17 results on '"Tadele, Zerihun"'
Search Results
2. Significance and prospects of an orphan crop tef
- Author
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Chanyalew, Solomon, Ferede, Setotaw, Damte, Tebkew, Fikre, Tsion, Genet, Yazachew, Kebede, Worku, Tolossa, Kidist, Tadele, Zerihun, and Assefa, Kebebew
- Published
- 2019
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3. Semi-dwarfism and lodging tolerance in tef ( Eragrostis tef ) is linked to a mutation in the α-Tubulin 1 gene
- Author
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Jöst, Moritz, Esfeld, Korinna, Burian, Agata, Cannarozzi, Gina, Chanyalew, Solomon, Kuhlemeier, Cris, Assefa, Kebebew, and Tadele, Zerihun
- Published
- 2015
4. Technology generation to dissemination: lessons learned from the tef improvement project
- Author
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Cannarozzi, Gina, Chanyalew, Solomon, Assefa, Kebebew, Bekele, Abate, Blösch, Regula, Weichert, Annett, Klauser, Dominik, Plaza-Wüthrich, Sonia, Esfeld, Korinna, Jöst, Moritz, Rindisbacher, Abiel, Jifar, Habte, Johnson-Chadwick, Victoria, Abate, Ermias, Wang, Wuyan, Kamies, Rizqah, Husein, Negussu, Kebede, Worku, Tolosa, Kidist, Genet, Yazachew, Gebremeskel, Kidu, Ferede, Brikti, Mekbib, Firew, Martinelli, Federico, Pedersen, Hans Christian, Rafudeen, Suhail, Hussein, Shimelis, Tamiru, Muluneh, Nakayama, Naomi, Robinson, Mike, Barker, Ian, Zeeman, Samuel, and Tadele, Zerihun
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- 2018
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5. Panicle Angle is an Important Factor in Tef Lodging Tolerance.
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Blösch, Regula, Plaza-Wüthrich, Sonia, Barbier de Reuille, Pierre, Weichert, Annett, Routier-Kierzkowska, Anne-Lise, Cannarozzi, Gina, Robinson, Sarah, and Tadele, Zerihun
- Subjects
TEFF ,FERTILIZER application ,FOOD security - Abstract
Tef [ Eragrostis tef (Zucc.) Trotter] is an important crop in the Horn of Africa, particularly in Ethiopia, where it is a staple food for over 60 million people. However, the productivity of tef remains extremely low in part due to its susceptibility to lodging. Lodging is the displacement of the plant from the upright position, and it is exacerbated by rain, wind and the application of fertilizer. In order to address the issue of global food security, especially in the Horn of Africa, greater insight into the causes of tef lodging is needed. In this study, we combine modeling and biomechanical measurements to compare the properties relating to lodging tolerance in high yielding, improved tef genotypes, and lower yielding natural landraces. Our results indicate that the angle of the panicle contributes to the likelihood of lodging in tef. Varieties with compact panicles and reduced height had increased lodging resistance compared to the other varieties. By comparing different varieties, we found that overall, the landraces of tef lodged less than improved varieties. We constructed a model of stem bending and found that panicle angle was an important determinant of the amount of lodging. The findings from this study provide key information to those involved in tef improvement, especially those interested in lodging tolerance. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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6. IDENTIFICATION OF DROUGHT TOLERANT MUTANT LINES OF TEF [ERAGROSTIS TEF (ZUCC.) TROTTER].
- Author
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Blösch, Regula, Rindisbacher, Abiel, Plaza-Wüthrich, Sonia, Röckel, Nora, Weichert, Annett, Cannarozzi, Gina, and Tadele, Zerihun
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TEFF ,FOOD security ,AGRICULTURAL productivity - Abstract
Introduction: Tef [Eragrostis tef (Zucc.) Trotter] is the major food crop in Ethiopia where it is annually cultivated on about 30% of the total area allocated to cereals. The productivity of tef is, however, significantly reduced by drought which can occur at either the early or the late developmental stage of the crop. Methodology: A total of 10,000 EMS (ethyl methane sulfonate) mutagenized M2 tef populations were screened first for early and second for terminal drought tolerance. The performance of candidate lines was investigated using diverse agronomical and physiological parameters. Results and discussion: Several promising lines were obtained for both early and terminal drought tolerance. Among these, genotypes with outstanding performance were found for two drought tolerant tef lines targeting early drought tolerance (dtt2 and dtt13) and three terminal drought tolerant lines targeting terminal drought tolerance (tdt9, tdt15 and tdt19). Conclusions: Candidate lines for both early and terminal drought tolerance will play vital roles in developing drought tolerance in tef improvement. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
7. Gibberellin Deficiency Confers Both Lodging and Drought Tolerance in Small Cereals.
- Author
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Plaza-Wüthrich, Sonia, Blösch, Regula, Rindisbacher, Abiel, Cannarozzi, Gina, Tadele, Zerihun, Hao Peng, and Hasanuzzaman, Mirza
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EFFECT of gibberellins on plants ,LODGING of crops ,CROPS ,DROUGHT tolerance - Abstract
Tef [Eragrostis tef (Zucc.) Trotter] and finger millet [Eleusine coracana Gaertn] are staple cereal crops in Africa and Asia with several desirable agronomic and nutritional properties. Tef is becoming a life-style crop as it is gluten-free while finger millet has a low glycemic index which makes it an ideal food for diabetic patients. However, both tef and finger millet have extremely low grain yields mainly due to moisture scarcity and susceptibility of the plants to lodging. In this study, the effects of gibberellic acid (GA) inhibitors particularly paclobutrazol (PBZ) on diverse physiological and yield-related parameters were investigated and compared to GA mutants in rice (Oryza sativa L.). The application of PBZ to tef and finger millet significantly reduced the plant height and increased lodging tolerance. Remarkably, PBZ also enhanced the tolerance of both tef and finger millet to moisture deficit. Under moisture scarcity, tef plants treated with PBZ did not exhibit drought-related symptoms and their stomatal conductance was unaltered, leading to higher shoot biomass and grain yield. Semi-dwarf rice mutants altered in GA biosynthesis, were also shown to have improved tolerance to dehydration. The combination of traits (drought tolerance, lodging tolerance and increased yield) that we found in plants with altered GA pathway is of importance to breeders who would otherwise rely on extensive crossing to introgress each trait individually. The key role played by PBZ in the tolerance to both lodging and drought calls for further studies using mutants in the GA biosynthesis pathway in order to obtain candidate lines which can be incorporated into crop-breeding programs to create lodging tolerant and climate-smart crops. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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8. Genetic diversity in tef [Eragrostis tef (Zucc.) Trotter].
- Author
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Assefa, Kebebew, Cannarozzi, Gina, Girma, Dejene, Kamies, Rizqah, Chanyalew, Solomon, Plaza-Wüthrich, Sonia, Blösch, Regula, Rindisbacher, Abiel, Rafudeen, Suhail, and Tadele, Zerihun
- Subjects
LOVE grass ,ALTERNATIVE grains ,GENETIC research ,PLANT genetics ,VEGETATION & climate ,PLANT chromosomes - Abstract
Tef [Eragrostis tef (Zucc.) Trotter] is a cereal crop resilient to adverse climatic and soil conditions, and possessing desirable storage properties. Although tef provides high quality food and grows under marginal conditions unsuitable for other cereals, it is considered to be an orphan crop because it has benefited little from genetic improvement. Hence, unlike other cereals such as maize and wheat, the productivity of tef is extremely low. In spite of the low productivity, tef is widely cultivated by over six million small-scale farmers in Ethiopia where it is annually grown on more than three million hectares of land, accounting for over 30% of the total cereal acreage. Tef, a tetraploid with 40 chromosomes (2n = 4x = 40), belongs to the family Poaceae and, together with finger millet (Eleusine coracana Gaerth.), to the subfamily Chloridoideae. It was originated and domesticated in Ethiopia. There are about 350 Eragrostis species of which E. tef is the only species cultivated for human consumption. At the present time, the gene bank in Ethiopia holds over five thousand tef accessions collected from geographical regions diverse in terms of climate and elevation. These germplasm accessions appear to have huge variability with regard to key agronomic and nutritional traits. In order to properly utilize the variability in developing new tef cultivars, various techniques have been implemented to catalog the extent and unravel the patterns of genetic diversity. In this review, we show some recent initiatives investigating the diversity of tef using genomics, transcriptomics and proteomics and discuss the prospect of these efforts in providing molecular resources that can aid modern tef breeding [ABSTRACT FROM AUTHOR]
- Published
- 2015
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9. Genome and transcriptome sequencing identifies breeding targets in the orphan crop tef (Eragrostis tef)
- Author
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Cannarozzi, Gina, Plaza-Wüthrich, Sonia, Esfeld, Korinna, Larti, Stéphanie, Wilson, Yi Song, Girma, Dejene, de Castro, Edouard, Chanyalew, Solomon, Blösch, Regula, Farinelli, Laurent, Lyons, Eric, Schneider, Michel, Falquet, Laurent, Kuhlemeier, Cris, Assefa, Kebebew, and Tadele, Zerihun
- Abstract
Background: Tef (Eragrostis tef), an indigenous cereal critical to food security in the Horn of Africa, is rich in minerals and protein, resistant to many biotic and abiotic stresses and safe for diabetics as well as sufferers of immune reactions to wheat gluten. We present the genome of tef, the first species in the grass subfamily Chloridoideae and the first allotetraploid assembled de novo. We sequenced the tef genome for marker-assisted breeding, to shed light on the molecular mechanisms conferring tef’s desirable nutritional and agronomic properties, and to make its genome publicly available as a community resource. Results: The draft genome contains 672 Mbp representing 87% of the genome size estimated from flow cytometry. We also sequenced two transcriptomes, one from a normalized RNA library and another from unnormalized RNASeq data. The normalized RNA library revealed around 38000 transcripts that were then annotated by the SwissProt group. The CoGe comparative genomics platform was used to compare the tef genome to other genomes, notably sorghum. Scaffolds comprising approximately half of the genome size were ordered by syntenic alignment to sorghum producing tef pseudo-chromosomes, which were sorted into A and B genomes as well as compared to the genetic map of tef. The draft genome was used to identify novel SSR markers, investigate target genes for abiotic stress resistance studies, and understand the evolution of the prolamin family of proteins that are responsible for the immune response to gluten. Conclusions: It is highly plausible that breeding targets previously identified in other cereal crops will also be valuable breeding targets in tef. The draft genome and transcriptome will be of great use for identifying these targets for genetic improvement of this orphan crop that is vital for feeding 50 million people in the Horn of Africa. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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10. The origins and progress of genomics research on Tef ( Eragrostis tef).
- Author
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Girma, Dejene, Assefa, Kebebew, Chanyalew, Solomon, Cannarozzi, Gina, Kuhlemeier, Cris, and Tadele, Zerihun
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GENOMICS ,TEFF ,CEREALS as food ,AGRONOMY ,PHENOTYPES ,AGRICULTURAL productivity - Abstract
Tef, Eragrostis tef (Zucc.) Trotter, is the most important cereal in Ethiopia. Tef is cultivated by more than five million small-scale farmers annually and constitutes the staple food for more than half of the population of 80 million. The crop is preferred by both farmers and consumers due to its beneficial traits associated with its agronomy and utilization. The genetic and phenotypic diversity of tef in Ethiopia is a national treasure of potentially global importance. In order for this diversity to be effectively conserved and utilized, a better understanding at the genomic level is necessary. In the recent years, tef has become the subject of genomic research in Ethiopia and abroad. Genomic-assisted tef improvement holds tremendous potential for improving productivity, thereby benefiting the smallholder farmers who have cultivated and relied on the crop for thousands of years. It is hoped that such research endeavours will provide solutions to some of the age-old problems of tef's husbandry. In this review, we provide a brief description of the genesis and progress of tef genomic research to date, suggest ways to utilize the genomic tools developed so far, discuss the potential of genomics to enable sustainable conservation and use of tef genetic diversity and suggest opportunities for the future research. [ABSTRACT FROM AUTHOR]
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- 2014
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11. From Traditional Breeding to Genome Editing for Boosting Productivity of the Ancient Grain Tef [ Eragrostis tef (Zucc.) Trotter].
- Author
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Numan, Muhammad, Khan, Abdul Latif, Asaf, Sajjad, Salehin, Mohammad, Beyene, Getu, Tadele, Zerihun, and Ligaba-Osena, Ayalew
- Subjects
TEFF ,CRISPRS ,GENOME editing ,CROP yields ,CALCIUM channels - Abstract
Tef (Eragrostis tef (Zucc.) Trotter) is a staple food crop for 70% of the Ethiopian population and is currently cultivated in several countries for grain and forage production. It is one of the most nutritious grains, and is also more resilient to marginal soil and climate conditions than major cereals such as maize, wheat and rice. However, tef is an extremely low-yielding crop, mainly due to lodging, which is when stalks fall on the ground irreversibly, and prolonged drought during the growing season. Climate change is triggering several biotic and abiotic stresses which are expected to cause severe food shortages in the foreseeable future. This has necessitated an alternative and robust approach in order to improve resilience to diverse types of stresses and increase crop yields. Traditional breeding has been extensively implemented to develop crop varieties with traits of interest, although the technique has several limitations. Currently, genome editing technologies are receiving increased interest among plant biologists as a means of improving key agronomic traits. In this review, the potential application of clustered regularly interspaced short palindromic repeats (CRISPR) and CRISPR-associated proteins (CRISPR-Cas) technology in improving stress resilience in tef is discussed. Several putative abiotic stress-resilient genes of the related monocot plant species have been discussed and proposed as target genes for editing in tef through the CRISPR-Cas system. This is expected to improve stress resilience and boost productivity, thereby ensuring food and nutrition security in the region where it is needed the most. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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12. The role of omics in improving the orphan crop tef.
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Ramírez Gonzales, Lorena Y., Cannarozzi, Gina, Jäggi, Lea, Assefa, Kebebew, Chanyalew, Solomon, Dell'Acqua, Matteo, and Tadele, Zerihun
- Subjects
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TEFF , *WHOLE genome sequencing , *GENOME editing , *NUTRITIONAL value , *CROPS - Abstract
Tef research has little benefited from omics due to neglect of the crop by the global scientific community. However, the few utilized tools showed promising results. Chromosome-scale assembly of the genome reveals the evolution of tef. The whole-genome sequencing of drought-resurrecting Eragrostis nindensis and desiccation-sensitive Eragrostis curvula shows genes that play key roles in drought responses. A few studies using omics tools have revealed differentially expressed genes, proteins, and metabolites in tef plants exposed to drought. Molecular markers have deciphered diversity in tef germplasm collected from diverse agroecologies in Ethiopia. The application of targeting induced local lesions in genomes resulted in mutant tef lines with a semidwarf stature, which were later bred to locally adapted and high-yielding varieties. Genome editing using 'Green Revolution' genes resulted in a semidwarf and lodging-tolerant tef plant. Tef or teff [ Eragrostis tef (Zucc.) Trotter] is a cereal crop indigenous to the Horn of Africa, where it is a staple food for a large population. The popularity of tef arises from its resilience to environmental stresses and its nutritional value. For many years, tef has been considered an orphan crop, but recent research initiatives from across the globe are helping to unravel its undisclosed potential. Advanced omics tools and techniques have been directed toward the exploration of tef's diversity with the aim of increasing its productivity. In this review, we report on the most recent advances in tef omics that brought the crop into the spotlight of international research. [ABSTRACT FROM AUTHOR]
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- 2024
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13. Waterlogging affects plant morphology and the expression of key genes in tef (Eragrostis tef).
- Author
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Cannarozzi, Gina, Weichert, Annett, Schnell, Mirjam, Ruiz, Celia, Bossard, Svenja, Blösch, Regula, Plaza‐Wüthrich, Sonia, Chanyalew, Solomon, Assefa, Kebebew, and Tadele, Zerihun
- Abstract
Tef [Eragrostis tef (Zucc.) Trotter], an allotetraploid cereal that is a staple food to over 60 million people in the Horn of Africa, has a high nutritional content and is resistant to many biotic and abiotic stresses such as waterlogging and drought. Three tef genotypes, Alba, Tsedey, and Quncho, were subjected to waterlogging conditions and their growth, physiology, and change in transcript expression were measured with the goal of identifying targets for breeding cultivars with improved waterlogging tolerance. Root and shoot growth and dry weight were observed over 22 days. Stomatal conductance and chlorophyll and carotenoid contents were quantified. Microscopy was used to monitor changes in the stem cross sections. Illumina RNA sequencing was used to obtain the expression profiles of tef under flooding and control conditions and was verified using qPCR. Results indicated differences in growth between the three genotypes. Waterlogged Tsedey plants grew higher and had more root biomass than normally watered Tsedey plants. Quncho and Alba genotypes were more susceptible to the excess moisture stress. The effects of these changes were observed on the plant physiology. Among the three tested tef genotypes, Tsedey formed more aerenchyma than Alba and had accelerated growth under waterlogging. Tsedey and Quncho had constitutive aerenchyma. Genes affecting carbohydrate metabolism, cell growth, response to reactive oxygen species, transport, signaling, and stress responses were found to change under excess moisture stress. In general, these results show the presence of substantial anatomical and physiological differences among tef genotypes when waterlogged during the early growth stage. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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- View/download PDF
14. BRINGING HIGH-THROUGHPUT TECHNIQUES TO ORPHAN CROP OFAFRICA: Highlights from the Tef TILLING Project.
- Author
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Esfeld, Korinna, Plaza, Sonia, and Tadele, Zerihun
- Subjects
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FOOD crops , *GRAIN , *LEGUMES , *PLANT genetics , *BIOTECHNOLOGY ,DEVELOPING countries - Abstract
Orphan- or understudied-crops are mostly staple food crops in developing world. They are broadly classified under cereals, legumes, root crops, fruits and vegetables. These under-researched crops contribute to the diet of a large portion of resource-poor consumers and at the same time generate income for small-holder farmers in developing countries, particularly in Africa. In addition, they perform better than major crops of the world under extreme soil and climatic conditions. However, orphan crops are not without problems. Due to lack of scientific investigation, most of them produce low yields while others have a variety of toxins that affect the health of consumers. Here, we present some highlights on the status and future perspectives of the Tef Biotechnology Project that employs modern improvement technique in order to genetically improve tef (Eragrostis tef), one of the most important orphan crop in Africa. A reverse genetics approach known as TILLING (Targeting Induced Local Lesions IN Genome) is implemented in order to tackle lodging, the major yield limiting factor in tef. [ABSTRACT FROM AUTHOR]
- Published
- 2009
15. Technology generation to dissemination: lessons learned from the tef improvement project
- Author
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Suhail Rafudeen, Muluneh Tamiru, Zerihun Tadele, Mike Robinson, Kidu Gebremeskel, Wuyan Wang, Brikti Ferede, Regula Blösch, Abiel Rindisbacher, Korinna Esfeld, Shimelis Hussein, Ermias Abate, Sonia Plaza-Wüthrich, Firew Mekbib, Ian Barker, Victoria Johnson-Chadwick, Dominik Klauser, Habte Jifar, Gina Cannarozzi, Worku Kebede, Yazachew Genet, Samuel C. Zeeman, Abate Bekele, Hans Christian Pedersen, Kebebew Assefa, Moritz Jöst, Naomi Nakayama, Negussu Husein, Solomon Chanyalew, Annett Weichert, Federico Martinelli, Rizqah Kamies, Kidist Tolosa, Cannarozzi, Gina, Chanyalew, Solomon, Assefa, Kebebew, Bekele, Abate, Blösch, Regula, Weichert, Annett, Klauser, Dominik, Plaza-Wüthrich, Sonia, Esfeld, Korinna, Jöst, Moritz, Rindisbacher, Abiel, Jifar, Habte, Johnson-Chadwick, Victoria, Abate, Ermia, Wang, Wuyan, Kamies, Rizqah, Husein, Negussu, Kebede, Worku, Tolosa, Kidist, Genet, Yazachew, Gebremeskel, Kidu, Ferede, Brikti, Mekbib, Firew, Martinelli, Federico, Pedersen, Hans Christian, Rafudeen, Suhail, Hussein, Shimeli, Tamiru, Muluneh, Nakayama, Naomi, Robinson, Mike, Barker, Ian, Zeeman, Samuel, and Tadele, Zerihun
- Subjects
0106 biological sciences ,0301 basic medicine ,TILLING ,Context (language use) ,Plant Science ,Biology ,580 Plants (Botany) ,Horticulture ,Eragrostis tef ,01 natural sciences ,Farmer-participatory research ,Indigenous ,03 medical and health sciences ,Genetic ,Orphan crop ,Settore AGR/07 - Genetica Agraria ,Marker-assisted breeding ,Orphan crops ,Tef ,Milestone (project management) ,Genetics ,Population growth ,Environmental planning ,Uncategorized ,Food security ,business.industry ,030104 developmental biology ,Agriculture ,Famine ,business ,Green Revolution ,Agronomy and Crop Science ,010606 plant biology & botany - Abstract
Indigenous crops also known as orphan crops are key contributors to food security, which is becoming increasingly vulnerable with the current trend of population growth and climate change. They have the major advantage that they fit well into the general socio-economic and ecological context of developing world agriculture. However, most indigenous crops did not benefit from the Green Revolution, which dramatically increased the yield of major crops such as wheat and rice. Here, we describe the Tef Improvement Project, which employs both conventional- and molecular-breeding techniques to improve tef—an orphan crop important to the food security in the Horn of Africa, a region of the world with recurring devastating famines. We have established an efficient pipeline to bring improved tef lines from the laboratory to the farmers of Ethiopia. Of critical importance to the long-term success of this project is the cooperation among participants in Ethiopia and Switzerland, including donors, policy makers, research institutions, and farmers. Together, European and African scientists have developed a pipeline using breeding and genomic tools to improve the orphan crop tef and bring new cultivars to the farmers in Ethiopia. We highlight a new variety, Tesfa, developed in this pipeline and possessing a novel and desirable combination of traits. Tesfa’s recent approval for release illustrates the success of the project and marks a milestone as it is the first variety (of many in the pipeline) to be released., Euphytica, 214 (2), ISSN:0014-2336, ISSN:1573-5060
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- 2023
- Full Text
- View/download PDF
16. Identification of miRNAs linked with the drought response of tef [Eragrostis tef (Zucc.) Trotter].
- Author
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Martinelli, Federico, Cannarozzi, Gina, Balan, Bipin, Siegrist, Fredy, Weichert, Annett, Blösch, Regula, and Tadele, Zerihun
- Subjects
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TEFF , *MICRORNA , *DROUGHT tolerance , *GENOTYPES , *TRANSCRIPTION factors - Abstract
Tef [ Eragrostis tef (Zucc.) Trotter], a staple food crop in the Horn of Africa and particularly in Ethiopia, has several beneficial agronomical and nutritional properties, including waterlogging and drought tolerance. In this study, we performed microRNA profiling of tef using the Illumina HiSeq 2500 platform, analyzing both shoots and roots of two tef genotypes, one drought-tolerant ( Tsedey ) and one drought-susceptible ( Alba ). We obtained more than 10 million filtered reads for each of the 24 sequenced small cDNA libraries. Reads mapping to known miRNAs were more abundant in the root than shoot tissues. Thirteen and 35 miRNAs were significantly modulated in response to drought, in Alba and Tsedey roots, respectively. One miRNA was upregulated under drought conditions in both genotypes. In shoots, nine miRNAs were modulated in common between the two genotypes and all showed similar trends of expression. One-hundred and forty-seven new miRNA mature sequences were identified in silico, 22 of these were detected in all relevant samples and seven were differentially regulated when comparing drought with normal watering. Putative targets of the miRNA regulated under drought in root and shoot tissues were predicted. Among the targets were transcription factors such as CCAAT-HAP2, MADS and NAC. Verification with qRT-PCR revealed that five of six potential targets showed a pattern of expression that was consistent with the correspondent miRNA amount measured by RNA-Seq. In general, candidate miRNAs involved in the post-transcriptional regulation of the tef response to drought could be included in next-generation breeding programs. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
17. Identification of miRNAs linked with the drought response of tef [Eragrostis tef (Zucc.) Trotter]
- Author
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Fredy Siegrist, Annett Weichert, Gina Cannarozzi, Zerihun Tadele, Federico Martinelli, Bipin Balan, Regula Blösch, Martinelli, Federico, Cannarozzi, Gina, Balan, Bipin, Siegrist, Fredy, Weichert, Annett, Blösch, Regula, and Tadele, Zerihun
- Subjects
0301 basic medicine ,Genotype ,Physiology ,In silico ,Drought tolerance ,Plant Shoot ,Plant Science ,Eragrostis ,Eragrostis tef ,580 Plants (Botany) ,Plant Roots ,microRNA (miRNA) ,03 medical and health sciences ,Settore AGR/07 - Genetica Agraria ,Complementary DNA ,Plant breeding ,Genetics ,Drought ,biology ,miRNA target ,cDNA library ,fungi ,Tef ,food and beverages ,MicroRNA ,Plant Root ,Eragrosti ,biology.organism_classification ,Droughts ,MicroRNAs ,030104 developmental biology ,RNA, Plant ,Shoot ,Agronomy and Crop Science ,Plant Shoots - Abstract
Tef [Eragrostis tef (Zucc.) Trotter], a staple food crop in the Horn of Africa and particularly in Ethiopia, has several beneficial agronomical and nutritional properties, including waterlogging and drought tolerance. In this study, we performed microRNA profiling of tef using the Illumina HiSeq 2500 platform, analyzing both shoots and roots of two tef genotypes, one drought-tolerant (Tsedey) and one drought-susceptible (Alba). We obtained more than 10 million filtered reads for each of the 24 sequenced small cDNA libraries. Reads mapping to known miRNAs were more abundant in the root than shoot tissues. Thirteen and 35 miRNAs were significantly modulated in response to drought, in Alba and Tsedey roots, respectively. One miRNA was upregulated under drought conditions in both genotypes. In shoots, nine miRNAs were modulated in common between the two genotypes and all showed similar trends of expression. One-hundred and forty-seven new miRNA mature sequences were identified in silico, 22 of these were detected in all relevant samples and seven were differentially regulated when comparing drought with normal watering. Putative targets of the miRNA regulated under drought in root and shoot tissues were predicted. Among the targets were transcription factors such as CCAAT-HAP2, MADS and NAC. Verification with qRT-PCR revealed that five of six potential targets showed a pattern of expression that was consistent with the correspondent miRNA amount measured by RNA-Seq. In general, candidate miRNAs involved in the post-transcriptional regulation of the tef response to drought could be included in next-generation breeding programs.
- Published
- 2018
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