Your search keyword '"Christian Fatokun"' showing total 64 results

51. Screening wild Vigna species and cowpea ( Vigna unguiculata ) landraces for sources of resistance to Striga gesnerioides

Author

Christopher Olumuyiwa Ilori, Christian Fatokun, Ousmane Boukar, O. Oyatomi, and M. Abberton

Subjects

Vigna, Horticulture, Resistance (ecology), Agronomy, Striga gesnerioides, Biology, biology.organism_classification, West africa

Published

2016

52. Evaluation of cowpea (Vigna unguiculata (L.) Walp.) germplasm lines for tolerance to drought

Author

Satoru Muranaka, Ousmane Boukar, and Christian Fatokun

Subjects

Germplasm, Irrigation, Tropical agriculture, business.industry, Drought tolerance, Sowing, Plant Science, Biology, biology.organism_classification, Crop, Vigna, Agronomy, Agriculture, Genetics, business, Agronomy and Crop Science

Abstract

Cowpea is an important grain legume crop in sub-Saharan Africa (SSA) where, on a worldwide basis, the bulk is produced and consumed. The dry savanna area of SSA is where cowpea is mostly grown under rain-fed conditions. The crop is therefore prone to drought which may occur early, mid and/or late in the cropping season. Compared with many other crops, cowpea is drought tolerant, even though drought is still a major constraint limiting its productivity in SSA. Increasing the level of drought tolerance in existing cowpea varieties grown by farmers would enable them to obtain more and stable yield from their cowpea fields. As a first step towards enhancing drought tolerance in existing cowpea varieties, 1288 lines were selected randomly from cowpea germplasm collections maintained at the International Institute of Tropical Agriculture, and evaluated for their drought tolerance at Ibadan. Drought was imposed by withdrawal of irrigation from 5 weeks after sowing. On average, drought reduced the number of days to flower by 12 d, and the mean grain yield per plant was also reduced by 67.28%. A few of the cowpea lines stayed green for up to 6 weeks after irrigation was stopped, even though some of these produced no pods when the study was terminated. Further evaluation in the screenhouse of 142 selected drought-tolerant lines helped to identify six lines that could be potential parents for developing breeding lines with enhanced drought tolerance.

Published

2012

53. Evaluation of cowpea germplasm lines for protein and mineral concentrations in grains

Author

B.B. Singh, Festo Massawe, Christian Fatokun, Ousmane Boukar, Satoru Muranaka, Bussie Maziya-Dixon, and Jorge Franco

Subjects

Germplasm, Mineral, biology, Nutritional content, Plant Science, Sorghum, biology.organism_classification, Crop, Nutrient, Agronomy, Genetic resources, Genetics, Agronomy and Crop Science, Chemical composition

Abstract

Cowpea, an indigenous crop to sub-Saharan Africa, is found mainly in the dry savanna regions along with cereals such as millets and sorghum. Cowpea is grown primarily for human consumption of the grains, which are rich in protein, carbohydrates and contain some minerals. The development and deployment of cowpea varieties with higher nutritional value will be of immense benefit to consumers. As a first step in the enhancement of mineral content in cowpea grains, several germplasm lines (1541) of different origins and obtained from the genetic resources unit at IITA were sown in the experimental field in Minjibir, Kano State, Nigeria. The grains were analysed for protein and nine mineral contents. However, in this study, we shall report data on crude protein, Fe, Zn, Ca, Mg, K and P. The data generated from the chemical analysis were subjected to the ‘mixture of normal distributions’ clustering method, which distributed the cowpea lines into nine groups. Groups G7 and G9 contained 174 genotypes and these were characterized by high mineral concentrations. The mean nutritional content values for group G9 were 24.7% for protein, and 58.9, 41.5, 1107, 2132, 15,282 and 5664 mg/kg for Fe, Zn, Ca, Mg, K and P, respectively. On the other hand, the 363 lines making up groups G2, G3 and G6 showed low amounts of nutrients in their grains. Some of the lines in G7 and G9 would be good as parents to use in breeding programmes that aimed at developing nutrient-dense cowpea varieties.

Published

2011

54. Identification of markers associated with bacterial blight resistance loci in cowpea (Vigna unguiculata (L.) Walp.)

Author

N.N. Diop, Timothy J. Close, Richard G. F. Visser, Wellington Muchero, C.G. van der Linden, Kerstin Wydra, E. M. Agbicodo, Philip A. Roberts, Ranajit Bandyopadhyay, Jeffrey D. Ehlers, and Christian Fatokun

Subjects

0106 biological sciences, musculoskeletal diseases, Veterinary medicine, viruses, Population, agronomic traits, genetic dissection, tiller number, Plant Science, Biology, Plant disease resistance, Quantitative trait locus, Horticulture, 01 natural sciences, Vigna, 03 medical and health sciences, Laboratorium voor Plantenveredeling, Xanthomonas, genotypic variation, Genetics, Blight, Plant breeding, grain-yield, education, Cowpea, Bacterial blight, Source of resistance, SNP, QTL mapping, 030304 developmental biology, 2. Zero hunger, 0303 health sciences, education.field_of_study, EPS-2, fungi, food and beverages, seed-filling period, Marker-assisted selection, biology.organism_classification, developmental behavior, Plant Breeding, Agronomy, quantitative trait loci, yield-related traits, Agronomy and Crop Science, growth-rate, 010606 plant biology & botany

Abstract

Cowpea bacterial blight (CoBB), caused by Xanthomonas axonopodis pv. vignicola (Xav), is a worldwide major disease of cowpea [Vigna unguiculata (L.) Walp.]. Among different strategies to control the disease including cultural practices, intercropping, application of chemicals, and sowing pathogen-free seeds, planting of cowpea genotypes with resistance to the pathogen would be the most attractive option to the resource poor cowpea farmers in sub-Saharan Africa. Breeding resistance cultivars would be facilitated by marker-assisted selection (MAS). In order to identify loci with effects on resistance to this pathogen and map QTLs controlling resistance to CoBB, eleven cowpea genotypes were screened for resistance to bacterial blight using 2 virulent Xav18 and Xav19 strains isolated from Kano (Nigeria). Two cowpea genotypes Danila and Tvu7778 were identified to contrast in their responses to foliar disease expression following leaf infection with pathogen. A set of recombinant inbred lines (RILs) comprising 113 individuals derived from Danila (resistant parent) and Tvu7778 (susceptible parent) were infected with CoBB using leaf inoculation method. The experiments were conducted under greenhouse conditions (2007 and 2008) and disease severity was visually assessed using a scale where 0 = no disease and 4 = maximum susceptibility with leaf drop. A single nucleotide polymorphism (SNP) genetic map with 282 SNP markers constructed from the same RIL population was used to perform QTL analysis. Using Kruskall-Wallis and Multiple-QTL model of MapQTL 5, three QTLs, CoBB-1, CoBB-2 and CoBB-3 were identified on linkage group LG3, LG5 and LG9 respectively showing that potential resistance candidate genes cosegregated with CoBB resistance phenotypes. Two of the QTLs CoBB-1, CoBB-2 were consistently confirmed in the two experiments accounting for up to 22.1 and to 17.4% respectively for the first and second experiments. Whereas CoBB-3 was only discovered for the first experiment (2007) with less phenotypic variation explained of about 10%. Our results represent a resource for molecular marker development that can be used for marker assisted selection of bacterial blight resistance in cowpea. peerReviewed

Published

2010

55. A consensus genetic map of cowpea [ Vigna unguiculata (L) Walp.] and synteny based on EST-derived SNPs

Author

Wellington Muchero, Marti Pottorff, Ndiaga Cisse, Ndeye N. Diop, Christian Fatokun, Timothy J. Close, Steve Wanamaker, Philip A. Roberts, Raymond D. Fenton, Jeffrey D. Ehlers, Sarah Hearne, and Prasanna R. Bhat

Subjects

Expressed Sequence Tags, Genetics, Expressed sequence tag, Genetic diversity, Multidisciplinary, Genotype, Chromosome Mapping, food and beverages, Fabaceae, Genomics, Biological Sciences, Biology, Quantitative trait locus, Polymorphism, Single Nucleotide, Chromosomes, Plant, food.food, Evolution, Molecular, food, Gene mapping, Asparagus bean, Association mapping, Synteny

Abstract

Consensus genetic linkage maps provide a genomic framework for quantitative trait loci identification, map-based cloning, assessment of genetic diversity, association mapping, and applied breeding in marker-assisted selection schemes. Among “orphan crops” with limited genomic resources such as cowpea [ Vigna unguiculata (L.) Walp.] (2 n = 2 x = 22), the use of transcript-derived SNPs in genetic maps provides opportunities for automated genotyping and estimation of genome structure based on synteny analysis. Here, we report the development and validation of a high-throughput EST-derived SNP assay for cowpea, its application in consensus map building, and determination of synteny to reference genomes. SNP mining from 183,118 ESTs sequenced from 17 cDNA libraries yielded ≈10,000 high-confidence SNPs from which an Illumina 1,536-SNP GoldenGate genotyping array was developed and applied to 741 recombinant inbred lines from six mapping populations. Approximately 90% of the SNPs were technically successful, providing 1,375 dependable markers. Of these, 928 were incorporated into a consensus genetic map spanning 680 cM with 11 linkage groups and an average marker distance of 0.73 cM. Comparison of this cowpea genetic map to reference legumes, soybean ( Glycine max ) and Medicago truncatula , revealed extensive macrosynteny encompassing 85 and 82%, respectively, of the cowpea map. Regions of soybean genome duplication were evident relative to the simpler diploid cowpea. Comparison with Arabidopsis revealed extensive genomic rearrangement with some conserved microsynteny. These results support evolutionary closeness between cowpea and soybean and identify regions for synteny-based functional genomics studies in legumes.

Published

2009

56. Breeding drought tolerant cowpea: constraints, accomplishments, and future prospects

Author

Christian Fatokun, E. M. Agbicodo, S. Muranaka, Richard G. F. Visser, and C. G. Linden van der

Subjects

Drought tolerance, Genomics, Plant Science, Quantitative trait locus, Biology, Horticulture, Genetic analysis, Laboratorium voor Plantenveredeling, PRI Biodiversiteit en Veredeling, parasitic diseases, Genetics, abscisic-acid biosynthesis, Plant breeding, water-use efficiency, Water-use efficiency, ascorbate peroxidase, transcription factor, business.industry, EPS-2, molecular-cloning, fungi, genotypic differences, vigna-unguiculata l, food and beverages, enzymatic-activity, Marker-assisted selection, freezing tolerance, Biotechnology, PRI Biodiversity and Breeding, Plant Breeding, Agronomy, Trait, business, Agronomy and Crop Science, medicago-truncatula

Abstract

This review presents an overview of accomplishments on different aspects of cowpea breeding for drought tolerance. Furthermore it provides options to enhance the genetic potential of the crop by minimizing yield loss due to drought stress. Recent efforts have focused on the genetic dissection of drought tolerance through identification of markers defining quantitative trait loci (QTL) with effects on specific traits related to drought tolerance. Others have studied the relationship of the drought response and yield components, morphological traits and physiological parameters. To our knowledge, QTLs with effects on drought tolerance have not yet been identified in cowpea. The main reason is that very few researchers are working on drought tolerance in cowpea. Some other reasons might be related to the complex nature of the drought stress response, and partly to the difficulties associated with reliable and reproducible measurements of a single trait linked to specific molecular markers to be used for marker assisted breeding. Despite the fact that extensive research has been conducted on the screening aspects for drought tolerance in cowpea only very few—like the ‘wooden box’ technique—have been successfully used to select parental genotypes exhibiting different mechanisms of drought tolerance. Field and pot testing of these genotypes demonstrated a close correspondence between drought tolerance at seedling and reproductive stages. Some researchers selected a variety of candidate genes and used differential screening methods to identify cDNAs from genes that may underlie different drought tolerance pathways in cowpea. Reverse genetic analysis still needs to be done to confirm the functions of these genes in cowpea. Understanding the genetics of drought tolerance and identification of DNA markers linked to QTLs, with a clear path towards localizing chromosomal regions or candidate genes involved in drought tolerance will help cowpea breeders to develop improved varieties that combine drought tolerance with other desired traits using marker assisted selection.

Published

2009

57. A genetic linkage map of Vigna vexillata

Author

G. Thottappilly, Christian Fatokun, Ebenezer A. Ogundiwin, M. Pillay, and M. E. AkenOva

Subjects

Genetics, biology, Carmovirus, food and beverages, Locus (genetics), Plant Science, Quantitative trait locus, medicine.disease, biology.organism_classification, Genome, RAPD, Gene mapping, Genetic linkage, medicine, Mottle, Agronomy and Crop Science

Abstract

Vigna vexillata is a wild cross-incompatible relative of cowpea. It is highly resistant to several diseases and pests plaguing cowpea. A linkage map was developed for V. vexillata comprising 120 markers, including 70 random amplified polymorphic DNAs, 47 amplified fragment length polymorphisms, one simple sequence repeat and two morphological traits namely, the cowpea mottle carmovirus resistance locus (CPMoV) and leaf shape (La), utilizing an F 2 generation of the intra-specific cross 'Tvnu 1443' × 'Tvnu 73'. The genetic map comprised 14 linkage groups spanning 1564.1 cM of the genome. Thirty-nine quantitative trait loci (QTLs) associated with nine traits were detected on the linkage map, explaining between 15.62 and 66.58% of their phenotypic variation. Seven chromosomal intervals contained QTLs with effects on multiple traits.

Published

2005

58. Resistance to cowpea mottle carmovirus in Vigna vexillata

Author

G. Thottappilly, Ebenezer A. Ogundiwin, E. J. A. Ekpo, M. E. AkenOva, and Christian Fatokun

Subjects

Germplasm, biology, Resistance (ecology), Inoculation, Carmovirus, Vigna vexillata, food and beverages, Plant Science, biology.organism_classification, medicine.disease, Vigna, Horticulture, Backcrossing, Botany, Genetics, medicine, Mottle, Agronomy and Crop Science

Abstract

Cowpea mottle carmovirus (CPMoV) causes grain yield losses of up to 75% in cowpea (Vigna unguiculata [L.] Walp.). There is no resistance to this virus among cultivated cowpea lines, but a high level of resistance exists in Vigna vexillata, a wild Vigna species. Fifty-four accessions of V. vexillata germplasm collection at IITA were tested for resistance to CPMoV. Seedlings were mechanically inoculated with the virus and susceptibility or resistance was assessed by visual scoring of disease symptoms and serological analysis using antigen-coated plate enzyme-linked immunosorbent assay (ACP-ELISA). All but three V. vexillata lines belonging to the variety angustifolia were resistant to CPMoV. Crosses were made between two resistant V. vexillata lines and the three susceptible lines. Segregation patterns observed in the F2 and the backcross populations of all the crosses showed that resistance to CPMoV in V. vexillata is controlled by a single dominant gene, and the level of resistance conferred by this gene in V. vexillata is very high.

Published

2002

59. Growth and yield responses of cowpea genotypes to soluble and rock P fertilizers on acid, highly weathered soil from humid tropical West Africa

Author

Grace Adusei, Christian Fatokun, Ousmane Boukar, and Thomas Gaiser

Subjects

0106 biological sciences, Tropical agriculture, Phosphorus, food and beverages, Tropics, chemistry.chemical_element, 04 agricultural and veterinary sciences, Biology, 01 natural sciences, chemistry.chemical_compound, chemistry, Agronomy, Phosphorite, Potassium phosphate, Alfisol, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Cultivar, Rock phosphate, mono potassium phosphate, Alfisol soil, 010606 plant biology & botany

Abstract

Soils in tropical regions have inadequate levels of phosphorus and this apparently leads to reduced cowpea yield in Africa. Identifying phosphorus-efficient cultivars have the potential to reduce the demand for phosphorus fertilizer and increase the productivity of cowpea. This study was conducted to identify cowpea genotypes that maintain high yields under low soil phosphorus condition. A green-house experiment was conducted at the International Institute of Tropical Agriculture, Ibadan, Nigeria. Fifteen cowpea genotypes were used with two sources of phosphorus fertilisers: rock phosphate (60, 90 and 120 mg P kg −1 soil) and mono potassium phosphate (30, 60 and 90 mg P kg −1 soil) and compared to the control. The experiment was laid out in a strip plot arrangement with three replications. The findings suggested that large geneticvariability exist among the tested cowpea genotypes. IT90K-59 was identified as best phosphorus responder genotype for biomass production and IT90K-76 for grain yield at a rate of 60 mg P kg−1 soil as mono potassium phosphate. Danila and IT89KD-288 were identified as promising genotypes under no or minimal external P application. Five genotypes were identified as good responders to rock phosphate based on their grain yield production. The differential response of the genotypes to low soil phosphorus implies that these traits warrant effective selection for further improvement. Thus, identifying genotypes that can grow well in low phosphorus condition has the potential to reduce the quantity of mineral fertilizersand cost of production. © 2016 International Formulae Group. All rights reserved. Keywords: Rock phosphate, mono potassium phosphate, Alfisol soil

Published

2017

60. Gene Pools and the Genetic Architecture of Domesticated Cowpea

Author

Philip A. Roberts, Zhiqiu Hu, Steve Wanamaker, Ndeye N. Diop, Antonio David, Rogerio Chiulele, Timothy J. Close, Sarah Hearne, Bao-Lam Huynh, Christian Fatokun, Jeffrey D. Ehlers, Mitchell R. Lucas, and Ndiaga Cisse

Subjects

Germplasm, biology, lcsh:QH426-470, Introgression, food and beverages, Plant Science, lcsh:Plant culture, biology.organism_classification, Major gene, Vigna, Crop, lcsh:Genetics, Agronomy, Genetic variation, Genetics, lcsh:SB1-1110, Gene pool, Domestication, Agronomy and Crop Science

Abstract

Cowpea [Vigna unguiculata (L.) Walp.] is a major tropical legume crop grown in warm to hot areas throughout the world and especially important to the people of sub-Saharan Africa where the crop was domesticated. To date, relatively little is understood about its domestication origins and patterns of genetic variation. In this study, a worldwide collection of cowpea landraces and African ancestral wild cowpea was genotyped with more than 1200 single nucleotide polymorphism markers. Bayesian inference revealed the presence of two major gene pools in cultivated cowpea in Africa. Landraces from gene pool 1 are mostly distributed in western Africa while the majority of gene pool 2 are located in eastern Africa. Each gene pool is most closely related to wild cowpea in the same geographic region, indicating divergent domestication processes leading to the formation of two gene pools. The total genetic variation within landraces from countries outside Africa was slightly greater than within African landraces. Accessions from Asia and Europe were more related to those from western Africa while accessions from the Americas appeared more closely related to those from eastern Africa. This delineation of cowpea germplasm into groups of genetic relatedness will be valuable for guiding introgression efforts in breeding programs and for improving the efficiency of germplasm management.

Published

2013

61. Cowpea

Author

Ousmane Boukar, Ranjana Bhattacharjee, Christian Fatokun, P. Lava Kumar, and Badara Gueye

Published

2013

62. List of Contributors

Author

Amri Ahmed, Hamwieh Aladdin, Surendra Barpete, Michael Baum, Ranjana Bhattacharjee, Ishwari Singh Bisht, Ousmane Boukar, R.K. Chahota, Clarice Coyne, Christian Fatokun, Maalouf Fouad, C.L. Laxmipathi Gowda, Badara Gueye, Priyanka Gupta, Naresh Kumar, Shiv Kumar, P. Lava Kumar, Lucia Lioi, P.N. Mathur, Nigel Maxted, Rebecca McGee, Nawar Mohammed, Angela R. Piergiovanni, J.C. Rana, Robert Redden, K.N. Reddy, Manish Roorkiwal, A. Sarker, Rachit Saxena, S.K. Sharma, Shivali Sharma, T.R. Sharma, Bao Shiying, Mohar Singh, Petr Smýkal, Yang Tao, H. Thomas Stalker, Hari D. Upadhyaya, Rajeev K. Varshney, and Zong Xuxiao

Published

2013

63. RFLP mapping of an aphid resistance gene in cowpea (Vigna unguiculata L. Walp)

Author

Gerald O. Myers, Nevin D. Young, and Christian Fatokun

Subjects

Genetics, Aphid, food and beverages, Aphididae, Plant Science, Horticulture, Biology, biology.organism_classification, Vigna, chemistry.chemical_compound, chemistry, Gene mapping, Genetic marker, Molecular marker, Botany, Restriction fragment length polymorphism, Aphis craccivora, Agronomy and Crop Science

Abstract

Restriction fragment length polymorphism (RFLP) analysis has several advantages over traditional methods of genetic linkage mapping, one of these being the starting point for map-based cloning. The recent development of an RFLP map of cowpea (Vigna unguiculata L. Walp) has allowed the investigation of associations between genes of interest and RFLP markers. A cross between an aphid (Aphis craccivora Koch) resistant cultivated cowpea, TT84S-2246-4, and an aphid susceptible wild cowpea, NI 963, was screened for both aphid phenotype and RFLP marker segregation. One RFLP marker, bg4D9b, was found to be tightly linked to the aphid resistance gene (Rac 1) and several flanking markers in the same linkage group (linkage group 1) were also identified. The close association of Rac 1 and RFLP bg4D9b presents a real potential for cloning this insect resistance gene.

Published

1996

64. Leaf morphology in Cowpea [Vigna unguiculata (L.) Walp]: QTL analysis, physical mapping and identifying a candidate gene using synteny with model legume species

Author

Timothy J. Close, Christian Fatokun, Jeffrey D. Ehlers, Marti Pottorff, and Philip A. Roberts

Subjects

Genetic Markers, QTL analysis, lcsh:QH426-470, Genotype, lcsh:Biotechnology, Leaf morphology, Population, Quantitative Trait Loci, Arabidopsis, Inheritance Patterns, Locus (genetics), Quantitative trait locus, Genes, Plant, Models, Biological, Polymorphism, Single Nucleotide, Synteny, Chromosomes, Plant, Candidate genes, Vigna, Gene mapping, lcsh:TP248.13-248.65, Botany, Medicago truncatula, Genetics, education, Crosses, Genetic, Genetic Association Studies, Ecotype, education.field_of_study, biology, Physical map, fungi, food and beverages, Fabaceae, Genomics, biology.organism_classification, Physical Chromosome Mapping, Legumes, Plant Leaves, lcsh:Genetics, Genetic marker, Genetic Loci, Cowpea, Soybeans, Biotechnology, Research Article, EZA1/SWINGER

Abstract

Background Cowpea [Vigna unguiculata (L.) Walp] exhibits a considerable variation in leaf shape. Although cowpea is mostly utilized as a dry grain and animal fodder crop, cowpea leaves are also used as a high-protein pot herb in many countries of Africa. Results Leaf morphology was studied in the cowpea RIL population, Sanzi (sub-globose leaf shape) x Vita 7 (hastate leaf shape). A QTL for leaf shape, Hls (hastate leaf shape), was identified on the Sanzi x Vita 7 genetic map spanning from 56.54 cM to 67.54 cM distance on linkage group 15. SNP marker 1_0910 was the most significant over the two experiments, accounting for 74.7% phenotypic variance (LOD 33.82) in a greenhouse experiment and 71.5% phenotypic variance (LOD 30.89) in a field experiment. The corresponding Hls locus was positioned on the cowpea consensus genetic map on linkage group 4, spanning from 25.57 to 35.96 cM. A marker-trait association of the Hls region identified SNP marker 1_0349 alleles co-segregating with either the hastate or sub-globose leaf phenotype. High co-linearity was observed for the syntenic Hls region in Medicago truncatula and Glycine max. One syntenic locus for Hls was identified on Medicago chromosome 7 while syntenic regions for Hls were identified on two soybean chromosomes, 3 and 19. In all three syntenic loci, an ortholog for the EZA1/SWINGER (AT4G02020.1) gene was observed and is the candidate gene for the Hls locus. The Hls locus was identified on the cowpea physical map via SNP markers 1_0910, 1_1013 and 1_0992 which were identified in three BAC contigs; contig926, contig821 and contig25. Conclusions This study has demonstrated how integrated genomic resources can be utilized for a candidate gene approach. Identification of genes which control leaf morphology may be utilized to improve the quality of cowpea leaves for vegetable and or forage markets as well as contribute to more fundamental research understanding the control of leaf shape in legumes.

Published

2012