Control de tráfico aéreo y marítimo. Identificación de idiosincrasias y aportaciones al contexto de la seguridad marítima

Marí Sagarra, Francisco

27 June 2000

Comparación técnica de la operatividad entre los servicios de control de tráfico aéreo y marítimo, a fin de identificar las ventajas y disfunciones de cada uno y de ambos conjuntamente. Analizar las interacciones que se crean entre, por una parte los sistemas y organizaciones, y por otra, el factor humano representado por el colectivo de los controladores. Se obtienen conclusiones, que con su aplicación, se obtendría un beneficio en la seguridad de los tráficos que cada una de las actividades tiene encomendadas. El convencimiento de que los controles aéreo y marítimo, aún partiendo de niveles de operación y aplicación distintos, poseen numerosos campos de similitud y concordancia, bien sea en equipos o en la organización de los sistemas técnicos y humanos, constituyen la base fundamental para profundizar en el tema y obtener conclusiones que puedan beneficiar a ambas actividades, si bien el mayor beneficiado es el marítimo, dado que el aéreo lleva mayor tiempo implementado y está completamente aceptado.

prevención de accidentes

seguridad marítima

factor humano

626

Identification of functional regions of streptococcus agalactiae CAMP factor

Zhang, TianHua

January 2008

Streptococcus agalactiae CAMP factor is a protein exotoxin that contains 226 amino acid residues and forms oligomeric pores on susceptible cell membranes and liposomes. In this study, fragments of CAMP factor were created and recombinantly expressed to identify functional domains that are involved in membrane binding, oligomerization, and membrane insertion. Altogether, six truncated forms of CAMP factor were created and assayed. CAMP1-113, CAMP1-170, CAMP57-226, and CAMP171-226 showed different levels of hemolytic activity. CAMP1-56 and CAMP114-226 did not show hemolytic activity or oligomerization ability, but showed binding ability. CAMP114-226 inhibited the hemolytic activity of wild-type CAMP factor, most likely through ‘one-sided’ oligomerization. From the comparison of these fragments, it emerges that the region between residues 57 and 113 plays a crucial role in oligomerization and membrane insertion. The high binding efficiency of CAMP114-226 suggests this region has great responsibility on membrane binding. The hemolytically inactive fragments showed higher binding efficiency than some of the active fragments. For the hemolytic fragments, higher binding efficiency gave stronger hemolysis. These findings support that CAMP factor has different functional regions for pore-formation.

CAMP factor

pore-forming toxin

Chemistry

On The Role of Sphingomyelinase in CAMP-factor Membrane insertion and Oligomerisation

Khan, Muhammad

January 2009

ABSTRACT CAMP factor is a 25kDa extracellular protein from Streptococcus agalactiae (Group B streptococci) that contains 226 amino acid residues. CAMP factor has been characterized as a pore-forming toxin (PFT). The typical mechanism of pore formation of PFTs involves three main stages, namely binding of toxin monomers to the membrane surface, oligomerization of the monomers on the cell membrane, and finally the insertion of oligomers into the membrane. This study focused on second stage, and investigates the oligomerisation of CAMP factor on sheep red blood cell membranes. It is known that the hemolytic activity of CAMP factor is greatly enhanced by interaction with sphingomyelinase from Staphylococcus aureus. We here focused on understanding the role of sphingomyelinase in the oligomerisation step. Experimental data were obtained using Förster resonance energy transfer (FRET) studies. The fluorescence dyes IAEDANS and Fluorescein-5-maleimide were used as donor/acceptor fluorophores and attached to mutant single cysteine residues in CAMP factor. Samples of donor- and acceptor-labelled protein were mixed and incubated with red cell membranes that had or had not been pre-treated with sphingomyelinase. Energy transfer was monitored with time-resolved and steady-state fluorescence measurements. In the time-resolved experiments, the fluorescence lifetime of the donor was measured in the presence and the absence of the acceptor, on membrane samples that were or were not treated with sphingomyelinase. We observed a decrease in the fluorescence lifetime of the donor with the presence of the acceptor. The decrease in lifetime due to acceptor interaction signifies the occurrence of energy transfer between the donor and acceptor fluorophores, which indicates proximity due to oligomerisation of the CAMP factor protein on the cell membrane. This was only observed when the membranes had been treated with sphingomyelinase. When membranes were used that had not been treated with sphingomyelinase, the donor lifetimes are very low, suggesting the inability of the CAMP factor to undergo membrane insertion and oligomerisation.

CAMP-factor oligomerisation

Role of Sphingomyelinase

Chemistry

Does the Gender Inequality Index Explain the Variation in State Prevalence Rates of Physical Teen Dating Violence Victimization?

Gressard, Lindsay A.

11 May 2012

Purpose: When the prevalence of physical teen dating violence (TDV) victimization is examined at the state level, significant variation exists; the prevalence ranges from 7.4% in Oklahoma and Vermont to 17.8% in Louisiana. Using U.S. states as the unit of analysis, this study sought to determine whether gender inequality is a societal level risk factor for TDV victimization. Method: Data measuring physical TDV victimization were obtained from the 2009 YRBS. To measure the level of gender inequality in each state, the Gender Inequality Index (GII) was calculated using the procedure described in the United Nations’ Human Development Report. Pearson’s correlation coefficients were calculated to determine the association between TDV victimization, the GII, and the indicators of the GII. Results: Of the 40 states included in analyses, the GII was significantly associated with the state prevalence of both total TDV victimization (r=.323, p=.042) and female TDV victimization (r=.353, p=.026). Subsequent to removal of the outlying case of Oklahoma, the GII was also significantly associated with male TDV victimization (r=.366, p=.022). Several individual GII indicators were significantly associated with TDV victimization after removing the outlying case. Ordinary least squares regression was used to create a model for TDV victimization and gender inequality. Conclusion: This is the first study to examine societal level gender inequality as a risk factor for state level TDV victimization using nationally representative data on school youth. As policy-makers implement TDV prevention policy at the state level, further research understanding potential macro-level risk factors is particularly important.

adolescent

dating violence

gender inequality

risk factor

A Study of Driver Behavior Under Potential Threats in Vehicle Traffic

Malta, Lucas, Miyajima, Chiyomi, Takeda, Kazunori

06 1900

No description available.

Driver behavior

human factor

multimediadatabases

safety systems

Personality types & attributes in software engineering

Samuelsson, Maria

January 2005

No description available.

Programutveckling

Personlighetstester

Five Factor Theory

Anställningsintervjuer

Identification of functional regions of streptococcus agalactiae CAMP factor

Zhang, TianHua

January 2008

Streptococcus agalactiae CAMP factor is a protein exotoxin that contains 226 amino acid residues and forms oligomeric pores on susceptible cell membranes and liposomes. In this study, fragments of CAMP factor were created and recombinantly expressed to identify functional domains that are involved in membrane binding, oligomerization, and membrane insertion. Altogether, six truncated forms of CAMP factor were created and assayed. CAMP1-113, CAMP1-170, CAMP57-226, and CAMP171-226 showed different levels of hemolytic activity. CAMP1-56 and CAMP114-226 did not show hemolytic activity or oligomerization ability, but showed binding ability. CAMP114-226 inhibited the hemolytic activity of wild-type CAMP factor, most likely through ‘one-sided’ oligomerization. From the comparison of these fragments, it emerges that the region between residues 57 and 113 plays a crucial role in oligomerization and membrane insertion. The high binding efficiency of CAMP114-226 suggests this region has great responsibility on membrane binding. The hemolytically inactive fragments showed higher binding efficiency than some of the active fragments. For the hemolytic fragments, higher binding efficiency gave stronger hemolysis. These findings support that CAMP factor has different functional regions for pore-formation.

CAMP factor

pore-forming toxin

Chemistry

On The Role of Sphingomyelinase in CAMP-factor Membrane insertion and Oligomerisation

Khan, Muhammad

January 2009

ABSTRACT CAMP factor is a 25kDa extracellular protein from Streptococcus agalactiae (Group B streptococci) that contains 226 amino acid residues. CAMP factor has been characterized as a pore-forming toxin (PFT). The typical mechanism of pore formation of PFTs involves three main stages, namely binding of toxin monomers to the membrane surface, oligomerization of the monomers on the cell membrane, and finally the insertion of oligomers into the membrane. This study focused on second stage, and investigates the oligomerisation of CAMP factor on sheep red blood cell membranes. It is known that the hemolytic activity of CAMP factor is greatly enhanced by interaction with sphingomyelinase from Staphylococcus aureus. We here focused on understanding the role of sphingomyelinase in the oligomerisation step. Experimental data were obtained using Förster resonance energy transfer (FRET) studies. The fluorescence dyes IAEDANS and Fluorescein-5-maleimide were used as donor/acceptor fluorophores and attached to mutant single cysteine residues in CAMP factor. Samples of donor- and acceptor-labelled protein were mixed and incubated with red cell membranes that had or had not been pre-treated with sphingomyelinase. Energy transfer was monitored with time-resolved and steady-state fluorescence measurements. In the time-resolved experiments, the fluorescence lifetime of the donor was measured in the presence and the absence of the acceptor, on membrane samples that were or were not treated with sphingomyelinase. We observed a decrease in the fluorescence lifetime of the donor with the presence of the acceptor. The decrease in lifetime due to acceptor interaction signifies the occurrence of energy transfer between the donor and acceptor fluorophores, which indicates proximity due to oligomerisation of the CAMP factor protein on the cell membrane. This was only observed when the membranes had been treated with sphingomyelinase. When membranes were used that had not been treated with sphingomyelinase, the donor lifetimes are very low, suggesting the inability of the CAMP factor to undergo membrane insertion and oligomerisation.

CAMP-factor oligomerisation

Role of Sphingomyelinase

Chemistry

The Relationship between Personality and Job Performance in Sales: : A Replication of Past Research and an Extension to a Swedish Context

Klang, Andreas

January 2012

This study examined the relationship between personality dimensions and supervisory ratings of job performance, in a sales context in Sweden. A sample of 34 telesales workers, employed at two major telecom companies, completed the NEO PI-3 (McCrae & Costa, 2010). As hypothesized, it was found that Extroversion, Conscientiousness, and Neuroticism correlated moderately with job performance. In line with past research, this suggests that individuals, who display high levels of Extroversion and Conscientiousness, as well as low levels of Neuroticism, perform better in sales related occupations. Unlike hypothesized, no correlation was found between job performance and Agreeableness and Openness to Experience. Additional computations indicated the importance of specific sub dimensions of Extroversion and Conscientiousness in respect to job performance. Practical implications in respect to recruitment and directions of future research are discussed.

Personality

sales performance

Five-Factor Model

The role of HEB and E2A in the regulation of T Lymphocyte development and proliferation

Wojciechowski, Jason

10 May 2007

Thymocyte development is a complex process that requires precise regulation of differentiation and proliferation. Basic helix-loop-helix (bHLH) transcription factors have been shown to be crucial for proper T cell development. HEB and E2A are structurally and functionally related E proteins of the bHLH family. These proteins directly regulate the expression of a number of genes essential for lymphocyte development in a lineage- and stage-specific manner. Abrogation or compromise of their function results in the manifestation of B and T cell developmental defects. Genetic and biochemical studies have provided evidence of a significant degree of functional redundancy among E proteins. The existence of compensational abilities among different E proteins has hampered the investigation and elucidation of E protein function. As such, single gene knockouts demonstrate only limited defects in lymphocyte development. Double E2A-HEB knockouts that could eliminate E protein redundancy are embryonic lethal. In addition, conventional gene knockouts are not well-suited for discerning between intrinsic and extrinsic defects caused by E protein disruption. To eliminate functional compensation and to test the T cell intrinsic roles of E proteins during thymocyte development, we developed a conditional HEB-E2A double knockout. Specifically, we employed a loxP/Lck-Cre recombinase system to drive E protein deletion during early thymocyte development. Using this approach, we were able to reveal overlapping roles for HEB and E2A in thymocyte development that had been obscured in previous single gene knockout studies. We find that simultaneous deletion of HEB and E2A results in a severe block in thymocyte development at the DN to DP stage transition. This developmental block is accompanied by a dramatic decrease in total thymic cellularity, an increase in apoptosis, and a reduction of pTα expression. These developmentally arrested thymocytes exhibit increased proliferation in vivo and dramatic expansion ex vivo in response to IL-7 signaling. Our findings suggest that E2A and HEB are not only critical for the regulation of T cell differentiation but are also necessary to retain developing thymocytes in cell cycle arrest prior to pre-TCR expression. Together, these results imply that E proteins are required to coordinate thymocyte differentiation and proliferation. / Dissertation

E2A

HEB

T cell development

Transcription factor