Evaluation of the Engineering Company΄s Performance

Import 05/08/2014Cílem této diplomové práce je analyzovat a zhodnotit výkonnost podniku LUCCO a.s. pomocí vybraných metod a na základě zjištěných výsledků navrhnout doporučení pro případné zlepšení.V teoretické části jsou popsány pojmy výkonnost a jednotlivé metody tj. SWOT analýza, BSC, a bonitní a bankrotní modely, které se aplikují v praktické části. V praktické části diplomové práce se nachází charakteristika podniku LUCCO a.s. a následně zde budou zpracovány a popsány jednotlivé metody a okomentována výsledná zjištění. V poslední části jsou doporučení pro zlepšení výkonnosti podniku.The aim of this thesis is to analyze and evaluate the performance of the company as LUCCO using selected methods and based on the findings propose recommendations for possible zlepšení.V theoretical part describes the concepts and the performance of each method, ie, SWOT analysis, BSC, and value and bankruptcy models that are applied in the practical part. In the practical part of the thesis is characteristic of the enterprise as LUCCO and then there will be processed and described various methods and discussed the resulting findings. In the last section are recommendations for improving business performance.152 - Katedra podnikohospodářskávelmi dobř

Additional file 2: Figure S1. of Molecular typing of Trichomonas vaginalis isolates by actin gene sequence analysis and carriage of T. vaginalis viruses

Alignment of the T. vaginalis actin gene nucleotide sequences retrieved from GenBank and those of from the clinical T. vaginalis isolates of the present study. (PDF 1746 kb

Bivariable and multivariable analysis of socio-demographic, hygienic, behavioral, and clinical characteristics of pregnant women with curable sexually transmitted infections attending antenatal clinic at Kilifi County Hospital, July—September 2015 (n = 202).

<p>Bivariable and multivariable analysis of socio-demographic, hygienic, behavioral, and clinical characteristics of pregnant women with curable sexually transmitted infections attending antenatal clinic at Kilifi County Hospital, July—September 2015 (n = 202).</p

Flow chart of women attending antenatal care clinic at Kilifi County Hospital invited to participate in the study, June- September 2015

<p>Flow chart of women attending antenatal care clinic at Kilifi County Hospital invited to participate in the study, June- September 2015</p

Socio-demographic, hygienic, and behavioral characteristics of 202 women attending antenatal care and tested for sexually transmitted infections and bacterial vaginosis in Kilifi County Hospital, Kenya, July-September 2015.

<p>Socio-demographic, hygienic, and behavioral characteristics of 202 women attending antenatal care and tested for sexually transmitted infections and bacterial vaginosis in Kilifi County Hospital, Kenya, July-September 2015.</p

Dispersed bacteria versus biofilm.

<p>Confocal laser scanning images with 400x magnification of <i>G</i>. <i>vaginalis</i> biofilm in 2 vaginal slides (A and B) in a superimposed image: vaginal epithelial cells DAPI in blue and <i>G</i>. <i>vaginalis</i> specific PNA-probe Gard162 with Alexa Fluor 647 in red. A: vaginal sample with dispersed bacteria; B: vaginal sample with bacteria in biofilm.</p

Effect of light and temperature on bacterial motility.

<p>Cells of different species within the genus <i>Acinetobacter</i> were inoculated on the surface of swimming plates. Plates were inspected and photographed after incubated overnight in darkness (D) or in the presence of blue light (BL), green light (GL) or red light (RL) at 24°C or 37°C. Only some strains displaying photoregulated motility are shown.</p

Blue light and temperature (24°C vs. 37°C) regulation of motility and biofilm formation by <i>Acinetobacter</i> strains studied in this work.

a<p>If not indicated otherwise, strains are of human origin.</p>b<p>Number of BLUF-containing genes deduced from the available sequenced genomes.</p>c<p>All biofilms correspond to wall biofilms unless stated.</p>T<p>Type strains.</p><p>(^∧) These strains have been identified by ARDRA.</p><p>(!) These strains have been unambiguously identified by <i>rpoB</i> sequencing.</p><p>(*) Only pellicle biofilm formation.</p><p>(**) Strains whose genomes have been sequenced.</p><p>(***) The type strain of <i>A. grimontii</i>, a junior synonym of <i>A. junii</i>.</p><p>(#) Wall and pellicle biofilm formation simultaneously.</p><p>(^∧∧) The presence of BLUF-coding genes was determined by amplification using specific primers and posterior sequencing. See <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0055059#s2" target="_blank">Materials and Methods</a> for details.</p><p>ND, not determined.</p

Polymicrobial biofilm of <i>A</i>. <i>vaginae</i> and <i>G</i>. <i>vaginalis</i> in different panes.

<p>Confocal laser scanning image with 400 x magnification of polymicrobial biofilm in different panes, A: vaginal epithelial cells DAPI in blue, B: all bacteria, BacUni-1 PNA-probe with Alexa Fluor 555 in yellow, C: <i>A</i>. <i>vaginae</i> specific PNA-probe AtoITM1 with Alexa Fluor 488 in green, D: <i>G</i>. <i>vaginalis</i> specific PNA-probe Gard162 with Alexa Fluor 647 in red (superimposed image can be seen in <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0136658#pone.0136658.g003" target="_blank">Fig 3A</a>).</p

Plasmids and strains (<i>A. baumannii</i> and <i>E. coli</i>) used in this study.

a<p>Amp^R, ampicillin resistance; Km^R, kanamycin resistance; Tc^R, tetracycline resistance.</p