Your search keyword '"Usadel, Björn"' showing total 14 results

1. Metabolomics and machine learning technique revealed that germination enhances the multi-nutritional properties of pigmented rice.

Author

Tiozon, Rhowell Jr. N., Sreenivasulu, Nese, Alseekh, Saleh, Sartagoda, Kristel June D., Usadel, Björn, and Fernie, Alisdair R.

Subjects

VITAMIN B2, METABOLOMICS, GERMINATION, MACHINE learning, GENOME-wide association studies, RICE, GENOMICS

Abstract

Enhancing the dietary properties of rice is crucial to contribute to alleviating hidden hunger and non-communicable diseases in rice-consuming countries. Germination is a bioprocessing approach to increase the bioavailability of nutrients in rice. However, there is a scarce information on how germination impacts the overall nutritional profile of pigmented rice sprouts (PRS). Herein, we demonstrated that germination resulted to increase levels of certain dietary compounds, such as free phenolics and micronutrients (Ca, Na, Fe, Zn, riboflavin, and biotin). Metabolomic analysis revealed the preferential accumulation of dipeptides, GABA, and flavonoids in the germination process. Genome-wide association studies of the PRS suggested the activation of specific genes such as CHS1 and UGT genes responsible for increasing certain flavonoid compounds. Haplotype analyses showed a significant difference (P < 0.05) between alleles associated with these genes. Genetic markers associated with these flavonoids were incorporated into the random forest model, improving the accuracy of prediction of multi-nutritional properties from 89.7% to 97.7%. Deploying this knowledge to breed rice with multi-nutritional properties will be timely to address double burden nutritional challenges. Extensive metabolomic and genomic analysis of pigmented rice sprouts identifies metabolites and nutrients associated with germination, and genetic variants that may contribute to production of these metabolites. [ABSTRACT FROM AUTHOR]

Published

2023

2. Tomato leaves under stress: a comparison of stress response to mild abiotic stress between a cultivated and a wild tomato species.

Author

Reimer, Julia J., Thiele, Björn, Biermann, Robin T., Junker-Frohn, Laura V., Wiese-Klinkenberg, Anika, Usadel, Björn, and Wormit, Alexandra

Abstract

Tomato is one of the most produced crop plants on earth and growing in the fields and greenhouses all over the world. Breeding with known traits of wild species can enhance stress tolerance of cultivated crops. In this study, we investigated responses of the transcriptome as well as primary and secondary metabolites in leaves of a cultivated and a wild tomato to several abiotic stresses such as nitrogen deficiency, chilling or warmer temperatures, elevated light intensities and combinations thereof. The wild species responded different to varied temperature conditions compared to the cultivated tomato. Nitrogen deficiency caused the strongest responses and induced in particular the secondary metabolism in both species but to much higher extent in the cultivated tomato. Our study supports the potential of a targeted induction of valuable secondary metabolites in green residues of horticultural production, that will otherwise only be composted after fruit harvest. In particular, the cultivated tomato showed a strong induction in the group of mono caffeoylquinic acids in response to nitrogen deficiency. In addition, the observed differences in stress responses between cultivated and wild tomato can lead to new breeding targets for better stress tolerance. Key message: Even under mild abiotic stresses (single stresses but especially combinations of stress) the transcriptomic and metabolomic response in tomato is enormous and more pronounced in cultivated than in wild species. [ABSTRACT FROM AUTHOR]

Published

2021

3. Genome assembly of wild tea tree DASZ reveals pedigree and selection history of tea varieties.

Author

Zhang, Weiyi, Zhang, Youjun, Qiu, Haiji, Guo, Yafei, Wan, Haoliang, Zhang, Xiaoliang, Scossa, Federico, Alseekh, Saleh, Zhang, Qinghua, Wang, Pu, Xu, Li, Schmidt, Maximilian H-W, Jia, Xinxin, Li, Daili, Zhu, Anting, Guo, Fei, Chen, Wei, Ni, Dejiang, Usadel, Björn, and Fernie, Alisdair R.

Subjects

BREEDING, TEA, GERMPLASM, GENOMES, RNA sequencing

Abstract

Wild teas are valuable genetic resources for studying domestication and breeding. Here we report the assembly of a high-quality chromosome-scale reference genome for an ancient tea tree. The further RNA sequencing of 217 diverse tea accessions clarifies the pedigree of tea cultivars and reveals key contributors in the breeding of Chinese tea. Candidate genes associated with flavonoid biosynthesis are identified by genome-wide association study. Specifically, diverse allelic function of CsANR, CsF3'5'H and CsMYB5 is verified by transient overexpression and enzymatic assays, providing comprehensive insights into the biosynthesis of catechins, the most important bioactive compounds in tea plants. The inconspicuous differentiation between ancient trees and cultivars at both genetic and metabolic levels implies that tea may not have undergone long-term artificial directional selection in terms of flavor-related metabolites. These genomic resources provide evolutionary insight into tea plants and lay the foundation for better understanding the biosynthesis of beneficial natural compounds. Wild teas are considered as valuable resource for studying domestication and breeding. Here, Zhang et al. report genome of wild tea DASZ and transcriptome of 217 accessions, which clarify pedigree of Chinese tea cultivars and show tea may not have undergone long-term artificial directional selection on flavor-related metabolites. [ABSTRACT FROM AUTHOR]

Published

2020

4. Footprints of parasitism in the genome of the parasitic flowering plant Cuscuta campestris.

Author

Vogel, Alexander, Schwacke, Rainer, Denton, Alisandra K., Usadel, Björn, Hollmann, Julien, Fischer, Karsten, Bolger, Anthony, Schmidt, Maximilian H.-W., Bolger, Marie E., Gundlach, Heidrun, Mayer, Klaus F. X., Weiss-Schneeweiss, Hanna, Temsch, Eva M., and Krause, Kirsten

Abstract

A parasitic lifestyle, where plants procure some or all of their nutrients from other living plants, has evolved independently in many dicotyledonous plant families and is a major threat for agriculture globally. Nevertheless, no genome sequence of a parasitic plant has been reported to date. Here we describe the genome sequence of the parasitic field dodder, Cuscuta campestris. The genome contains signatures of a fairly recent whole-genome duplication and lacks genes for pathways superfluous to a parasitic lifestyle. Specifically, genes needed for high photosynthetic activity are lost, explaining the low photosynthesis rates displayed by the parasite. Moreover, several genes involved in nutrient uptake processes from the soil are lost. On the other hand, evidence for horizontal gene transfer by way of genomic DNA integration from the parasite’s hosts is found. We conclude that the parasitic lifestyle has left characteristic footprints in the C. campestris genome. [ABSTRACT FROM AUTHOR]

Published

2018

5. Plant Pathway Databases.

Author

Jaiswal, Pankaj and Usadel, Björn

Published

2016

6. Life cycle assessment and sustainable engineering in the context of near net shape grown components: striving towards a sustainable way of future production.

Author

Kämpfer, Christoph, Seiler, Thomas-Benjamin, Beger, Anna-Lena, Jacobs, Georg, Löwer, Manuel, Moser, Franziska, Reimer, Julia, Trautz, Martin, Usadel, Björn, Wormit, Alexandra, and Hollert, Henner

Subjects

HARVESTING -- Environmental aspects, BIOMASS, NONRENEWABLE natural resources, PRODUCT life cycle, NATURAL products

Abstract

Technical product harvesting (TEPHA) is a newly developing interdisciplinary approach in which bio-based production is investigated from a technical and ecological perspective. Society's demand for ecologically produced and sustainably operable goods is a key driver for the substitution of conventional materials like metals or plastics through bio-based alternatives. Technical product harvesting of near net shape grown components describes the use of suitable biomass for the production of technical products through influencing the natural shape of plants during their growth period. The use of natural materials may show positive effects on the amount of non-renewable resource consumption. This also increases the product recyclability at the end of its life cycle. Furthermore, through the near net shape growth of biomass, production steps can be reduced. As a consequence such approaches may save energy and the needed resources like crude oil, coal or gas. The derived near net shape grown components are not only considered beneficial from an environmental point of view. They can also have mechanical advantages through an intrinsic topology optimization in contrast to common natural materials, which are influenced in their shape after harvesting. In order to prove these benefits a comprehensive, interdisciplinary scientific strategy is needed. Here, both mechanical investigations and life cycle assessment as a method of environmental evaluation are used. [ABSTRACT FROM AUTHOR]

Published

2017

7. PAGANtec: OpenMP Parallel Error Correction for Next-Generation Sequencing Data.

Author

Joppich, Markus, Schmidl, Dirk, Bolger, Anthony M., Kuhlen, Torsten, and Usadel, Björn

Published

2015

8. De novo sequencing and analysis of the lily pollen transcriptome: an open access data source for an orphan plant species.

Author

Lang, Veronika, Usadel, Björn, and Obermeyer, Gerhard

Abstract

Pollen grains of Lilium longiflorum are a long-established model system for pollen germination and tube tip growth. Due to their size, protein content and almost synchronous germination in synthetic media, they provide a simple system for physiological measurements as well as sufficient material for biochemical studies like protein purifications, enzyme assays, organelle isolation or determination of metabolites during germination and pollen tube elongation. Despite recent progresses in molecular biology techniques, sequence information of expressed proteins or transcripts in lily pollen is still scarce. Using a next generation sequencing strategy (RNAseq), the lily pollen transcriptome was investigated resulting in more than 50 million high quality reads with a length of 90 base pairs. Sequenced transcripts were assembled and annotated, and finally visualized with MAPMAN software tools and compared with other RNAseq or genome data including Arabidopsis pollen, Lilium vegetative tissues and the Amborella trichopoda genome. All lily pollen sequence data are provided as open access files with suitable tools to search sequences of interest. [ABSTRACT FROM AUTHOR]

Published

2015

9. VisualisationVISUALISATION of Transcriptomic TRANSCRIPTOMICS s Data in Metabolic Pathways.

Author

Rotter, Ana, Hren, Matjaž, Usadel, Björn, and Gruden, Kristina

Abstract

When performing genome wide transcriptomic Transcriptomics s analysis life scientists quite often face problems with interpretation of huge amounts of data obtained. MapManMapMan is a tool developed to help plant scientists in this aspect. Microarray data (or other omicsOmics data) are plotted onto diagrams representing metabolic and signaling pathways or alternatively large protein families. Application is flexible thus specificities of grapevine metabolism could have been implemented when adopting the system for this species. Overview of different analytical approaches using MapManMapMan and few examples of analytical results are presented within this chapter. [ABSTRACT FROM AUTHOR]

Published

2010

10. The inositol oxygenase gene family ofArabidopsisis involved in the biosynthesis of nucleotide sugar precursors for cell-wall matrix polysaccharides.

Author

Kanter, Ulrike, Usadel, Björn, Guerineau, François, Li, Yong, Pauly, Markus, and Tenhaken, Raimund

Subjects

POLYSACCHARIDES, INOSITOL, OXYGENASES, SUGARS, GENES, GLUCURONIC acid

Abstract

The nucleotide sugar UDP-glucuronic acid (UDP-GlcA) is the principal precursor for galacturonic acid, xylose, apiose and arabinose residues of the plant cell-wall polymers. UDP-GlcA can be synthesized by two different functional pathways inArabidopsisinvolving either UDP-glucose dehydrogenase or inositol oxygenase as the initial enzyme reaction to channel carbohydrates into a pool of UDP sugars used for cell-wall biosynthesis. The genes for the enzyme myo-inositol oxygenase (MIOX) were analyzed inArabidopsis. They represent a small gene family containing four members. The transcription of all those members indicates a transient and organ-specific gene expression pattern in growing plant tissues as analyzed by RT-PCR and in promoter::GUS reporter gene lines. Two isoforms (MIOX1, MIOX2) are expressed in almost all tissues of the plant, whereas the expression ofMIOX4andMIOX5is largely restricted to flowers, particularly maturing pollen. T-DNA insertion lines inMIOXgenes were isolated; however, single knock-outs show growth phenotypes similar to the wild type. The monosaccharide composition of the cell wall in these mutants is not significantly changed compared to wild type plants. However, the incorporation of3H-inositol into wall polymers of seedlings is greatly impaired in the mutant lines ?MIOX1and ?MIOX2, which are the only isoforms that are expressed in seedlings. [ABSTRACT FROM AUTHOR]

Published

2005

11. Hochdurchsatz-Sequenzierung und dann?

Author

Lohse, Marc, Bolger, Anthony, and Usadel, Björn

Abstract

Next generation RNA sequencing provides one with the opportunity to gain comprehensive insights into transcriptomes. However these data sets pose new challenges: the raw sequence data need to be quality checked and filtered, and sophisticated statistical methods have to be applied to find changed genes. Given the large amount of data involved, this is far from trivial. Here we present Robi NA as an integrated solution that consolidates all these steps in one user-friendly graphical platform. [ABSTRACT FROM AUTHOR]

Published

2013

12. Cell type specific transcriptional reprogramming of maize leaves during Ustilago maydis induced tumor formation.

Author

Villajuana-Bonequi, Mitzi, Matei, Alexandra, Ernst, Corinna, Hallab, Asis, Usadel, Björn, and Doehlemann, Gunther

Abstract

Ustilago maydis is a biotrophic pathogen and well-established genetic model to understand the molecular basis of biotrophic interactions. U. maydis suppresses plant defense and induces tumors on all aerial parts of its host plant maize. In a previous study we found that U. maydis induced leaf tumor formation builds on two major processes: the induction of hypertrophy in the mesophyll and the induction of cell division (hyperplasia) in the bundle sheath. In this study we analyzed the cell-type specific transcriptome of maize leaves 4 days post infection. This analysis allowed identification of key features underlying the hypertrophic and hyperplasic cell identities derived from mesophyll and bundle sheath cells, respectively. We examined the differentially expressed (DE) genes with particular focus on maize cell cycle genes and found that three A-type cyclins, one B-, D- and T-type are upregulated in the hyperplasic tumorous cells, in which the U. maydis effector protein See1 promotes cell division. Additionally, most of the proteins involved in the formation of the pre-replication complex (pre-RC, that assure that each daughter cell receives identic DNA copies), the transcription factors E2F and DPa as well as several D-type cyclins are deregulated in the hypertrophic cells. [ABSTRACT FROM AUTHOR]

Published

2019

13. Early metabolic and transcriptional variations in fruit of natural white-fruited Fragaria vesca genotypes.

Author

Härtl, Katja, Denton, Alisandra, Franz-Oberdorf, Katrin, Hoffmann, Thomas, Spornraft, Melanie, Usadel, Björn, and Schwab, Wilfried

Abstract

Strawberry fruits (Fragaria vesca) are valued for their sweet fruity flavor, juicy texture, and characteristic red color caused by anthocyanin pigments. To gain a deeper insight into the regulation of anthocyanin biosynthesis, we performed comparative metabolite profiling and transcriptome analyses of one red-fruited and two natural white-fruited strawberry varieties in two tissues and three ripening stages. Developing fruit of the three genotypes showed a distinctive pattern of polyphenol accumulation already in green receptacle and achenes. Global analysis of the transcriptomes revealed that the ripening process in the white-fruited varieties is already affected at an early developmental stage. Key polyphenol genes showed considerably lower transcript levels in the receptacle and achenes of both white genotypes, compared to the red genotype. The expression of the anthocyanidin glucosyltransferase gene and a glutathione S-transferase, putatively involved in the vacuolar transport of the anthocyanins, seemed to be critical for anthocyanin formation. A bHLH transcription factor is among the differentially expressed genes as well. Furthermore, genes associated with flavor formation and fruit softening appear to be coordinately regulated and seem to interact with the polyphenol biosynthesis pathway. This study provides new information about polyphenol biosynthesis regulators in strawberry, and reveals genes unknown to affect anthocyanin formation. [ABSTRACT FROM AUTHOR]

Published

2017

14. Streptomyces thermoautotrophicus does not fix nitrogen.

Author

MacKellar, Drew, Lieber, Lucas, Norman, Jeffrey S., Bolger, Anthony, Tobin, Cory, Murray, James W., Oksaksin, Mehtap, Chang, Roger L., Ford, Tyler J., Nguyen, Peter Q., Woodward, Jimmy, Permingeat, Hugo R., Joshi, Neel S., Silver, Pamela A., Usadel, Björn, Rutherford, Alfred W., Friesen, Maren L., and Prell, Jürgen

Published

2016