Your search keyword '"Sebastien Carpentier"' showing total 144 results

1. Recurrent evolution of adhesive defence systems in amphibians by parallel shifts in gene expression

Author

Shabnam Zaman, Birgit Lengerer, Joris Van Lindt, Indra Saenen, Giorgio Russo, Laura Bossaer, Sebastien Carpentier, Peter Tompa, Patrick Flammang, and Kim Roelants

Subjects

Science

Abstract

Abstract Natural selection can drive organisms to strikingly similar adaptive solutions, but the underlying molecular mechanisms often remain unknown. Several amphibians have independently evolved highly adhesive skin secretions (glues) that support a highly effective antipredator defence mechanism. Here we demonstrate that the glue of the Madagascan tomato frog, Dyscophus guineti, relies on two interacting proteins: a highly derived member of a widespread glycoprotein family and a galectin. Identification of homologous proteins in other amphibians reveals that these proteins attained a function in skin long before glues evolved. Yet, major elevations in their expression, besides structural changes in the glycoprotein (increasing its structural disorder and glycosylation), caused the independent rise of glues in at least two frog lineages. Besides providing a model for the chemical functioning of animal adhesive secretions, our findings highlight how recruiting ancient molecular templates may facilitate the recurrent evolution of functional innovations.

Published

2024

2. Enhanced protein secretion in reduced genome strains of Streptomyces lividans

Author

Mohamed Belal Hamed, Tobias Busche, Kenneth Simoens, Sebastien Carpentier, Jan Kormanec, Lieve Van Mellaert, Jozef Anné, Joern Kalinowski, Kristel Bernaerts, Spyridoula Karamanou, and Anastassios Economou

Subjects

Reduced genome strains, Secretome, Proteomics, Transcriptomics, Heterologous secretion, Microbiology, QR1-502

Abstract

Abstract Background S. lividans TK24 is a popular host for the production of small molecules and the secretion of heterologous protein. Within its large genome, twenty-nine non-essential clusters direct the biosynthesis of secondary metabolites. We had previously constructed ten chassis strains, carrying deletions in various combinations of specialized metabolites biosynthetic clusters, such as those of the blue actinorhodin (act), the calcium-dependent antibiotic (cda), the undecylprodigiosin (red), the coelimycin A (cpk) and the melanin (mel) clusters, as well as the genes hrdD, encoding a non-essential sigma factor, and matAB, a locus affecting mycelial aggregation. Genome reduction was aimed at reducing carbon flow toward specialized metabolite biosynthesis to optimize the production of secreted heterologous protein. Results Two of these S. lividans TK24 derived chassis strains showed ~ 15% reduction in biomass yield, 2-fold increase of their total native secretome mass yield and enhanced abundance of several secreted proteins compared to the parental strain. RNAseq and proteomic analysis of the secretome suggested that genome reduction led to cell wall and oxidative stresses and was accompanied by the up-regulation of secretory chaperones and of secDF, a Sec-pathway component. Interestingly, the amount of the secreted heterologous proteins mRFP and mTNFα, by one of these strains, was 12 and 70% higher, respectively, than that secreted by the parental strain. Conclusion The current study described a strategy to construct chassis strains with enhanced secretory abilities and proposed a model linking the deletion of specialized metabolite biosynthetic clusters to improved production of secreted heterologous proteins.

Published

2024

3. Farmers' preferences for East African highland cooking banana 'Matooke' hybrids and local cultivars

Author

Noel A. Madalla, Rony Swennen, Allan Brown, Sebastien Carpentier, Inge Van den Bergh, Rhiannon Crichton, Pricilla Marimo, Eva Weltzien, Cornel Massawe, Mpoki Shimwela, Daud Mbongo, Grace Kindimba, Jerome Kubiriba, Robooni Tumuhimbise, Asher W. Okurut, Martina Cavicchioli, and Rodomiro Ortiz

Subjects

Farmers’ characteristic preferences, Participatory varietal selection, ‘Matooke’ banana cultivars, Agriculture, Nutrition. Foods and food supply, TX341-641

Abstract

Abstract Background An understanding of farmers' preferences of new banana cultivars and their characteristics is critical for developing and selecting cultivars that meet consumer needs. Therefore, phenotypic selection in a genetically variable population remains an important aspect of plant breeding. Methods The participatory varietal selection approach for preference ranking was used on 31 'Matooke' secondary and primary triploid hybrids and local banana cultivars evaluated between 2016 and 2019 in Uganda and Tanzania to investigate how farmers' preference attributes could help breeders identify superior cultivars. The quantitative data were analyzed using the Statistical Package for Social Sciences (SPSS). The qualitative data from farmers' focus group discussions (FGDs) were described using content analysis. The Mann–Whitney U test and Wilcoxon's signed-rank test were used to confirm the difference in farmers' preferences between groups. Results Farmers' approaches for defining characteristics were multivariate, and their preferences varied by site and country. Large fruit, a large bunch, market acceptability of the banana bunch, a sturdy stem, and an attractive appearance of the banana plant were the characteristics most preferred by farmers in Tanzania and Uganda. Tanzanian farmers preferred large bunches over other characteristics like bunch marketability and robust stem. Large fruit, drought tolerance, a strong stem, and phenotypic similarity to local cultivars were prioritized by Ugandan farmers. Both men and women farmers were more concerned with production-related characteristics, but the former valued marketing-related characteristics more, while the latter preferred use-related characteristics. Their preferences did not differ statistically, but the relative importance assigned by each group to the selected attributes was different. Conclusion Farmers' varietal preferences are frequently based on some assumed requirements, resulting in cultivar rejection or non-adoption. Therefore, determining the value attributed to each characteristic by various farmer groups is crucial in developing 'Matooke' banana cultivars with desired attributes that will boost the rate of adoption on-farms. Breeding initiatives that establish a system of integrated approaches and rely on thorough diagnosis of both production and consumption characteristics will best serve farmers' diverse preferences. To accomplish this, planning for varietal improvement initiatives at various levels—including internationally, regionally, nationally, and locally—would require a strong participatory structure that is gender inclusive.

Published

2023

4. Unravelling the diversity in water usage among wild banana species in response to vapour pressure deficit

Author

David Eyland, Clara Gambart, Rony Swennen, and Sebastien Carpentier

Subjects

drought tolerance, stomatal conductance, transpiration, vapour pressure deficit, water use efficiency, wild banana species, Plant culture, SB1-1110

Abstract

The rise in global temperature is not only affecting plant functioning directly, but is also increasing air vapour pressure deficit (VPD). The yield of banana is heavily affected by water deficit but so far breeding programs have never addressed the issue of water deficit caused by high VPD. A reduction in transpiration at high VPD has been suggested as a key drought tolerance breeding trait to avoid excessive water loss, hydraulic failure and to increase water use efficiency. In this study, stomatal and transpiration responses under increasing VPD at the leaf and whole-plant level of 8 wild banana (sub)species were evaluated, displaying significant differences in stomatal reactivity. Three different phenotypic groups were identified under increasing VPD. While (sub)species of group III maintained high transpiration rates under increasing VPD, M. acuminata ssp. errans (group I), M. acuminata ssp. zebrina (group II) and M. balbisiana (group II) showed the highest transpiration rate limitations to increasing VPD. In contrast to group I, group II only showed strong reductions at high VPD levels, limiting the cost of reduced photosynthesis and strongly increasing their water use efficiency. M. acuminata ssp. zebrina and M. balbisiana thus show the most favourable responses. This study provides a basis for the identification of potential parent material in gene banks for breeding future-proof bananas that cope better with lack of water.

Published

2023

5. Development of a neonatal Göttingen Minipig model for dose precision in perinatal asphyxia: technical opportunities, challenges, and potential further steps

Author

Marina-Stefania Stroe, Lieselotte Van Bockstal, Allan Valenzuela, Miriam Ayuso, Karen Leys, Pieter Annaert, Sebastien Carpentier, Anne Smits, Karel Allegaert, Adrian Zeltner, Antonius Mulder, Chris Van Ginneken, and Steven Van Cruchten

Subjects

animal model, anesthesia, perinatal asphyxia, therapeutic hypothermia, pediatric drug development, precision dosing, Pediatrics, RJ1-570

Abstract

Animal models provide useful information on mechanisms in human disease conditions, but also on exploring (patho)physiological factors affecting pharmacokinetics, safety, and efficacy of drugs in development. Also, in pediatric patients, nonclinical data can be critical for better understanding the disease conditions and developing new drug therapies in this age category. For perinatal asphyxia (PA), a condition defined by oxygen deprivation in the perinatal period and possibly resulting in hypoxic ischemic encephalopathy (HIE) or even death, therapeutic hypothermia (TH) together with symptomatic drug therapy, is the standard approach to reduce death and permanent brain damage in these patients. The impact of the systemic hypoxia during PA and/or TH on drug disposition is largely unknown and an animal model can provide useful information on these covariates that cannot be assessed separately in patients. The conventional pig is proven to be a good translational model for PA, but pharmaceutical companies do not use it to develop new drug therapies. As the Göttingen Minipig is the commonly used pig strain in nonclinical drug development, the aim of this project was to develop this animal model for dose precision in PA. This experiment consisted of the instrumentation of 24 healthy male Göttingen Minipigs, within 24 h of partus, weighing approximately 600 g, to allow the mechanical ventilation and the multiple vascular catheters inserted for maintenance infusion, drug administration and blood sampling. After premedication and induction of anesthesia, an experimental protocol of hypoxia was performed, by decreasing the inspiratory oxygen fraction (FiO2) at 15%, using nitrogen gas. Blood gas analysis was used as an essential tool to evaluate oxygenation and to determine the duration of the systemic hypoxic insult to approximately 1 h. The human clinical situation was mimicked for the first 24 h after birth in case of PA, by administering four compounds (midazolam, phenobarbital, topiramate and fentanyl), frequently used in a neonatal intensive care unit (NICU). This project aimed to develop the first neonatal Göttingen Minipig model for dose precision in PA, allowing to separately study the effect of systemic hypoxia versus TH on drug disposition. Furthermore, this study showed that several techniques that were thought to be challenging or even impossible in these very small animals, such as endotracheal intubation and catheterization of several veins, are feasible by trained personnel. This is relevant information for laboratories using the neonatal Göttingen Minipig for other disease conditions or drug safety testing.

Published

2023

6. Yield Stability of East African Highland Cooking Banana ‘Matooke’ Hybrids

Author

Noel A. Madalla, Rony Swennen, Allan F. Brown, Cornel Massawe, Mpoki Shimwela, Daud Mbongo, Grace Kindimba, Jerome Kubiriba, Robooni Tumuhimbise, Asher W. Okurut, Sebastien Carpentier, Inge Van den Bergh, Rhiannon Crichton, Lewis Machida, Eva Weltzien, and Rodomiro Ortiz

Subjects

ammi biplot, genotype × environment interaction, high-yielding cultivars, musa sp., pseudocercospora fijiensis, selection and testing sites, yield potential, Plant culture, SB1-1110

Abstract

East African banana (Musa sp.) breeding efforts have focused mainly on enhancing ‘Matooke’ productivity through the development of high-yielding, pathogen-resistant cultivars with adequate stability to contribute to regional food security. Before a breeding program can recommend promising cultivars for release, they must pass the sensory screens; be evaluated in the target population environments; and the data analyzed for yield, adaptability, and stability. Twenty-four primary and secondary triploid hybrids [NARITA (N)] derived from ‘Matooke’ bananas, six triploid local ‘Matooke’ cultivars, and one exotic cultivar were evaluated for their yield, adaptability, and stability across the East African region at three highland sites in Uganda’s western and central regions, as well as at three sites in Tanzania’s northeastern and southern highlands regions, from 2016–19. A randomized complete block design with four replicates was used for multisite trials. The mixed-model restricted maximum likelihood/best linear unbiased prediction approach, along with additive main effect multiplicative interaction model biplots, were used to dissect and visualize genotype-by-environment patterns. Following the likelihood ratio test, both genotype and interaction effects were highly significant, confirming the influence of genotype and site heterogeneity for selecting specific and broadly adapted cultivars. N23 had the greatest yield across all sites associated with adaptability and stability, outperforming the overall mean yield of all genotypes by 34.2%. In Tanzania, N27 (second), N7 (third), N18 (fourth), N4 (fifth), N12 (sixth), and N13 (seventh); and in Uganda, N17 (second), N18 (third), N2 (fourth), N8 (fifth), N13 (sixth), N12 (seventh), N4 (eighth), and N24 (ninth) demonstrated good adaptability and stability, as well as high yield. Furthermore, the fungal pathogen Pseudocercospora fijiensis had no significant effect (P > 0.05) on yield, stability, and adaptability of the hybrids. As a result, they can be introduced into areas where black leaf streak constrains banana production significantly and threatens farmers’ livelihoods. The average site yield potential ranged from 9.7 to 24.3 t⋅ha–1 per year. The best discriminating sites for testing breeding clones were Lyamungo in Tanzania and Sendusu in Uganda. Hence, these testing sites are recommended as ideal examples of locations for selecting superior genotypes.

Published

2022

7. Odorant-binding proteins in canine anal sac glands indicate an evolutionarily conserved role in mammalian chemical communication

Author

Sunita Janssenswillen, Kim Roelants, Sebastien Carpentier, Hilde de Rooster, Mieke Metzemaekers, Bram Vanschoenwinkel, Paul Proost, and Franky Bossuyt

Subjects

Odorant binding proteins, Chemical communication, Anal sac glands, Placental mammals, Carnivores, Dogs, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Background Chemical communication is an important aspect of the behavioural ecology of a wide range of mammals. In dogs and other carnivores, anal sac glands are thought to convey information to conspecifics by secreting a pallet of small volatile molecules produced by symbiotic bacteria. Because these glands are unique to carnivores, it is unclear how their secretions relate to those of other placental mammals that make use of different tissues and secretions for chemical communication. Here we analyse the anal sac glands of domestic dogs to verify the secretion of proteins and infer their evolutionary relationship to those involved in the chemical communication of non-carnivoran mammals. Results Proteomic analysis of anal sac gland secretions of 17 dogs revealed the consistently abundant presence of three related proteins. Homology searches against online databases indicate that these proteins are evolutionary related to ‘odorant binding proteins’ (OBPs) found in a wide range of mammalian secretions and known to contribute to chemical communication. Screening of the dog’s genome sequence show that the newly discovered OBPs are encoded by a single cluster of three genes in the pseudoautosomal region of the X-chromosome. Comparative genomic screening indicates that the same locus is shared by a wide range of placental mammals and that it originated at least before the radiation of extant placental orders. Phylogenetic analyses suggest a dynamic evolution of gene duplication and loss, resulting in large gene clusters in some placental taxa and recurrent loss of this locus in others. The homology of OBPs in canid anal sac glands and those found in other mammalian secretions implies that these proteins maintained a function in chemical communication throughout mammalian evolutionary history by multiple shifts in expression between secretory tissues involved in signal release and nasal mucosa involved in signal reception. Conclusions Our study elucidates a poorly understood part of the biology of a species that lives in close association with humans. In addition, it shows that the protein repertoire underlying chemical communication in mammals is more evolutionarily stable than the variation of involved glands and tissues would suggest.

Published

2021

8. TARIBAN1, TARIBAN2, TARIBAN3, and TARIBAN4 ‘Matooke’ Cooking Banana Cultivars for the Great Lakes Region of Africa

Author

Noel A. Madalla, Cornel Massawe, Mpoki Shimwela, Daud Mbongo, Grace Kindimba, Jerome Kubiriba, Ivan Arinaitwe, Kephas Nowakunda, Priver Namanya, Robooni Tumuhimbise, Asher W. Okurut, Adolf Saria, Munguatosha Ngomuo, Rony Swennen, Allan F. Brown, Michael Batte, Sebastien Carpentier, Inge Van den Bergh, Rhiannon Crichton, Pricilla Marimo, Eva Weltzien, and Rodomiro Ortiz

Subjects

east african highland bananas, host plant resistance, pseudocercospora fijiensis, Plant culture, SB1-1110

Published

2022

9. Hybridization, missing wild ancestors and the domestication of cultivated diploid bananas

Author

Julie Sardos, Catherine Breton, Xavier Perrier, Ines Van den Houwe, Sebastien Carpentier, Janet Paofa, Mathieu Rouard, and Nicolas Roux

Subjects

banana (Musa ssp.), domestication, hybridization, missing wild ancestor, Musa acuminata, selection, Plant culture, SB1-1110

Abstract

Hybridization and introgressions are important evolutionary forces in plants. They contribute to the domestication of many species, including understudied clonal crops. Here, we examine their role in the domestication of a clonal crop of outmost importance, banana (Musa ssp.). We used genome-wide SNPs generated for 154 diploid banana cultivars and 68 samples of the wild M. acuminata to estimate and geo-localize the contribution of the different subspecies of M. acuminata to cultivated banana. We further investigated the wild to domesticate transition in New Guinea, an important domestication center. We found high levels of admixture in many cultivars and confirmed the existence of unknown wild ancestors with unequal contributions to cultivated diploid. In New Guinea, cultivated accessions exhibited higher diversity than their direct wild ancestor, the latter recovering from a bottleneck. Introgressions, balancing selection and positive selection were identified as important mechanisms for banana domestication. Our results shed new lights on the radiation of M. acuminata subspecies and on how they shaped banana domestication. They point candidate regions of origin for two unknown ancestors and suggest another contributor in New Guinea. This work feed research on the evolution of clonal crops and has direct implications for conservation, collection, and breeding.

Published

2022

10. Safeguarding and using global banana diversity: a holistic approach

Author

Ines Van den houwe, Rachel Chase, Julie Sardos, Max Ruas, Els Kempenaers, Valentin Guignon, Sebastien Massart, Sebastien Carpentier, Bart Panis, Mathieu Rouard, and Nicolas Roux

Subjects

Genebank, Banana, Vegetative propagation, Germplasm conservation, Phenotyping, Genomics, Agriculture (General), S1-972

Abstract

Abstract The CGIAR genebank International Musa Germplasm Transit Centre (ITC) currently holds 1617 banana accessions from 38 countries as an in vitro collection, backed-up by a cryopreserved collection to safeguard global Musa diversity in perpetuity. The ITC also serves as a vital safety backup and transit centre for national banana genebanks and ensures that germplasm is clean of pests and diseases and freely available under the International Treaty on Plant Genetic Resources for Food and Agriculture. In more than 35 years of activity, the ITC has distributed over 18,000 banana accession samples to researchers and farmers in 113 countries. Ex situ conservation of vegetatively-propagated crops such as banana poses very particular challenges. Maintaining the ITC genebank is labor intense and costly. Efficiencies are sought through research and development of techniques on detecting viruses, the genetic integrity of accessions, and on innovative means of safeguarding banana diversity, such as conserving populations of wild species by seed banking. Although the conservation of global banana diversity is the main objective of the ITC, significant value comes from its holistic approach to better understand and promote its germplasm through numerous research activities and resources. Techniques for morphological and molecular characterization serve to identify and describe the collection, while also determining what gaps should be filled by collecting missions with national partners. The evaluation of desirable agronomic traits inherent in Musa spp. are investigated by a high-throughput phenotyping platform, which helps breeding programs to select cultivars resistant or tolerant to biotic and abiotic stresses. Genomic and bioinformatic studies of several banana wild relatives greatly enhance our understanding of Musa genetic diversity, links to important phenotypic traits and bring new methods for management of the collection. Collectively, these research activities produce enormous amounts of data that require curation and dissemination to the public. The two information systems at the ITC, Musa Genebank Management System and the Musa Germplasm Information System, serve to manage the genebank activities and to make public germplasm-related data for over 30 banana collections worldwide, respectively. By implementing the 10-year workplan set out in the Global Strategy for the Conservation and Use of Musa Genetic Resources, the network MusaNet supports Musa researchers and stakeholders, including the ITC, and most importantly, links to the world’s banana-producing countries via three regional banana networks.

Published

2020

11. Erratum for Mortier and Gayán et al., 'Gene Erosion Can Lead to Gain-of-Function Alleles That Contribute to Bacterial Fitness'

Author

Julien Mortier, Elisa Gayán, Ronald Van Eyken, Oscar Enrique Torres Montaguth, Ladan Khodaparast, Laleh Khodaparast, Bert Houben, Sebastien Carpentier, Frederic Rousseau, Joost Schymkowitz, and Abram Aertsen

Subjects

Microbiology, QR1-502

Published

2021

12. Gene Erosion Can Lead to Gain-of-Function Alleles That Contribute to Bacterial Fitness

Author

Julien Mortier, Elisa Gayán, Ronald Van Eyken, Oscar Enrique Torres Montaguth, Ladan Khodaparast, Laleh Khodaparast, Bert Houben, Sebastien Carpentier, Frederic Rousseau, Joost Schymkowitz, and Abram Aertsen

Subjects

evolution, genetics, heat resistance, protein aggregates, Microbiology, QR1-502

Abstract

ABSTRACT Despite our extensive knowledge of the genetic regulation of heat shock proteins (HSPs), the evolutionary routes that allow bacteria to adaptively tune their HSP levels and corresponding proteostatic robustness have been explored less. In this report, directed evolution experiments using the Escherichia coli model system unexpectedly revealed that seemingly random single mutations in its tnaA gene can confer significant heat resistance. Closer examination, however, indicated that these mutations create folding-deficient and aggregation-prone TnaA variants that in turn can endogenously and preemptively trigger HSP expression to cause heat resistance. These findings, importantly, demonstrate that even erosive mutations with disruptive effects on protein structure and functionality can still yield true gain-of-function alleles with a selective advantage in adaptive evolution.

Published

2021

13. dsRNA Molecules From the Tobacco Mosaic Virus p126 Gene Counteract TMV-Induced Proteome Changes at an Early Stage of Infection

Author

Naga Charan Konakalla, Mukesh Nitin, Athanasios Kaldis, Hema Masarapu, Sebastien Carpentier, and Andreas Voloudakis

Subjects

double-stranded RNA, plant proteomics, RNA interference, silencing suppressor, Tobacco mosaic virus, tobacco, Plant culture, SB1-1110

Abstract

Exogenous application of double-stranded RNA (dsRNA) in the tobacco–Tobacco mosaic virus (TMV) pathosystem was shown previously to induce resistance against TMV providing an alternative approach to transgenesis. In the present study, we employed proteomics technology to elucidate the effect of TMV on tobacco as well as the effect of exogenous application of TMV p126 dsRNA molecules (dsRNAp126) at an early stage of the tobacco–TMV interaction. The proteome of tobacco leaf at 15 min post inoculation (mpi) in the presence or absence of dsRNAp126 molecules was studied. Thirty-six tobacco proteins were differentially accumulated in TMV-infected vs. healthy tobacco leaf tissue. The identified main differential TMV-responsive proteins were found to be involved in photosynthesis, energy metabolism, stress, and defense responses. Most of the virus-induced changes in the tobacco leaf proteome were not observed in the leaves treated with dsRNAp126 + TMV. The results indicated that the protein changes induced by TMV infection were counteracted by the exogenous application of dsRNAp126 molecules. Moreover, using small RNA sequencing, we showed that the exogenously applied dsRNAp126 was efficiently processed in tobacco as early as 15 min post application (mpa) to produce small interfering RNAs (siRNAs); the dicing pattern was not affected by the presence of TMV. The presence of dsRNAp126 reduced TMV p126 RNA abundance suggesting virus titer reduction via a sequence-specific mechanism, since a non-homologous dsRNA did not protect from TMV infection nor affect TMV accumulation.

Published

2021

14. Aggregating sequences that occur in many proteins constitute weak spots of bacterial proteostasis

Author

Ladan Khodaparast, Laleh Khodaparast, Rodrigo Gallardo, Nikolaos N. Louros, Emiel Michiels, Reshmi Ramakrishnan, Meine Ramakers, Filip Claes, Lydia Young, Mohammad Shahrooei, Hannah Wilkinson, Matyas Desager, Wubishet Mengistu Tadesse, K. Peter R. Nilsson, Per Hammarström, Abram Aertsen, Sebastien Carpentier, Johan Van Eldere, Frederic Rousseau, and Joost Schymkowitz

Subjects

Science

Abstract

Aggregation is sequence-specific and nucleated by short aggregating protein segments (APR). Here authors use a multidisciplinary approach to show that in E.coli some frequently occurring APRs lead to protein aggregation and ultimately bacterial cell death, which could serve as antibacterial strategy.

Published

2018

15. Homeolog expression analysis in an allotriploid non-model crop via integration of transcriptomics and proteomics

Author

Jelle van Wesemael, Yann Hueber, Ewaut Kissel, Nádia Campos, Rony Swennen, and Sebastien Carpentier

Subjects

Medicine, Science

Abstract

Abstract The fate of doubled genes, from allopolyploid or autopolyploid origin, is controlled at multiple levels, resulting in the modern day cultivars. We studied the root growth of 3 different triploid banana cultivars under control and osmotic stress conditions. The root growth of the allopolyploid ABB cultivar was 42% higher under control and 61% higher under osmotic stress. By integrating transcriptomics and proteomics, we studied the gene expression of all 3 cultivars, resulting in 2,749 identified root proteins. 383 gene loci displayed genotype specific differential expression whereof 252 showed at least one Single Amino Acid Polymorphism (SAAP). In the ABB cultivar, allele expressions supposedly follow a 1/3 and 2/3 pattern for respectively the A and the B allele. Using transcriptome read alignment to assess the homeoallelic contribution we found that 63% of the allele specific genes deviated from this expectation. 32 gene loci even did not express the A allele. The identified ABB allele- specific proteins correlate well with the observed growth phenotype as they are enriched in energy related functions such as ATP metabolic processes, nicotinamide nucleotide metabolic processes, and glycolysis.

Published

2018

16. Identification of dimedone-trapped sulfenylated proteins in plants under stress

Author

Salma Akter, Sebastien Carpentier, Frank Van Breusegem, and Joris Messens

Subjects

Arabidopsis, Oxidative stress, Sulfenylation, Dimedone, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

In stressed plants, the reactive oxygen species (ROS) levels rise. Key to ROS signaling research are detection and identification of the protein cysteine sulfenylation (-SOH), the ROS-mediated oxidative product of a thiol (-SH). Arabidopsis thaliana seedlings were stressed with hydrogen peroxide (H2O2) and the sulfenylated proteins were tagged with dimedone. Dimedone-tagged sulfenic acid proteins were visualized on a two-dimensional electrophoresis (2DE) immunoblot with an anticysteine sulfenic acid antibody and were subsequently detected by mass spectrometry. We optimized the detection method for protein sulfenylation in Arabidopsis. We conclude that dimedone can penetrate the cell wall, does not stress plants, and can “read” the changes in the protein sulfenylation pattern under oxidative stress. We observed that the number of sulfenylated proteins in plants treated with 10 mM H2O2 was higher than that in untreated plants. A total of 39 sulfenylated protein spots were found on 2DE immunoblots. By means of mass spectrometry, 11 sulfenylated proteins were discovered involved in primary metabolism, redox regulation, translation and signaling pathways. Hence, by combining an immunochemical 2DE strategy with mass spectrometry, we were able to identify sulfenylated proteins in H2O2-stressed Arabidopsis seedlings. The sulfenylated proteins can be considered for further validation as redox regulators in plants.

Published

2017

17. Using Growth and Transpiration Phenotyping Under Controlled Conditions to Select Water Efficient Banana Genotypes

Author

Jelle van Wesemael, Ewaut Kissel, David Eyland, Tracy Lawson, Rony Swennen, and Sebastien Carpentier

Subjects

biodiversity, banana, water use efficiency, real-time phenotyping, transpiration behavior, climate smart agriculture, Plant culture, SB1-1110

Abstract

Water deficit is one of the world’s major constraints in agriculture and will aggravate in the future. Banana (Musa spp.) is an important crop that needs vast amounts of water for optimal production. The International Transit Center of Bioversity International holds the world’s biggest collection of banana biodiversity (>1,500 accessions). The long-term aim of this research is to evaluate the potential within this collection for climate smart agricultural usage. Therefore, we developed a phenotyping setup under controlled environmental conditions and we selected 32 representatives of the Musa biodiversity (29 cultivars and 3 wild relatives) for evaluation. The best performing genotypes accumulated six to seven times more biomass than the least performing. Eight genotypes (five ABB, one AAB, and two AAA) invest under osmotic stress significantly more in root growth than in leaf growth. We predict therefore that these genotypes have potential for high productivity under rain fed conditions with a short dry season. To gain more insight in the transpiration physiology, we gravimetrically monitored individual plant transpiration over the diurnal period. All analyzed genotypes showed a marked reduction in transpiration rate in the afternoon. Moreover, the timing of this onset, as well as its impact on total transpiration, was genotype dependent. This phenomenon was more pronounced in 13 genotypes (eight ABB, two AAB, two AA, one BB). Banana is a crop originating from the humid tropics and has developed a strong root pressure to maintain an efficient water and nutrient transport even under saturated relative humidity conditions. Therefore, we hypothesize that the diurnal transpiration decline contributes to a higher water use efficiency without compromising the nutrient transport. Of the eight genotypes that had the best growth under osmotic stress, all analyzed ABB cultivars have a lower maximal transpiration rate, keep this maximal transpiration for a shorter time and therefore consume less water per day. We conclude that lab models are very useful to study the biodiversity and to identify different traits that contribute to a better drought tolerance/avoidance. We encourage researchers investigating other crops to start exploring their collections.

Published

2019

18. Plant Phenotyping Research Trends, a Science Mapping Approach

Author

Corrado Costa, Ulrich Schurr, Francesco Loreto, Paolo Menesatti, and Sebastien Carpentier

Subjects

phenotyping, bibliometric analyses, imaging, growth, marker, Plant culture, SB1-1110

Abstract

Modern plant phenotyping, often using non-invasive technologies and digital technologies, is an emerging science and provides essential information on how genetics, epigenetics, environmental pressures, and crop management (farming) can guide selection toward productive plants suitable for their environment. Thus, phenotyping is at the forefront of future plant breeding. Bibliometric science mapping is a quantitative method that analyzes scientific publications throughout the terms present in their title, abstract, and keywords. The aim of this mapping exercise is to observe trends and identify research opportunities. This allows us to analyze the evolution of phenotyping research and to predict emerging topics of this discipline. A total of 1,827 scientific publications fitted our search method over the last 20 years. During the period 1997–2006, the total number of publications was only around 6.1%. The number of publications increased more steeply after 2010, boosted by the overcoming of technological bias and by a set of key developments at hard and software level (image analysis and data storage management, automation and robotics). Cluster analysis evidenced three main groups linked to genetics, physiology, and imaging. Mainly the model plant “Arabidopsis thaliana” and the crops “rice” and “triticum” species were investigated in the literature. The last two species were studied when addressing “plant breeding,” and “genomic selection.” However, currently the trend goes toward a higher diversity of phenotyped crops and research in the field. The application of plant phenotyping in the field is still under rapid development and this application has strong linkages with precision agriculture. EU co-authors were involved in 41.8% of the analyzed papers, followed by USA (15.4%), Australia (6.0%), and India (5.6%). Within the EU, coauthors were mainly affiliated in Germany (35.8%), France (23.7%), and United Kingdom (18.4%). Time seems right for new opportunities to incentivize research on more crops, in real field conditions, and to spread knowledge toward more countries, including emerging economies. Science mapping offers the possibility to get insights into a wide amount of bibliographic information, making them more manageable, attractive, and easy to serve science policy makers, stakeholders, and research managers.

Published

2019

19. Effect of Seasonal Drought on the Agronomic Performance of Four Banana Genotypes (Musa spp.) in the East African Highlands

Author

Brigitte Uwimana, Yasmín Zorrilla-Fontanesi, Jelle van Wesemael, Hassan Mduma, Allan Brown, Sebastien Carpentier, and Rony Swennen

Subjects

agronomic traits, banana, east African highlands, Musa, seasonal drought, Agriculture

Abstract

Banana (Musa spp.), a perennial (sub-)tropical crop, suffers from seasonal droughts, which are typical of rain-fed agriculture. This study aimed at understanding the effect of seasonal drought on early growth, flowering and yield traits in bananas grown in the East African highlands. A field experiment was set up in North Tanzania using four genotypes from different geographical origins and two different ploidy levels. The treatments considered were exclusively rain-fed versus rain supplemented with irrigation. Growth in plant girth and leaf area were promising traits to detect the early effect of water deficit. Seasonal drought slowed down vegetative growth, thus significantly decreasing plant girth, plant height and the number of suckers produced when compared to irrigated plants. It also delayed flowering time and bunch maturity and had a negative effect on yield traits. However, the results depended on the genotype and crop cycle and their interaction with the treatments. “Nakitengwa”, an East African highland banana (EAHB; AAA genome group), which is adapted to the region, showed sensitivity to drought in terms of reduced bunch weight and expected yield, while “Cachaco” (ABB genome group) showed less sensitivity to drought but had a poorer yield than “Nakitengwa”. Our study confirms that seasonal drought has a negative impact on banana production in East Africa, where EAHBs are the most predominant type of bananas grown in the region. We also show that a drought-tolerant cultivar not adapted to the East African highlands had a low performance in terms of yield. We recommend a large-scale screening of diploid bananas to identify drought-tolerant genotypes to be used in the improvement of locally adapted and accepted varieties.

Published

2020

20. The Neonatal and Juvenile Pig in Pediatric Drug Discovery and Development

Author

Miriam Ayuso, Laura Buyssens, Marina Stroe, Allan Valenzuela, Karel Allegaert, Anne Smits, Pieter Annaert, Antonius Mulder, Sebastien Carpentier, Chris Van Ginneken, and Steven Van Cruchten

Subjects

pediatric pharmacology, juvenile pig model, translational research, drug discovery, drug development, drug safety, Pharmacy and materia medica, RS1-441

Abstract

Pharmacotherapy in pediatric patients is challenging in view of the maturation of organ systems and processes that affect pharmacokinetics and pharmacodynamics. Especially for the youngest age groups and for pediatric-only indications, neonatal and juvenile animal models can be useful to assess drug safety and to better understand the mechanisms of diseases or conditions. In this respect, the use of neonatal and juvenile pigs in the field of pediatric drug discovery and development is promising, although still limited at this point. This review summarizes the comparative postnatal development of pigs and humans and discusses the advantages of the juvenile pig in view of developmental pharmacology, pediatric diseases, drug discovery and drug safety testing. Furthermore, limitations and unexplored aspects of this large animal model are covered. At this point in time, the potential of the neonatal and juvenile pig as nonclinical safety models for pediatric drug development is underexplored.

Published

2020

21. Correction to: Safeguarding and using global banana diversity: a holistic approach

Author

Ines Van den Houwe, Rachel Chase, Julie Sardos, Max Ruas, Els Kempenaers, Valentin Guignon, Sebastien Massart, Sebastien Carpentier, Bart Panis, Mathieu Rouard, and Nicolas Roux

Subjects

Agriculture (General), S1-972

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published

2020

22. Challenges for Ex Situ Conservation of Wild Bananas: Seeds Collected in Papua New Guinea Have Variable Levels of Desiccation Tolerance

Author

Simon Kallow, Kevin Longin, Natalia Fanega Sleziak, Steven B. Janssens, Filip Vandelook, John Dickie, Rony Swennen, Janet Paofa, Sebastien Carpentier, and Bart Panis

Subjects

banana, crop wild relatives, ex situ conservation, desiccation tolerance, Musa, Papua New Guinea, Botany, QK1-989

Abstract

Ex situ seed conservation of banana crop wild relatives (Musa spp. L.), is constrained by critical knowledge gaps in their storage and germination behaviour. Additionally, challenges in collecting seeds from wild populations impact the quality of seed collections. It is, therefore, crucial to evaluate the viability of seeds from such collecting missions in order to improve the value of future seed collections. We evaluate the seed viability of 37 accessions of seven Musa species, collected from wild populations in Papua New Guinea, during two collecting missions. Seeds from one mission had already been stored in conventional storage (dried for four months at 15% relative humidity, 20 °C and stored for two months at 15% relative humdity, −20 °C), so a post-storage test was carried out. Seeds from the second mission were assessed freshly extracted and following desiccation. We used embryo rescue techniques to overcome the barrier of germinating in vivo Musa seeds. Seeds from the first mission had low viability (19 ± 27% mean and standard deviation) after storage for two months at 15% relative humidity and −20 °C. Musa balbisiana Colla seeds had significantly higher post-storage germination than other species (p < 0.01). Desiccation reduced germination of the seeds from the second collecting mission, from 84 ± 22% (at 16.7 ± 2.4% moisture content) to 36 ± 30% (at 2.4 ± 0.8% moisture content). There was considerable variation between and (to a lesser extent) within accessions, a proportion of individual seeds of all but one species (Musa ingens N.W.Simmonds) survived desiccation and sub-zero temperature storage. We identified that seeds from the basal end of the infructescence were less likely to be viable after storage (p < 0.001); and made morphological observations that identify seeds and infructescences with higher viability in relation to their developmental maturity. We highlight the need for research into seed eco-physiology of crop wild relatives in order to improve future collecting missions.

Published

2020

23. Antioxidant, antihypertensive and antidiabetic potential of peptidic fractions obtained from tarwi ( Lupinus mutabilis ) protein hydrolysate and identification of promising multifunctional bioactive peptides

Author

Rosana Chirinos, Naysha Villasante‐Bravo, Ana Aguilar‐Galvez, Andrés Figueroa‐Merma, Sebastien Carpentier, Romina Pedreschi, and David Campos

Subjects

Industrial and Manufacturing Engineering, Food Science

Published

2022

24. Proteomics analysis reveals new insights into surface pitting of sweet cherry cultivars displaying contrasting susceptibility

Author

Gerardo Nuñez-Lillo, Excequel Ponce, Juan E. Alvaro, David Campos, Claudio Meneses, Reinaldo Campos-Vargas, Sebastien Carpentier, Claudia Fuentealba, and Romina Pedreschi

Subjects

Genetics, Horticulture

Published

2022

25. High‐throughput phenotyping reveals differential transpiration behaviour within the banana wild relatives highlighting diversity in drought tolerance

Author

David Eyland, Nathalie Luchaire, Llorenç Cabrera-Bosquet, Boris Parent, Steven Janssens, Rony Swennen, Claude Welcker, Francois Tardieu, and sebastien carpentier

Subjects

Soil, Physiology, fungi, Plant Stomata, food and beverages, Water, Musa, Plant Transpiration, Plant Science, Droughts

Abstract

Crop wild relatives, the closely related species of crops, may harbour potentially important sources of new allelic diversity for (a)biotic tolerance or resistance. However, to date, wild diversity is only poorly characterized and evaluated. Banana has a large wild diversity but only a narrow proportion is currently used in breeding programmes. The main objective of this study was to evaluate genotype-dependent transpiration responses in relation to the environment. By applying continuous high-throughput phenotyping, we were able to construct genotype-specific transpiration response models in relation to light, VPD and soil water potential. We characterized and evaluated six (sub)species and discerned four phenotypic clusters. Significant differences were observed in leaf area, cumulative transpiration and transpiration efficiency. We confirmed a general stomatal-driven ‘isohydric’ drought avoidance behaviour, but discovered genotypic differences in the onset and intensity of stomatal closure. We pinpointed crucial genotype-specific soil water potentials when drought avoidance mechanisms were initiated and when stress kicked in. Differences between (sub)species were dependent on environmental conditions, illustrating the need for high-throughput dynamic phenotyping, modelling and validation. We conclude that the banana wild relatives contain useful drought tolerance traits, emphasising the importance of their conservation and potential for use in breeding programmes. ispartof: Plant Cell And Environment vol:45 issue:6 pages:1-17 ispartof: location:United States status: Published online

Published

2022

26. A digital catalog of high‐density markers for banana germplasm collections

Author

Sebastien Carpentier, Valentin Guignon, Julie Sardos, Ines Van den houwe, Mathieu Rouard, Catherine Breton, Nicolas Roux, and Guilhem Sempere

Subjects

Germplasm, Banque de germplasm, INFORMATION, Data management, Biodiversity & Conservation, High density, Environmental Sciences & Ecology, Plant Science, Banque de gènes, Horticulture, Biology, Musa (bananes), Conservation des ressources génétiques, F30 - Génétique et amélioration des plantes, Crop, GE1-350, Ecology, Evolution, Behavior and Systematics, high-density markers, Genetic diversity, Science & Technology, Ecology, Agroforestry, business.industry, Diversité génétique (comme ressource), Plant Sciences, Botany, plant conservation, Forestry, high‐density markers, Environmental sciences, banana, Collection de matériel génétique, QK1-989, Biodiversity Conservation, digital genebank, P01 - Conservation de la nature et ressources foncières, Biodiversité, data management, business, Life Sciences & Biomedicine

Abstract

Societal Impact Statement Global production of bananas, among the top 10 food crops worldwide, is under threat. Increasing the use of germplasm conserved in genebanks is crucial. However, the lack of or difficult access to genetic diversity information limits the efficient utilization of these valuable resources. Here, we present a digital catalog of high‐density markers for banana germplasm conserved at the international banana collection. By facilitating access to subsets of genetic diversity information, the catalog has potential to maximize conservation and use of climate‐ready varieties and to optimize breeding strategies. The catalog is extendable with data from any banana collection and the software is easily deployable in other crop genebanks.

Published

2022

27. The impact of plant diversity and vegetation composition on bumblebee colony fitness

Author

Sebastiaan Verbeke, Margaux Boeraeve, Sebastien Carpentier, Hans Jacquemyn, and María I. Pozo

Subjects

Ecology, Evolution, Behavior and Systematics

Published

2023

28. Corrigendum to antioxidant, antihypertensive and antidiabetic potential of peptidic fractions obtained from tarwi ( Lupinus mutabilis ) protein hydrolysate and identification of promising multifunctional bioactive peptides

Author

Sebastien Carpentier

Subjects

Industrial and Manufacturing Engineering, Food Science

Published

2022

29. Review for 'Carbon allocation in cassava is affected by water deficit and potassium application ‐ a 13 C‐CO 2 pulse labelling assessment'

Author

sebastien carpentier

Published

2022

30. Proteomic and metabolomic integration reveals the effects of pre-flowering cytokinin applications on central carbon metabolism in table grape berries

Author

Patricio Olmedo, Gerardo Núñez-Lillo, Juan Vidal, Carol Leiva, Bárbara Rojas, Karen Sagredo, César Arriagada, Bruno G. Defilippi, Alonso G. Pérez-Donoso, Claudio Meneses, Sebastien Carpentier, Romina Pedreschi, and Reinaldo Campos-Vargas

Subjects

General Medicine, Food Science, Analytical Chemistry

Published

2023

31. Investigating the Sequence Determinants of the Curling of Amyloid Fibrils Using Ovalbumin as a Case Study

Author

Joëlle A.J. Housmans, Bert Houben, Margarita Monge-Morera, Diego Asvestas, Hung Huy Nguyen, Grigoria Tsaka, Nikolaos Louros, Sebastien Carpentier, Jan A. Delcour, Frederic Rousseau, and Joost Schymkowitz

Subjects

Biomaterials, Amyloid, Polymers and Plastics, Ovalbumin, Materials Chemistry, Humans, Bioengineering, Amyloidosis, Peptides, Hydrophobic and Hydrophilic Interactions

Abstract

Highly ordered, straight amyloid fibrils readily lend themselves to structure determination techniques and have therefore been extensively characterized. However, the less ordered curly fibrils remain relatively understudied, and the structural organization underlying their specific characteristics remains poorly understood. We found that the exemplary curly fibril-forming protein ovalbumin contains multiple aggregation prone regions (APRs) that form straight fibrils when isolated as peptides or when excised from the full-length protein through hydrolysis. In the context of the intact full-length protein, however, the regions separating the APRs facilitate curly fibril formation. In fact, a meta-analysis of previously reported curly fibril-forming proteins shows that their inter-APRs are significantly longer and more hydrophobic when compared to straight fibril-forming proteins, suggesting that they may cause strain in the amyloid state. Hence, inter-APRs driving curly fibril formation may not only apply to our model protein but rather constitute a more general mechanism.

Published

2022

32. Diverse responses among wild banana species to vapour pressure deficit, a solution for drought tolerance breeding?

Author

David Eyland, Clara Gambart, Rony Swennen, and Sebastien Carpentier

Abstract

1AbstractThe predicted rise in global temperature is not only affecting plant functioning directly, but is also increasing air vapour pressure deficit (VPD). The yield of banana is heavily affected by water deficit but so far breeding programs have never addressed the issue. A reduction in transpiration at high VPD has been suggested as a key drought tolerance breeding trait to avoid excessive water loss, hydraulic failure and to increase water use efficiency. In this study, stomatal and transpiration responses under increasing VPD at the leaf and whole-plant level of 8 wild banana (sub)species were evaluated, displaying significant differences in stomatal reactivity. Three different groups were identified under increasing VPD. M. acuminata spp. errans (group I), M. acuminata spp. zebrina (group II) and M. balbisiana (group II) showed the highest transpiration rate limitations to increasing VPD. In contrast to group I, group II only showed strong reductions at high VPD levels, limiting the cost of reduced photosynthesis and strongly increasing their water use efficiency. Group II genotypes thus show favourable responses for high water use efficiency in regions with high VPDs. This provides a basis for the identification of potential parent material within their wild populations for drought tolerance breeding.HighlightWild banana species respond significantly different to water deficit caused by VPD increases and differ in the rate of stomatal reduction, revealing opportunities for drought tolerance breeding.

Published

2022

33. Sequence of proteome profiles in preclinical and symptomatic Alzheimer's disease

Author

Dietmar Rudolf Thal, Alicja Ronisz, Sebastien Carpentier, Anastassios Economou, Thomas Tousseyn, Marta J. Koper, Angelika Scheuerle, Xiaohang Li, Markus Otto, Konstantinos C. Tsolis, Simona Ospitalieri, Christine A. F. von Arnim, and Rik Vandenberghe

Subjects

Proteomics, 0301 basic medicine, Proteome, Epidemiology, Prodromal Symptoms, Neocortex, Disease, Endocytosis, Mass Spectrometry, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Developmental Neuroscience, Alzheimer Disease, medicine, Humans, Secretory pathway, Amyloid beta-Peptides, business.industry, Health Policy, Neurodegeneration, Brain, medicine.disease, Synaptic vesicle cycle, Psychiatry and Mental health, 030104 developmental biology, medicine.anatomical_structure, Immunology, Neurology (clinical), Geriatrics and Gerontology, business, 030217 neurology & neurosurgery

Abstract

Proteome profile changes in Alzheimer's disease (AD) brains have been reported. However, it is unclear whether they represent a continuous process, or whether there is a sequential involvement of distinct proteins. To address this question, we used mass spectrometry. We analyzed soluble, dispersible, sodium dodecyl sulfate, and formic acid fractions of neocortex homogenates (mainly Brodmann area 17-19) from 18 pathologically diagnosed preclinical AD, 17 symptomatic AD, and 18 cases without signs of neurodegeneration. By doing so, we identified four groups of AD-related proteins being changed in levels in preclinical and symptomatic AD cases: early-responding, late-responding, gradually-changing, and fraction-shifting proteins. Gene ontology analysis of these proteins and all known AD-risk/causative genes identified vesicle endocytosis and the secretory pathway-related processes as an early-involved AD component. In conclusion, our findings suggest that subtle changes involving the secretory pathway and endocytosis precede severe proteome changes in symptomatic AD as part of the preclinical phase of AD. The respective early-responding proteins may also contribute to synaptic vesicle cycle alterations in symptomatic AD.

Published

2021

34. The impact of slow stomatal kinetics on photosynthesis and water use efficiency under fluctuating light

Author

Sebastien Carpentier, David Eyland, Jelle van Wesemael, and Tracy Lawson

Subjects

0106 biological sciences, Limiting factor, Stomatal conductance, Physiology, Kinetics, Plant Science, Photosynthesis, 01 natural sciences, 03 medical and health sciences, Genetics, Water-use efficiency, Research Articles, 030304 developmental biology, Transpiration, 0303 health sciences, Chemistry, Water, Musa, Plant Transpiration, Plant Leaves, Horticulture, Light intensity, Plant Stomata, Water use, 010606 plant biology & botany

Abstract

Dynamic light conditions require continuous adjustments of stomatal aperture. The kinetics of stomatal conductance (gs) is hypothesized to be key to plant productivity and water use efficiency (WUE). Using step-changes in light intensity, we studied the diversity of light-induced gs kinetics in relation to stomatal anatomy in five banana genotypes (Musa spp.) and modeled the impact of both diffusional and biochemical limitations on photosynthesis (A). The dominant A limiting factor was the diffusional limitation associated with gs kinetics. All genotypes exhibited a strong limitation of A by gs, indicating a priority for water saving. Moreover, significant genotypic differences in gs kinetics and gs limitations of A were observed. For two contrasting genotypes, the impact of differential gs kinetics was further investigated under realistic diurnally fluctuating light conditions and at the whole-plant level. Genotype-specific stomatal kinetics observed at the leaf level was corroborated at whole-plant level by transpiration dynamics, validating that genotype-specific responses are still maintained despite differences in gs control at different locations in the leaf and across leaves. However, under diurnally fluctuating light conditions the impact of gs speediness on A and intrinsic (iWUE) depended on time of day. During the afternoon there was a setback in kinetics: absolute gs and gs responses to light were damped, strongly limiting A and impacting diurnal iWUE. We conclude the impact of differential gs kinetics depended on target light intensity, magnitude of change, gs prior to the change in light intensity, and particularly time of day. ispartof: PLANT PHYSIOLOGY vol:186 issue:2 pages:998-1012 ispartof: location:United States status: published

Published

2021

35. A multiomics integrative analysis of color de-synchronization with softening of ‘Hass’ avocado fruit: A first insight into a complex physiological disorder

Author

Gerardo, Núñez-Lillo, Excequel, Ponce, Camila, Arancibia-Guerra, Sebastien, Carpentier, Alegría, Carrasco-Pancorbo, Lucía, Olmo-García, Rosana, Chirinos, David, Campos, Reinaldo, Campos-Vargas, Claudio, Meneses, and Romina, Pedreschi

Subjects

General Medicine, Food Science, Analytical Chemistry

Abstract

Exocarp color de-synchronization with softening of 'Hass' avocado is a relevant recurrent problem for the avocado supply chain. This study aimed to unravel the mechanisms driving this de-synchronization integrating omics datasets from avocado exocarp of different storage conditions and color phenotypes. In addition, we propose potential biomarkers to predict color synchronized/de-synchronized fruit. Integration of transcriptomics, proteomics and metabolomics and network analysis revealed eight transcription factors associated with differentially regulated genes between regular air (RA) and controlled atmosphere (CA) and twelve transcription factors related to avocado fruit color de-synchronization control in ready-to-eat stage. CA was positively correlated to auxins, ethylene, cytokinins and brassinosteroids-related genes, while RA was characterized by enrichment of cell wall remodeling and abscisic acid content associated genes. At ready-to-eat higher contents of flavonoids, abscisic acid and brassinosteroids were associated with color-softening synchronized avocados. In contrast, de-synchronized fruit revealed increases of jasmonic acid, salicylic acid and auxin levels.

Published

2023

36. Antinuclear antibodies in individuals with COVID-19 reflect underlying disease: Identification of new autoantibodies in systemic sclerosis (CDK9) and malignancy (RNF20, RCC1, TRIP13)

Author

Xavier Bossuyt, Jean-Baptiste Vulsteke, Jan Van Elslande, Lise Boon, Greet Wuyts, Silke Willebrords, Glynis Frans, Nick Geukens, Sebastien Carpentier, Sabine Tejpar, Hans Wildiers, Daniel Blockmans, Ellen De Langhe, Pieter Vermeersch, and Rita Derua

Subjects

Immunology, Immunology and Allergy

Published

2023

37. Unravelling the complex story of intergenomic recombination in ABB allotriploid bananas

Author

Guillaume Martin, Catherine Breton, Yann Hueber, Sebastien Carpentier, Rony Swennen, Nicolas Roux, Alberto Cenci, Mathieu Rouard, Julie Sardos, Bioversity International [Montpellier], Bioversity International [Rome], Consultative Group on International Agricultural Research [CGIAR] (CGIAR)-Consultative Group on International Agricultural Research [CGIAR] (CGIAR), Amélioration génétique et adaptation des plantes méditerranéennes et tropicales (UMR AGAP), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Département Systèmes Biologiques (Cirad-BIOS), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Alliance of Bioversity International and the International Center for Tropical Agriculture (CIAT) [Rome] (Alliance), Consultative Group on International Agricultural Research [CGIAR] (CGIAR), and Directorate-general Development Cooperation and Humanitarian Aid ('Developing climatesmart bananas for the African Great Lakes region') - Belgian Development Cooperation

Subjects

0106 biological sciences, Genotype, India, Plant Science, Musa (bananes), Biology, Parthenocarpy, 01 natural sciences, Genome, Genetic diversity, F30 - Génétique et amélioration des plantes, 03 medical and health sciences, Variation génétique, Pisang Awak, subgenomes, Genetic variation, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, meiosis, Cultivar, Original Articles (Genomic Evolution Highlight), 030304 developmental biology, Hybrid, Recombination, Genetic, homologous exchanges, 2. Zero hunger, Genetics, 0303 health sciences, AcademicSubjects/SCI01210, polyploids, food and beverages, Chromosome, Musa, biology.organism_classification, Recombinaison, Genome, Plant, 010606 plant biology & botany

Abstract

Background and Aims Bananas (Musa spp.) are a major staple food for hundreds of millions of people in developing countries. The cultivated varieties are seedless and parthenocarpic clones of which the ancestral origin remains to be clarified. The most important cultivars are triploids with an AAA, AAB or ABB genome constitution, with A and B genomes provided by M. acuminata and M. balbisiana, respectively. Previous studies suggested that inter-genome recombinations were relatively common in banana cultivars and that triploids were more likely to have passed through an intermediate hybrid. In this study, we investigated the chromosome structure within the ABB group, composed of starchy cooking bananas that play an important role in food security. Methods Using SNP markers called from RADSeq data, we studied the chromosome structure of 36 ABB genotypes spanning defined taxonomic subgroups. To complement our understanding, we searched for similar events within nine AB hybrid genotypes. Key Results Recurrent homologous exchanges (HEs), i.e. chromatin exchanges between A and B subgenomes, were unravelled with at least nine founding events (HE patterns) at the origin of ABB bananas prior to clonal diversification. Two independent founding events were found for Pisang Awak genotypes. Two HE patterns, corresponding to genotypes Pelipita and Klue Teparod, show an over-representation of B genome contribution. Three HE patterns mainly found in Indian accessions shared some recombined regions and two additional patterns did not correspond to any known subgroups. Conclusions The discovery of the nine founding events allowed an investigation of the possible routes that led to the creation of the different subgroups, which resulted in new hypotheses. Based on our observations, we suggest different routes that gave rise to the current diversity in the ABB cultivars, routes involving primary AB hybrids, routes leading to shared HEs and routes leading to a B excess ratio. Genetic fluxes took place between M. acuminata and M. balbisiana, particularly in India, where these unbalanced AB hybrids and ABB allotriploids originated, and where cultivated M. balbisiana are abundant. The result of this study clarifies the classification of ABB cultivars, possibly leading to the revision of the classification of this subgroup.

Published

2020

38. The importance of the light spectrum in a high-throughput phenotyping lab concept: evaluating transpiration and biomass growth of different banana cultivars under different blue/red light ratios

Author

Ronny Swennen, Nicolas Roux, Sebastien Carpentier, and J. van Wesemael

Subjects

Light spectrum, Agronomy, Biodiversity, Environmental science, Biomass, Red light, Cultivar, Horticulture, Throughput (business), Agroecology, Transpiration

Published

2020

39. The Neonatal and Juvenile Pig in Pediatric Drug Discovery and Development

Author

Karel Allegaert, Sebastien Carpentier, Antonius Mulder, Miriam Ayuso, Anne Smits, Chris Van Ginneken, Pieter Annaert, Laura Buyssens, Marina Stroe, Steven Van Cruchten, and Allan Valenzuela

Subjects

Drug, Physiologically based pharmacokinetic modelling, medicine.medical_specialty, PBPK, drug safety, pediatric pharmacology, media_common.quotation_subject, Veterinary medicine, Pharmaceutical Science, lcsh:RS1-441, Review, 030226 pharmacology & pharmacy, drug discovery, lcsh:Pharmacy and materia medica, 03 medical and health sciences, 0302 clinical medicine, Pharmacotherapy, Medicine, Juvenile, Juvenile animal, Intensive care medicine, Biology, juvenile pig model, 030304 developmental biology, media_common, 0303 health sciences, business.industry, Drug discovery, Pharmacology. Therapy, drug development, 3. Good health, Drug development, translational research, Human medicine, business, Pediatric pharmacology

Abstract

Pharmacotherapy in pediatric patients is challenging in view of the maturation of organ systems and processes that affect pharmacokinetics and pharmacodynamics. Especially for the youngest age groups and for pediatric-only indications, neonatal and juvenile animal models can be useful to assess drug safety and to better understand the mechanisms of diseases or conditions. In this respect, the use of neonatal and juvenile pigs in the field of pediatric drug discovery and development is promising, although still limited at this point. This review summarizes the comparative postnatal development of pigs and humans and discusses the advantages of the juvenile pig in view of developmental pharmacology, pediatric diseases, drug discovery and drug safety testing. Furthermore, limitations and unexplored aspects of this large animal model are covered. At this point in time, the potential of the neonatal and juvenile pig as nonclinical safety models for pediatric drug development is underexplored. ispartof: PHARMACEUTICS vol:13 issue:1 ispartof: location:Switzerland status: published

Published

2021

40. Suitability of root, tuber, and banana crops in Central Africa can be favoured under future climates

Author

Sebastien Carpentier, Rhys Manners, Graham Thiele, Elke Vandamme, Julius Adewopo, Michael Friedmann, K.S. Ezui, and Philip K. Thornton

Subjects

Adaptive capacity, business.industry, Agroforestry, Climate change, Subsistence agriculture, Context (language use), Extreme weather, Geography, Agriculture, Food systems, Animal Science and Zoology, Rainfed agriculture, business, Agronomy and Crop Science

Abstract

Context Climate change is projected to negatively impact food systems in Sub-Saharan Africa. The magnitude of these impacts is expected to be amplified by the extensive reliance on rainfed agriculture and the prevalence of subsistence farming. In the Great Lakes Region of Central Africa, smallholder farming households are largely dependent on root, tuber and banana crops. However, the potential impacts of various climate change scenarios on these crops are not well reported. Yet, data-rich insights about the future impacts of climate change on these crops and the adaptive capacity of food systems in the Great Lakes Region is critical to inform research and development investments towards regional climate change adaptation. Objectives We aimed to gain insights of potential impacts of climate change on root, tuber, and banana crops in the Great Lakes Region, specifically investigating changes to localised crop suitability, planting dates, and identifying potential ‘climate-proof’ variety types of each crop for specific geographies. Methods We developed a modified version of the EcoCrop model to analyse the suitability of future climates for four key root, tuber, and banana crops (banana, cassava, potato, and sweetpotato) and a suite of varieties for each (typical, heat-tolerant, drought-tolerant, and early maturing). The model considers only the direct impacts of climate change on crop suitability. It does not consider how climate change impacts crop suitability by affecting the occurrence of extreme weather events or indirect effects on incidence and severity of pest and disease outbreaks. Results and conclusions Our results demonstrate that climate change will be somewhat favourable to root, tuber, and banana-based systems, with only widespread negative impacts seen for potato. These changes should be qualified by the observation that in most cases the environmental suitability for banana, cassava, and sweetpotato will remain constant or improve if farmers shift planting schedules. Location- and crop-dependent shifts to different variety types were found to be effective in improving suitability under future climates. Significance Data driven insights generated from this work can be used as a first step in developing spatially explicit recommendations for both farmers and decision-makers on how to adapt to climate change and plan investment in the research needed to adapt root, tuber, and banana-based livelihoods and systems to those long-term changes.

Published

2021

41. Erratum for Mortier and Gayán et al., 'Gene Erosion Can Lead to Gain-of-Function Alleles That Contribute to Bacterial Fitness'

Author

Ronald Van Eyken, Abram Aertsen, Laleh Khodaparast, Sebastien Carpentier, Elisa Gayán, Joost Schymkowitz, Oscar Enrique Torres Montaguth, Bert Houben, Frederic Rousseau, Julien Mortier, and Ladan Khodaparast

Subjects

Genetics, Gene Expression Regulation, Bacterial, Biology, Microbiology, QR1-502, Gain of function, Lead (geology), Virology, Gain of Function Mutation, Mutation, Erosion, Escherichia coli, Genetic Fitness, Allele, Erratum, Directed Molecular Evolution, Gene, Alleles, Heat-Shock Proteins, Heat-Shock Response

Abstract

Despite our extensive knowledge of the genetic regulation of heat shock proteins (HSPs), the evolutionary routes that allow bacteria to adaptively tune their HSP levels and corresponding proteostatic robustness have been explored less. In this report, directed evolution experiments using the Escherichia coli model system unexpectedly revealed that seemingly random single mutations in its

Published

2021

42. A digital sensor to measure real-time leaf movements and detect abiotic stress in plants

Author

Sebastien Carpentier, Batist Geldhof, Bram Van de Poel, David Eyland, and Jolien Pattyn

Subjects

Crops, Agricultural, AcademicSubjects/SCI01280, Physiology, Movement, Measure (physics), Plant Science, Zea mays, Petiole (botany), Solanum lycopersicum, Inertial measurement unit, Stress, Physiological, Circadian Clocks, Genetics, Signaling and Response, Sensory cue, Mathematics, Digital Technology, AcademicSubjects/SCI01270, Abiotic stress, AcademicSubjects/SCI02288, AcademicSubjects/SCI02287, fungi, AcademicSubjects/SCI02286, food and beverages, Ranging, Musa, Lettuce, Focus Issue on Architecture and Plasticity, Digital sensors, Plant Leaves, Plant species, Breakthrough Technologies, Tools, and Resources, Biological system

Abstract

Plant and plant organ movements are the result of a complex integration of endogenous growth and developmental responses, partially controlled by the circadian clock, and external environmental cues. Monitoring of plant motion is typically done by image-based phenotyping techniques with the aid of computer vision algorithms. Here we present a method to measure leaf movements using a digital inertial measurement unit (IMU) sensor. The lightweight sensor is easily attachable to a leaf or plant organ and records angular traits in real-time for two dimensions (pitch and roll) with high resolution (measured sensor oscillations of 0.36 ± 0.53° for pitch and 0.50 ± 0.65° for roll). We were able to record simple movements such as petiole bending, as well as complex lamina motions, in several crops, ranging from tomato to banana. We also assessed growth responses in terms of lettuce rosette expansion and maize seedling stem movements. The IMU sensors are capable of detecting small changes of nutations (i.e. bending movements) in leaves of different ages and in different plant species. In addition, the sensor system can also monitor stress-induced leaf movements. We observed that unfavorable environmental conditions evoke certain leaf movements, such as drastic epinastic responses, as well as subtle fading of the amplitude of nutations. In summary, the presented digital sensor system enables continuous detection of a variety of leaf motions with high precision, and is a low-cost tool in the field of plant phenotyping, with potential applications in early stress detection., An inertial measurement unit is capable of measuring dynamic and complex plant organ movements in real-time, and is suitable for early abiotic stress detection.

Published

2021

43. Integration of proteomics and metabolomics data of early and middle season Hass avocados under heat treatment

Author

Virgílio Gavicho Uarrota, Reinaldo Campos-Vargas, Bruno Defilippi-Bruzzone, Sebastien Carpentier, Susan Lurie, Carlos Poblete-Echeverría, Claudia Fuentealba, Maarten Hertog, Claudio Meneses, Ignacia Hernández, and Romina Pedreschi

Subjects

Proteomics, Hot Temperature, High throughput proteomics, Ready to eat, Protein degradation, Biology, 01 natural sciences, Analytical Chemistry, 0404 agricultural biotechnology, Metabolomics, Hass, Food science, Plant Proteins, Persea, 010401 analytical chemistry, food and beverages, Ripening, 04 agricultural and veterinary sciences, General Medicine, 040401 food science, 0104 chemical sciences, Metabolomics data, Food Storage, Fruit, Seasons, Energy Metabolism, Glycolysis, Food Science

Abstract

Ripening heterogeneity of Hass avocados results in inconsistent quality fruit delivered to the triggered and ready to eat markets. This research aimed to understand the effect of a heat shock (HS) prior to controlled atmosphere (CA) storage on the reduction of ripening heterogeneity. HS prior to CA storage reduces more drastically the ripening heterogeneity in middle season fruit. Via correlation network analysis we show the different metabolomics networks between HS and CA. High throughput proteomics revealed 135 differentially expressed proteins unique to middle season fruit triggered by HS. Further integration of metabolomics and proteomics data revealed that HS reduced the glycolytic throughput and induced protein degradation to deliver energy for the alternative ripening pathways. l-isoleucine, l-valine, l-aspartic and ubiquitin carboxyl-terminal hydrolase involved in protein degradation were positively correlated to HS samples. Our study provides new insights into the effectiveness of HS in synchronizing ripening of Hass avocados.

Published

2019

44. Proteomic Analysis of Banana Vascular Sap Provides Insight Into Resistance Mechanisms to Fusarium Oxysporum F. Sp. Cubense Tropical Race 4

Author

Lei Zhang, Lina Liu, Shu Li, Alberto Cenci, Mathieu Rouard, Sebastien Carpentier, Tingting Bai, Shengtao Xu, Huacai Fan, Kesuo Yin, Ping He, Yunyue Wang, Weihua Tang, and Sijun Zheng

Subjects

Race (biology), biology, Botany, food and beverages, Xylem, Fusarium oxysporum f.sp. cubense, biology.organism_classification

Abstract

Background: Fusarium oxysporum f. sp. cubense tropical race 4 (Foc TR4) is the causal agent of Fusarium wilt, and is the most destructive soil-borne and vascular invasive fungus of banana. The sap circulating in vascular cells transports proteins including those that might be involved in disease-resistance processes. However, there is no research to analyze changes in banana vascular sap protein response to TR4 to date. Results: To gain an integrated understanding of differential protein abundance in banana vascular sap during TR4 infection, we performed a comparative proteomic analysis of vascular sap of the resistant ‘Pahang’ and the susceptible ‘Brazilian’ bananas inoculated with TR4. We identified 129 differential expression proteins (DEPs) between resistant and susceptible tested combinations. Of these DEPs, hypersensitive-induced response protein 1 (HIR1) and E3 ubiquitin ligase (E3) decreased in abundance in Pahang with no change in Brazilian under TR4 infection; chalcone isomerase (CHI) and glycine-rich RNA-binding protein (GRP) increased in abundance in Pahang but no significant changes in Brazilian under TR4 infection; carboxylesterase (CXE) and GDSL lipase (GLIP) were specifically in higher abundance in Pahang response to TR4 compared to that of Brazilian. It suggested that these proteins played important roles in bananas against TR4. Conclusions: Our study identified 129 DEPs in vascular sap between resistant and susceptible tested combinations. Of which, HIR1, E3, CHI, GRP, CXE and GLIP played important roles in bananas response to TR4. To our knowledge, this is first report to analyze changes in banana vascular sap proteins in response to TR4, which help us to explore the molecular mechanisms of banana defense to Fusarium wilt.

Published

2021

45. Filling the gaps in gene banks: Collecting, characterizing, and phenotyping wild banana relatives of Papua New Guinea

Author

Catherine Breton, Julie Sardos, Janet Paofa, Simon Kallow, Claude Welcker, Bart Panis, David Eyland, Steven Janssens, François Tardieu, Sebastien Carpentier, Rony Swennen, Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Bioversity International [Montpellier], Bioversity International [Rome], Consultative Group on International Agricultural Research [CGIAR] (CGIAR)-Consultative Group on International Agricultural Research [CGIAR] (CGIAR), Royal Botanic Gardens [Kew], Bioversity International [Belgique], International Institute of Tropical Agriculture (IITA-Tanzania), International Institute of Tropical Agriculture [Nigeria] (IITA), PNG National Agricultural Research Institute (NARI), Écophysiologie des Plantes sous Stress environnementaux (LEPSE), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro - Montpellier SupAgro, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Meise Botanic Garden [Belgium] (Plantentuin), 'Adapting Agriculture to Climate Change: Collecting, Pro-tecting and Preparing Crop Wild Relatives,' which is supported by the Government of Norway., Global Crop Diversity Trust in part-nership with national and international gene banks and plant breeding institutes around the world (http://www.cwrdiversity.org/)., The Deutsche Gesellschaft für Interna-tionale Zusammenarbiet GIZ, scholarship funded by the Global TRUST foundation project 'Crop wild Relatives Evaluation of drought tolerance in wild bananas from Papua New Guinea', CGIAR Fund (https://www.cgiar.org/funders/), CGIAR Research Program Roots, Tubers and Bananas (RTB-CRP), Belgian Development Cooperation project ‘‘More fruit for food security: Developing climate-smart bananas for the African Great Lakes region.', European Project: 731013 ,EPPN2020(2017), Royal Botanic Gardens, Kew, Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), and Botanic Garden Meise

Subjects

2. Zero hunger, 0106 biological sciences, 0303 health sciences, [SDV.GEN]Life Sciences [q-bio]/Genetics, Vapour Pressure Deficit, business.industry, Drought tolerance, Plant genetics, 15. Life on land, Biology, biology.organism_classification, 01 natural sciences, Musa peekelii, Crop, 03 medical and health sciences, Horticulture, Gene bank, Agriculture, Shoot, business, Agronomy and Crop Science, 030304 developmental biology, 010606 plant biology & botany

Abstract

International audience; Since natural habitats are disappearing fast, there is an urgent need to collect, characterize, and phenotype banana (Musa spp.) crop wild relatives to identify unique genotypes with specific traits that fill the gaps in our gene banks. We report on a collection mission in Papua New Guinea carried out in 2019. Seed containing bunches were collected from Musa peekelii ssp. angustigemma (N.W.Simmonds) Argent (3), M. schizocarpa N. W. Simmonds (4), M. balbisiana Colla (3), M. acuminata ssp. banksii (F. Muell.) Simmonds (14), M. boman Argent (3), M. ingens Simmonds (2), M. maclayi ssp. maclayi F.Muell. ex Mikl.-Maclay (1), and M. lolodensis Cheesman (1). This material, together with the seeds collected during a previous mission in 2017, form the basis for the development of a wild banana seed bank. For characterization and phenotyping, we focused on the most ubiquitous indigenous species of Papua New Guinea: M. acuminata ssp. banksii, the ancestor of most edible bananas. We calculated that the median genomic dissimilarity of the M. acuminata ssp. banksii accessions was 4% and that they differed at least 5% from accessions present in the International Transit Centre, the world's largest banana gene bank. High-throughput phenotyping revealed drought avoidance strategies with significant differences in root/shoot ratio, soil water content sensitivity, and response towards vapor pressure deficit (VPD). We deliver a proof of principle that the wild diversity is not yet fully covered in the gene banks and that wild M. acuminata ssp. banksii populations contain individuals with unique traits, useful for drought tolerance breeding programs.

Published

2021

46. Odorant-binding proteins in canine anal sac glands indicate an evolutionarily conserved role in mammalian chemical communication

Author

Sebastien Carpentier, Paul Proost, Kim Roelants, Franky Bossuyt, Hilde De Rooster, Sunita Janssenswillen, Mieke Metzemaekers, Bram Vanschoenwinkel, Amphibian Evolution Lab, Ecology and Systematics, and Biology

Subjects

Proteomics, Anal sac glands, Odorant binding, Evolution, Pseudoautosomal region, Locus (genetics), RED FOX, Biology, SCENT-MARKING, Homology (biology), Chemical communication, CDNA CLONING, Dogs, WOLF CANIS, Gene duplication, QH359-425, Animals, Secretion, MULTIPLE ROLES, Veterinary Sciences, Anal Sacs, Signal release, DANDER ALLERGEN, Gene, QH540-549.5, Mammals, Ecology, SUBMANDIBULAR-GLAND, General Medicine, Odorant binding proteins, TEAR LIPOCALINS, VULPES-VULPES, Evolutionary biology, Carnivores, Placental mammals, DOG DANDER, Odorants, Female, Carrier Proteins, Research Article

Abstract

Background Chemical communication is an important aspect of the behavioural ecology of a wide range of mammals. In dogs and other carnivores, anal sac glands are thought to convey information to conspecifics by secreting a pallet of small volatile molecules produced by symbiotic bacteria. Because these glands are unique to carnivores, it is unclear how their secretions relate to those of other placental mammals that make use of different tissues and secretions for chemical communication. Here we analyse the anal sac glands of domestic dogs to verify the secretion of proteins and infer their evolutionary relationship to those involved in the chemical communication of non-carnivoran mammals. Results Proteomic analysis of anal sac gland secretions of 17 dogs revealed the consistently abundant presence of three related proteins. Homology searches against online databases indicate that these proteins are evolutionary related to ‘odorant binding proteins’ (OBPs) found in a wide range of mammalian secretions and known to contribute to chemical communication. Screening of the dog’s genome sequence show that the newly discovered OBPs are encoded by a single cluster of three genes in the pseudoautosomal region of the X-chromosome. Comparative genomic screening indicates that the same locus is shared by a wide range of placental mammals and that it originated at least before the radiation of extant placental orders. Phylogenetic analyses suggest a dynamic evolution of gene duplication and loss, resulting in large gene clusters in some placental taxa and recurrent loss of this locus in others. The homology of OBPs in canid anal sac glands and those found in other mammalian secretions implies that these proteins maintained a function in chemical communication throughout mammalian evolutionary history by multiple shifts in expression between secretory tissues involved in signal release and nasal mucosa involved in signal reception. Conclusions Our study elucidates a poorly understood part of the biology of a species that lives in close association with humans. In addition, it shows that the protein repertoire underlying chemical communication in mammals is more evolutionarily stable than the variation of involved glands and tissues would suggest.

Published

2021

47. Effect of Seasonal Drought on the Agronomic Performance of Four Banana Genotypes (Musa spp.) in the East African Highlands

Author

Sebastien Carpentier, Rony Swennen, Hassan Mduma, Jelle van Wesemael, Yasmín Zorrilla-Fontanesi, Brigitte Uwimana, and Allan Brown

Subjects

0106 biological sciences, Irrigation, Perennial plant, Vegetative reproduction, Field experiment, agronomic traits, Biology, 01 natural sciences, east African highlands, lcsh:Agriculture, Crop, parasitic diseases, medicine, Cultivar, Musa, business.industry, fungi, lcsh:S, food and beverages, 04 agricultural and veterinary sciences, Seasonality, medicine.disease, banana, Agronomy, Agriculture, 040103 agronomy & agriculture, seasonal drought, 0401 agriculture, forestry, and fisheries, business, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Banana (Musa spp.), a perennial (sub-)tropical crop, suffers from seasonal droughts, which are typical of rain-fed agriculture. This study aimed at understanding the effect of seasonal drought on early growth, flowering and yield traits in bananas grown in the East African highlands. A field experiment was set up in North Tanzania using four genotypes from different geographical origins and two different ploidy levels. The treatments considered were exclusively rain-fed versus rain supplemented with irrigation. Growth in plant girth and leaf area were promising traits to detect the early effect of water deficit. Seasonal drought slowed down vegetative growth, thus significantly decreasing plant girth, plant height and the number of suckers produced when compared to irrigated plants. It also delayed flowering time and bunch maturity and had a negative effect on yield traits. However, the results depended on the genotype and crop cycle and their interaction with the treatments. &ldquo, Nakitengwa&rdquo, an East African highland banana (EAHB, AAA genome group), which is adapted to the region, showed sensitivity to drought in terms of reduced bunch weight and expected yield, while &ldquo, Cachaco&rdquo, (ABB genome group) showed less sensitivity to drought but had a poorer yield than &ldquo, Our study confirms that seasonal drought has a negative impact on banana production in East Africa, where EAHBs are the most predominant type of bananas grown in the region. We also show that a drought-tolerant cultivar not adapted to the East African highlands had a low performance in terms of yield. We recommend a large-scale screening of diploid bananas to identify drought-tolerant genotypes to be used in the improvement of locally adapted and accepted varieties.

Published

2020

48. Hierarchical involvement of molecular players in human neocortex in the course of preclinical and symptomatic Alzheimer’s disease

Author

Sebastien Carpentier, Konstantinos C. Tsolis, Tassos Economou, Xiaohang Li, Dietmar Rudolf Thal, Markus Otto, Angelika Scheuerle, Simona Ospitalieri, Marta J. Koper, Christine A. F. von Arnim, Rik Vandenberghe, Alicja Ronisz, and Thomas Tousseyn

Subjects

0303 health sciences, Neocortex, Epidemiology, business.industry, Health Policy, Disease, 03 medical and health sciences, Psychiatry and Mental health, Cellular and Molecular Neuroscience, 0302 clinical medicine, medicine.anatomical_structure, Developmental Neuroscience, Medicine, Neurology (clinical), Geriatrics and Gerontology, business, Neuroscience, 030217 neurology & neurosurgery, 030304 developmental biology

Published

2020

49. The usage of phenotyping, genetics and functional genomics approaches to improve environmental stress factors in banana

Author

David Eyland and Sebastien Carpentier

Published

2020

50. Correction to: Safeguarding and using global banana diversity: a holistic approach

Author

Valentin Guignon, Ines Van den houwe, Sébastien Massart, Sebastien Carpentier, Julie Sardos, Bart Panis, Els Kempenaers, Rachel Chase, Nicolas Roux, Mathieu Rouard, and Max Ruas

Subjects

Cultural Studies, Geography, business.industry, Agriculture, media_common.quotation_subject, Environmental resource management, Religious studies, lcsh:Agriculture (General), Safeguarding, business, lcsh:S1-972, Diversity (politics), media_common

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published

2020