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Then I went to manage my TomTom and deleted the Western Europe map. Now when I turn on the TomTom it says it can't find any maps. So what do I do? Try a factory reset (but will that mean I get my original maps back) or try and get my activation code from somewhere? Any help would be greatly appreciated.
I've got a serial number on the bottom of the box but I can't find any group of letters and digits (a total of 15 I believe?). Ok, I downloaded that clear flash app and ran it 3 times but still have the same problem. Just continues to say: Problem with map You cannot use this map on this device: WesternEurope1GB I've been looking into how to get this activation code and I keep reading that I need a product code which I don't seem to have. I got a little shrink-wrapped box when I bought it - there's no CD (so no activation code on it) and one crappy little user manual which doesn't have any codes on it. There's no other paper in the box. On if I hit Lost my product code it just takes me to the support section which tells me the usual stuff:. None of this is applicable because I didn't get a CD & my TomTom home app says I need to activate Any idea on where else I can find it?
Also I called Halfords to figure out where this product code is & they told me to look on the bottom of the device. So I did & it's just got the same serial number that's on the box. Problem is it's 12 characters long (mixture of numbers & letters) but the product activation page on the TomTom site says it's an invalid code. So once again I'm stuck. Going to call up TomTom UK when I get a chance. Any other ideas? Thanks for your time.
As for following the instructions on no I didn't do this. The problem to me seems like something to do with activation. I can download and copy the map to the device fine. If the device is disconnected from my PC I can turn it on but the first page just says the Western Europe map isn't compatible and that's it - I can't see or do anything else.
TomTom keygen will give you the power to generate a legit serial key for TomTom. With our tool you will have a product code in just a few moments, with just a few clicks. To enjoy this awsome tool you only have to download it from the button above. Does your TomTom Code work? 32741 Votes for Yes/ 0 For NO The best we love with this tool, however, is the fact that it constantly updates its already have long list of legit keys with even more new keys every day.
The University of California, Santa Cruz (UCSC) genome database is among the most used sources of genomic annotation in human and other organisms. The database offers an excellent web-based graphical user interface (the UCSC genome browser) and several means for programmatic queries. A simple application programming interface (API) in a scripting language aimed at the biologist was however not yet available. Here, we present the Ruby UCSC API, a library to access the UCSC genome database using Ruby. The API is designed as a BioRuby plug-in and built on the ActiveRecord 3 framework for the object-relational mapping, making writing SQL statements unnecessary. The current version of the API supports databases of all organisms in the UCSC genome database including human, mammals, vertebrates, deuterostomes, insects, nematodes, and yeast.The API uses the bin index-if available-when querying for genomic intervals. The API also supports genomic sequence queries using locally downloaded *.2bit files that are not stored in the official MySQL database. The API is implemented in pure Ruby and is therefore available in different environments and with different Ruby interpreters (including JRuby). Assisted by the straightforward object-oriented design of Ruby and ActiveRecord, the Ruby UCSC API will facilitate biologists to query the UCSC genome database programmatically. The API is available through the RubyGem system. Source code and documentation are available at -ucsc-api/ under the Ruby license. Feedback and help is provided via the website at
Existing ways of accessing data from the Reactome database are limited. Either a researcher is restricted to particular queries defined by a web application programming interface (API), or they have to download the whole database. Reactome Pengine is a web service providing a logic programming based API to the human reactome. This gives researchers greater flexibility in data access than existing APIs, as users can send their own small programs (alongside queries) to Reactome Pengine. The server and an example notebook can be found at -pengine. Source code is available at -pengine and a Docker image is available at . email@example.com. Supplementary data are available at Bioinformatics online.
ChEBI is a database and ontology of chemical entities of biological interest. It is widely used as a source of identifiers to facilitate unambiguous reference to chemical entities within biological models, databases, ontologies and literature. ChEBI contains a wealth of chemical data, covering over 46,500 distinct chemical entities, and related data such as chemical formula, charge, molecular mass, structure, synonyms and links to external databases. Furthermore, ChEBI is an ontology, and thus provides meaningful links between chemical entities. Unlike many other resources, ChEBI is fully human-curated, providing a reliable, non-redundant collection of chemical entities and related data. While ChEBI is supported by a web service for programmatic access and a number of download files, it does not have an API library to facilitate the use of ChEBI and its data in cheminformatics software. To provide this missing functionality, libChEBI, a comprehensive API library for accessing ChEBI data, is introduced. libChEBI is available in Java, Python and MATLAB versions from , and provides full programmatic access to all data held within the ChEBI database through a simple and documented API. libChEBI is reliant upon the (automated) download and regular update of flat files that are held locally. As such, libChEBI can be embedded in both on- and off-line software applications. libChEBI allows better support of ChEBI and its data in the development of new cheminformatics software. Covering three key programming languages, it allows for the entirety of the ChEBI database to be accessed easily and quickly through a simple API. All code is open access and freely available.
The SEED integrates many publicly available genome sequences into a single resource. The database contains accurate and up-to-date annotations based on the subsystems concept that leverages clustering between genomes and other clues to accurately and efficiently annotate microbial genomes. The backend is used as the foundation for many genome annotation tools, such as the Rapid Annotation using Subsystems Technology (RAST) server for whole genome annotation, the metagenomics RAST server for random community genome annotations, and the annotation clearinghouse for exchanging annotations from different resources. In addition to a web user interface, the SEED also provides Web services based API for programmatic access to the data in the SEED, allowing the development of third-party tools and mash-ups. The currently exposed Web services encompass over forty different methods for accessing data related to microbial genome annotations. The Web services provide comprehensive access to the database back end, allowing any programmer access to the most consistent and accurate genome annotations available. The Web services are deployed using a platform independent service-oriented approach that allows the user to choose the most suitable programming platform for their application. Example code demonstrate that Web services can be used to access the SEED using common bioinformatics programming languages such as Perl, Python, and Java. We present a novel approach to access the SEED database. Using Web services, a robust API for access to genomics data is provided, without requiring large volume downloads all at once. The API ensures timely access to the most current datasets available, including the new genomes as soon as they come online. 2b1af7f3a8