Exponential distribution of long heart beat intervals during atrial fibrillation and their relevance for white noise behaviour in power spectrum

The statistical properties of heart beat intervals of 130 long-term surface electrocardiogram recordings during atrial fibrillation (AF) are investigated. We find that the distribution of interbeat intervals exhibits a characteristic exponential tail, which is absent during sinus rhythm, as tested in a corresponding control study with 72 healthy persons. The rate of the exponential decay lies in the range 3-12 Hz and shows diurnal variations. It equals, up to statistical uncertainties, the level of the previously uncovered white noise part in the power spectrum, which is also characteristic for AF. The overall statistical features can be described by decomposing the intervals into two statistically independent times, where the first one is associated with a correlated process with 1/f noise characteristics, while the second one belongs to an uncorrelated process and is responsible for the exponential tail. It is suggested to use the rate of the exponential decay as a further parameter for a better classification of AF and for the medical diagnosis. The relevance of the findings with respect to a general understanding of AF is pointed out

A cold and fresh ocean surface in the Nordic Seas during MIS 11: Significance for the future ocean

Paleoceanographical studies of Marine Isotope Stage (MIS) 11 have revealed higher-than-present sea surface temperatures (SSTs) in the North Atlantic and in parts of the Arctic but lower-than-present SSTs in the Nordic Seas, the main throughflow area of warm water into the Arctic Ocean. We resolve this contradiction by complementing SST data based on planktic foraminiferal abundances with surface salinity changes using hydrogen isotopic compositions of alkenones in a core from the central Nordic Seas. The data indicate the prevalence of a relatively cold, low-salinity, surface water layer in the Nordic Seas during most of MIS 11. In spite of the low-density surface layer, which was kept buoyant by continuous melting of surrounding glaciers, warmer Atlantic water was still propagating northward at the subsurface thus maintaining meridional overturning circulation. This study can help to better constrain the impact of continuous melting of Greenland and Arctic ice on high-latitude ocean circulation and climate

HELiPOD - revolution and evolution of a helicopter borne measurements system for multidisciplinary research in demanding environments

The helicopter-borne measurement system HELiPOD is a platform for atmospheric and other environmental measurements to investigate local and regional phenomena. It can be operated in remote areas, as from a research vessel with a helicopter, without the need for a runway. This article presents the current design concept, technical details and sensor package of HELiPOD, which was completely renewed for the deployment during the MOSAiC (Multidisciplinary drifting Observatory for the Study of Arctic Climate) expedition across the North Polar Ocean in 2019/2020. It was updated for the deployment in the methane campaigns METHANE-To-Go-Poland to study methane emissions from coal mines in South Poland, and METHANE-To-Go-Nordstream, a follow-up campaign to study methane emissions from the Baltic Sea after the NordStream pipeline leaks in 2022. The HELiPOD has dimensions of 5.2 m x 2.1 m x 1.2 m and a weight of around 325 kg. It provides the possibility for flight patterns on a horizontal scale of typically 100 m to 100 km and at altitudes from 10 m up to 3 km. HELiPOD employs distributed data acquisition and central data synchronization, equipped with sensors relevant to five fields of research: atmospheric dynamics, trace gases, aerosols, radiation and surface properties. The focus of the article is the technical realization, in particular the data acquisition system for about 60 sensors, as well as concepts for energy supply and thermalmanagement. It describes the complementary use of different measurement principles and redundant sensors for improved data quality. Operational procedures are also discussed

The microRNA regulated SBP-box genes SPL9 and SPL15 control shoot maturation in Arabidopsis

Throughout development the Arabidopsis shoot apical meristem successively undergoes several major phase transitions such as the juvenile-to-adult and floral transitions until, finally, it will produce flowers instead of leaves and shoots. Members of the Arabidopsis SBP-box gene family of transcription factors have been implicated in promoting the floral transition in dependence of miR156 and, accordingly, transgenics constitutively over-expressing this microRNA are delayed in flowering. To elaborate their roles in Arabidopsis shoot development, we analysed two of the 11 miR156 regulated Arabidopsis SBP-box genes, i.e. the likely paralogous genes SPL9 and SPL15. Single and double mutant phenotype analysis showed these genes to act redundantly in controlling the juvenile-to-adult phase transition. In addition, their loss-of-function results in a shortened plastochron during vegetative growth, altered inflorescence architecture and enhanced branching. In these aspects, the double mutant partly phenocopies constitutive MIR156b over-expressing transgenic plants and thus a major contribution to the phenotype of these transgenics as a result of the repression of SPL9 and SPL15 is strongly suggested

Bestimmung struktureller Dynamiken von Oligopeptiden mittels Fluoreszenzlöschung von organischen Fluorophoren

For determination of structures and structural dynamics of proteins organic fluorophores are a standard instrument. Intra- and intermolecular contact of biomolecular structures are determined in time-resolved and stationary fluorescence microscopy experiments by quenching of organic fluorophores due to Photoinduced Electron Transfer (PET) and dimerization interactions. Using PET we show in this work that end-to-end contact dynamics of serine-glycine peptides are slowed down by glycosylation. This slow down is due to a change in reaction enthalpy for end-to-end contact and is partly compensated by entropic effects. In a second step we test how dimerization of MR121 fluorophore pairs reports on end-to-end contact dynamics. We show that in aqueous solutions containing strong denaturants MR121 dimerization reports advantageously on contact dynamics for glycine-serine oligopeptides compared to the previously used MR121/tryptophane PET reporters. Then we analyze dimer interactions and quenching properties of different commercially available fluorophores being standards in Förster Resonance Energy Transfer (FRET) measurements. Distances in biomolecules are determinable using FRET, but for very flexible biomolecules the analysis of masurement data can be distorted if contact of the two FRET fluorophores is likely. We quantify how strong the quenching of fluorophore pairs with two different or two identical fluorophores is. Dimer spectra and association constants are quantified to estimate if fluophores are applicable in various applications, e.g. in FRET measurements with unstructured peptides and proteins.Zur Charakterisierung von Proteinen werden in der fluoreszenzbasierten Mikroskopie organische Farbstoffe benutzt, um strukturelle Informationen bzw. Informationen über dynamische Prozesse zu gewinnen. In der zeitaufgelösten und stationären Fluoreszenzmikroskopie können hiermit Kontaktprozesse durch photoinduzierten Elektronentransfer und auch Dimerisierung der Fluorophore analysiert werden. In dieser Arbeit wird mittels photoinduziertem Elektronentransfer PET gezeigt, dass Glykosylierung End-zu-End Kontaktkinetiken verändert. Sehr flexible Serin-Glycin Peptide zeigen glykosyliert langsamere Kinetiken durch Veränderung der Reaktionsenthalpie der Kontaktreaktion beider Peptidenden verglichen zu unglykosylierten. Diese enthalpischen Beiträge werden zum Teil von entropischen Beiträgen kompensiert. Außerdem wird gezeigt, dass Glycin-Serin Peptiddynamiken auch mittels Farbstoffpaaren gemessen werden können, die auf Löschwechselwirkungen durch Dimerisierung beruhen. Die Stärke dieser Löschwechselwirkungen hängt vom Farbstoffpaar ab. In Lösungen mit Denaturierungsmitteln können Farbstoffpaare des Fluoreszenzfarbstoffes MR121 vorteilhaft für Messungen von Dynamiken von Glycin-Serin Peptiden genutzt werden. Die Dimerwechselwirkungen können bei sehr flexiblen Biomolekülen und möglichem Kontakt von Fluorophoren die konventionelle Analyse von Förster Resonanz Energie Transfer (FRET) Messungen erschweren. Wir untersuchen an Glycin-Serin Oligopeptiden das Dimerisierungsverhalten kommerziell erhältlicher Fluorophore, die in FRET Messungen verwendet werden. Für gleiche und verschiedene Fluorophore wird die Löschung durch Dimerwechselwirkungen quantifiziert. Dabei werden Dimerspektren und Assoziationskonstanten für Dimerisierungsreaktionen bestimmt. Letztere helfen bei der Abschätzung, ob Fluorophorpaare für verschiedene Anwendungen geeignet sind, zum Beispiel in FRET-Messungen in unstrukturierten Peptiden und Proteinen

Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions

Bollmann S, Löllmann M, Sauer M, Doose S. Dimer formation of organic fluorophores reports on biomolecular dynamics under denaturing conditions. Physical Chemistry Chemical Physics. 2011;13(28):12874-12882.Stacking interactions between organic fluorophores can cause formation of non-fluorescent H-dimers. Dimer formation and dissociation of two fluorophores site-specifically incorporated in a biomolecule result in fluorescence intermittency that can report on conformational dynamics. We characterize intramolecular dimerization of two oxazine fluorophores MR121 attached to an unstructured polypeptide. Formation of stable non-fluorescent complexes with nano- to microsecond lifetimes is a prerequisite for analysing the intermittent fluorescence emission by fluorescence correlation spectroscopy and extracting relaxation time constants on nano- to millisecond time scales. Destabilization of the generally very stable homodimers by chemical denaturation reduces the lifetime of H-dimers. We demonstrate that H-dimer formation of an oxazine fluorophore reports on end-to-end contact rates in unstructured glycine-serine polypeptides under denaturing conditions