Comparative analysis of corporate culture in a multinational organization

This study built upon the Project GLOBE (House, Hanges, Javidan, Dorfman, & Gupta, 2004) analysis by using a Web-based version of the GLOBE Questionnaire in order to examine the extent to which the cultural values and practices of middle managers in a multinational organization vary depending on (a) their cultural background and the region in which they work, (b) whether they were a member of a recently acquired company, and (c) the number of years employed by the multinational organization. Multinational organizations face the unique challenge of operating in societies that have different sets of cultural norms, expectations, beliefs, and values. Just as societies have distinct cultures, so do organizations. Individuals working in organizations are influenced by the organizational culture as well as by the societal culture and competition between these 2 sets of distinct cultures can dramatically impact the success or failure of an acquisition, a strategic alliance, or any other initiative involving multiple cultures. Focusing on data from over 200 middle managers from the United States parent organization, and the regional organizations in Ireland, France, and Japan, a secondary analysis shows that an individual\u27s values and beliefs tend to be more closely aligned with the corporate culture of the parent organization than with the societal culture of the regional organization. Additionally, an examination of the culture of an acquired company shows that there are no statistically significant differences in cultural practices, and only 2 statistically significant differences in cultural values, several years after the acquisition. Finally, the results from this study show that statistically significant differences for cultural practices and values between individual respondents and the overall organization tend to be most prevalent among middle managers with 5 to 10 years of service with the organization

Energy Systems Laboratory: Building a Model Repository Collection

The Energy Systems Laboratory (ESL) is a division of the Texas Engineering Experiment Station and part of the Texas A&M University System. First established in 1939, the ESL maintains a testing laboratory on the Riverside Campus in Bryan, Texas, and offices on the main campus of Texas A&M. The group consists of five faculty members from the Department of Mechanical Engineering, as well as three faculty members from the Departments of Architecture and Construction Science. The lab currently employs approximately 120 staff members, including mechanical engineers, computer science graduates, lab technicians, support staff, and graduate and undergraduate students. The Lab focuses on energy-related research, energy efficiency, and emissions reduction, and has a total annual income for external research and testing exceeding $4.5 million. With energy research and policy at the forefront of public discussion, both academic and political, the urgency of making this research publicly available is very high. The Energy Systems Laboratory collection in the Texas A&M Digital Repository is unique in a number of ways. After first contacting the library in March 2005, the ESL became one of Texas A&M's earliest adopters of the repository. The collection is very diverse, and contains conference proceedings, published articles, technical reports, and electronic theses and dissertations produced by students affiliated with the ESL. The ESL is also the first repository client to take the initiative of assigning staff members to learn the batch loading process for themselves, both relieving library staff of the burden and allowing the collection to expand even more rapidly. The collection has also successfully made the transition, despite some challenges, from the original DSpace interface to the Manakin-themed repository now in place. After three years, the collection remains one of the largest collections in the system, continues to grow as more of the group's research and publications are added to the collection, and is held forth as a model collection to prospective repository clients in the Texas A&M community. This is a testament to the Energy Systems Laboratory's dedication to the building of their repository collection, and their clear understanding of the advantages of open access. This presentation will discuss the excellent working relationship built between the Energy System Laboratory and the library, and how such relationships can be fostered with other collections as the repository expands. It will also recount the events leading up to the ESL's original adoption of the repository, and will chronicle the evolution of the repository collection, the addition of new content, the transition and adaptation to new technology, the copyright and other challenges faced, and the group's future needs for additional tools and services

Report on the Development of the Format for a Texas Residential Registry

The 80th Texas Legislature passed H.B. 3693 which updated Texas Code House § 388.008 Development Of Home Energy Ratings and tasked the Energy Systems Laboratory to create a standardized report format for a Texas home registry. The Laboratory has complied with this directive by developing the format described in this document. This format currently serves as the database foundation for the Laboratory’s IC3 and TCV software, and will be expanded in the future to accommodate planned projects

Energy Efficiency/Renewable Energy Impact in the Texas Emissions Reduction Plan (TERP), Volume I--Summary Report, Annual Report to the Texas Commission on Environmental Quality, January 2008-December 2008

The Energy Systems Laboratory, at the Texas Engineering Experiment Station of the Texas A&M University System, in fulfillment of its responsibilities under Texas Health and Safety Code Ann. 388.003 (e), Vernon Supp. 2002, submits its seventh annual report, 'Energy Efficiency/Renewable Energy (EE/RE) Impact in the Texas Emissions Reduction Plan' to the Texas Commission on Environmental Quality. This report is organized in three volumes: Volume I - Summary Report - provides an executive summary and overview; Volume II - Technical Report - provides a detailed report of activities, methodologies and findings; Volume III - Technical Appendix - contains detailed data from simulations for each of the counties included in the analysis

Energy Efficiency/Renewable Energy Impact in the Texas Emissions Reduction Plan (TERP), Volume II--Technical Report, Annual Report to the Texas Commission on Environmental Quality January 2008-December 2008

The Energy Systems Laboratory, at the Texas Engineering Experiment Station of the Texas A&M University System, in fulfillment of its responsibilities under Texas Health and Safety Code Ann. 388.003 (e), Vernon Supp. 2002, submits its seventh annual report, 'Energy Efficiency/Renewable Energy (EE/RE) Impact in the Texas Emissions Reduction Plan' to the Texas Commission on Environmental Quality. This report is organized in three volumes: Volume I - Summary Report - provides an executive summary and overview; Volume II - Technical Report - provides a detailed report of activities, methodologies and findings; Volume III - Technical Appendix - contains detailed data from simulations for each of the counties included in the analysis

Guanylyl cyclase activity associated with putative bifunctional integral membrane proteins in Plasmodium falciparum.

We report here that guanylyl cyclase activity is associated with two large integral membrane proteins (PfGCalpha and PfGCbeta) in the human malaria parasite Plasmodium falciparum. Unusually, the proteins appear to be bifunctional; their amino-terminal regions have strong similarity with P-type ATPases, and the sequence and structure of the carboxyl-terminal regions conform to that of G protein-dependent adenylyl cyclases, with two sets of six transmembrane sequences, each followed by a catalytic domain (C1 and C2). However, amino acids that are enzymatically important and present in the C2 domain of mammalian adenylyl cyclases are located in the C1 domain of the P. falciparum proteins and vice versa. In addition, certain key residues in these domains are more characteristic of guanylyl cyclases. Consistent with this, guanylyl cyclase activity was obtained following expression of the catalytic domains of PfGCbeta in Escherichia coli. In P. falciparum, expression of both genes was detectable in the sexual but not the asexual blood stages of the life cycle, and PfGCalpha was localized to the parasite/parasitophorous vacuole membrane region of gametocytes. The profound structural differences identified between mammalian and parasite guanylyl cyclases suggest that aspects of this signaling pathway may be mechanistically distinct

The James Webb Space Telescope Mission

Twenty-six years ago a small committee report, building on earlier studies, expounded a compelling and poetic vision for the future of astronomy, calling for an infrared-optimized space telescope with an aperture of at least $4m$. With the support of their governments in the US, Europe, and Canada, 20,000 people realized that vision as the $6.5m$ James Webb Space Telescope. A generation of astronomers will celebrate their accomplishments for the life of the mission, potentially as long as 20 years, and beyond. This report and the scientific discoveries that follow are extended thank-you notes to the 20,000 team members. The telescope is working perfectly, with much better image quality than expected. In this and accompanying papers, we give a brief history, describe the observatory, outline its objectives and current observing program, and discuss the inventions and people who made it possible. We cite detailed reports on the design and the measured performance on orbit.Comment: Accepted by PASP for the special issue on The James Webb Space Telescope Overview, 29 pages, 4 figure