570 Biowissenschaften; Biologie
Refine
Has Fulltext
- no (179) (remove)
Year of publication
- 2017 (179) (remove)
Document Type
- Article (127)
- Doctoral Thesis (34)
- Other (8)
- Review (7)
- Habilitation Thesis (2)
- Part of a Book (1)
Is part of the Bibliography
- yes (179)
Keywords
- body height (3)
- community effect (3)
- phylogeny (3)
- Arabidopsis (2)
- Cyanobacteria (2)
- European bats (2)
- Mesenchymal stem cells (2)
- Myodes glareolus (2)
- Obesity (2)
- Phylogeography (2)
Near the end of the Pleistocene epoch, populations of the woolly mammoth (Mammuthus primigenius) were distributed across parts of three continents, from western Europe and northern Asia through Beringia to the Atlantic seaboard of North America. Nonetheless, questions about the connectivity and temporal continuity of mammoth populations and species remain unanswered. We use a combination of targeted enrichment and high-throughput sequencing to assemble and interpret a data set of 143 mammoth mitochondrial genomes, sampled from fossils recovered from across their Holarctic range. Our dataset includes 54 previously unpublished mitochondrial genomes and significantly increases the coverage of the Eurasian range of the species. The resulting global phylogeny confirms that the Late Pleistocene mammoth population comprised three distinct mitochondrial lineages that began to diverge ~1.0–2.0 million years ago (Ma). We also find that mammoth mitochondrial lineages were strongly geographically partitioned throughout the Pleistocene. In combination, our genetic results and the pattern of morphological variation in time and space suggest that male-mediated gene flow, rather than large-scale dispersals, was important in the Pleistocene evolutionary history of mammoths.
Changes in body height throughout extended historic periods are very complex and dynamic processes. Thispilot study aimed to investigate the pattern of longitudinal height z-scores changes in children before and after entering kindergarten. In summer 2016, we measured height and weight of 32 children from 4 groups of two kindergartens aged 3–6 years. All ages were centered according to the age of entry into the kindergarten. For each child we determined mean z-scores for height before and after entering the kindergarten, and assessed the variances for each kindergarten group. Twenty-two children targeted in height z-scores towards average height of their respective kindergarten group, 10 children did not. Due to the small numbers, the convergence in height variance however, remained insignificant (chi-squared independence test, p = 0.127). Additional studies with larger sample sizes are needed to confirm this pilot study.
Rubisco catalyses the first step of CO2 assimilation into plant biomass. Despite its crucial role, it is notorious for its low catalytic rate and its tendency to fix O2 instead of CO2, giving rise to a toxic product that needs to be recycled in a process known as photorespiration. Since almost all our food supply relies on Rubisco, even small improvements in its specificity for CO2 could lead to an improvement of photosynthesis and ultimately, crop yield. In this work, we attempted to improve photosynthesis by decreasing photorespiration with an artificial CCM based on a fusion between Rubisco and a carbonic anhydrase (CA).
A preliminary set of plants contained fusions between one of two CAs, bCA1 and CAH3, and the N- or C-terminus of RbcL connected by a small flexible linker of 5 amino acids. Subsequently, further fusion proteins were created between RbcL C-terminus and bCA1/CAH3 with linkers of 14, 23, 32, and 41 amino acids. The transplastomic tobacco plants carrying fusions with bCA1 were able to grow autotrophically even with the shortest linkers, albeit at a low rate, and accumulated very low levels of the fusion protein. On the other hand, plants carrying fusions with CAH3 were autotrophic only with the longer linkers. The longest linker permitted nearly wild-type like growth of the plants carrying fusions with CAH3 and increased the levels of fusion protein, but also of smaller degradation products.
The fusion of catalytically inactive CAs to RbcL did not cause a different phenotype from the fusions with catalytically active CAs, suggesting that the selected CAs were not active in the fusion with RbcL or their activity did not have an effect on CO2 assimilation. However, fusions to RbcL did not abolish RbcL catalytic activity, as shown by the autotrophic growth, gas exchange and in vitro activity measurements. Furthermore, Rubisco carboxylation rate and specificity for CO2 was not altered in some of the fusion proteins, suggesting that despite the defect in RbcL folding or assembly caused by the fusions, the addition of 60-150 amino acids to RbcL does not affect its catalytic properties. On the contrary, most growth defects of the plants carrying RbcL-CA fusions are related to their reduced Rubisco content, likely caused by impaired RbcL folding or assembly. Finally, we found that fusions with RbcL C-terminus were better tolerated than with the N-terminus, and increasing the length of the linker relieved the growth impairment imposed by the fusion to RbcL. Together, the results of this work constitute considerable relevant findings for future Rubisco engineering.
Die Hybridomtechnik zur Produktion von monoklonalen Antikörpern ermöglichte einen großen Schritt in der Entwicklung von Immunoassays für die biochemische Forschung und klinische Diagnostik. Auch die Produktion von Antikörpern gegen niedermolekulare Analyten, Haptene, typische Targets in der Lebensmittel- und Umweltanalytik, erlangte in den letzten Jahren eine immer größere Bedeutung. Im Zuge der Durchführung der Hybridomtechnik werden tausende Antikörper-sezernierende und nicht-sezernierende Zellen generiert. Die Selektion der wenigen antigenselektiven Hybridomzellen zählt dabei zu den herausforderndsten Schritten für die Antikörpergewinnung. Bisherige Selektionsverfahren, wie die Limiting-Dilution-Klonierung in Verbindung mit Enzyme-linked Immunosorbent Assays (ELISAs), garantieren keine Monoklonalität und erlauben nur das Screening von einigen wenigen Zellklonen. Hingegen ermöglichen Hochdurchsatz-Selektionsmethoden, wie die Fluoreszenz-aktivierte Zellsortierung (FACS), einen sehr hohen Probendurchsatz. Eine Einzelzellablage garantiert hierbei Monoklonalität. Jedoch sind die dafür erforderlichen Zellmarkierungen oftmals zellschädigend oder aufwendig zu generieren. Auch ist bisher noch keine Markierungsmethode bekannt, die es ermöglicht, Hapten-selektive Hybridomzellen durchflusszytometrisch zu analysieren und eine FACS-Selektion durchzuführen.
Aus diesem Grund wurden in dieser Arbeit zwei Zellmarkierungsmethoden entwickelt, die dies ermöglichen sollten. Die membranständigen Antikörper von Hybridomzellen sollten entweder direkt oder indirekt immunfluoreszenz-markiert und dadurch für die Durchflusszytometrie und FACS-Selektion zugänglich gemacht werden. Die direkte Markierung wurde mittels eines Hapten-Fluorophor-Konjugats durchgeführt. Sie ermöglichte erstmalig den Anteil an Haptenselektiven Hybridomzellen in einer Hybridomzelllinie zu überprüfen. Dies konnte für zwei Hapten-selektive Hybridomzelllinien, die Antikörper gegen das Hormon 17β-Estradiol und das Cardenolid Digoxigenin bilden, gezeigt werden. Durchflusszytometrie und ELISAs lieferten vergleichbare Ergebnisse. Zellen, die Hapten-selektiv markiert werden konnten, sezernierten ebenfalls Hapten-selektive Antikörper. Des Weiteren konnte die direkte Markierung dazu genutzt werden, zwei Mykotoxin-selektive Hybridomzelllinien, welche Antikörper gegen Aflatoxin und Zearalenon bilden, auf Monoklonalität zu testen. Dies ist mittels ELISA nicht möglich. Die Markierungsmethode eignete sich jedoch nur für fixierte Hybridomzellen. Eine Markierung von lebenden Zellen konnte weder durchflusszytometrisch noch mittels konfokaler Laser-Scanning-Mikroskopie gezeigt werden.
Dies gelang erst mit einer neu entwickelten indirekten Immunfluoreszenzmarkierung. Dabei wurden die Zellen zunächst mit einem Hapten-Peroxidase-Konjugat inkubiert, gefolgt von einem Fluorophor-markierten anti-HRP-Antikörper-Konjugat. Dies wurde für zwei Analyten, das Hormon Estron und das Antiepileptikum Carbamazepin, gezeigt. Die indirekte Markierung wurde erfolgreich dazu verwendet, Carbamazepin-selektive Hybridomzellen aus einem Fusionsansatz für die monoklonale Antikörperproduktion auszusortieren. Damit wurde erstmalig eine Zellmarkierungsmethode entwickelt, die eine Hochdurchsatz-Selektion lebender Hybridomzellen aus einem Fusionsansatz ermöglicht. Sie ist nicht zellschädigend und kann zusätzlich zur Selektion Hapten-selektiver Plasmazellen verwendet werden.
Comparing mitogenomic timetrees for two African savannah primate genera (Chlorocebus and Papio)
(2017)
Complete mitochondrial (mtDNA) genomes have proved to be useful in reconstructing primate phylogenies with higher resolution and confidence compared to reconstructions based on partial mtDNA sequences. Here, we analyse complete mtDNA genomes of African green monkeys (genus Chlorocebus), a widely distributed primate genus in Africa representing an interesting phylogeographical model for the evolution of savannah species. Previous studies on partial mtDNA sequences revealed nine major clades, suggesting several cases of para- and polyphyly among Chlorocebus species. However, in these studies, phylogenetic relationships among several clades were not resolved, and divergence times were not estimated. We analysed complete mtDNA genomes for ten Chlorocebus samples representing major mtDNA clades to find stronger statistical support in the phylogenetic reconstruction than in the previous studies and to estimate divergence times. Our results confirmed para- and polyphyletic relationships of most Chlorocebus species, while the support for the phylogenetic relationships between the mtDNA clades increased compared to the previous studies. Our results indicate an initial west-east division in the northern part of the Chlorocebus range with subsequent divergence into north-eastern and southern clades. This phylogeographic scenario contrasts with that for another widespread African savannah primate genus, the baboons (Papio), for which a dispersal from southern Africa into East and West Africa was suggested.
Single molecule RNA fluorescent in situ hybridization (smFISH) enables gene transcription to be assessed at the cellular level. In this point of view article, we describe our recent smFISH research in the model plant Arabidopsis thaliana and discuss how this technique could further knowledge of plant gene transcription in the future.
Plastic pollution is a major global concern with several million microplastic particles entering every day freshwater ecosystems via wastewater discharge. Microplastic particles stimulate biofilm formation (plastisphere) throughout the water column and have the potential to affect microbial community structure if they accumulate in pelagic waters, especially enhancing the proliferation of biohazardous bacteria. To test this scenario, we simulated the inflow of treated wastewater into a temperate lake using a continuous culture system with a gradient of concentration of microplastic particles. We followed the effect of microplastics on the microbial community structure and on the occurrence of integrase 1 (intl), a marker associated with mobile genetic elements known as a proxy for anthropogenic effects on the spread of antimicrobial resistance genes. The abundance of intl increased in the plastisphere with increasing microplastic particle concentration, but not in the water surrounding the microplastic particles. Likewise, the microbial community on microplastic was more similar to the original wastewater community with increasing microplastic concentrations. Our results show that microplastic particles indeed promote persistence of typical indicators of microbial anthropogenic pollution in natural waters, and substantiate that their removal from treated wastewater should be prioritised. (C) 2017 Elsevier Ltd. All rights reserved.