918 single nucleotide polymorphism (SNP) markers. Multivariate analysis for phenotypic variability indicated that all phenotypic traits assessed were useful in discriminating the yam clones and cultivars. Cluster analysis based on phenotypic data distinguished two significant groups, while a corresponding analysis with SNP markers indicated three genetic groups. However, joint analysis for the phenotypic and genotypic data provided three clusters that could be useful for the identification of heterotic groups in the D. alata breeding program. Our analysis for phenotypic and molecular level diversity provided valuable information about overall diversity and variation in economically important traits useful for establishing crossing panels with contrasting traits of interest. The selection and hybridization of parental lines from the different heterotic groups identified would facilitate maximizing diversity and exploiting population heterosis in the D. alata breeding program.

Published

2019

13. Optimized Protocol for In Vitro Pollen Germination in Yam (Dioscorea spp.)

Author

Asrat Asfaw, Jean M. Mondo, Robert Asiedu, Paterne Agre, and Malachy O. Akoroda

Subjects

0106 biological sciences, 0301 basic medicine, Plant Science, Biology, medicine.disease_cause, 01 natural sciences, Article, Fruit set, 03 medical and health sciences, D. alata, Brewbaker and Kwack medium, Pollen, medicine, Plant reproductive morphology, pollen viability and storage, Ecology, Evolution, Behavior and Systematics, in vivo fertilization, Ecology, Botany, food and beverages, D. rotundata, biology.organism_classification, Horticulture, 030104 developmental biology, Incubation temperature, Germination, QK1-989, In vivo fertilization, Dioscorea, Optimal growth, 010606 plant biology & botany

Abstract

Yam (Dioscorea spp.) plants are mostly dioecious and sometimes monoecious. Low, irregular, and asynchronous flowering of the genotypes are critical problems in yam breeding. Selecting suitable pollen parents and preserving yam pollen for future use are potential means of controlling these constraints and optimizing hybridization practice in yam breeding programs. However, implementing such procedures requires a robust protocol for pollen collection and viability testing to monitor pollen quality in the field and in storage. This study, therefore, aimed at optimizing the pollen germination assessment protocol for yam. The standard medium composition was stepwisely modified, the optimal growth condition was tested, and in vivo predictions were made. This study showed that the differences in yam pollen germination percentage are primarily linked to the genotype and growing conditions (i.e., medium viscosity, incubation temperature, and time to use) rather than the medium composition. The inclusion of polyethylene glycol (PEG) in the culture medium caused 67–75% inhibition of germination in D. alata. Although the in vivo fertilization was dependent on female parents, the in vitro germination test predicted the percentage fruit set at 25.2–79.7% and 26.4–59.7% accuracy for D. rotundata and D. alata genotypes, respectively. This study provides a reliable in vitro yam pollen germination protocol to support pollen management and preservation efforts in yam breeding.

Published

2021

14. Genomic and Phenotypic Diversity of Cultivated and Wild Tomatoes with Varying Levels of Heat Tolerance

Author

Mathieu Anatole Tele Ayenan, Peter Hanson, Agyemang Danquah, Paterne Agre, Eric Danquah, and Isaac Asante

Subjects

Thermotolerance, 0106 biological sciences, 0301 basic medicine, Germplasm, Genotype, lcsh:QH426-470, Quantitative Trait Loci, Single-nucleotide polymorphism, heritability, Polymorphism, Single Nucleotide, 01 natural sciences, Article, SNP markers, 03 medical and health sciences, Solanum lycopersicum, genetic variability, Genetics, Genetic variability, tomatoes, Genetics (clinical), biology, fungi, UPGMA, food and beverages, heat tolerance, Genomics, Heritability, biology.organism_classification, Solanum pimpinellifolium, Minor allele frequency, Plant Breeding, Horticulture, lcsh:Genetics, Phenotype, 030104 developmental biology, Inflorescence, Genome, Plant, 010606 plant biology & botany

Abstract

Assessment of genetic variability in heat-tolerant tomato germplasm is a pre-requisite to improve yield and fruit quality under heat stress. We assessed the population structure and diversity in a panel of three Solanum pimpinellifolium (wild tomatoes) and 42 S. lycopersicum (cultivated tomatoes) lines and accessions with varying heat tolerance levels. The DArTseq marker was used for the sequencing and 5270 informative single nucleotide polymorphism (SNP) markers were retained for the genomic analysis. The germplasm was evaluated under two heat stress environments for five yield and flower related traits. The phenotypic evaluation revealed moderate broad-sense heritabilities for fruit weight per plant and high broad-sense heritabilities for fruit weight, number of inflorescences per plant, and number of flowers per inflorescence. The hierarchical clustering based on identity by state dissimilarity matrix and UPGMA grouped the germplasm into three clusters. The cluster analysis based on heat-tolerance traits separated the germplasm collection into five clusters. The correlation between the phenotypic and genomic-based distance matrices was low (r = 0.2, p &lt, 0.05). The joint phenotypic and genomic-based clustering grouped the germplasm collection into five clusters well defined for their response to heat stress ranging from highly sensitive to highly tolerant groups. The heat-sensitive and heat-tolerant clusters of S. lycopersicum lines were differentiated by a specific pattern of minor allele frequency distribution on chromosome 11. The joint phenotypic and genomic analysis revealed important diversity within the germplasm collection. This study provides the basis for efficient selection of parental lines to breed heat-tolerant varieties.

Published

2021

15. Floral Biology and Pollination Efficiency in Yam (Dioscorea spp.)

Author

Patrick Adebola, Malachy O. Akoroda, Paterne Agre, Alex Edemodu, Robert Asiedu, Jean M. Mondo, and Asrat Asfaw

Subjects

0106 biological sciences, Pollination, Vegetative reproduction, Plant Science, medicine.disease_cause, cross incompatibility breakage, 01 natural sciences, 03 medical and health sciences, Polyploid, Pollen, profuse flowering, West Africa, medicine, Plant reproductive morphology, pollen viability and storage, Cultivar, lcsh:Agriculture (General), 030304 developmental biology, 0303 health sciences, Genetic diversity, biology, biology.organism_classification, lcsh:S1-972, Horticulture, Dioscorea, Agronomy and Crop Science, 010606 plant biology & botany, Food Science

Abstract

Yam (Dioscorea spp.) is a monocotyledonous herbaceous vine cultivated for its starchy underground or aerial tubers in the tropics and subtropics. It is an allogamous and polyploid species that reproduces by both sexual and asexual mechanisms. However, many of the landrace cultivars, including most of the popular varieties, reproduce exclusively by vegetative propagation (planting the tubers). These varieties are either sterile or produce sparse and irregular flowering with high flower abortion rate, low fruit and seed set. Production of crossbreed seeds for genetic improvement and for maintaining genetic diversity in yams is, therefore, mainly achieved through natural or managed pollination. Flowering in yam is mostly dioecious and, in some instances, monoecious. Flowering asynchrony, sticky nature of the pollen grains, and cross incompatibility are among the challenges in making genetic progress in yam breeding. There are many limitations in basic and applied knowledge of yam flower biology and pollination. This paper, therefore, reviews the flowering biology, pollination, and methods of improving pollination efficiency in yam breeding programs.

Published

2020

16. Genotyping-by-Sequencing to Unlock Genetic Diversity and Population Structure in White Yam (Dioscorea rotundata Poir.)

Author

Patrick Adebola, Robert Asiedu, Michael T. Abberton, Ranjana Bhattacharjee, David De Koeyer, Asrat Asfaw, P. Lava Kumar, Antonio Lopez-Montes, Guillaume Bauchet, and Paterne Agre

Subjects

0106 biological sciences, 0303 health sciences, Genetic diversity, Phylogenetic tree, Biodiversity, lcsh:S, population structure, genetic diversity, Biology, biology.organism_classification, 01 natural sciences, Analysis of molecular variance, SNP markers, lcsh:Agriculture, 03 medical and health sciences, Dioscorea rotundata, Evolutionary biology, Principal component analysis, Genotype, West Africa, white yam, Domestication, Agronomy and Crop Science, 030304 developmental biology, 010606 plant biology & botany

Abstract

White yam (Dioscorearotundata Poir.) is one of the most important tuber crops in West Africa, where it is indigenous and represents the largest repository of biodiversity through several years of domestication, production, consumption, and trade. In this study, the genotyping-by-sequencing (GBS) approach was used to sequence 814 genotypes consisting of genebank landraces, breeding lines, and market varieties to understand the level of genetic diversity and pattern of the population structure among them. The genetic diversity among different genotypes was assessed using three complementary clustering methods, the model-based admixture, discriminant analysis of principal components (DAPC), and phylogenetic tree. ADMIXTURE analysis revealed an optimum number of four groups that matched with the number of clusters obtained through phylogenetic tree. Clustering results obtained from ADMIXTURE analysis were further validated using DAPC-based clustering. Analysis of molecular variance (AMOVA) revealed high genetic diversity (96%) within each genetic group. A network analysis was further carried out to depict the genetic relationships among the three genetic groups (breeding lines, genebank landraces, and market varieties) used in the study. This study showed that the use of advanced sequencing techniques such as GBS coupled with statistical analysis is a robust method for assessing genetic diversity and population structure in a complex crop such as white yam.

Published

2020

17. Genome-Wide Association Analysis for Tuber Dry Matter and Oxidative Browning in Water Yam (Dioscorea alata L.)

Author

Asrat Asfaw, Alex Edemodu, Ryo Matsumoto, Paterne Agre, Ranjana Bhattacharjee, Robert Asiedu, Cobes Gatarira, and Victor O. Adetimirin

Subjects

0106 biological sciences, 0301 basic medicine, yam tuber quality, DArT sequencing, Single-nucleotide polymorphism, Plant Science, Biology, 01 natural sciences, Crop, 03 medical and health sciences, marker–trait association, lcsh:Botany, Browning, Dry matter, Cultivar, Ecology, Evolution, Behavior and Systematics, Ecology, Diversity Arrays Technology, fungi, food and beverages, biology.organism_classification, lcsh:QK1-989, gene annotation, Horticulture, 030104 developmental biology, Dioscorea, Food quality, 010606 plant biology & botany

Abstract

Yam (Dioscorea spp.) is a nutritional and medicinal staple tuber crop grown in the tropics and sub-tropics. Among the food yam species, water yam (Dioscorea alata L.) is the most widely distributed and cultivated species worldwide. Tuber dry matter content (DMC) and oxidative browning (OxB) are important quality attributes that determine cultivar acceptability in water yam. This study used a single nucleotide polymorphism (SNP) assay from a diversity arrays technology (DArT) platform for a genome-wide association study (GWAS) of the two quality traits in a panel of 100 water yam clones grown in three environments. The marker&ndash, trait association analysis identified significant SNPs associated with tuber DMC on chromosomes 6 and 19 and with OxB on chromosome 5. The significant SNPs cumulatively explained 45.87 and 12.74% of the total phenotypic variation for the tuber DMC and OxB, respectively. Gene annotation for the significant SNP loci identified important genes associated in the process of the proteolytic modification of carbohydrates in the dry matter accumulation pathway as well as fatty acid &beta, oxidation in peroxisome for enzymatic oxidation. Additional putative genes were also identified in the peak SNP sites for both tuber dry matter and enzymatic oxidation with unknown functions. The results of this study provide valuable insight for further dissection of the genetic architecture of tuber dry matter and enzymatic oxidation in water yam. They also highlight SNP variants and genes useful for genomics-informed selection decisions in the breeding process for improving food quality traits in water yam.

Published

2020

18. Genome-Wide Association Study of Root Mealiness and Other Texture-Associated Traits in Cassava.

Author

Uchendu, Kelechi, Njoku, Damian Ndubuisi, Paterne, Agre, Rabbi, Ismail Yusuf, Dzidzienyo, Daniel, Tongoona, Pangirayi, Offei, Samuel, and Egesi, Chiedozie

Subjects

CASSAVA, GENOME-wide association studies, SINGLE nucleotide polymorphisms, ROOT crops, CELL adhesion

Abstract

Cassava breeders have made significant progress in developing new genotypes with improved agronomic characteristics such as improved root yield and resistance against biotic and abiotic stresses. However, these new and improved cassava (Manihot esculenta Crantz) varieties in cultivation in Nigeria have undergone little or no improvement in their culinary qualities; hence, there is a paucity of genetic information regarding the texture of boiled cassava, particularly with respect to its mealiness, the principal sensory quality attribute of boiled cassava roots. The current study aimed at identifying genomic regions and polymorphisms associated with natural variation for root mealiness and other texture-related attributes of boiled cassava roots, which includes fibre, adhesiveness (ADH), taste, aroma, colour, and firmness. We performed a genome-wide association (GWAS) analysis using phenotypic data from a panel of 142 accessions obtained from the National Root Crops Research Institute (NRCRI), Umudike, Nigeria, and a set of 59,792 high-quality single nucleotide polymorphisms (SNPs) distributed across the cassava genome. Through genome-wide association mapping, we identified 80 SNPs that were significantly associated with root mealiness, fibre, adhesiveness, taste, aroma, colour and firmness on chromosomes 1, 4, 5, 6, 10, 13, 17 and 18. We also identified relevant candidate genes that are co-located with peak SNPs linked to these traits in M. esculenta. A survey of the cassava reference genome v6.1 positioned the SNPs on chromosome 13 in the vicinity of Manes. 13G026900 , a gene recognized as being responsible for cell adhesion and for the mealiness or crispness of vegetables and fruits, and also known to play an important role in cooked potato texture. This study provides the first insights into understanding the underlying genetic basis of boiled cassava root texture. After validation, the markers and candidate genes identified in this novel work could provide important genomic resources for use in marker-assisted selection (MAS) and genomic selection (GS) to accelerate genetic improvement of root mealiness and other culinary qualities in cassava breeding programmes in West Africa, especially in Nigeria, where the consumption of boiled and pounded cassava is low. [ABSTRACT FROM AUTHOR]

Published

2021

19. Identification of QTLs for grain yield and other traits in tropical maize under Striga infestation.

Author

Badu-Apraku, Baffour, Adewale, Samuel, Paterne, Agre Angelot, Gedil, Melaku, Toyinbo, Johnson, and Asiedu, Robert

Subjects

WITCHWEEDS, GRAIN yields, CORN, TRANSCRIPTION factors, X chromosome, GENE mapping

Abstract

Striga is an important biotic factor limiting maize production in sub-Saharan Africa and can cause yield losses as high as 100%. Marker-assisted selection (MAS) approaches hold a great potential for improving Striga resistance but requires identification and use of markers associated with Striga resistance for adequate genetic gains from selection. However, there is no report on the discovery of quantitative trait loci (QTL) for resistance to Striga in maize under artificial field infestation. In the present study, 198 BC1S1 families obtained from a cross involving TZEEI 29 (Striga resistant inbred line) and TZEEI 23 (Striga susceptible inbred line) plus the two parental lines were screened under artificial Striga-infested conditions at two Striga-endemic locations in Nigeria in 2018, to identify QTL associated with Striga resistance indicator traits, including grain yield, ears per plant, Striga damage and number of emerged Striga plants. Genetic map was constructed using 1,386 DArTseq markers distributed across the 10 maize chromosomes, covering 2076 cM of the total genome with a mean spacing of 0.11 cM between the markers. Using composite interval mapping (CIM), fourteen QTL were identified for key Striga resistance/tolerance indicator traits: 3 QTL for grain yield, 4 for ears per plant and 7 for Striga damage at 10 weeks after planting (WAP), across environments. Putative candidate genes which encode major transcription factor families WRKY, bHLH, AP2-EREBPs, MYB, and bZIP involved in plant defense signaling were detected for Striga resistance/tolerance indicator traits. The QTL detected in the present study would be useful for rapid transfer of Striga resistance/tolerance genes into Striga susceptible but high yielding maize genotypes using MAS approaches after validation. Further studies on validation of the QTL in different genetic backgrounds and in different environments would help verify their reproducibility and effective use in breeding for Striga resistance/tolerance. [ABSTRACT FROM AUTHOR]

Published

2020

20. An EST-SSR based genetic linkage map and identification of QTLs for anthracnose disease resistance in water yam (Dioscorea alata L.).

Author

Bhattacharjee, Ranjana, Nwadili, Christian O., Saski, Christopher A., Paterne, Agre, Scheffler, Brian E., Augusto, Joao, Lopez-Montes, Antonio, Onyeka, Joseph T., Kumar, P. Lava, and Bandyopadhyay, Ranajit

Subjects

WATER yam, PLANT gene mapping, ANTHRACNOSE, CROP rotation, LOCUS (Genetics), BIOGEOGRAPHY

Abstract

Water yam (Dioscorea alata L.) is one of the most important food yams with wide geographical distribution in the tropics. One of the major constraints to water yam production is anthracnose disease caused by a fungus, Colletotrichum gloeosporioides (Penz.). There are no economically feasible solutions as chemical sprays or cultural practices, such as crop rotation are seldom convenient for smallholder farmers for sustainable control of the disease. Breeding for development of durable genetic resistant varieties is known to offer lasting solution to control endemic disease threats to crop production. However, breeding for resistance to anthracnose has been slow considering the biological constraints related to the heterozygous and vegetative propagation of the crop. The development of saturated linkage maps with high marker density, such as SSRs, followed by identification of QTLs can accelerate the speed and precision of resistance breeding in water yam. In a previous study, a total of 1,152 EST-SSRs were developed from >40,000 EST-sequences generated from two D. alata genotypes. A set of 380 EST-SSRs were validated as polymorphic when tested on two diverse parents targeted for anthracnose disease and were used to generate a saturated linkage map. Majority of the SSRs (60.2%) showed Mendelian segregation pattern and had no effect on the construction of linkage map. All 380 EST-SSRs were mapped into 20 linkage groups, and covered a total length of 3229.5 cM. Majority of the markers were mapped on linkage group 1 (LG 1) comprising of 97 EST-SSRs. This is the first genetic linkage map of water yam constructed using EST-SSRs. QTL localization was based on phenotypic data collected over a 3-year period of inoculating the mapping population with the most virulent strain of C. gloeosporioides from West Africa. Based on threshold LOD scores, one QTL was consistently observed on LG 14 in all the three years and average score data. This QTL was found at position interval of 71.1–84.8 cM explaining 68.5% of the total phenotypic variation in the average score data. The high marker density allowed identification of QTLs and association for anthracnose disease, which could be validated in other mapping populations and used in marker-assisted breeding in D. alata improvement programmes. [ABSTRACT FROM AUTHOR]

Published

2018

21. Genomic Analysis of Selected Maize Landraces from Sahel and Coastal West Africa Reveals Their Variability and Potential for Genetic Enhancement.

Author

Nelimor, Charles, Badu-Apraku, Baffour, Garcia-Oliveira, Ana Luísa, Tetteh, Antonia, Paterne, Agre, N'guetta, Assanvo Simon-Pierre, and Gedil, Melaku

Subjects

CORN breeding, HETEROZYGOSITY, PRINCIPAL components analysis, GERMPLASM, GENE flow, DISCRIMINANT analysis, CORN, INTROGRESSION (Genetics)

Abstract

Genetic adaptation of maize to the increasingly unpredictable climatic conditions is an essential prerequisite for achievement of food security and sustainable development goals in sub-Saharan Africa. The landraces of maize; which have not served as sources of improved germplasm; are invaluable sources of novel genetic variability crucial for achieving this objective. The overall goal of this study was to assess the genetic diversity and population structure of a maize panel of 208 accessions; comprising landrace gene pools from Burkina Faso (58), Ghana (43), and Togo (89), together with reference populations (18) from the maize improvement program of the International Institute of Tropical Agriculture (IITA). Genotyping the maize panel with 5974 DArTseq-SNP markers revealed immense genetic diversity indicated by average expected heterozygosity (0.36), observed heterozygosity (0.5), and polymorphic information content (0.29). Model-based population structure; neighbor-joining tree; discriminant analysis of principal component; and principal coordinate analyses all separated the maize panel into three major sub-populations; each capable of providing a wide range of allelic variation. Analysis of molecular variance (AMOVA) showed that 86% of the variation was within individuals; while 14% was attributable to differences among gene pools. The Burkinabe gene pool was strongly differentiated from all the others (genetic differentiation values >0.20), with no gene flow (Nm) to the reference populations (Nm = 0.98). Thus; this gene pool could be a target for novel genetic variation for maize improvement. The results of the present study confirmed the potential of this maize panel as an invaluable genetic resource for future design of association mapping studies to speed-up the introgression of this novel variation into the existing breeding pipelines. [ABSTRACT FROM AUTHOR]

Published

2020

22. Genetic Diversity and Population Structure of Maize Inbred Lines with Varying Levels of Resistance to Striga hermonthica Using Agronomic Trait-Based and SNP Markers.

Author

Stanley, Adekemi, Menkir, Abebe, Paterne, Agre, Ifie, Beatrice, Tongoona, Pangirayi, Unachukwu, Nnanna, Meseka, Silvestro, Mengesha, Wende, and Gedil, Melaku

Subjects

CORN breeding, PURPLE witchweed, HIERARCHICAL clustering (Cluster analysis), CORN, SINGLE nucleotide polymorphisms, MOLECULAR clusters

Abstract

Striga hermonthica is a serious biotic stress limiting maize production in sub-Saharan Africa. The limited information on the patterns of genetic diversity among maize inbred lines derived from source germplasm with mixed genetic backgrounds limits the development of inbred lines, hybrids, and synthetics with durable resistance to S. hermonthica. This study was conducted to assess the level of genetic diversity in a panel of 150 diverse maize inbred lines using agronomic and molecular data and also to infer the population structure among the inbred lines. Ten Striga-resistance-related traits were used for the phenotypic characterization, and 16,735 high-quality single-nucleotide polymorphisms (SNPs), identified by genotyping-by-sequencing (GBS), were used for molecular diversity. The phenotypic and molecular hierarchical cluster analyses grouped the inbred lines into five clusters, respectively. However, the grouping patterns between the phenotypic and molecular hierarchical cluster analyses were inconsistent due to non-overlapping information between the phenotypic and molecular data. The correlation between the phenotypic and molecular diversity matrices was very low (0.001), which is in agreement with the inconsistencies observed between the clusters formed by the phenotypic and molecular diversity analyses. The joint phenotypic and genotypic diversity matrices grouped the inbred lines into three groups based on their reaction patterns to S. hermonthica, and this was able to exploit a broad estimate of the actual diversity among the inbred lines. The joint analysis shows an invaluable insight for measuring genetic diversity in the evaluated materials. The result indicates that wide genetic variability exists among the inbred lines and that the joint diversity analysis can be utilized to reliably assign the inbred lines into heterotic groups and also to enhance the level of resistance to Striga in new maize varieties. [ABSTRACT FROM AUTHOR]

Published

2020

23. Identification of QTLs Controlling Resistance/Tolerance to Striga hermonthica in an Extra-Early Maturing Yellow Maize Population.

Author

Badu-Apraku, Baffour, Adewale, Samuel, Paterne, Agre, Gedil, Melaku, and Asiedu, Robert

Subjects

PURPLE witchweed, WHEAT diseases & pests, PLANT defenses, CORN, PLANT genes, WITCHWEEDS, GRAIN, LEMNA minor

Abstract

Striga hermonthica parasitism is a major constraint to maize production in sub-Saharan Africa with yield losses reaching 100% under severe infestation. The application of marker-assisted selection is highly promising for accelerating breeding for Striga resistance/tolerance in maize but requires the identification of quantitative trait loci (QTLs) linked to Striga resistance/tolerance traits. In the present study, 194 F2:3 families of TZEEI 79 × TZdEEI 11 were screened at two Striga-endemic locations in Nigeria, to identify QTLs associated with S. hermonthica resistance/tolerance and underlying putative candidate genes. A genetic map was constructed using 1139 filtered DArTseq markers distributed across the 10 maize chromosomes, covering 2016 cM, with mean genetic distance of 1.70 cM. Twelve minor and major QTLs were identified for four Striga resistance/tolerance adaptive traits, explaining 19.4%, 34.9%, 14.2% and 3.2% of observed phenotypic variation for grain yield, ears per plant, Striga damage and emerged Striga plants, respectively. The QTLs were found to be linked to candidate genes which may be associated with plant defense mechanisms in S. hermonthica infested environments. The results of this study provide insights into the genetic architecture of S. hermonthica resistance/tolerance indicator traits which could be employed for marker-assisted selection to accelerate efficient transfer host plant resistance genes to susceptible genotypes. [ABSTRACT FROM AUTHOR]

Published

2020

24. Paternity Assignment in White Guinea Yam (Dioscorea Rotundata) Half-Sib Progenies from Polycross Mating Design Using SNP Markers.

Author

Norman, Prince E., Paterne, Agre A., Danquah, Agyemang, Tongoona, Pangirayi B., Danquah, Eric Y., De Koeyer, David, Ikeogu, Ugochukwu N., Asiedu, Robert, and Asfaw, Asrat

Subjects

YAMS, PATERNITY, GENE flow, POLLEN, POLLINATION, BREEDING

Abstract

White Guinea yam is mostly a dioecious outcrossing crop with male and female flowers produced on distinct plants. Fertile parents produce high fruit set in an open pollination polycross block, which is a cost-effective and convenient way of generating variability in yam breeding. However, the pollen parent of progeny from polycross mating is usually unknown. This study aimed to determine paternity in white Guinea yam half-sib progenies from polycross mating design. A total of 394 half-sib progenies from random open pollination involving nine female and three male parents was genotyped with 6602 SNP markers from DArTSeq platform to recover full pedigree. A higher proportion of expected heterozygosity, allelic richness, and evenness were observed in the half-sib progenies. A complete pedigree was established for all progenies from two families (TDr1685 and TDr1688) with 100% accuracy, while in the remaining families, paternity was assigned successfully only for 56 to 98% of the progenies. Our results indicated unequal paternal contribution under natural open pollination in yam, suggesting unequal pollen migrations or gene flow among the crossing parents. A total of 3.8% of progenies lacking paternal identity due to foreign pollen contamination outside the polycross block was observed. This study established the efficient determination of parental reconstruction and allelic contributions in the white Guinea yam half-sib progenies generated from open pollination polycross using SNP markers. Findings are useful for parental reconstruction, accurate dissection of the genetic effects, and selection in white Guinea yam breeding program utilizing polycross mating design. [ABSTRACT FROM AUTHOR]

Published

2020

25. Breedbase: a digital ecosystem for modern plant breeding.

Author

Morales N, Ogbonna AC, Ellerbrock BJ, Bauchet GJ, Tantikanjana T, Tecle IY, Powell AF, Lyon D, Menda N, Simoes CC, Saha S, Hosmani P, Flores M, Panitz N, Preble RS, Agbona A, Rabbi I, Kulakow P, Peteti P, Kawuki R, Esuma W, Kanaabi M, Chelangat DM, Uba E, Olojede A, Onyeka J, Shah T, Karanja M, Egesi C, Tufan H, Paterne A, Asfaw A, Jannink JL, Wolfe M, Birkett CL, Waring DJ, Hershberger JM, Gore MA, Robbins KR, Rife T, Courtney C, Poland J, Arnaud E, Laporte MA, Kulembeka H, Salum K, Mrema E, Brown A, Bayo S, Uwimana B, Akech V, Yencho C, de Boeck B, Campos H, Swennen R, Edwards JD, and Mueller LA

Subjects

Algorithms, Crops, Agricultural genetics, Software, Ecosystem, Plant Breeding

Abstract

Modern breeding methods integrate next-generation sequencing and phenomics to identify plants with the best characteristics and greatest genetic merit for use as parents in subsequent breeding cycles to ultimately create improved cultivars able to sustain high adoption rates by farmers. This data-driven approach hinges on strong foundations in data management, quality control, and analytics. Of crucial importance is a central database able to (1) track breeding materials, (2) store experimental evaluations, (3) record phenotypic measurements using consistent ontologies, (4) store genotypic information, and (5) implement algorithms for analysis, prediction, and selection decisions. Because of the complexity of the breeding process, breeding databases also tend to be complex, difficult, and expensive to implement and maintain. Here, we present a breeding database system, Breedbase (https://breedbase.org/, last accessed 4/18/2022). Originally initiated as Cassavabase (https://cassavabase.org/, last accessed 4/18/2022) with the NextGen Cassava project (https://www.nextgencassava.org/, last accessed 4/18/2022), and later developed into a crop-agnostic system, it is presently used by dozens of different crops and projects. The system is web based and is available as open source software. It is available on GitHub (https://github.com/solgenomics/, last accessed 4/18/2022) and packaged in a Docker image for deployment (https://hub.docker.com/u/breedbase, last accessed 4/18/2022). The Breedbase system enables breeding programs to better manage and leverage their data for decision making within a fully integrated digital ecosystem., (© The Author(s) 2022. Published by Oxford University Press on behalf of Genetics Society of America.)

Published

2022