@article{LenznerMagallonDawsonetal.2020,
author = {Lenzner, Bernd and Magallon, Susana and Dawson, Wayne and Kreft, Holger and K{\"o}nig, Christian and Pergl, Jan and Pysek, Petr and Weigelt, Patrick and van Kleunen, Mark and Winter, Marten and Dullinger, Stefan and Essl, Franz},
title = {Role of diversification rates and evolutionary history as a driver of plant naturalization success},
series = {New phytologist : international journal of plant science},
volume = {229},
journal = {New phytologist : international journal of plant science},
number = {5},
publisher = {Wiley},
address = {Hoboken},
issn = {0028-646X},
doi = {10.1111/nph.17014},
pages = {2998 -- 3008},
year = {2020},
abstract = {Human introductions of species beyond their natural ranges and their subsequent establishment are defining features of global environmental change. However, naturalized plants are not uniformly distributed across phylogenetic lineages, with some families contributing disproportionately more to the global alien species pool than others. Additionally, lineages differ in diversification rates, and high diversification rates have been associated with characteristics that increase species naturalization success. Here, we investigate the role of diversification rates in explaining the naturalization success of angiosperm plant families. We use five global data sets that include native and alien plant species distribution, horticultural use of plants, and a time-calibrated angiosperm phylogeny. Using phylogenetic generalized linear mixed models, we analysed the effect of diversification rate, different geographical range measures, and horticultural use on the naturalization success of plant families. We show that a family's naturalization success is positively associated with its evolutionary history, native range size, and economic use. Investigating interactive effects of these predictors shows that native range size and geographic distribution additionally affect naturalization success. High diversification rates and large ranges increase naturalization success, especially of temperate families. We suggest this may result from lower ecological specialization in temperate families with large ranges, compared with tropical families with smaller ranges.},
language = {en}
}
@article{desAulnoisReveillonRobertetal.2020,
author = {des Aulnois, Maxime Georges and R{\´e}veillon, Damien and Robert, Elise and Caruana, Amandine and Briand, Enora and Guljamow, Arthur and Dittmann, Elke and Amzil, Zouher and Bormans, Myriam},
title = {Salt shock responses of Microcystis revealed through physiological, transcript, and metabolomic analyses},
series = {Toxins},
volume = {12},
journal = {Toxins},
number = {3},
publisher = {MDPI},
address = {Basel},
issn = {2072-6651},
doi = {10.3390/toxins12030192},
pages = {18},
year = {2020},
abstract = {The transfer of Microcystis aeruginosa from freshwater to estuaries has been described worldwide and salinity is reported as the main factor controlling the expansion of M. aeruginosa to coastal environments. Analyzing the expression levels of targeted genes and employing both targeted and non-targeted metabolomic approaches, this study investigated the effect of a sudden salt increase on the physiological and metabolic responses of two toxic M. aeruginosa strains separately isolated from fresh and brackish waters, respectively, PCC 7820 and 7806. Supported by differences in gene expressions and metabolic profiles, salt tolerance was found to be strain specific. An increase in salinity decreased the growth of M. aeruginosa with a lesser impact on the brackish strain. The production of intracellular microcystin variants in response to salt stress correlated well to the growth rate for both strains. Furthermore, the release of microcystins into the surrounding medium only occurred at the highest salinity treatment when cell lysis occurred. This study suggests that the physiological responses of M. aeruginosa involve the accumulation of common metabolites but that the intraspecific salt tolerance is based on the accumulation of specific metabolites. While one of these was determined to be sucrose, many others remain to be identified. Taken together, these results provide evidence that M. aeruginosa is relatively salt tolerant in the mesohaline zone and microcystin (MC) release only occurs when the capacity of the cells to deal with salt increase is exceeded.},
language = {en}
}
@article{AbdirashidLenhard2020,
author = {Abdirashid, Hashim and Lenhard, Michael},
title = {Say it with double flowers},
series = {Journal of experimental botany},
volume = {71},
journal = {Journal of experimental botany},
number = {9},
publisher = {Oxford Univ. Press},
address = {Oxford},
issn = {0022-0957},
doi = {10.1093/jxb/eraa109},
pages = {2469 -- 2471},
year = {2020},
abstract = {Every year, lovers world-wide rely on mutants to show their feelings on Valentine's Day. This is because many of the most popular ornamental flowering plants have been selected to form extra petals at the expense of reproductive organs to enhance their attractiveness and aesthetic value to humans. This so-called 'double flower' (DF) phenotype, first described more than 2000 years ago (Meyerowitz et al., 1989) is present, for example, in many modern roses, carnations, peonies, and camellias. Gattolin et al. (2020) now identify a unifying explanation for the molecular basis of many of these DF cultivars.},
language = {en}
}
@article{HermanussenScheffler2020,
author = {Hermanussen, Michael and Scheffler, Christiane},
title = {Secular trends in gestational weight gain and parity on birth weight},
series = {Acta paediatrica : nurturing the child},
volume = {110},
journal = {Acta paediatrica : nurturing the child},
number = {4},
publisher = {Wiley},
address = {Oxford},
issn = {0803-5253},
doi = {10.1111/apa.15678},
pages = {1094 -- 1096},
year = {2020},
language = {en}
}
@article{ThirumalaikumarGorkaSchulzetal.2020,
author = {Thirumalaikumar, Venkatesh P. and Gorka, Michal and Schulz, Karina and Masclaux-Daubresse, Celine and Sampathkumar, Arun and Skirycz, Aleksandra and Vierstra, Richard D. and Balazadeh, Salma},
title = {Selective autophagy regulates heat stress memory in Arabidopsis by NBR1-mediated targeting of HSP90.1 and ROF1},
series = {Autophagy},
volume = {17},
journal = {Autophagy},
number = {9},
publisher = {Taylor \& Francis},
address = {Abingdon},
issn = {1554-8635},
doi = {10.1080/15548627.2020.1820778},
pages = {2184 -- 2199},
year = {2020},
abstract = {In nature, plants are constantly exposed to many transient, but recurring, stresses. Thus, to complete their life cycles, plants require a dynamic balance between capacities to recover following cessation of stress and maintenance of stress memory. Recently, we uncovered a new functional role for macroautophagy/autophagy in regulating recovery from heat stress (HS) and resetting cellular memory of HS inArabidopsis thaliana. Here, we demonstrated that NBR1 (next to BRCA1 gene 1) plays a crucial role as a receptor for selective autophagy during recovery from HS. Immunoblot analysis and confocal microscopy revealed that levels of the NBR1 protein, NBR1-labeled puncta, and NBR1 activity are all higher during the HS recovery phase than before. Co-immunoprecipitation analysis of proteins interacting with NBR1 and comparative proteomic analysis of annbr1-null mutant and wild-type plants identified 58 proteins as potential novel targets of NBR1. Cellular, biochemical and functional genetic studies confirmed that NBR1 interacts with HSP90.1 (heat shock protein 90.1) and ROF1 (rotamase FKBP 1), a member of the FKBP family, and mediates their degradation by autophagy, which represses the response to HS by attenuating the expression ofHSPgenes regulated by the HSFA2 transcription factor. Accordingly, loss-of-function mutation ofNBR1resulted in a stronger HS memory phenotype. Together, our results provide new insights into the mechanistic principles by which autophagy regulates plant response to recurrent HS.},
language = {en}
}
@article{WolffSchuelerGastetal.2020,
author = {Wolff, Martin and Sch{\"u}ler, Anja and Gast, Klaus and Seckler, Robert and Evers, Andreas and Pfeiffer-Marek, Stefania and Kurz, Michael and Nagel, Norbert and Haack, Torsten and Wagner, Michael and Thalhammer, Anja},
title = {Self-Assembly of Exendin-4-Derived Dual Peptide Agonists is Mediated by Acylation and Correlated to the Length of Conjugated Fatty Acyl Chains},
series = {Molecular pharmaceutics},
volume = {17},
journal = {Molecular pharmaceutics},
number = {3},
publisher = {American Chemical Society},
address = {Washington},
issn = {1543-8384},
doi = {10.1021/acs.molpharmaceut.9b01195},
pages = {965 -- 978},
year = {2020},
abstract = {Dual glucagon-like peptide-1/glucagon receptor agonists have emerged as promising candidates for the treatment of diabetes and obesity. Issues of degradation sensitivity and rapid renal clearance are addressed, for example, by the conjugation of peptides to fatty acid chains, promoting reversible albumin binding. We use combined dynamic and static light scattering to directly measure the self-assembly of a set of dual peptide agonists based on the exendin-4 structure with varying fatty acid chain lengths in terms of apparent molecular mass and hydrodynamic radius (R-S). We use NMR spectroscopy to gain an insight into the molecular architecture of the assembly. We investigate conformational changes of the monomeric subunits resulting from peptide self-assembly and assembly stability as a function of the fatty acid chain length using circular dichroism and fluorescence spectroscopy. Our results demonstrate that self-assembly of the exendin-4-derived dual agonist peptides is essentially driven by hydrophobic interactions involving the conjugated acyl chains. The fatty acid chain length affects assembly equilibria and the assembly stability, although the peptide subunits in the assembly retain a dynamic secondary structure. The assembly architecture is characterized by juxtaposition of the fatty acyl side chains and a hydrophobic cluster of the peptide moiety. This cluster experiences local conformational changes in the assembly compared to the monomeric unit leading to a reduction in solvent exposure. The N-terminal half of the peptide and a C-terminal loop are not in contact with neighboring peptide subunits in the assemblies. Altogether, our study contributes to a thorough understanding of the association characteristics and the tendency toward self-assembly in response to lipidation. This is important not only to achieve the desired bioavailability but also with respect to the physical stability of peptide solutions.},
language = {en}
}
@article{WolffSchuelerGastetal.2020,
author = {Wolff, Martin and Sch{\"u}ler, Anja and Gast, Klaus and Seckler, Robert and Evers, Andreas and Pfeiffer-Marek, Stefania and Kurz, Michael and Nagel, Norbert and Haack, Torsten and Wagner, Michael and Thalhammer, Anja},
title = {Self-Assembly of Exendin-4-Derived Dual Peptide Agonists is Mediated by Acylation and Correlated to the Length of Conjugated Fatty Acyl Chains},
series = {Molecular pharmaceutics},
volume = {17},
journal = {Molecular pharmaceutics},
number = {3},
publisher = {American Chemical Society},
address = {Washington},
issn = {1543-8384},
doi = {10.1021/acs.molpharmaceut.9b01195},
pages = {965 -- 978},
year = {2020},
abstract = {Dual glucagon-like peptide-1/glucagon receptor agonists have emerged as promising candidates for the treatment of diabetes and obesity. Issues of degradation sensitivity and rapid renal clearance are addressed, for example, by the conjugation of peptides to fatty acid chains, promoting reversible albumin binding. We use combined dynamic and static light scattering to directly measure the self-assembly of a set of dual peptide agonists based on the exendin-4 structure with varying fatty acid chain lengths in terms of apparent molecular mass and hydrodynamic radius (R-S). We use NMR spectroscopy to gain an insight into the molecular architecture of the assembly. We investigate conformational changes of the monomeric subunits resulting from peptide self-assembly and assembly stability as a function of the fatty acid chain length using circular dichroism and fluorescence spectroscopy. Our results demonstrate that self-assembly of the exendin-4-derived dual agonist peptides is essentially driven by hydrophobic interactions involving the conjugated acyl chains. The fatty acid chain length affects assembly equilibria and the assembly stability, although the peptide subunits in the assembly retain a dynamic secondary structure. The assembly architecture is characterized by juxtaposition of the fatty acyl side chains and a hydrophobic cluster of the peptide moiety. This cluster experiences local conformational changes in the assembly compared to the monomeric unit leading to a reduction in solvent exposure. The N-terminal half of the peptide and a C-terminal loop are not in contact with neighboring peptide subunits in the assemblies. Altogether, our study contributes to a thorough understanding of the association characteristics and the tendency toward self-assembly in response to lipidation. This is important not only to achieve the desired bioavailability but also with respect to the physical stability of peptide solutions.},
language = {en}
}
@article{BaxaWeintraubSeckler2020,
author = {Baxa, Ulrich and Weintraub, Andrej and Seckler, Robert},
title = {Self-competitive inhibition of the bacteriophage P22 Tailspike endorhamnosidase by O-antigen oligosaccharides},
series = {Biochemistry},
volume = {59},
journal = {Biochemistry},
number = {51},
publisher = {American Chemical Society},
address = {Washington},
issn = {0006-2960},
doi = {10.1021/acs.biochem.0c00872},
pages = {4845 -- 4855},
year = {2020},
abstract = {The P22 tailspike endorhamnosidase confers the high specificity of bacteriophage P22 for some serogroups of Salmonella differing only slightly in their O-antigen polysaccharide. We used several biophysical methods to study the binding and hydrolysis of O-antigen fragments of different lengths by P22 tailspike protein. O-Antigen saccharides of defined length labeled with fluorophors could be purified with higher resolution than previously possible. Small amounts of naturally occurring variations of 0antigen fragments missing the nonreducing terminal galactose could be used to determine the contribution of this part to the free energy of binding to be similar to 7 kJ/mol. We were able to show via several independent lines of evidence that an unproductive binding mode is highly favored in binding over all other possible binding modes leading to hydrolysis. This is true even under circumstances under which the O-antigen fragment is long enough to be cleaved efficiently by the enzyme. The high-affinity unproductive binding mode results in a strong self-competitive inhibition in addition to product inhibition observed for this system. Self-competitive inhibition is observed for all substrates that have a free reducing end rhamnose. Naturally occurring O-antigen, while still attached to the bacterial outer membrane, does not have a free reducing end and therefore does not perform self-competitive inhibition.},
language = {en}
}
@article{KurbanogluYarman2020,
author = {Kurbanoglu, Sevinc and Yarman, Aysu},
title = {Simultaneous determination of hydrochlorothiazide and irbesartan from pharmaceutical dosage forms with RP-HPLC},
series = {Turkish journal of pharmaceutical sciences},
volume = {17},
journal = {Turkish journal of pharmaceutical sciences},
number = {5},
publisher = {Turkish Pharmacists Association},
address = {{\c{C}}ankaya-Ankara},
issn = {1304-530X},
doi = {10.4274/tjps.galenos.2019.76094},
pages = {523 -- 527},
year = {2020},
abstract = {Objectives: In this work, a simple and rapid liquid chromatographic method for the simultaneous determination of irbesartan (IRBE) and hydrochlorothiazide (HCT) was developed and validated by reverse phase high performance liquid chromatography (RP-HPLC).
Materials and Methods: Experimental conditions such as different buffer solutions, various pH values, temperature, composition of the mobile phase, and the effect of flow rate were optimized.
Results: The developed RP-HPLC method for these antihypertensive agents was wholly validated and IRBE was detected in the linear range of 0.1-25 mu g mL(-1) and HCT was detected in the linear range of 0.25-25 mu g mL(-1). Moreover, the suggested chromatographic technique was successfully applied for the determination of the drugs in human serum and pharmaceutical dosage forms with limit of detection values of 0.008 mu g mL(-1) for IRBE and 0.012 mu g mL(-1) for HCT.
Conclusion: The proposed rapid analysis method of these antihypertensive drugs can be easily used and applied by pharmaceutical companies for which the analysis time is important.},
language = {en}
}
@article{MazzaDammhahnLoescheetal.2020,
author = {Mazza, Valeria and Dammhahn, Melanie and L{\"o}sche, Elisa and Eccard, Jana},
title = {Small mammals in the big city},
series = {Global change biology},
volume = {26},
journal = {Global change biology},
number = {11},
publisher = {Wiley},
address = {Hoboken},
issn = {1354-1013},
doi = {10.1111/gcb.15304},
pages = {6326 -- 6337},
year = {2020},
abstract = {A fundamental focus of current ecological and evolutionary research is to illuminate the drivers of animals' success in coping with human-induced rapid environmental change (HIREC). Behavioural adaptations are likely to play a major role in coping with HIREC because behaviour largely determines how individuals interact with their surroundings. A substantial body of research reports behavioural modifications in urban dwellers compared to rural conspecifics. However, it is often unknown whether the observed phenotypic divergence is due to phenotypic plasticity or the product of genetic adaptations. Here, we aimed at investigating (a) whether behavioural differences arise also between rural and urban populations of non-commensal rodents; and (b) whether these differences result from behavioural flexibility or from intrinsic behavioural characteristics, such as genetic or maternal effects. We captured and kept under common environment conditions 42 rural and 52 urban adult common voles (Microtus arvalis) from seven subpopulations along a rural-urban gradient. We investigated individual variation in behavioural responses associated with risk-taking and exploration, in situ at the time of capture in the field and ex situ after 3 months in captivity. Urban dwellers were bolder and more explorative than rural conspecifics at the time of capture in their respective sites (in situ). However, when tested under common environmental conditions ex situ, rural individuals showed little change in their behavioural responses whereas urban individuals altered their behaviour considerably and were consistently shyer and less explorative than when tested in situ. The combination of elevated risk-taking and exploration with high behavioural flexibility might allow urban populations to successfully cope with the challenges of HIREC. Investigating whether the observed differences in behavioural flexibility are adaptive and how they are shaped by additive and interactive effects of genetic make-up and past environmental conditions will help illuminate eco-evolutionary dynamics under HIREC and predict persistence of populations under urban conditions.},
language = {en}
}
@article{MarquartGoldbachBlaum2020,
author = {Marquart, Arnim and Goldbach, Lars and Blaum, Niels},
title = {Soil-texture affects the influence of termite macropores on soil water infiltration in a semi-arid savanna},
series = {Ecohydrology : ecosystems, land and water process interactions, ecohydrogeomorphology},
volume = {13},
journal = {Ecohydrology : ecosystems, land and water process interactions, ecohydrogeomorphology},
number = {8},
publisher = {Wiley},
address = {Chichester},
issn = {1936-0584},
doi = {10.1002/eco.2249},
pages = {11},
year = {2020},
abstract = {Subterranean termites create tunnels (macropores) for foraging that can influence water infiltration and may lead to preferential flow to deeper soil layers. This is particularly important in water limited ecosystems such as semi-arid, agriculturally utilized savannas, which are particularly prone to land degradation and shrub-encroachment. Using termite activity has been suggested as a restoration measure, but their impact on hydrology is neither universal nor yet fully understood. Here, we used highly replicated, small-scale (50 x 50 cm) rain-simulation experiments to analyse the interacting effects of either vegetation (grass dominated vs. shrub dominated sites) or soil texture (sand vs. loamy sand) and termite foraging macropores on infiltration patterns. We used Brilliant Blue FCF as colour tracer to make the flow pathways in paired experiments visible, on either termite-disturbed soil or controls without surface macropores in two semi-arid Namibian savannas (with either heterogeneous soil texture or shrub cover). On highly shrub-encroached plots in the savanna site with heterogeneous soil texture, termite macropores increased maximum infiltration depth and total amount of infiltrated water on loamy sand, but not on sandy soil. In the sandy savanna with heterogeneous shrub cover, neither termite activity nor shrub density affected the infiltration. Termite's effect on infiltration depends on the soil's hydraulic conductivity and occurs mostly under ponded conditions, intercepting run-off. In semi-arid savanna soils with a considerable fraction of fine particles, termites are likely an important factor for soil water dynamics.},
language = {en}
}
@article{KoenigWeigeltTayloretal.2020,
author = {K{\"o}nig, Christian and Weigelt, Patrick and Taylor, Amanda and Stein, Anke and Dawson, Wayne and Essl, Franz and Pergl, Jan and Pyšek, Petr and Kleunen, Mark van and Winter, Marten and Chatelain, Cyrille and Wieringa, Jan J. and Krestov, Pavel and Kreft, Holger},
title = {Source pools and disharmony of the world's island floras},
series = {Ecography},
volume = {44},
journal = {Ecography},
number = {1},
publisher = {Wiley-Blackwell},
address = {Oxford},
pages = {12},
year = {2020},
abstract = {Island disharmony refers to the biased representation of higher taxa on islands compared to their mainland source regions and represents a central concept in island biology. Here, we develop a generalizable framework for approximating these source regions and conduct the first global assessment of island disharmony and its underlying drivers. We compiled vascular plant species lists for 178 oceanic islands and 735 mainland regions. Using mainland data only, we modelled species turnover as a function of environmental and geographic distance and predicted the proportion of shared species between each island and mainland region. We then quantified the over- or under-representation of families on individual islands (representational disharmony) by contrasting the observed number of species against a null model of random colonization from the mainland source pool, and analysed the effects of six family-level functional traits on the resulting measure. Furthermore, we aggregated the values of representational disharmony per island to characterize overall taxonomic bias of a given flora (compositional disharmony), and analysed this second measure as a function of four island biogeographical variables. Our results indicate considerable variation in representational disharmony both within and among plant families. Examples of generally over-represented families include Urticaceae, Convolvulaceae and almost all pteridophyte families. Other families such as Asteraceae and Orchidaceae were generally under-represented, with local peaks of over-representation in known radiation hotspots. Abiotic pollination and a lack of dispersal specialization were most strongly associated with an insular over-representation of families, whereas other family-level traits showed minor effects. With respect to compositional disharmony, large, high-elevation islands tended to have the most disharmonic floras. Our results provide important insights into the taxon- and island-specific drivers of disharmony. The proposed framework allows overcoming the limitations of previous approaches and provides a quantitative basis for incorporating functional and phylogenetic approaches into future studies of island disharmony.},
language = {en}
}
@article{CrawfordKaramatLehotaietal.2020,
author = {Crawford, Tim and Karamat, Fazeelat and Lehotai, N{\´o}ra and Rentoft, Matilda and Blomberg, Jeanette and Strand, {\AA}sa and Bj{\"o}rklund, Stefan},
title = {Specific functions for mediator complex subunits from different modules in the transcriptional response of arabidopsis thaliana to abiotic stress},
series = {Scientific reports},
volume = {10},
journal = {Scientific reports},
number = {1},
publisher = {Macmillan Publishers Limited, part of Springer Nature},
address = {London},
issn = {2045-2322},
doi = {10.1038/s41598-020-61758-w},
pages = {1 -- 18},
year = {2020},
abstract = {Adverse environmental conditions are detrimental to plant growth and development. Acclimation to abiotic stress conditions involves activation of signaling pathways which often results in changes in gene expression via networks of transcription factors (TFs). Mediator is a highly conserved co-regulator complex and an essential component of the transcriptional machinery in eukaryotes. Some Mediator subunits have been implicated in stress-responsive signaling pathways; however, much remains unknown regarding the role of plant Mediator in abiotic stress responses. Here, we use RNA-seq to analyze the transcriptional response of Arabidopsis thaliana to heat, cold and salt stress conditions. We identify a set of common abiotic stress regulons and describe the sequential and combinatorial nature of TFs involved in their transcriptional regulation. Furthermore, we identify stress-specific roles for the Mediator subunits MED9, MED16, MED18 and CDK8, and putative TFs connecting them to different stress signaling pathways. Our data also indicate different modes of action for subunits or modules of Mediator at the same gene loci, including a co-repressor function for MED16 prior to stress. These results illuminate a poorly understood but important player in the transcriptional response of plants to abiotic stress and identify target genes and mechanisms as a prelude to further biochemical characterization.},
language = {en}
}
@article{BrustOrzechowskiFettke2020,
author = {Brust, Henrike and Orzechowski, Slawomir and Fettke, J{\"o}rg},
title = {Starch and Glycogen Analyses},
series = {Biomolecules},
volume = {10},
journal = {Biomolecules},
number = {7},
publisher = {MDPI},
address = {Basel},
issn = {2218-273X},
doi = {10.3390/biom10071020},
pages = {24},
year = {2020},
abstract = {For complex carbohydrates, such as glycogen and starch, various analytical methods and techniques exist allowing the detailed characterization of these storage carbohydrates. In this article, we give a brief overview of the most frequently used methods, techniques, and results. Furthermore, we give insights in the isolation, purification, and fragmentation of both starch and glycogen. An overview of the different structural levels of the glucans is given and the corresponding analytical techniques are discussed. Moreover, future perspectives of the analytical needs and the challenges of the currently developing scientific questions are included},
language = {en}
}
@article{HermanussenGrothScheffler2020,
author = {Hermanussen, Michael and Groth, Detlef and Scheffler, Christiane},
title = {Statistical approaches to developmental and growth data of children and adolescents},
series = {Journal of biological and clinical anthropology : Anthropologischer Anzeiger ; Mitteilungsorgan der Gesellschaft f{\"u}r Anthropologie},
volume = {77},
journal = {Journal of biological and clinical anthropology : Anthropologischer Anzeiger ; Mitteilungsorgan der Gesellschaft f{\"u}r Anthropologie},
number = {5},
publisher = {Schweizerbart},
address = {Stuttgart},
issn = {0003-5548},
doi = {10.1127/anthranz/2020/1302},
pages = {355 -- 357},
year = {2020},
language = {en}
}
@article{HuuKellerContietal.2020,
author = {Huu, Cuong Nguyen and Keller, Barbara and Conti, Elena and Kappel, Christian and Lenhard, Michael},
title = {Supergene evolution via stepwise duplications and neofunctionalization of a floral-organ identity gene},
series = {Proceedings of the National Academy of Sciences of the United States of America (PNAS)},
volume = {117},
journal = {Proceedings of the National Academy of Sciences of the United States of America (PNAS)},
number = {37},
publisher = {National Academy of Sciences},
address = {Washington},
issn = {0027-8424},
doi = {10.1073/pnas.2006296117},
pages = {23148 -- 23157},
year = {2020},
abstract = {Heterostyly represents a fascinating adaptation to promote outbreeding in plants that evolved multiple times independently. While L-morph individuals form flowers with long styles, short anthers, and small pollen grains, S-morph individuals have flowers with short styles, long anthers, and large pollen grains. The difference between the morphs is controlled by an S-locus "supergene" consisting of several distinct genes that determine different traits of the syndrome and are held together, because recombination between them is suppressed. In Primula, the S locus is a roughly 300-kb hemizygous region containing five predicted genes. However, with one exception, their roles remain unclear, as does the evolutionary buildup of the S locus. Here we demonstrate that the MADS-box GLOBOSA2 (GLO2) gene at the S locus determines anther position. In Primula forbesii S-morph plants, GLO2 promotes growth by cell expansion in the fused tube of petals and stamen filaments beneath the anther insertion point; by contrast, neither pollen size nor male incompatibility is affected by GLO2 activity. The paralogue GLO1, from which GLO2 arose by duplication, has maintained the ancestral B-class function in specifying petal and stamen identity, indicating that GLO2 underwent neofunctionalization, likely at the level of the encoded protein. Genetic mapping and phylogenetic analysis indicate that the duplications giving rise to the style-length-determining gene CYP734A50 and to GLO2 occurred sequentially, with the CYP734A50 duplication likely the first. Together these results provide the most detailed insight into the assembly of a plant supergene yet and have important implications for the evolution of heterostyly.},
language = {en}
}
@article{RazaghiMoghadamNikoloski2020,
author = {Razaghi-Moghadam, Zahra and Nikoloski, Zoran},
title = {Supervised learning of gene-regulatory networks based on graph distance profiles of transcriptomics data},
series = {npj Systems biology and applications},
volume = {6},
journal = {npj Systems biology and applications},
number = {1},
publisher = {Nature Publ. Group},
address = {London},
issn = {2056-7189},
doi = {10.1038/s41540-020-0140-1},
pages = {8},
year = {2020},
abstract = {Characterisation of gene-regulatory network (GRN) interactions provides a stepping stone to understanding how genes affect cellular phenotypes. Yet, despite advances in profiling technologies, GRN reconstruction from gene expression data remains a pressing problem in systems biology. Here, we devise a supervised learning approach, GRADIS, which utilises support vector machine to reconstruct GRNs based on distance profiles obtained from a graph representation of transcriptomics data. By employing the data fromEscherichia coliandSaccharomyces cerevisiaeas well as synthetic networks from the DREAM4 and five network inference challenges, we demonstrate that our GRADIS approach outperforms the state-of-the-art supervised and unsupervided approaches. This holds when predictions about target genes for individual transcription factors as well as for the entire network are considered. We employ experimentally verified GRNs fromE. coliandS. cerevisiaeto validate the predictions and obtain further insights in the performance of the proposed approach. Our GRADIS approach offers the possibility for usage of other network-based representations of large-scale data, and can be readily extended to help the characterisation of other cellular networks, including protein-protein and protein-metabolite interactions.},
language = {en}
}
@article{MasigolKhodaparastMostowfizadehGhalamfarsaetal.2020,
author = {Masigol, Hossein and Khodaparast, Seyed Akbar and Mostowfizadeh-Ghalamfarsa, Reza and Rojas-Jimenez, Keilor and Woodhouse, Jason Nicholas and Neubauer, Darshan and Grossart, Hans-Peter},
title = {Taxonomical and functional diversity of Saprolegniales in Anzali lagoon, Iran},
series = {Aquatic Ecology},
volume = {54},
journal = {Aquatic Ecology},
number = {1},
publisher = {Springer Science},
address = {Dordrecht},
issn = {1573-5125},
doi = {10.1007/s10452-019-09745-w},
pages = {323 -- 336},
year = {2020},
abstract = {Studies on the diversity, distribution and ecological role of Saprolegniales (Oomycota) in freshwater ecosystems are currently receiving attention due to a greater understanding of their role in carbon cycling in various aquatic ecosystems. In this study, we characterized several Saprolegniales species isolated from Anzali lagoon, Gilan province, Iran, using morphological and molecular methods. Four species of Saprolegnia were identified, including S. anisospora and S. diclina as first reports for Iran, as well as Achlya strains, which were closely related to A. bisexualis, A. debaryana and A. intricata. Evaluation of the ligno-, cellulo- and chitinolytic activities was performed using plate assay methods. Most of the Saprolegniales isolates were obtained in autumn, and nearly 50\% of the strains showed chitinolytic and cellulolytic activities. However, only a few Saprolegniales strains showed lignolytic activities. This study has important implications for better understanding the ecological niche of oomycetes, and to differentiate them from morphologically similar, but functionally different aquatic fungi in freshwater ecosystems.},
language = {en}
}
@article{ParaskevopoulouDennisWeithoffetal.2020,
author = {Paraskevopoulou, Sofia and Dennis, Alice B. and Weithoff, Guntram and Tiedemann, Ralph},
title = {Temperature-dependent life history and transcriptomic responses in heat-tolerant versus heat-sensitive Brachionus rotifers},
series = {Scientific Reports},
volume = {10},
journal = {Scientific Reports},
publisher = {Macmillan Publishers Limited, part of Springer Nature},
address = {London},
issn = {2045-2322},
doi = {10.1038/s41598-020-70173-0},
pages = {15},
year = {2020},
abstract = {Thermal stress response is an essential physiological trait that determines occurrence and temporal succession in nature, including response to climate change. We compared temperature-related demography in closely related heat-tolerant and heat-sensitive Brachionus rotifer species. We found significant differences in heat response, with the heat-sensitive species adopting a strategy of long survival and low population growth, while the heat-tolerant followed the opposite strategy. In both species, we examined the genetic basis of physiological variation by comparing gene expression across increasing temperatures. Comparative transcriptomic analyses identified shared and opposing responses to heat. Interestingly, expression of heat shock proteins (hsps) was strikingly different in the two species and mirrored differences in population growth rates, showing that hsp genes are likely a key component of a species' adaptation to different temperatures. Temperature induction caused opposing patterns of expression in further functional categories including energy, carbohydrate and lipid metabolism, and in genes related to ribosomal proteins. In the heat-sensitive species, elevated temperatures caused up-regulation of genes related to meiosis induction and post-translational histone modifications. This work demonstrates the sweeping reorganizations of biological functions that accompany temperature adaptation in these two species and reveals potential molecular mechanisms that might be activated for adaptation to global warming.},
language = {en}
}
@article{RilligBielcikChaudharyetal.2020,
author = {Rillig, Matthias C. and Bielcik, Milos and Chaudhary, Veer Bala and Gr{\"u}nfeld, Leonie and Maass, Stefanie and Mansour, India and Ryo, Masahiro and Veresoglou, Stavros D.},
title = {Ten simple rules for increased lab resilience},
series = {PLoS Computational Biology : a new community journal},
volume = {16},
journal = {PLoS Computational Biology : a new community journal},
number = {11},
publisher = {PLoS},
address = {San Fransisco},
issn = {1553-734X},
doi = {10.1371/journal.pcbi.1008313},
pages = {5},
year = {2020},
abstract = {When running a lab we do not think about calamities, since they are rare events for which we cannot plan while we are busy with the day-to-day management and intellectual challenges of a research lab. No lab team can be prepared for something like a pandemic such as COVID-19, which has led to shuttered labs around the globe. But many other types of crises can also arise that labs may have to weather during their lifetime. What can researchers do to make a lab more resilient in the face of such exterior forces? What systems or behaviors could we adjust in 'normal' times that promote lab success, and increase the chances that the lab will stay on its trajectory? We offer 10 rules, based on our current experiences as a lab group adapting to crisis.},
language = {en}
}