Selected Internet Links

This link is to a text file that contains this model. When you select this link with the Microsoft Internet Explorer, the text file is displayed in the browser window ... 

Perhaps the most universal application on the Internet is the world wide web. Some background is needed here. Many people have a need to publish information that is useful to others. Knowledge could be transferred easily if a computer user could put a document in a place where it could be accessed by anyone in the world at any time through the Internet. It would also be worthwhile if references in the document to other works also published on the Internet could be linked. Thus, a user reading the original document could simply select a link and instantly see the referencing document. If you were to sketch a picture of all these documents as dots on a page and draw lines between them to illustrate the links to references with these documents, you will draw a web. Because these documents are published all over the world, we have the world wide web. 

Metasite for chemical information resources on the internet and elsewhere, originating from the Indiana University chemical information courses. Usage has increased from nearly 100,000 successful requests in 2000 to over a quarter of a million requests in 2006. The main information page currently available at Indiana is Selected internet Resources for Chemistry (SlRCh), which includes about 31 chemistry resource guides available on the internet (http //www.indiana.edu/ cheminfo/ca gcisd.html). The also includes a link to the Chemical Acronyms database (http //www.oscar.chem.indiana.edu/cfdocs/ libchem/acronyms/acronymsearch.html), which currently represents over 11,000 items linked to the full forms of the words. 

Environmental RouteNet provides a single gateway to the world s foremost databases and information sources available on the Internet. The sendee includes searchable links to hundreds of carefully-screened environmentally-related resources, selected and indexed by the editors at Cambridge Scientific Abstracts. In addition, the site provides access to proprietaiy environmentally-related databases and to daily updates of environmentally-related news stories, regulations and legislation, plus much, much more. 

There has been explosive growth in the number of disease models in recent decades, especially in the field of the knockouts and transgenic rodents. A description of the most frequently used models alone would take a separate volume, and even that would be outdated within no time. Information on the selection of models and background data can easily be found on the Internet. The US National Center for Research Resources (NCRR) provides overviews and links [12], In addition the main providers of laboratory animals have very useful information on their Web sites. Readers looking for overviews on animal models per disease may find useful information in the Drug Discovery Today Disease Models review journal (http //www.drugdiscoverytoday.com). 

This volume presents the work summarized by the invited speakers from the meeting, supplemented by some selected contributed papers. As such, it represents a thorough picture of the current status of databases and data needs for nuclear fusion research as well as an indication of the directions anticipated for data generation efforts over the next several years. Much of the data from the participants is already available electronically on the Internet. A number of databases have been established and links among databases are being developed with increasing levels of complexity. 

The examples were selected because they provide information available on the Internet, including links to other useful web sites. 

Internet Public Library Teen Division www.ipl.org/teen. Links to teen-friendly websites of all kinds, selected by a librarian and teen advisory panel. 

Entrez searches can be performed using one of two Internet-based interfaces. The first is a client-server implementation known as NetEntrez. This makes a direct connection to an NCBI computer. Because the client software resides on the user s machine, it is up to the user to obtain, install and maintain the software, downloading periodic updates as new features are introduced. The second implementation is over the World Wide Web and is known as WWW Entrez or WebEntrez (simply referred to as Entrez). This option makes use of available Web browsers (e.g., Netscape or Explorer) to deliver search results to the desktop. The Web allows the user to navigate by clicking on selected words in an entry. Furthermore, the Web implementation allows for the ability to link to external data sources. While the Web version is formatted as sequential pages, the Network version uses a series of windows with faster speed. The NCBI databases are, by far the most often accessed by biochemists and some of their searchable fields include plain text, author name, journal title, accession number, identity name (e.g., gene name, protein name, chemical substance name), EC number, sequence database keyword and medical subject heading. 

In days of easy Internet access with its formidable literature-searching power, it would be superfluous to provide here a selected bibliography on adhesion. The references in the articles in the body of the book give details of most, if not all, important compendia presently in print. The Adhesion Society website includes a Publications Center , no donbt regularly updated, with links to many important sources of information and to an extensive classified book list ... 

Work closely with suppliers and customers to promote EDI implementation along the entire supply chain Identify and hold to standards when selecting EDI vendors and applications Use the Internet and intranets to link suppliers and manufacturing facilities... 

The rather abstract concepts discussed above, and also their limitations, are best illustrated by dissecting in detail how two simple Web-based computational chemistry tools can be constructed. The first will illustrate how a molecule can be selected from a database, visualized, and if desired used to initiate further database queries. The second example will show how infrared data presented in the form of a spectrum can be linked to theoretically computed normal vibrational modes as part of an animated model. The concepts illustrated here were originally described by us as hyperactive chemistry . No attempt here is made to explain every detail of the syntax employed in these examples, but rather to illustrate the basic concepts behind these tools. It is probable in any event that the syntax may change in the future, and these models should be taken as a snapshot of the state of Internet-based tools in early 1997 rather than as definitive examples. 

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