611 research outputs found
Early Cementation of the Short Creek Oolite Member, Boone Formation (Osagean, Lower Mississippian), Northern Arkansas
The Short Creek Oolite is the only formally named member of the Boone Formation in northern Arkansas. It lacks bedding features, and oolith concentrations that would suggest a shoal environment, and it occurs at variable stratigraphic horizons within the upper Boone Formation consistent with episodic deposition as grainflow slurries. As with modern oolite examples, such as Joulters Cays, Bahamas, the Short Creek preserves numerous intraclasts, and at least one large olistolith indicating an early cementation history
Innovationskompetenz und Performanz
Welche Rolle spielen Innovationen fĂŒr den Bestand und den Erfolg von Unternehmen in einer
Wettbewerbswirtschaft? Das ist wohl die grundlegendste Frage, die sich die Managementwissenschaft
in Bezug auf Strategien der Neuerung stellt. Vielfach begnĂŒgt sie sich mit
der Antwort, daĂ die Bedeutung von Innovationen zunehme (was an wachsenden FuEAufwendungen,
kĂŒrzeren Produktlebenszyklen und Ă€hnlichen Indikatoren abgelesen wird)
und fragt dann, was Unternehmen in die Lage versetzt, Innovationen besser zu managen
(mehr, schneller, radikaler, effizienter). So definiert sich Innovationsmanagement als Fach.
Seit sich die Organisationsforschung und -theorie immer mehr mit Fragen des organisationalen
Wandels befasst (weil Wandel wichtiger wird oder weil das Mode ist oder warum auch
immer) und das Strategische Management als weitere Subdisziplin die Leitfrage, welche Unternehmensstrategien
nachhaltige Wettbewerbsvorteile versprechen, ĂŒberwiegend mit âEntwicklung
von InnovationsfĂ€higkeitâ beantwortet, wĂ€chst hier gegen den Spezialisierungstrend
ein Forschungsfeld zusammen. In diesem verortet sich unser Beitrag.
Die erste Frage ist eine genuine der Unternehmenstheorie, auch wenn sie natĂŒrlich empiristisch
behandelt werden kann - also theorielos. Im vorliegenden Beitrag stellen wir Ergebnisse
unserer empirischen Arbeiten zur zweiten Frage vor: Was ist InnovationsfÀhigkeit, und wie
erlangt man sie? Sie basieren auf dem theoretischen Ansatz der Institutionellen ReflexivitÀt
(Moldaschl 2005, 2006), den wir einleitend kurz vorstellen. Er ist seinerseits ein Segment unserer
Variante einer Evolutorischen Theorie der Unternehmung, die sich auch mit der erstgenannten
Frage beschÀftigt (Moldaschl 2011). Sie sucht den konstruktiven Wettbewerb mit
der Competence-based View of the Firm und mit AnsĂ€tzen, die dieser gegenĂŒber (ebenfalls)
kritisch sind, etwa dem Konzept der Ambidexterity (z.B. Feldman/Pentland 2003; GĂŒttel
2009) oder solchen, die auf Austrian Economics bauen (z.B. Lewin/Phelan 2000; Freiling et
al. 2006)
Targeted Next-Generation Sequencing Validates the Use of Diagnostic Biopsies as a Suitable Alternative to Resection Material for Mutation Screening in Colorectal Cancer
Background: Mutation testing in the context of neoadjuvant therapy must be performed on biopsy samples. Given the issue of tumour heterogeneity, this raises the question of whether the biopsies are representative of the whole tumour. Here we have compared the mutation profiles of colorectal biopsies with their matched resection specimens.
Methods: We performed next-generation sequencing (NGS) analysis on 25 paired formalin-fixed, paraffin-embedded colorectal cancer biopsy and primary resection samples. DNA was extracted and analysed using the TruSight tumour kit, allowing the interrogation of 26 cancer driver genes. Samples were run on an Illumina MiSeq. Mutations were validated using quick-multiplex-consensus (QMC)-polymerase chain reaction (PCR) in conjunction with high resolution melting (HRM). The paired biopsy and resection tumour samples were assessed for presence or absence of mutations, mutant allele frequency ratios, and allelic imbalance status.
Results: A total of 81 mutations were detected, in ten of the 26 genes in the TruSight kit. Two of the 25 paired cases were wild-type across all genes. The mutational profiles, allelic imbalance status, and mutant allele frequency ratios of the paired biopsy and resection samples were highly concordant (88.75â98.85%), with all but three (3.7%) of the mutations identified in the resection specimens also being present in the biopsy specimens. All 81 mutations were confirmed by QMC-PCR and HRM analysis, although four low-level mutations required a co-amplification at lower denaturation temperature (COLD)-PCR protocol to enrich for the mutant alleles.
Conclusions: Diagnostic biopsies are adequate and reliable materials for molecular testing by NGS. The use of biopsies for molecular screening will enhance targeted neoadjuvant therapy
InnovationsfÀhigkeit: Empirische Befunde zur Rolle reflexiver Verfahren
Dieser Beitrag faĂt einige Befunde aus den standardisierten Erhebungen sowie den Fallstudien des Projekts "InnovationsfĂ€higkeit durch Institutionelle ReflexivitĂ€tâ zusammen und stellt zunĂ€chst nochmals GrundzĂŒge des zugrundeliegenden theoretischen Ansatzes vor. Es handelt sich hier um eine selektive Vorabveröffentlichung wesentlich umfangreicherer Befunde und Interpretationen, die in KĂŒrze als Buch erscheinen werden. --
The evolution of mammalian brain size
Relative brain size has long been considered a reflection of cognitive capacities and has played a fundamental role in developing core theories in the life sciences. Yet, the notion that relative brain size validly represents selection on brain size relies on the untested assumptions that brain-body allometry is restrained to a stable scaling relationship across species and that any deviation from this slope is due to selection on brain size. Using the largest fossil and extant dataset yet assembled, we find that shifts in allometric slope underpin major transitions in mammalian evolution and are often primarily characterized by marked changes in body size. Our results reveal that the largest-brained mammals achieved large relative brain sizes by highly divergent paths. These findings prompt a reevaluation of the traditional paradigm of relative brain size and open new opportunities to improve our understanding of the genetic and developmental mechanisms that influence brain size
High-Resolution Characterization of Toxoplasma gondii Transcriptome with a Massive Parallel Sequencing Methodâ
For the last couple of years, a method that permits the collection of precise positional information of transcriptional start sites (TSSs) together with digital information of the gene-expression levels in a high-throughput manner was established. We applied this novel method, âtss-seqâ, to elucidate the transcriptome of tachyzoites of the Toxoplasma gondii, which resulted in the identification of 124 000 TSSs, and they were clustered into 10 000 transcription regions (TRs) with a statistics-based analysis. The TRs and annotated ORFs were paired, resulting in the identification of 30% of the TRs and 40% of the ORFs without their counterparts, which predicted undiscovered genes and stage-specific transcriptions, respectively. The massive data for TSSs make it possible to execute the first systematic analysis of the T. gondii core promoter structure, and the information showed that T. gondii utilized an initiator-like motif for their transcription in the major and novel motif, the downstream thymidine cluster, which was similar to the Y patch observed in plants. This encyclopaedic analysis also suggested that the TATA box, and the other well-known core promoter elements were hardly utilized
Characterisation of the UK high energy proton research beamline for high and ultra-high dose rate (FLASH) irradiation
Objective. This work sets out the capabilities of the high energy proton research beamline developed in the Christie proton therapy centre for Ultra-High Dose Rate (UHDR) irradiation and FLASH experiments. It also characterises the lower limits of UHDR operation for this Pencil Beam Scanning (PBS) proton hardware. Approach. Energy dependent nozzle transmission was measured using a Faraday Cup beam collector. Spot size was measured at the reference plane using a 2D scintillation detector. Integrated depth doses (IDDs) were measured. EBT3 Gafchromic film was used to compare UHDR and conventional dose rate spots. Our beam monitor calibration methodolgy for UHDR is described. A microDiamond detector was used to determine dose rates at zref. Instantaneous depth dose rates were calculated for 70â245 MeV. PBS dose rate distributions were calculated using Folkerts and Van der Water definitions. Main results. Transmission of 7.05 ± 0.1% is achieveable corresponding to a peak instantaneous dose rate of 112.7 Gy sâ1. Beam parameters are comparable in conventional and UHDR mode with a spot size of Ïx = 4.6 mm, Ïy = 6.6 mm. Dead time in the beam monitoring electonics warrants a beam current dependent MU correction in the present configuration. Fast beam scanning of 26.4 m sâ1 (X) and 12.1 m sâ1 (Y) allows PBS dose rates of the order tens of Grays per second. Significance. UHDR delivery is possible for small field sizes and high energies enabling research into the FLASH effect with PBS protons at our facility. To our knowledge this is also the first thorough characterisation of UHDR irradiation using the hardware of this clinical accelerator at energies less than 250 MeV. The data set out in this publication can be used for designing experiments at this UK research facility and inform the possible future clinical translation of UHDR PBS proton therapy
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