Your search keyword '"Meki S. Muktar"' showing total 21 results

1. Analysis of global Napier grass (Cenchrus purpureus) collections reveals high genetic diversity among genotypes with some redundancy between collections

Author

Meki S. Muktar, Tadelech Bizuneh, William Anderson, Yilikal Assefa, Alemayehu T. Negawo, Abel Teshome, Ermias Habte, Alice Muchugi, Tileye Feyissa, and Chris S. Jones

Subjects

Medicine, Science

Abstract

Abstract Genetic diversity amongst genotypes of several Napier grass collections was analyzed and compared with the diversity in a set of open pollinated progeny plants. A total of 114,881 SNP and 46,293 SilicoDArT genome-wide markers were generated on 574 Napier grass genotypes. Of these, 86% of the SNP and 66% of the SilicoDArT markers were mapped onto the fourteen chromosomes of the Napier grass genome. For genetic diversity analysis, a subset of highly polymorphic and informative SNP markers was filtered using genomic position information, a maximum of 10% missing values, a minimum minor allele frequency of 5%, and a maximum linkage-disequilibrium value of 0.5. Extensive genetic variation, with an average Nei’s genetic distance value of 0.23, was identified in the material. The genotypes clustered into three major and eleven sub-clusters with high levels of genetic variation contained both within (54%) and between (46%) clusters. However, we found that there was low to moderate genetic differentiation among the collections and that some overlap and redundancy occurred between collections. The progeny plants were genetically diverse and divergent from the germplasm collections, with an average F ST value of 0.08. We also reported QTL regions associated with forage biomass yield based on field phenotype data measured on a subset of the Napier grass collections. The findings of this study offer useful information for Napier grass breeding strategies, enhancement of genetic diversity, and provide a guide for the management and conservation of the collections.

Published

2023

2. Insights Into the Genetic Architecture of Complex Traits in Napier Grass (Cenchrus purpureus) and QTL Regions Governing Forage Biomass Yield, Water Use Efficiency and Feed Quality Traits

Author

Meki S. Muktar, Ermias Habte, Abel Teshome, Yilikal Assefa, Alemayehu T. Negawo, Ki-Won Lee, Jiyu Zhang, and Chris S. Jones

Subjects

agro-morphological, elephant grass, GWAS, feed quality, anthocyanin, QTL, Plant culture, SB1-1110

Abstract

Napier grass is the most important perennial tropical grass native to Sub-Saharan Africa and widely grown in tropical and subtropical regions around the world, primarily as a forage crop for animal feed, but with potential as an energy crop and in a wide range of other areas. Genomic resources have recently been developed for Napier grass that need to be deployed for genetic improvement and molecular dissection of important agro-morphological and feed quality traits. From a diverse set of Napier grass genotypes assembled from two independent collections, a subset of 84 genotypes (although a small population size, the genotypes were selected to best represent the genetic diversity of the collections) were selected and evaluated for 2 years in dry (DS) and wet (WS) seasons under three soil moisture conditions: moderate water stress in DS (DS-MWS); severe water stress in DS (DS-SWS) and, under rainfed (RF) conditions in WS (WS-RF). Data for agro-morphological and feed quality traits, adjusted for the spatial heterogeneity in the experimental blocks, were collected over a 2-year period from 2018 to 2020. A total of 135,706 molecular markers were filtered, after removing markers with missing values >10% and a minor allele frequency (MAF)

Published

2022

3. Genetic Diversity, Population Structure and Subset Development in a Sesbania sesban Collection

Author

Alemayehu Teressa Negawo, Habib Olumide Akinmade, Meki S. Muktar, Ermias Habte, Yilikal Assefa, Alice Muchugi, Alieu M. Sartie, and Chris S. Jones

Subjects

DArTSeq, genetic diversity, Sesbania sesban, subset, Botany, QK1-989

Abstract

Sesbania sesban (L.) Merr. is a multipurpose legume tree grown primarily for fodder and forage in the tropical and subtropical world. In this study, the Sesbania sesban collection maintained in the International Livestock Research Institute (ILRI) forage Genebank was studied using genome-wide markers generated on the DArTseq platform. Genotyping produced 84,673 and 60,626 SNP and SilicoDArT markers with a mean polymorphic information content of 0.153 and 0.123, respectively. From the generated markers, 7587 and 15,031 highly informative SNP and SilicoDArT markers, respectively, were filtered and used for genetic diversity analysis and subset development. Analysis of molecular variance (AMOVA) revealed higher variability ‘within’ (52.73% for SNP markers and 67.36% for SilicoDArT markers) than ‘between’ accessions. Hierarchical cluster analysis showed the presence of four main clusters in the collection. Mantel correlation analysis showed a lack of relationship between genetic variation of the germplasm and their geographical origin. A representative subset of 34 accessions containing germplasm from diverse origins and agro-ecologies was developed using SNP markers. The genetic diversity information generated in this study could be used for marker-assisted screening for stress tolerance, gap analysis and identification and acquisition of new distinct genotype(s) to broaden the genetic basis of the collection for future improvement programs to develop high-yielding, stress-tolerant varieties for enhancing food and environmental security in crop–livestock-based production systems.

Published

2022

4. Productivity and Feed Quality Performance of Napier Grass (Cenchrus purpureus) Genotypes Growing under Different Soil Moisture Levels

Author

Ermias Habte, Abel Teshome, Meki S. Muktar, Yilikal Assefa, Alemayehu T. Negawo, Juarez Campolina Machado, Francisco José da Silva Ledo, and Chris S. Jones

Subjects

Napier grass, Elephant grass, soil moisture stress, water use efficiency, feed quality, forage biomass, Botany, QK1-989

Abstract

In the semi-arid and arid environments of Sub-Sharan Africa, forage availability throughout the year is insufficient and highly limited during the dry seasons due to limited precipitation. Thus, the identification of drought stress-tolerant forage cultivars is one of the main activities in forage development programs. In this study, Napier grass (Cenchrus purpureus), an important forage crop in Eastern and Central Africa that is broadly adapted to produce across tropical environments, was evaluated for its water use efficiency and production performance under field drought stress conditions. Eighty-four Napier grass genotypes were evaluated for their drought stress tolerance from 2018 to 2020 using agro-morphological and feed quality traits under two soil moisture stress regimes during the dry season, i.e., moderate (MWS) and severe (SWS) water stress conditions, and under rainfed conditions in the wet season (wet). Overall, the results indicated the existence of genotype variation for the traits studied. In general, the growth and productivity of the genotypes declined under SWS compared to MWS conditions. High biomass-yielding genotypes with enhanced WUE were consistently observed across harvests in each soil moisture stress regime. In addition, the top biomass-yielding genotypes produced the highest annual crude protein yield, indicating the possibility of developing high-feed-quality Napier grass genotypes for drought stress environments.

Published

2022

5. Molecular markers as a tool for germplasm acquisition to enhance the genetic diversity of a Napier grass (Cenchrus purpureus syn. Pennisetum purpureum) collection

Author

Alemayehu T. Negawo, Alexandra Jorge, Jean Hanson, Abel Teshome, Meki S. Muktar, Ana Luisa S. Azevedo, Francisco J.S. Ledo, Juarez C. Machado, and Chris S. Jones

Subjects

Agriculture

Abstract

At the International Livestock Research Institute (ILRI), Addis Ababa, Ethiopia, 171 germplasm accessions of Napier grass were studied using 20 SSR markers with the objective of assessing the allelic richness and genetic diversity of the collections held at ILRI and the Brazilian Agricultural Research Corporation (EMBRAPA), and to determine distinct accessions to be introduced to enhance the diversity in each of the genebank collections. A total of 148 alleles were observed in the whole collection, of which 140 and 93 alleles were observed in the ILRI and EMBRAPA collections, respectively. Fifty-five and 8 alleles were found to be unique to the ILRI and EMBRAPA collections, respectively, while 85 alleles were shared between the collections. The number of alleles per marker ranged from 1 to 23 with an average value of 7.4 across both collections. The heterozygosity per locus ranged from 0.000 to 0.808 with an average value of 0.463. A principal coordinate analysis grouped accessions into 3 main groups, whereas a hierarchical cluster analysis indicated 4 main clusters. From a genebank management and conservation perspective, the marker profile of the accessions was used in the process of selecting and acquiring distinct lines to be added to the ILRI and EMBRAPA collections. Accordingly, 54 accessions and elite lines were selected and introduced from EMBRAPA to the ILRI collection, while 8 distinct accessions from ILRI were added to the EMBRAPA collection. In general, a useful marker profile of an expanded Napier grass collection has been generated which could be used to enhance the conservation, use and management of the available genetic resources of this important forage crop.

Published

2018

6. Forage Performance and Detection of Marker Trait Associations with Potential for Napier Grass (Cenchrus purpureus) Improvement

Author

Ermias Habte, Meki S. Muktar, Asebe Abdena, Jean Hanson, Alieu M. Sartie, Alemayehu T. Negawo, Juarez Campolina Machado, Francisco José da Silva Ledo, and Chris S. Jones

Subjects

Napier grass, elephant grass, EMBRAPA, forage yield, feed quality, marker trait association, Agriculture

Abstract

The evaluation of forage crops for adaptability and performance across production systems and environments is one of the main strategies used to improve forage production. To enhance the genetic resource base and identify traits responsible for increased feed potential of Napier grass, forty-five genotypes from Empresa Brasileira de Pesquisa Agropecuária (EMBRAPA), Brazil, were evaluated for forage biomass yield and feed nutritional quality in a replicated trial under wet and dry season conditions in Ethiopia. The results revealed significant variation in forage yield and feed nutritional qualities among the genotypes and between the wet and dry seasons. Feed fiber components were lower in the dry season, while crude protein, in vitro organic matter digestibility, and metabolizable energy were higher. Based on the cumulative biomass and metabolizable energy yield, top performing genotypes were identified that are candidates for future forage improvement studies. Furthermore, the marker-trait association study identified diagnostic single nucleotide polymorphisms (SNP) and SilicoDArT markers and potential candidate genes that could differentiate high biomass yielding and high metabolizable energy genotypes in the collection.

Published

2020

7. Genotyping-By-Sequencing Reveals Population Structure and Genetic Diversity of a Buffelgrass (Cenchrus ciliaris L.) Collection

Author

Alemayehu Teressa Negawo, Yilikal Assefa, Jean Hanson, Asebe Abdena, Meki S. Muktar, Ermias Habte, Alieu M. Sartie, and Chris S. Jones

Subjects

buffelgrass (cenchrus ciliaris), core collection, genotyping-by-sequencing, genetic diversity, snp markers, Biology (General), QH301-705.5

Abstract

Buffelgrass (Cenchrus ciliaris L.) is an important forage grass widely grown across the world with many good characteristics including high biomass yield, drought tolerance, and adaptability to a wide range of soil conditions and agro-ecologies. Two hundred and five buffelgrass accessions from diverse origins, conserved as part of the in-trust collection in the ILRI genebank, were analyzed by genotyping-by-sequencing using the DArTseq platform. The genotyping generated 234,581 single nucleotide polymorphism (SNP) markers, with polymorphic information content (PIC) values ranging from 0.005 to 0.5, and the short sequences of the markers were aligned with foxtail millet (Setaria italica) as a reference genome to generate genomic map positions of the markers. One thousand informative SNP markers, representing a broad coverage of the reference genome and with an average PIC value of 0.35, were selected for population structure and diversity analyses. The population structure analysis suggested two main groups, while the hierarchical clustering showed up to eight clusters in the collection. A representative core collection containing 20% of the accessions in the collection, with germplasm from 10 African countries and Oman, was developed. In general, the study revealed the presence of considerable genetic diversity and richness in the collection and a core collection that could be used for further analysis for specific traits of interest.

Published

2020

8. The elephant grass ( Cenchrus purpureus ) genome provides insights into anthocyanidin accumulation and fast growth

Author

Yi Xianfeng, Fan Wu, Pan Xu, Qi Yan, Jiyu Zhang, Jie Li, Lijuan Gao, Liyan Lu, Zongyi Sun, Meki S. Muktar, Dongdong Chen, and Christopher S. Jones

Subjects

0106 biological sciences, 0301 basic medicine, anthocyanidin biosynthesis, C4 photosynthesis, plant hormone, 010603 evolutionary biology, 01 natural sciences, Genome, Anthocyanins, Crop, 03 medical and health sciences, Polyploid, Cenchrus, Botany, otorhinolaryngologic diseases, Genetics, Resource Article, Pennisetum purpureum, Permanent Genetic Resources, Gene, reference genome, Ecology, Evolution, Behavior and Systematics, Synteny, elephant grass, biology, RESOURCE ARTICLES, food and beverages, biology.organism_classification, Plant Breeding, 030104 developmental biology, Africa, comparative genomic, Genome, Plant, Biotechnology, Reference genome

Abstract

Elephant grass (2n = 4x = 28; Cenchrus purpureus Schumach.), also known as Napier grass, is an important forage grass and potential energy crop in tropical and subtropical regions of Asia, Africa and America. However, no study has yet reported a genome assembly for elephant grass at the chromosome scale. Here, we report a high‐quality chromosome‐scale genome of elephant grass with a total size of 1.97 Gb and a 1.5% heterozygosity rate, obtained using short‐read sequencing, single‐molecule long‐read sequencing and Hi‐C chromosome conformation capture. Evolutionary analysis showed that subgenome A' of elephant grass and pearl millet may have originated from a common ancestor more than 3.22 million years ago (MYA). Further, allotetraploid formation occurred at approximately 6.61 MYA. Syntenic analyses within elephant grass and with other grass species indicated that elephant grass has experienced chromosomal rearrangements. We found that some key enzyme‐encoding gene families related to the biosynthesis of anthocyanidins and flavonoids were expanded and highly expressed in leaves, which probably drives the production of these major anthocyanidin compounds and explains why this elephant grass cultivar has a high anthocyanidin content. In addition, we found a high copy number and transcript levels of genes involved in C4 photosynthesis and hormone signal transduction pathways that may contribute to the fast growth of elephant grass. The availability of elephant grass genome data advances our knowledge of the genetic evolution of elephant grass and will contribute to further biological research and breeding as well as for other polyploid plants in the genus Cenchrus.

Published

2020

9. Insights Into the Genetic Architecture of Complex Traits in Napier Grass (Cenchrus purpureus) and QTL Regions Governing Forage Biomass Yield, Water Use Efficiency and Feed Quality Traits

Author

Jiyu Zhang, Ermias Habte, Ki-Won Lee, Alemayehu Teressa Negawo, Abel Teshome, Meki S. Muktar, Yilikal Assefa, and Christopher S. Jones

Subjects

Genetic diversity, elephant grass, biology, Animal feed, QTL, feed quality, Plant culture, Forage, Plant Science, Quantitative trait locus, biology.organism_classification, Genetic architecture, anthocyanin, agro-morphological, SB1-1110, Energy crop, Agronomy, GWAS, Pennisetum purpureum, Water-use efficiency

Abstract

Napier grass is the most important perennial tropical grass native to Sub-Saharan Africa and widely grown in tropical and subtropical regions around the world, primarily as a forage crop for animal feed, but with potential as an energy crop and in a wide range of other areas. Genomic resources have recently been developed for Napier grass that need to be deployed for genetic improvement and molecular dissection of important agro-morphological and feed quality traits. From a diverse set of Napier grass genotypes assembled from two independent collections, a subset of 84 genotypes (although a small population size, the genotypes were selected to best represent the genetic diversity of the collections) were selected and evaluated for 2 years in dry (DS) and wet (WS) seasons under three soil moisture conditions: moderate water stress in DS (DS-MWS); severe water stress in DS (DS-SWS) and, under rainfed (RF) conditions in WS (WS-RF). Data for agro-morphological and feed quality traits, adjusted for the spatial heterogeneity in the experimental blocks, were collected over a 2-year period from 2018 to 2020. A total of 135,706 molecular markers were filtered, after removing markers with missing values >10% and a minor allele frequency (MAF)

Published

2022

10. Genetic Diversity and Population Structure of a Rhodes Grass (Chloris gayana) Collection

Author

Christopher S. Jones, Ermias Habte, Meki S. Muktar, Alemayehu Teressa Negawo, Alieu Sartie, Yilikal Assefa, and Jean Hanson

Subjects

Germplasm, Genetic diversity, biology, Rhodes grass (Chloris gayana), Forage, genetic diversity, QH426-470, biology.organism_classification, Chloris gayana, Cophenetic, Agronomy, Genetic variation, Genetics, SNP, biochemistry, subset, DArTSeq markers, Genotyping, Genetics (clinical)

Abstract

Rhodes grass (Chloris gayana Kunth) is one of the most important forage grasses used throughout the tropical and subtropical regions of the world. Enhancing the conservation and use of genetic resources requires the development of knowledge and understanding about the existing global diversity of the species. In this study, 104 Rhodes grass accessions, held in trust in the ILRI forage genebank, were characterized using DArTSeq markers to evaluate the genetic diversity and population structure, and to develop representative subsets, of the collection. The genotyping produced 193,988 SNP and 142,522 SilicoDArT markers with an average polymorphic information content of 0.18 and 0.26, respectively. Hierarchical clustering using selected informative markers showed the presence of two and three main clusters using SNP and SilicoDArT markers, respectively, with a cophenetic correction coefficient of 82%. Bayesian population structure analysis also showed the presence of two main subpopulations using both marker types indicating the existence of significant genetic variation in the collection. A representative subset, containing 21 accessions from diverse origins, was developed using the SNP markers. In general, the results revealed substantial genetic diversity in the Rhodes grass collection, and the generated molecular information, together with the developed subset, should help enhance the management, use and improvement of Rhodes grass germplasm in the future.

Published

2021

11. An Overview of Teff (Eragrostis teff Zuccagni) Trotter ) as a Potential Summer Forage Crop in Temperate Systems

Author

Ki Won Lee, Christopher S. Jones, Sang-Hoon Lee, Meki S. Muktar, Ermias Habte, and Alemayehu Teressa Negawo

Subjects

biology, media_common.quotation_subject, Drought tolerance, Eragrostis, Warm season, biology.organism_classification, Adaptability, Agronomy, Temperate climate, Environmental science, Cool season, Water use, Forage crop, media_common

Abstract

The production of traditional cool season grasses in temperate regions is becoming hampered during summer seasons due to water deficit. Thus, incorporating water use efficient warm season annual grasses are generally considered to fill the gap of summer season forage reduction that would offer considerable flexibility and adaptability to respond to forage demand. Teff (Eragrostis teff Zuccagni) Trotter) is, a C4 drought tolerant warm season annual grass primarily grown for grain production, recently gaining interest for forage production particularly during summer season. Previous reports have showed that teff is palatable and has comparable forage biomass and feed quality as compared to other warm season annual grasses which would make it an alternative forage. However, the available data are not comprehensive to explore the potential of teff as forage, hence further assessment of genotype variability and performance along with compatibility study of teff with forage production system of specific environment is key for future utilization.

Published

2019

12. Genetic Diversity and Population Structure of a Rhodes Grass (

Author

Alemayehu Teressa, Negawo, Meki S, Muktar, Yilikal, Assefa, Jean, Hanson, Alieu M, Sartie, Ermias, Habte, and Chris S, Jones

Subjects

Rhodes grass (Chloris gayana), Genotype, Genetic Variation, High-Throughput Nucleotide Sequencing, subset, genetic diversity, DArTSeq markers, Genes, Plant, Poaceae, Article

Abstract

Rhodes grass (Chloris gayana Kunth) is one of the most important forage grasses used throughout the tropical and subtropical regions of the world. Enhancing the conservation and use of genetic resources requires the development of knowledge and understanding about the existing global diversity of the species. In this study, 104 Rhodes grass accessions, held in trust in the ILRI forage genebank, were characterized using DArTSeq markers to evaluate the genetic diversity and population structure, and to develop representative subsets, of the collection. The genotyping produced 193,988 SNP and 142,522 SilicoDArT markers with an average polymorphic information content of 0.18 and 0.26, respectively. Hierarchical clustering using selected informative markers showed the presence of two and three main clusters using SNP and SilicoDArT markers, respectively, with a cophenetic correction coefficient of 82%. Bayesian population structure analysis also showed the presence of two main subpopulations using both marker types indicating the existence of significant genetic variation in the collection. A representative subset, containing 21 accessions from diverse origins, was developed using the SNP markers. In general, the results revealed substantial genetic diversity in the Rhodes grass collection, and the generated molecular information, together with the developed subset, should help enhance the management, use and improvement of Rhodes grass germplasm in the future.

Published

2021

13. Genetic Diversity and Population Structure of a Rhodes Grass (Chloris gayana) Collection

Author

Alieu Sartie, Yilikal Assefa, Jean Hanson, Meki S. Muktar, Alemayehu Teressa Negawo, Christopher S. Jones, and Ermias Habte

Subjects

Cophenetic, Germplasm, Chloris gayana, Genetic diversity, Agronomy, Genetic variation, SNP, Forage, Biology, biology.organism_classification, Genotyping

Abstract

Rhodes grass (Chloris gayana Kunth) is one of the most important forage grasses used throughout the tropical and subtropical regions of the world. Enhancing the conservation and use of genetic resources requires the development of knowledge and understanding about the existing global diversity of the species. In this study, 104 Rhodes grass accessions, held in trust in the ILRI forage genebank, were characterized using DArTSeq markers to evaluate the genetic diversity and population structure, and to develop representative subsets, of the collection. The genotyping produced 193,988 SNP and 142,522 SilicoDArT markers with an average polymorphic information content of 0.18 and 0.26, respectively. Hierarchical clustering using selected informative markers showed the presence of two and three main clusters using SNP and SilicoDArT markers, respectively, with a cophenetic correction coefficient of 82 %. Bayesian population structure analysis also showed the presence of two main subpopulations using both marker types indicating the existence of significant genetic variation in the collection. A representative subset, containing 21 accessions from diverse origins, was developed using the SNP markers. In general, the results revealed substantial genetic diversity in the Rhodes grass collection and the generated molecular information, together with the developed subset, should help enhance the management, use and improvement of Rhodes grass germplasm in the future.

Published

2021

14. Insights Into the Genetic Architecture of Complex Traits in Napier Grass (

Author

Meki S, Muktar, Ermias, Habte, Abel, Teshome, Yilikal, Assefa, Alemayehu T, Negawo, Ki-Won, Lee, Jiyu, Zhang, and Chris S, Jones

Subjects

elephant grass, QTL, feed quality, GWAS, Plant Science, water-use efficiency, anthocyanin, Original Research, agro-morphological

Abstract

Napier grass is the most important perennial tropical grass native to Sub-Saharan Africa and widely grown in tropical and subtropical regions around the world, primarily as a forage crop for animal feed, but with potential as an energy crop and in a wide range of other areas. Genomic resources have recently been developed for Napier grass that need to be deployed for genetic improvement and molecular dissection of important agro-morphological and feed quality traits. From a diverse set of Napier grass genotypes assembled from two independent collections, a subset of 84 genotypes (although a small population size, the genotypes were selected to best represent the genetic diversity of the collections) were selected and evaluated for 2 years in dry (DS) and wet (WS) seasons under three soil moisture conditions: moderate water stress in DS (DS-MWS); severe water stress in DS (DS-SWS) and, under rainfed (RF) conditions in WS (WS-RF). Data for agro-morphological and feed quality traits, adjusted for the spatial heterogeneity in the experimental blocks, were collected over a 2-year period from 2018 to 2020. A total of 135,706 molecular markers were filtered, after removing markers with missing values >10% and a minor allele frequency (MAF)

Published

2021

15. Forage Performance and Detection of Marker Trait Associations with Potential for Napier Grass (Cenchrus Purpureus) Improvement

Author

Juarez Campolina Machado, Jean Hanson, Alemayehu Teressa Negawo, Ermias Habte, Asebe Abdena, Francisco José da Silva Lédo, Meki S. Muktar, Alieu Sartie, and Christopher S. Jones

Subjects

chemistry.chemical_classification, media_common.quotation_subject, Potential candidate, Biomass, Forage, Biology, Adaptability, Cenchrus purpureus, chemistry, Agronomy, Dry season, Trait, Organic matter, media_common

Abstract

The evaluation of forage crops for adaptability and performance across production systems and environments is one of the main strategies used to improve forage production. To enhance the genetic resource base and identify traits responsible for increased feed potential of Napier grass, forty-five genotypes from Empresa Brasileira de Pesquisa Agropecuaria (EMBRAPA), Brazil, were evaluated for forage biomass yield and feed nutritional quality in a replicated trial under wet and dry season conditions in Ethiopia. The results revealed significant variation in forage yield and feed nutritional qualities among the genotypes and between the wet and dry seasons. Feed fiber components were lower in the dry season, while crude protein, in vitro organic matter digestibility, and metabolizable energy were higher. Based on the cumulative biomass and metabolizable energy yield, top performing genotypes were identified that are candidates for future forage improvement studies. Furthermore, the marker-trait association study identified diagnostic single nucleotide polymorphisms (SNP) and SilicoDArT markers and potential candidate genes that could differentiate high biomass yielding and high metabolizable energy genotypes in the collection.

Published

2020

16. Genotyping-By-Sequencing Reveals Population Structure and Genetic Diversity of a Buffelgrass (Cenchrus ciliaris L.) Collection

Author

Ermias Habte, Meki S. Muktar, Alieu Sartie, Jean Hanson, Alemayehu Teressa Negawo, Christopher S. Jones, Asebe Abdena, and Yilikal Assefa

Subjects

0106 biological sciences, Germplasm, Setaria, Single-nucleotide polymorphism, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Cenchrus ciliaris, genotyping-by-sequencing, buffelgrass (cenchrus ciliaris), Genotyping, lcsh:QH301-705.5, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, Genetic diversity, Ecology, biology, Ecological Modeling, genetic diversity, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), lcsh:Biology (General), Evolutionary biology, Foxtail, snp markers, core collection, Reference genome

Abstract

Buffelgrass (Cenchrus ciliaris L.) is an important forage grass widely grown across the world with many good characteristics including high biomass yield, drought tolerance, and adaptability to a wide range of soil conditions and agro-ecologies. Two hundred and five buffelgrass accessions from diverse origins, conserved as part of the in-trust collection in the ILRI genebank, were analyzed by genotyping-by-sequencing using the DArTseq platform. The genotyping generated 234,581 single nucleotide polymorphism (SNP) markers, with polymorphic information content (PIC) values ranging from 0.005 to 0.5, and the short sequences of the markers were aligned with foxtail millet (Setaria italica) as a reference genome to generate genomic map positions of the markers. One thousand informative SNP markers, representing a broad coverage of the reference genome and with an average PIC value of 0.35, were selected for population structure and diversity analyses. The population structure analysis suggested two main groups, while the hierarchical clustering showed up to eight clusters in the collection. A representative core collection containing 20% of the accessions in the collection, with germplasm from 10 African countries and Oman, was developed. In general, the study revealed the presence of considerable genetic diversity and richness in the collection and a core collection that could be used for further analysis for specific traits of interest.

Published

2020

17. Molecular markers as a tool for germplasm acquisition to enhance the genetic diversity of a Napier grass (Cenchrus purpureus syn. Pennisetum purpureum) collection

Author

Juarez Campolina Machado, Abel Teshome, Christopher S. Jones, Alexandra Jorge, Francisco José da Silva Lédo, Alemayehu Teressa Negawo, Ana Luisa Sousa Azevedo, Jean Hanson, and Meki S. Muktar

Subjects

0106 biological sciences, 0301 basic medicine, Germplasm, Genetic diversity, biology, business.industry, Biodiversity, Plant Science, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Cenchrus purpureus, Agronomy, Agriculture, Livestock, Pennisetum purpureum, business, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany, Forage crop

Abstract

At the International Livestock Research Institute (ILRI), Addis Ababa, Ethiopia, 171 germplasm accessions of Napier grass were studied using 20 SSR markers with the objective of assessing the allelic richness and genetic diversity of the collections held at ILRI and the Brazilian Agricultural Research Corporation (EMBRAPA), and to determine distinct accessions to be introduced to enhance the diversity in each of the genebank collections. A total of 148 alleles were observed in the whole collection, of which 140 and 93 alleles were observed in the ILRI and EMBRAPA collections, respectively. Fifty-five and 8 alleles were found to be unique to the ILRI and EMBRAPA collections, respectively, while 85 alleles were shared between the collections. The number of alleles per marker ranged from 1 to 23 with an average value of 7.4 across both collections. The heterozygosity per locus ranged from 0.000 to 0.808 with an average value of 0.463. A principal coordinate analysis grouped accessions into 3 main groups, whereas a hierarchical cluster analysis indicated 4 main clusters. From a genebank management and conservation perspective, the marker profile of the accessions was used in the process of selecting and acquiring distinct lines to be added to the ILRI and EMBRAPA collections. Accordingly, 54 accessions and elite lines were selected and introduced from EMBRAPA to the ILRI collection, while 8 distinct accessions from ILRI were added to the EMBRAPA collection. In general, a useful marker profile of an expanded Napier grass collection has been generated which could be used to enhance the conservation, use and management of the available genetic resources of this important forage crop.

Published

2018

18. Author Correction: Genotyping by sequencing provides new insights into the diversity of Napier grass (Cenchrus purpureus) and reveals variation in genome-wide LD patterns between collections

Author

Meki S. Muktar, Abel Teshome, Jean Hanson, Alemayehu T. Negawo, Ermias Habte, Jean-Baka Domelevo Entfellner, Ki-Won Lee, and Chris S. Jones

Subjects

Multidisciplinary, lcsh:R, lcsh:Medicine, lcsh:Q, lcsh:Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

19. Genotyping by sequencing provides new insights into the diversity of Napier grass (Cenchrus purpureus) and reveals variation in genome-wide LD patterns between collections

Author

Jean-Baka Domelevo Entfellner, Abel Teshome, Alemayehu Teressa Negawo, Meki S. Muktar, Ki-Won Lee, Christopher S. Jones, Ermias Habte, Jean Hanson, Rural Development Administration of the Republic of Korea, Germany-GIZ-Deutsche Gesellschaft für Internationale Zusammenarbeit, Gap Funding for Forage Selection and Breeding Activities, Federal Ministry for Economic Cooperation and Development, Genebank uplift Funding, Germany, and CGIAR Research Program on Livestock

Subjects

Agricultural genetics, 0301 basic medicine, Genotyping by sequencing, Genotyping, Linkage disequilibrium, Candidate gene, Cenchrus purpureus, Population, lcsh:Medicine, Single-nucleotide polymorphism, Biology, LD patterns, Genome, Article, 03 medical and health sciences, 0302 clinical medicine, education, lcsh:Science, Author Correction, Gene, education.field_of_study, Multidisciplinary, lcsh:R, Natural variation in plants, 030104 developmental biology, Genetic marker, Evolutionary biology, lcsh:Q, Napier grass, 030217 neurology & neurosurgery

Abstract

Napier grass is an important tropical forage-grass and of growing potential as an energy crop. One-hundred-five Napier grass accessions, encompassing two independent collections, were subjected to genotyping by sequencing which generated a set of high-density genome-wide markers together with short sequence reads. The reads, averaging 54 nucleotides, were mapped to the pearl millet genome and the closest genes and annotation information were used to select candidate genes linked to key forage traits. 980 highly polymorphic SNP markers, distributed across the genome, were used to assess population structure and diversity with seven-subgroups identified. A few representative accessions were selected with the objective of distributing subsets of a manageable size for further evaluation. Genome-wide linkage disequilibrium (LD) analyses revealed a fast LD-decay, on average 2.54 kbp, in the combined population with a slower LD-decay in the ILRI collection compared with the EMBRAPA collection, the significance of which is discussed. This initiative generated high-density markers with a good distribution across the genome. The diversity analysis revealed the existence of a substantial amount of variation in the ILRI collection and identified some unique materials from the EMBRAPA collection, demonstrating the potential of the overall population for further genetic and marker-trait-association studies.

Published

2019

20. Comparative transcript profiling by SuperSAGE identifies novel candidate genes for controlling potato quantitative resistance to late blight not compromised by late maturity

Author

Astrid M, Draffehn, Li, Li, Nicolas, Krezdorn, Jia, Ding, Jens, Lübeck, Josef, Strahwald, Meki S, Muktar, Birgit, Walkemeier, Björn, Rotter, and Christiane, Gebhardt

Subjects

late blight, transcript profiling, fungi, food and beverages, potato, Plant Science, Original Research Article, SAGE, marker-assisted selection

Abstract

Resistance to pathogens is essential for survival of wild and cultivated plants. Pathogen susceptibility causes major losses of crop yield and quality. Durable field resistance combined with high yield and other superior agronomic characters are therefore, important objectives in every crop breeding program. Precision and efficacy of resistance breeding can be enhanced by molecular diagnostic tools, which result from knowledge of the molecular basis of resistance and susceptibility. Breeding uses resistance conferred by single R genes and polygenic quantitative resistance. The latter is partial but considered more durable. Molecular mechanisms of plant pathogen interactions are elucidated mainly in experimental systems involving single R genes, whereas most genes important for quantitative resistance in crops like potato are unknown. Quantitative resistance of potato to Phytophthora infestans causing late blight is often compromised by late plant maturity, a negative agronomic character. Our objective was to identify candidate genes for quantitative resistance to late blight not compromised by late plant maturity. We used diagnostic DNA-markers to select plants with different field levels of maturity corrected resistance (MCR) to late blight and compared their leaf transcriptomes before and after infection with P. infestans using SuperSAGE (serial analysis of gene expression) technology and next generation sequencing. We identified 2034 transcripts up or down regulated upon infection, including a homolog of the kiwi fruit allergen kiwellin. 806 transcripts showed differential expression between groups of genotypes with contrasting MCR levels. The observed expression patterns suggest that MCR is in part controlled by differential transcript levels in uninfected plants. Functional annotation suggests that, besides biotic and abiotic stress responses, general cellular processes such as photosynthesis, protein biosynthesis, and degradation play a role in MCR.

Published

2013

21. Forage Performance and Detection of Marker Trait Associations with Potential for Napier Grass ( Cenchrus purpureus ) Improvement

Author

Alieu Sartie, Juarez Campolina Machado, Jean Hanson, Meki S. Muktar, Asebe Abdena, Christopher S. Jones, Alemayehu Teressa Negawo, Francisco José da Silva Lédo, and Ermias Habte

Subjects

0106 biological sciences, media_common.quotation_subject, forage yield, feed quality, Biomass, Forage, Biology, 01 natural sciences, Adaptability, lcsh:Agriculture, 03 medical and health sciences, agricultural_sciences_agronomy, Dry season, Organic matter, Pennisetum purpureum, EMBRAPA, marker trait association, 030304 developmental biology, media_common, chemistry.chemical_classification, elephant grass, 0303 health sciences, lcsh:S, biology.organism_classification, chemistry, Agronomy, Trait, Mixed farming, Agronomy and Crop Science, Napier grass, 010606 plant biology & botany

Abstract

The evaluation of forage crops for adaptability and performance across production systems and environments is one of the main strategies used to improve forage production. To enhance the genetic resource base and identify traits responsible for increased feed potential of Napier grass, forty-five genotypes from Empresa Brasileira de Pesquisa Agropecu&aacute, ria (EMBRAPA), Brazil, were evaluated for forage biomass yield and feed nutritional quality in a replicated trial under wet and dry season conditions in Ethiopia. The results revealed significant variation in forage yield and feed nutritional qualities among the genotypes and between the wet and dry seasons. Feed fiber components were lower in the dry season, while crude protein, in vitro organic matter digestibility, and metabolizable energy were higher. Based on the cumulative biomass and metabolizable energy yield, top performing genotypes were identified that are candidates for future forage improvement studies. Furthermore, the marker-trait association study identified diagnostic single nucleotide polymorphisms (SNP) and SilicoDArT markers and potential candidate genes that could differentiate high biomass yielding and high metabolizable energy genotypes in the collection.