1,713 research outputs found
Stochastic modeling of cargo transport by teams of molecular motors
Many different types of cellular cargos are transported bidirectionally along
microtubules by teams of molecular motors. The motion of this cargo-motors
system has been experimentally characterized in vivo as processive with rather
persistent directionality. Different theoretical approaches have been suggested
in order to explore the origin of this kind of motion. An effective theoretical
approach, introduced by M\"uller et al., describes the cargo dynamics as a
tug-of-war between different kinds of motors. An alternative approach has been
suggested recently by Kunwar et al., who considered the coupling between motor
and cargo in more detail. Based on this framework we introduce a model
considering single motor positions which we propagate in continuous time.
Furthermore, we analyze the possible influence of the discrete time update
schemes used in previous publications on the system's dynamic.Comment: Cenference proceedings - Traffic and Granular Flow 1
Affordable Care Act and Your Ag Business
Implementation of the Affordable Care Act (ACA) is steadily moving forward. Whether you agree or disagree with the ACA, the fact is that it is currently the national law. Already we are seeing changes affecting how hospitals, doctors and insurance carriers operate. Regulations impacting individuals and businesses in the areas of benefits covered, maximum out-of-pocket costs, taxes and penalties began on October 1st. Spend time now to evaluate how these changes will affect you, your family and your business operations
Tuberculosis in a South African prison - a transmission modelling analysis
Background. Prisons are recognised internationally as institutions with very high tuberculosis (TB) burdens where transmission is predominantly determined by contact between infectious and susceptible prisoners. A. recent South African court case described the conditions under which prisoners awaiting trial were kept. With the use of these data, a mathematical model was developed to explore the interactions between incarceration conditions and TB control measures. Methods. Cell dimensions, cell occupancy, lock-up time, TB incidence and treatment delays were derived from court evidence and judicial reports. Using the Wells-Riley equation and probability analyses of contact between prisoners, we estimated the current TB transmission probability within prison cells, and estimated transmission probabilities of improved levels of case finding in combination with implementation of national and international minimum standards for incarceration. Results. Levels of overcrowding (230%) in communal cells and Poor TB case finding result in annual TB transmission risks of 90% per annum. Implementing current national or international cell occupancy recommendations would reduce TB transmission probabilities by 30% and 50%, respectively. Improved passive case finding, modest ventilation increase or decreased lock-up time would minimally impact on transmission if introduced individually. However, active case finding together with implementation of minimum national and international standards of incarceration could reduce transmission by 50% and 94%, respectively. Conclusions. Current conditions of detention for awaiting-trial prisoners are highly conducive for spread of drug-sensitive and drug-resistant TB. Combinations of simple well-established scientific control measures should be implemented urgently
The role of the cancer stem cell marker CD271 in DNA damage response and drug resistance of melanoma cells
Several lines of evidence have suggested that stemness and acquired resistance
to targeted inhibitors or chemotherapeutics are mechanistically linked. Here
we observed high cell surface and total levels of nerve growth factor
receptor/CD271, a marker of melanoma-initiating cells, in sub-populations of
chemoresistant cell lines. CD271 expression was increased in drug-sensitive
cells but not resistant cells in response to DNA-damaging chemotherapeutics
etoposide, fotemustine and cisplatin. Comparative analysis of melanoma cells
engineered to stably express CD271 or a targeting short hairpin RNA by
expression profiling provided numerous genes regulated in a CD271-dependent
manner. In-depth analysis of CD271-responsive genes uncovered the association
of CD271 with regulation of DNA repair components. In addition, gene set
enrichment analysis revealed enrichment of CD271-responsive genes in drug-
resistant cells, among them DNA repair components. Moreover, our comparative
screen identified the fibroblast growth factor 13 (FGF13) as a target of
CD271, highly expressed in chemoresistant cells. Further we show that levels
of CD271 determine drug response. Knock-down of CD271 in fotemustine-resistant
cells decreased expression of FGF13 and at least partly restored sensitivity
to fotemustine. Together, we demonstrate that expression of CD271 is
responsible for genes associated with DNA repair and drug response. Further,
we identified 110 CD271-responsive genes predominantly expressed in melanoma
metastases, among them were NEK2, TOP2A and RAD51AP1 as potential drivers of
melanoma metastasis. In addition, we provide mechanistic insight in the
regulation of CD271 in response to drugs. We found that CD271 is potentially
regulated by p53 and in turn is needed for a proper p53-dependent response to
DNA-damaging drugs. In summary, we provide for the first time insight in a
CD271-associated signaling network connecting CD271 with DNA repair, drug
response and metastasis
Methane-Dependent Extracellular Electron Transfer at the Bioanode by the Anaerobic Archaeal Methanotroph “Candidatus Methanoperedens”
Anaerobic methanotrophic (ANME) archaea have recently been reported to be capable of using insoluble extracellular electron acceptors via extracellular electron transfer (EET). In this study, we investigated EET by a microbial community dominated by “Candidatus Methanoperedens” archaea at the anode of a bioelectrochemical system (BES) poised at 0 V vs. standard hydrogen electrode (SHE), in this way measuring current as a direct proxy of EET by this community. After inoculation of the BES, the maximum current density was 274 mA m(–2) (stable current up to 39 mA m(–2)). Concomitant conversion of (13)CH(4) into (13)CO(2) demonstrated that current production was methane-dependent, with 38% of the current attributed directly to methane supply. Based on the current production and methane uptake in a closed system, the Coulombic efficiency was about 17%. Polarization curves demonstrated that the current was limited by microbial activity at potentials above 0 V. The metatranscriptome of the inoculum was mined for the expression of c-type cytochromes potentially used for EET, which led to the identification of several multiheme c-type cytochrome-encoding genes among the most abundant transcripts in “Ca. Methanoperedens.” Our study provides strong indications of EET in ANME archaea and describes a system in which ANME-mediated EET can be investigated under laboratory conditions, which provides new research opportunities for mechanistic studies and possibly the generation of axenic ANME cultures
- …