GNI Researchers Identify Important Regulator and Associated Signaling Cascade in Human Immunological Disorders; Research Findings to Be Published in Prestigious PNAS Journal.TOKYO -- GNI GNI Gross National Income GNI Global Nomads International GNI Guyana News and Information GNI Gay Naturists International GNI Global Netoptex Inc. GNI Great Northern Iron GNI Gebäude Netzwerk Institut (German) Ltd, a leading biopharmaceutical company in Asia, and its Chinese affiliate Shanghai Genomics, announced today that their researchers had identified an important regulator and its associated signaling cascade in X-linked lymphoproliferative disease (XLP XLP Xypoint Location Platform XLP X-Linked Lymphoproliferative Syndrome XLP Crosslinked Polyethylene XLP Extended Life Program XLP Literate Programming in XML XLP Extra Low Pulse ), a human immunological disorder. The findings of the research are to be published by the Proceedings of the National Academy of Sciences The Proceedings of the National Academy of Sciences of the United States of America, usually referred to as PNAS, is the official journal of the United States National Academy of Sciences. of the United States of America UNITED STATES OF AMERICA. The name of this country. The United States, now thirty-one in number, are Alabama, Arkansas, Connecticut, Delaware, Florida, Georgia, Illinois, Indiana, Iowa, Kentucky, Louisiana, Maine, Maryland, Massachusetts, Michigan, Mississippi, Missouri, New Hampshire, (PNAS PNAS Proceedings of the National Academy of Sciences PNAS Phosphate:Na + Symporter PNAS Pensacola Naval Air Station PNAS Philippine National Airsoft Society ), one of the world's most-cited multidisciplinary scientific serials, during the week of September 11, 2006. XLP, also known as Duncan's syndrome, is an inherited genetic defect that causes immune system immune system Cells, cell products, organs, and structures of the body involved in the detection and destruction of foreign invaders, such as bacteria, viruses, and cancer cells. Immunity is based on the system's ability to launch a defense against such invaders. dysfunction in response to some viral infections. The disorder prevents patients from generating functional SAP proteins, which can subsequently cause a diverse range of immune system abnormalities and in many cases lead to the development of lymphoid lymphoid /lym·phoid/ (lim´foid) resembling or pertaining to lymph or tissue of the lymphoid system. lym·phoid adj. Of or relating to lymph or the lymphatic tissue where lymphocytes are formed. tumors and fatality. Although the gene causing XLP was discovered in 1999, researchers had yet to fully understand how and why nonfunctional SAP causes these disorders. Due to the severe clinical manifestations found in XLP patients, intense efforts had recently focused on elucidating the signaling mechanism used by SAP to regulate in cells involved in immune surveillance immune surveillance n. See immunological surveillance. against cancers. Utilizing advanced genomics and proteomics, GNI researchers discovered a formerly unknown pathway that potentially contributes to the pathophysiology pathophysiology /patho·phys·i·ol·o·gy/ (-fiz?e-ol´ah-je) the physiology of disordered function. path·o·phys·i·ol·o·gy n. 1. of XLP and other immune disorders. GNI's Chairman, Chief Executive Officer and founder, Dr. Christopher Savoie, said, "This is a significant breakthrough in better understanding the pathophysiology of human immune disorders. The discovery will allow researchers to design novel therapeutic solutions to various immune dysfunctions." "We are delighted that PNAS has decided to publish this research report, which represents a further endorsement of GNI's pioneering research capabilities. Through its global network that combines gene network computation capabilities and access to the world's most advanced algorithms and supercomputer computation capabilities in Japan, as well as biological research facilities in the U.K. and China, GNI has the infrastructure to support pioneering research and ongoing therapeutic development," Savoie continued. Notes to editors About GNI Founded in 2001, GNI, a leader in the field of integrated systems pharmacology, is an international biopharmaceutical company with operations in Japan, China, the U.K. and the U.S. GNI has used ethically approved methods to successfully map gene regulatory networks via a complex process of reverse-engineering. Furthermore, GNI has successfully developed the technology required to apply this data to drug development and discovery, a feat that has not been achieved by any other organization. In June 2005, Shanghai Genomics, which operates an integrated drug discovery platform combining genetic discovery and drug development, became an affiliate of GNI. In April 2006, GNI announced an investment in Beijing Continent Pharmaceutical which gives the company access to manufacturing and distribution in China. For further information, please visit www.gene-networks.com. |
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