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Hematopoietic stem cells (HSCs) have the unique abilities of life-long self-renewal and multi-lineage differentiation. They are routinely used in BM or stem cell transplantations to reconstitute the blood system of patients suffering from malignant or monogenic blood disorders. For an adequate production of each blood cell lineage in homeostasis and under stress conditions, the fate choice of HSCs to either self-renew or to differentiate must be strictly controlled. The incomplete understanding of the molecular mechanisms that control this balance makes it still impossible to maintain or expand undifferentiated HSCs in culture for advanced regenerative medical purposes.
The aim of this thesis was the identification and molecular characterisation of mechanisms that control the decision of HSCs to self-renew or to differentiate, and how they are connected to extrinsic cytokine signaling control. Prior to this thesis, a screening for genes upregulated under self-renewal promoting thrombopoietin (TPO) signaling via the transcription factors STAT5A/B in HSCs was conducted, and Growth arrest and DNA damage inducible 45 gamma (Gadd45g) was one of the regulated genes. GADD45G was described as stress sensor, DNA-damage response and tumor suppressor gene, that is epigenetically silenced in many solid tumors and leukemia. Furthermore, Gadd45g is upregulated in aged HSCs with impaired multi-lineage reconstitution abilities, and it is induced by differentiation promoting cytokines in GM-committed cells. However, the function of GADD45G in LT-HSCs was unknown. All these points warrant further investigation to unravel the function of GADD45G on early cell fate decisions of HSCs in hematopoiesis.
The expression of Gadd45g was stimulated by hematopoietic cytokines TPO, IL3 and IL6 both in HSCs and MPPs, making GADD45G an interesting target to focus on. To simulate the cytokine-induced expression GADD45G was lentivirally transduced in HSCs. Surprisingly, GADD45G did not induce cell cycle arrest or cell death in hematopoietic cells neither in vitro nor in vivo, as reported in many cell lines. Instead GADD45G revealed an enhanced and markedly accelerated differentiation of HSCs into mainly myelomonocytic cells, similar as observed for IL3 and IL6 containing cultures. Also in vivo, GADD45G rapidly initiates the differentiation program in HSCs at the expense of self-renewal and long-term engraftment, as shown by serial HSC transplantation experiments. Along the same line, HSCs from Gadd45g-knock out mice exhibited an increased self-renewal. In vitro, Gadd45g-/- progenitors showed higher and prolonged colony formation potential and slower expansion after cytokine stimulation. The loss of Gadd45g increased HSC self-renewal and improved repopulation in secondary recipients, determined by serial competitive transplantations. Taken together, GADD45G could be identified as molecular link between differentiation-promoting cytokine signaling and rapid differentiation induction in murine LT-HSCs.
As presented in this thesis the differentiation induction of GADD45G was mediated by the activation of the cascade of MAP3K4 – MKK6 –p38 MAPK. Small molecule inhibition of p38, but not JNK, blocked the GADD45G-induced differentiation. GADD45G binds to MAP3K4 and releases its auto-inhibitory loop by a change in confirmation, initiating this cascade. Phosphoflow cytometry demonstrated the activation of p38 and a downstream kinase MK2 by GADD45G expression in MPPs. Furthermore, the expression of constitutive active MAP3K4 and MKK6 were able to phenocopy GADD45G-induced differentiation, which could be blocked by p38 inhibition.
The other two family members GADD45A and B also induced accelerated differentiation in LT-HSCs. Interestingly, only GADD45G suppressed the differentiation into megakaryocyte and erythrocyte (Mek/E) lineage cells suggesting a role of GADD45G in lineage choice. Long-term time-lapse microscopy-based cell tracking of single LT-HSCs and their progeny revealed that, once GADD45G is expressed, the development of LT-HSCs into granulocyte-macrophage-committed progeny occurred within 36 hours, and uncovered a selective lineage choice with a severe reduction in Mek/E cells. Furthermore, no megakaryocytic-erythroid progenitors (MEPs) could develop from HSPCs in BM 2 weeks after transplantation suggesting a very early selection against Mek/E cell fates. In line with these findings, GADD45G-transduced MEPs could not expand or form colonies in vitro, demonstrating that the differentiation program induced by GADD45G is not compatible with Mek/E lineage fate. Gene expression profiling of HSCs indicated that GADD45G promotes myelomonocytic differentiation programs over programs for self-renewal or megakaryo-/ erythropoiesis. The here identified differentiation induction potential of GADD45G is so strong that the expression of GADD45G in primary acute myeloid leukemia (AML) cells inhibited their expansion accompanied by enhanced differentiation and increased apoptosis.
The here presented work shows that IL3 and IL6 induce a differentiation program in HSCs via GADD45G and p38 closing the link of extrinsic cytokine signaling and differentiation induction. Since the loss of Gadd45g increased the self-renewal and slowed HSC differentiation, this may be utilized, i.e. by p38 inhibition, to ex vivo maintain and expand HSCs by preventing cytokine-induced differentiation. Furthermore, Re-expression of GADD45G may overcome the differentiation block in leukemia to eliminate these cells by driving them into terminal differentiation and apoptosis.
Traditional chinese medicine and herbal hepatotoxicity: a tabular compilation of reported cases
(2015)
Traditional Chinese Medicine (TCM) with its focus on herbal use became popular worldwide. Treatment was perceived as safe, with neglect of rare adverse reactions including liver injury. To compile worldwide cases of liver injury by herbal TCM, we undertook a selective literature search in the PubMed database and searched for the items Traditional Chinese Medicine, TCM, Traditional Asian Medicine, and Traditional Oriental Medicine, also combined with the terms herbal hepatotoxicity or herb induced liver injury. The search focused primarily on English-language case reports, case series, and clinical reviews. We identified reported hepatotoxicity cases in 77 relevant publications with 57 different herbs and herbal mixtures of TCM, which were further analyzed for causality by the Council for International Organizations of Medical Sciences (CIOMS) scale, positive reexposure test results, or both. Causality was established for 28/57 different herbs or herbal mixtures, Bai Xian Pi, Bo He, Ci Wu Jia, Chuan Lian Zi, Da Huang, Gan Cao, Ge Gen, Ho Shou Wu, Huang Qin, Hwang Geun Cho, Ji Gu Cao, Ji Xue Cao, Jin Bu Huan, Jue Ming Zi, Jiguja, Kudzu, Ling Yang Qing Fei Keli, Lu Cha, Rhen Shen, Ma Huang, Shou Wu Pian, Shan Chi, Shen Min, Syo Saiko To, Xiao Chai Hu Tang, Yin Chen Hao, Zexie, and Zhen Chu Cao. In conclusion, this compilation of liver injury cases establishes causality for 28/57 different TCM herbs and herbal mixtures, aiding diagnosis for physicians who care for patients with liver disease possibly related to herbal TCM.
Hepatology highlights
(2015)
Relacionar a temática referente a Teoria do Reconhecimento de Axel Honnet e o direito humano ao trabalho, como direito humano com pretensão de validade universal, sob a perspectiva da Declaração dos Direitos e Princípios Fundamentais no Trabalho da OIT, com fins de fixar parâmetros de reconhecimento e de (re)inserção social da categoria de trabalhadores toxicodependentes é o principal objetivo do presente artigo. Para tanto, analisaremos o marco teórico em que a persecução da dignidade do homem pelo trabalho é o objetivo do Estado para que a seguir possamos tratar da dignidade do homem como direito cuja pretensão de validade é universal, com base da teoria do reconhecimento de Axel Honneth. Isto posto, podemos analisar a possível dignificação do homem pelo trabalho e no trabalho, em um contexto global a partir dos efeitos do reconhecimento de novos direitos, especialmente no que tange à categoria de trabalhadores que ocupam a parcela social de químico-dependentes, cuja participação no processo social está impedida, gerando uma categoria de trabalhadores socialmente excluídos, o que se pretende ultrapassar.
Am GSI Helmholtzzentrum für Schwerionenforschung in Darmstadt, wird für die Erweiterung der Forschungsmöglichkeiten am Bau des FAIR Projektes gearbeitet. Hierfür wird unter anderem ein Ringbeschleuniger gebaut (SIS100), der mit 100Tm den bestehenden Ring (SIS18) in magnetischer Steifigkeit ergänzen wird. Um SIS100 an SIS18 anzubinden, wird eine Transferstrecke benötigt, welche den Transfer von Ionen zwischen den Ringen übernimmt. In solchen Transferstrecken werden Quadrupollinsen mit hohen Gradienten benötigt. Ebenso werden für die finale Fokussierung von hochintensiven Strahlpulsen aus Synchrotronen auf Targets Linsen mit hohen Feldgradienten benötigt. Allerdings sind die Pulse nur sehr kurz und das Tastverhältnis bei Synchrotronen sehr klein. Daher sollte ein gepulster Fokussiermagnet entwickelt werden, der den hohen Gradientenanforderungen gerecht wird und sowohl platz- als auch energiesparend ist. Die vorliegende Arbeit befasst sich mit der Auslegung des elektrischen Schaltkreises, der Simulation des Magnetfeldes und der konstruktiven Umsetzung eines solchen gepulsten Quadrupols. Der elektrische Schaltkreis ist so ausgelegt, dass eine hohe Repetitionsrate zur Fokussierung für Teilchenpakete möglich ist. Die Linse wurde aus einer Luftspule ohne Eisenjoch aufgebaut. Die cos(2θ)-Verteilung des Stroms durch die Leiter wurde durch ein Design gesichert, welches den Skin-Effekt berücksichtigt und entsprechend ausgelegte Litzenkabel verwendet. Um die Magnetfeldverteilung des Fokussiermagneten zu untersuchen, wurden statische und transiente Simulationen mit dem Programm CST Mircowave Studio Suite vorgenommen. Zentraler Punkt bei der Neuentwicklung waren die Luftspulen. Um einen linearen Magnetfeldanstieg von der Strahlachse zum Aperturrand zu gewährleisten, muss die Stromverteilung in der Leiterspule so homogen wie möglich sein. Um bei Pulslängen von 170 µsec den Skineffekt zu berücksichtigen, wurde die Leiterspule aus HF-Litzen von je mehreren hundert Einzelleitern zusammengestellt, die jeweils gegeneinander isoliert und in Bündeln miteinander verdrillt sind. Außerdem wurde die Linse mit einer lamellierten Schirmung versehen, um das Magnetfeld effektiv nutzen zu können. Ziel der Auslegung war es, zusammen mit einem zweiten Quadrupol im Duplett einen Strahl mit einer magnetischen Steifigkeit von 11 Tm und einer Bunchlänge von 2µsec auf einen Punkt von 0,5 mm Radius zu fokussieren. Bei dem hierfür angestrebten Gradienten von 76 T/m wird eine maximale Stromamplitude von 400 kA benötigt. Im Rahmen dieser Arbeit wurde die Linse ausgelegt, konstruiert und gebaut. Die Funktionalität wurde untersucht und die Feldqualität wurde vermessen und zeigten die erwarteten Parameter. Bei 26 kA Messstrom wurden im Zentrum des Magneten ein maximaler Gradient von 4,5 T/m und Feldwerte von 0,11 T ermittelt. Somit liegt die Abweichung des gemessenen Gradienten bei ca. 5 %. Die durchgängige Umsetzung der homogenen Verteilung der Leiterbündel in der Luftspule und eine vollständige Kompensation des Skineffekts konnten nicht nachgewiesen werden. Jedoch konnte der Einfluss der Kabelzuleitung des Quadrupols auf den Magnetfeldverlauf in den Simulationen und Messungen nachgewiesen werden. Weiterhin wurde für den energieeffizienten Einsatz im Transferkanal zwischen SIS18 und SIS100 ein Energierückgewinnungsschaltkreis entwickelt, der eine Ersparnis von 84 % der Betriebsleistung ermöglicht.
We examine how U.S. monetary policy affects the international activities of U.S. Banks. We access a rarely studied US bank‐level dataset to assess at a quarterly frequency how changes in the U.S. Federal funds rate (before the crisis) and quantitative easing (after the onset of the crisis) affects changes in cross‐border claims by U.S. banks across countries, maturities and sectors, and also affects changes in claims by their foreign affiliates. We find robust evidence consistent with the existence of a potent global bank lending channel. In response to changes in U.S. monetary conditions, U.S. banks strongly adjust their cross‐border claims in both the pre and post‐crisis period. However, we also find that U.S. bank affiliate claims respond mainly to host country monetary conditions.
Diese Arbeit stellt eine Annäherung an den umfangreichen Themenkomplex "Kind, Kunst und Kompensation" dar. In Auseinandersetzung mit unterschiedlichsten Berührungspunkten wird aufgezeigt, warum gestalterisch-schöpferische Betätigung förderlich und erforderlich für die Entwicklung ist, insbesondere im Kindesalter. Im Fokus der Betrachtung stehen zum einen grundlegende Wirkungsweisen, die diesen Prozessen innewohnen und zum anderen der sozioökonomische Wandel, welcher gerade jene Wirkungsweisen herausfordert und teilweise ebenso notwendig macht. Umhüllt wird dieser Bereich vom zentralen Themenkomplex der Handlungsverarmung, Vereinseitigung und Vielfalts-Debatte, welcher im Grunde nicht nur Heranwachsende, sondern letztlich jeden Menschen der westlichen Welt betrifft.
The fossil record is widely informative about evolution, but fossils are not systematically used to study the evolution of stem-cell-driven renewal. Here, we examined evolution of the continuous growth (hypselodonty) of rodent molar teeth, which is fuelled by the presence of dental stem cells. We studied occurrences of 3,500 North American rodent fossils, ranging from 50 million years ago (mya) to 2 mya. We examined changes in molar height to determine whether evolution of hypselodonty shows distinct patterns in the fossil record, and we found that hypselodont taxa emerged through intermediate forms of increasing crown height. Next, we designed a Markov simulation model, which replicated molar height increases throughout the Cenozoic and, moreover, evolution of hypselodonty. Thus, by extension, the retention of the adult stem cell niche appears to be a predictable quantitative rather than a stochastic qualitative process. Our analyses predict that hypselodonty will eventually become the dominant phenotype.
Microtubules execute diverse mitotic events that are spatially and temporally separated; the underlying regulation is poorly understood. By combining drug treatments, large-scale immunoprecipitation and mass spectrometry, we report the first comprehensive map of mitotic phase-specific protein interactions of the microtubule-end binding protein, EB1. EB1 interacts with some, but not all, of its partners throughout mitosis. We show that the interaction of EB1 with Astrin-SKAP complex, a key regulator of chromosome segregation, is enhanced during prometaphase, compared to anaphase. We find that EB1 and EB3, another EB family member, can interact directly with SKAP, in an SXIP-motif dependent manner. Using an SXIP defective mutant that cannot interact with EB, we uncover two distinct pools of SKAP at spindle microtubules and kinetochores. We demonstrate the importance of SKAP's SXIP-motif in controlling microtubule growth rates and anaphase onset, without grossly disrupting spindle function. Thus, we provide the first comprehensive map of temporal changes in EB1 interactors during mitosis and highlight the importance of EB protein interactions in ensuring normal mitosis.
The 3′ untranslated regions (3′ UTRs) of transcripts serve as important hubs for posttranscriptional gene expression regulation. Here, we find that the exonisation of intergenic Alu elements introduced new terminal exons and polyadenylation sites during human genome evolution. While Alu exonisation from introns has been described previously, we shed light on a novel mechanism to create alternative 3′ UTRs, thereby opening opportunities for differential posttranscriptional regulation. On the mechanistic level, we show that intergenic Alu exonisation can compete both with alternative splicing and polyadenylation in the upstream gene. Notably, the Alu-derived isoforms are often expressed in a tissue-specific manner, and the Alu-derived 3′ UTRs can alter mRNA stability. In summary, we demonstrate that intergenic elements can affect processing of preceding genes, and elucidate how intergenic Alu exonisation can contribute to tissue-specific posttranscriptional regulation by expanding the repertoire of 3′ UTRs.
The concept of culturomics was born out of the availability of massive amounts of textual data and the interest to make sense of cultural and language phenomena over time. Thus far however, culturomics has only made use of, and shown the great potential of, statistical methods. In this paper, we present a vision for a knowledge-based culturomics that complements traditional culturomics. We discuss the possibilities and challenges of combining knowledge-based methods with statistical methods and address major challenges that arise due to the nature of the data; diversity of sources, changes in language over time as well as temporal dynamics of information in general. We address all layers needed for knowledge-based culturomics, from natural language processing and relations to summaries and opinions.
The study of large-scale functional interactions in the human brain with functional magnetic resonance imaging (fMRI) extends almost to the first applications of this technology. Due to historical reasons and preconceptions about the limitations of this brain imaging method, most studies have focused on assessing connectivity over extended periods of time. It is now clear that fMRI can resolve the temporal dynamics of functional connectivity, like other faster imaging techniques such as electroencephalography and magnetoencephalography (albeit on a different temporal scale). However, the indirect nature of fMRI measurements can hinder the interpretability of the results. After briefly summarizing recent advances in the field, we discuss how the simultaneous combination of fMRI with electrophysiological activity measurements can contribute to a better understanding of dynamic functional connectivity in humans both during rest and task, wakefulness, and other brain states.
Dies ist der dritte Artikel unseres Blogfokus „Salafismus in Deutschland“.
Der Salafismus in Deutschland vollzieht seit 2005 eine spürbare Entwicklung. Sie reicht von der Etablierung einer einheimischen Szene über die Schaffung einer funktionierenden salafistischen Infrastruktur bis hin zu großen Mobilisierungserfolgen. In den verschiedenen Entwicklungsphasen wurden Propagandakanäle geschaffen und optimiert mit dem Ziel, Anhänger anzuwerben, die Anhängerschaft ideologisch zu festigen und sie vor der Mehrheitsgesellschaft zu schützen. Dafür erwies sich die salafistische Propaganda als nützliches Instrument. In diesem Beitrag wird der Wandel der salafistischen Szene in Deutschland skizziert.
In der Dissertation mit dem Titel „Verrechtlichung von Geschichte. Parlamentarische Debatten um die gesetzlichen Bestimmungen gegen Holocaustleugnung in Österreich und Deutschland“ wurden die strafrechtlichen Bestimmungen gegen Holocaust-Leugnung in Deutschland und Österreich untersucht. Im Vordergrund stand die Frage, wie ein historisches Ereignis mit Hilfe politischer und juristischer Terminologie so gefasst und normiert werden konnte, dass die Leugnung desselben seitdem mit Hilfe des Rechts bestraft werden kann. Dazu wurden vor allem jene parlamentarischen Vorgänge und Debatten untersucht, die der Verabschiedung der Gesetze vorausgegangen sind. Die Auswertung dieser Quellen hilft auch zu verstehen, weshalb und in welcher Form die Logik dieser Gesetze in den letzten zwanzig Jahren von anderen Staaten übernommen und auf andere historische Ereignisse ausgeweitet worden ist. Neben diesem umfangreichen empirischen Teil, der auf die jeweiligen historischen Spezifika eingeht, beinhaltet die Dissertation einen stärker analytisch ausgerichteten resümierenden Schlussteil, in dem versucht wurde, mit thesenhaften Beobachtungen das Phänomen und die ideengeschichtliche Genese der Holocaust-Leugnungsgesetze nachzuzeichnen. Diese Beobachtungen umfassen unter anderem die Bereiche Geschichtspolitik, Rechtspolitik, Sprachpolitik oder auch Wissenschaftspolitik und gehen aus unterschiedlichen Blickwinkeln der Frage nach, auf welche Weise die Gesetze begründet, legitimiert und kritisiert worden sind und immer noch werden.
In the title salt, [Ag(C27H36N2)2]Cl·C4H8O, the AgI atom is coordinated by two 1,3-bis(2,6-dimethylphenyl)imidazol-2-ylidene ligands. The imidazole rings are inclined to one another by 46.69 (13)° and the benzene rings in each ligand are almost normal to the imdazole ring to which they are attached, with dihedral angles varying from 82.39 (13) to 88.27 (12)°. There are C—H⋯π interactions present in the cation, involving the two ligands, and the solvent molecule is linked to the cation via a C—H⋯O hydrogen bond. In the crystal, molecules are linked by trifurcated C—H⋯(Cl,Cl,Cl) hydrogen bonds, forming slabs parallel to (101). One isopropyl group is disordered over two sets of sites with an occupancy ratio of 0.447 (17):0.553 (17) and the THF molecule is disordered over two positions with an occupancy ratio of 0.589 (6):0.411 (6).
Atomistic molecular dynamics approach for channeling of charged particles in oriented crystals
(2015)
Der Gitterführungseffekt ist der Prozess der Ausbreitung von geladenen Teilchen entlang der Ebenen oder Achsen von kristallinen Materialien. Seit den 1960er Jahren ist dieser Effekt weitgehend theoretisch und experimentell untersucht worden. Dieser Effekt wurde für die Manipulation von Hochenergiestrahlen, die Hochpräzisionsstruktur- und -fehleranalyse von kristallinen Medien und die Herstellung von hochenergetischer Strahlung angewendet. Zur Abstimmung der Parameter der Gitterführung und Gitterführungsstrahlung wurde dieser Prozess für den Fall von künstlich nanostrukturierten Materialien, wie gebogenen Kristallen, Nanoröhren und Fullerit, angenommen. In den letzten Jahren wurde das Konzept des kristallinen Undulators formuliert und getestet, das besondere Eigenschaften der Strahlung aufgrund der Gitterführung von Projektilen in regelmäßig gebogenen Kristallen vorhersagt.
In dieser Arbeit werden die Prozesse der Gitterführung von Sub- und Multi-GeV-Elektronen und -Positronen durch den atomistischen Molekulardynamik-Ansatz untersucht. Die Ergebnisse dieser Studien wurden in einer Reihe von Artikeln während meiner Promotion in Frankfurt vorgestellt. Dieser Ansatz ermöglicht die Simulation komplexer Fälle von Gitterführung in geraden, gebogenen und periodisch gebogenen Kristallen aus reinen kristallinen Materialien und von gemischten Materialien wie Si-Ge-Kristallen, in mehrschichtigen und nanostrukturierten kristallinen Systemen. Die Arbeit beschreibt die Methode der Simulationen, stellt Ergebnisse von Simulationen für verschiedene Fälle vor und vergleicht die Ergebnisse von Simulationen mit aktuellen experimentellen Daten. Die Ergebnisse werden mit Schätzungen der dechanneling-Länge verglichen, dem Anteil der gittergeführten Projektile, der Winkelverteilung der ausgehenden Projektile und des Strahlungsspektrums.
Background: High reproducibility of LV mass and volume measurement from cine cardiovascular magnetic resonance (CMR) has been shown within single centers. However, the extent to which contours may vary from center to center, due to different training protocols, is unknown. We aimed to quantify sources of variation between many centers, and provide a multi-center consensus ground truth dataset for benchmarking automated processing tools and facilitating training for new readers in CMR analysis.
Methods: Seven independent expert readers, representing seven experienced CMR core laboratories, analyzed fifteen cine CMR data sets in accordance with their standard operating protocols and SCMR guidelines. Consensus contours were generated for each image according to a statistical optimization scheme that maximized contour placement agreement between readers.
Results: Reader-consensus agreement was better than inter-reader agreement (end-diastolic volume 14.7 ml vs 15.2–28.4 ml; end-systolic volume 13.2 ml vs 14.0–21.5 ml; LV mass 17.5 g vs 20.2–34.5 g; ejection fraction 4.2 % vs 4.6–7.5 %). Compared with consensus contours, readers were very consistent (small variability across cases within each reader), but bias varied between readers due to differences in contouring protocols at each center. Although larger contour differences were found at the apex and base, the main effect on volume was due to small but consistent differences in the position of the contours in all regions of the LV.
Conclusions: A multi-center consensus dataset was established for the purposes of benchmarking and training. Achieving consensus on contour drawing protocol between centers before analysis, or bias correction after analysis, is required when collating multi-center results.
The practical aim of this work is twofold. Firstly, it is to construct a theory of language based on historical-materialist premises, i.e. a theory which stresses the sociality and historicity of language, and finds in them the fundamental characteristics which make language one of the central phenomena of human life. Such a theory is inherently counterposed to the dominant theories and philosophies of language in the last century, be they Saussurean, idealistic, structuralist, psychologistic or Chomskyan etc. It also rejects vulgar materialistic accounts of language, where language is seen merely as a “reflection” of the economic base of society, as well as the version proposed in Stalin’s short pamphlet, Marxism and Linguistics, which sees language merely as a means of communication, regardless of society or class, therefore neutralised and consequently branded irrelevant for Marxist theory. In short, the first aim would be showing what language is not and what it cannot be by showing what it is.
The second aim is related to Marxist theory in general. Following the presuppositions of this work, a Marxist account of language proves to be an immensely important field of research for Marxism. The reasons are fairly simple, if one is willing to accept them: language is a certain type of social practice, it is related to the way people act, which also means that it is interconnected with consciousness, i.e. to the way people think and to the content of their thought. Language is ideological and political; it is an element of class rule and class struggle. Thus, understanding language should be of utmost importance for any socialist revolutionary project, as ideological struggle is central not only to a revolutionary period, but, perhaps even more, to a period where revolution is not even in sight. I do not wish to derogate other Marxist fields of research, but, on the contrary, to simply insist on their equal importance. Ideological phenomena should not be a secondary or inferior object of research to strictly economic phenomena, or vice-versa. In reality, those phenomena form a dialectic unity; only if theory follows suit, can a pregnant Marxist philosophy be formed.
"Stellen Sie sich vor, wir könnten einzelne Zellen mit einer Art Fernbedienung von außen steuern", träumt Ralph Wieneke, Juniorgruppenleiter in der Zellulären Biochemie. Licht als Steuerungsquelle habe entscheidende Vorteile, schildert Institutsleiter Robert Tampé: "Es schadet Zellen nicht und kann schnell und sehr genau reguliert werden." Von ihrem Ziel ist die Arbeitsgruppe gar nicht so weit entfernt.