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Smithsonian scientists and colleagues working on Panama’s Barro Colorado Island discovered that small leaf samples from a single tree were home to more than…
The present invention provides a safe DTI-antidote able to antagonize the anticoagulant functions of various DTI, such as dabigatran, hirudin, bivalirudin and argatroban.
The exosite structures of thrombin are blocked by complex formation between thrombin and a recently developed aptamer (Müller et al. 2007). As this aptamer does not block the active center of thrombin, the aptamer caged thrombin (Apta-thrombin) retains full reactivity towards DTI but looses its procoagulant functions. This is an important prerequisite to avoid unwanted thrombotic site effects of the DTI antidote.
The ability of apta-thrombin to antagonize the anticoagulant functions of various DTI has been demonstrated in plasma-based studies and in a mouse-model. A prothrombotic response was not induced by apta-thrombin as measured by molecular activation markers. This feature renders apta-thrombin a safe DTI antidote.
The invention describes a CAR which recognizes CD30 as a target antigen and initiates lysis of CD30+ tumor cells but not of CD30+ healthy cells like hematopoietic stem cells. Specific genetic modifications of the
anti-CD30 CAR ensure the specific targeting of CD30+ tumor cells and prevent unwanted side-effects. This approach has been tested in vitro with CD30+ hematopoietic stem cells and CD30+ tumor cells and in vivo in mice transplanted with human CD30+ hematopoietic stem cells. In vivo experiments
proved that the treatment with anti-CD30 T-cells has no unwanted impact on the endogenous immune system.
The present invention provides a novel preventive and therapeutic approach based on the induction of tolerance, which is a key mechanism for the prevention of autoimmunity. The induction of tolerance is achieved through the oral administration of antigen-expressing microorganisms.
In an animal model of multiple sclerosis, the severity and occurrence of the disease symptoms could be significantly reduced by feeding the mice with the safe fodder yeast Candida utilis (Torula yeast) expressing Myelin oligodendrocyte glycoprotein (MOG). Thus, the oral administration of antigen-expressing Candida utilis suppresses the cellular and humoral immune responses taking place in the gut-associated lymphoid tissue. Furthermore, the described treatment is considered to be safe, effective and simple.
Wissenschaftler der Universität Bonn haben ein Verfahren entwickelt, um die Biogasausbeute bestehender Biogasanlagen signifikant und effizient zu steigern, ohne die Dimensionierung des Fermenters zu ändern.
Bedarfsgerecht kann durch Zugabe ethanolhaltiger Stoffe, z.B. aus der alkoholischen Fermentation etc., die Methanausbeute erheblich gesteigert werden. Die Methanproduktion kann dem jeweiligen Bedarf angepasst werden, sodass z.B. Energiebedarfsspitzen ohne Zwischenspeicher bedient werden können.
Die energiefressende Destillation von Ethanol, wie in der Bioethanolproduktion, kann dabei entfallen, da neben Ethanol alle weiteren organischen Materialien zu Biogas umgewandelt werden können. Optional kann auch ein Vorfermenter zur Herstellung von ethanolhaltigem Gärgut aus pflanzlichen Rohstoffen vorgeschaltet werde
Biological age is influenced by parameters, such as genetic background, disease and lifestyle. Currently, the biological age can be assessed by measuring telomere length, DNA rearrangements or protein alterations. However, these methods lack precision and have practical limitations.
Therefore, scientists of the University Hospital Aachen developed a new method using epigenetic modifications to track human aging.
Based on the analysis of DNA-methylation (DNAm) profiles an Epigenetic-Aging-Signature has been evolved which only requires measurement of DNAm levels at six specific CpG sites. The DNA can be assessed by locus specific pyro-sequencing analysis of bisulfate-converted DNA.