Wheat (Triticum aestivum L.) spike characteristics determine the number of grains produced on each spike and constitute key components of grain yield. Understanding of the genetic basis of spike characteristics in wheat, however, is limited. In this study, genotyping-by-sequencing (GBS) and the iSelect 9K assay were used on a doubled-haploid (DH) soft red winter wheat population that showed a wide range of phenotypic variation for spike traits. A genetic map spanning 2934.1 cM with an average interval length of 3.4 cM was constructed. Quantitative trait loci (QTL) analysis involving additive effects, epistasis (QQ) and QTL environment (QE), and epistasis environment (QQE) interactions detected a total of 109 QTL, 13 QE, and 20 QQ interactions in five environments. Spike characteristics were mainly determined by additive effects and were fine-tuned by QQ, QE, and QQE. Major QTL QSl.cz-1A/QFsn.cz-1A explained up to 30.9% of the phenotypic variation for spike length (SL) and fertile spikelet number, QGsp.cz-2B.1 explained up to 15.6% of the phenotypic variation of grain number per spikelet, and QSc.cz-5A.3 explained up to 80.2% of the phenotypic variation for spike compactness. Additionally, QTL for correlated spike characteristics formed QTL clusters on chromosomes 1A, 5A, 2B, 3B, 5B, 1D, and 5D. This study expands the understanding of the genetic basis of spike characteristics in hexaploid wheat. A number of stable QTL detected in this study have potential to be used in marker-assisted selection. Additionally, the genetic map generated in this study could be used to study other traits of economic importance.
As the number of disasters and crises affecting the tourism industry increases, it is becoming necessary to understand the nature of these disasters and how to manage and limit the impacts of such incidents. This paper defines crises and disasters before discussing the area of crisis communication management and crisis communication in the tourism industry. The paper then applies the foot and mouth disease (FMD) which occurred in the United Kingdom to crisis communication theory at a national level (by examining the response of the British Tourist Authority) and at a local level (by examining the response of a District Council). The response was limited in part because of a lack of preparedness, but also due to the nature of the foot and mouth outbreak, and the speed and severity of international media coverage. Action was taken in the emergency phase of the crisis and was reactive involving inconsistency in developing key messages to stakeholders, partly due to confusion and a lack of information at the national level. Recovery marketing was also limited due to the length of time of the disease outbreak. This paper provides lessons for destinations and organisations are discussed which may help develop crisis communication strategies for tourism organisations.
Platelets from whole blood were separated into five density subpopulations using a discontinuous Percoll gradient. The content of diadenosine triphosphate (Ap3A), diadenosine tetraphosphate (Ap4A), ADP and ATP were determined in the subfractions. The dinucleotides were directly measured in neutralized, acid-soluble extracts of human platelets with a bioluminescence method not requiring any chromatographic step. When comparing the nucleotide contents of the density subpopulations it became evident that all nucleotides steadily increased with increasing density. Ap3A, Ap4A, ADP and ATP were present in 10-, 7-, 4- and 2-fold higher amounts in the heaviest platelets, respectively, as compared to the subfraction with the lowest density. This finding is practically relevant since the most dense platelet subpopulations may be lost during conventional centrifugation to obtain platelet-rich plasma. Therefore we compared a platelet population obtained from PRP with the platelet population, which had been prepared from whole blood by means of a continuous Percoll gradient. All the four nucleotides investigated were represented in 1.5- to 2-fold higher amounts in the whole blood platelet population. This indicates that PRP does not contain a representative population but lacks part of the large heavy platelets containing the highest amounts of nucleotides.
Water from the Hickey Run Tributary of the Anacostia River is being collected quarterly (beginning August 2018) and analyzed to create high-resolution baseline taxonomic profiles of microbiota associated with this important aquatic ecosystem, which has a long history of exposure to residential and commercial effluents from Washington, DC. These United States National Arboretum Microbial Observatory data are available under NCBI BioProject number PRJNA498951.
Salmonella enterica serovar Dublin is a strongly adapted serovar that causes enteritis and/or systemic disease in cattle and results in high rates of mortality. Here, we report the draft genome sequences of 112 S. Dublin strains isolated from humans and animals in Brazil. These draft genome sequences will help enhance our understanding of this serovar in Brazil.
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