GeneBio Phenyx

Category Proteomics>Mass Spectrometry Analysis/Tools

Abstract Phenyx is a software platform for the identification and characterization of proteins and peptides from mass spectrometry (MS) data. Developed by GeneBio in collaboration with the Swiss Institute of Bioinformatics (SIB) and incorporating the true probabilistic and flexible scoring system OLAV, Phenyx is specifically designed to meet the concurrent demands of high-throughput MS data analysis and dynamic results assessment.

Phenyx is composed of two main elements, the Phenyx Client and the Phenyx Calculation Unit. The Client is available as a Web interface (Phenyx Web Interface, or PWI). The Phenyx Calculation Unit is offered as either a public server or as a local installation optimized to fit your specific instrumental and experimental environment. Products features & benefits include:

Robust and flexible scoring -- The Phenyx scoring algorithm (based on OLAV) was validated in an industrial high-throughput environment running on 1,400 processors. The manufacturers scoring schemes have been tailored for a number of instruments supplied by major MS instrument providers, such as Applied Biosystems, Bruker Daltonics, Shimadzu, Thermo Electron, and Waters-Micromass, thus ensuring a high accuracy of results while using a wide variety of currently available hardware. In addition, Phenyx scoring schemes can be optimized for your own instrumentation and workflow in order to best fit your specific MS environment.

Flexible and interactive interface -- The Phenyx Web Interface enables you to fine-tune your data submission and to seamlessly assess and validate your results using a range of dynamic views, reports and graphics. Phenyx performs searches in one or two serial steps called rounds. A classical one-round search is performed on a defined set of proteins (i.e. when a full database or taxonomy or accession number (AC) is selected). Identified peptides that fulfill the z-Score and p-Value thresholds are accepted and the corresponding protein is validated.

The basic principle of two rounds is that the first round processes all the proteins in the designated search space and the second round only processes the proteins that passed the first round. The first round parameters need to be stringent enough to sufficiently validate protein identification (i.e. a few good peptides). The second round parameters enable you to open the search criteria in order to increase the sequence coverage, by searching for combinatorial modifications or other special features. A two-round search therefore identifies proteins according to a first set of parameters and then performs a more exhaustive search on the proteins while saving computation time and reducing the random match rate.

Extensive use of annotations in databases -- notably in Swiss-Prot [Post-Translational Modifications (PTMs), variants, Amino Acids (AA) modifications...]. If a highly annotated database such as UniProt Swiss- Prot is utilized, many of the annotations are considered during the search. For example, Phenyx processes the entries and generates separate entities for each splicing variant or searches for post- translationally modified amino acids if the corresponding annotations exist.

Enhanced accuracy and reliability of your MS data identification through the unique Conflict Resolution algorithm and Manual Validation functionality -- A conflict can occur during scoring when a mass spectrum matches more than one peptide sequence in the selected protein databases. A given spectrum should ideally correlate to a unique molecular structure, except if a spectrum represents a mixture of peptides.

When more than one peptide reasonably matches a tandem mass spectrometry (MS/MS) spectrum, should the scoring algorithm deal with them?

1) Yes: Phenyx can distinguish all possible matches and decide which is/are the most probable.

2) No: Phenyx simply reports all sequence(s) matching with an acceptable score. Then, when the results are available, you can personally deal with any questionable spectra that have multiple matches.

Users can 'manually validate/invalidate' Phenyx results; this means that the validation status of peptide matches can be accepted or rejected. The modification can be stored to keep track of the manual changes. The effect of the 'manual validation', available in the Compounds Overview as check boxes, is reported in all other views, such as the Proteins Overview, the Protein Match Details view, the Excel export, etc.

Compare and assess results in one shot with the 'Results Comparison' functionality --

1) Compare your Phenyx runs amongst themselves and with those of other MS search engines like Mascot (see G6G Abstract Number 20087), SEQUEST, X! Tandem and Popitam.

2) Visualize them in various levels of granularity, including protein groups, proteins, peptides, and interpreted spectra.

3) Align your proteins from searches in different databanks.

4) Execute one-click export feature for quick publication.

Batch submission via the Phenyx Daemon -- The Phenyx Daemon is designed to perform automated submissions of MS/MS spectra to Phenyx. A batch experiment in the Phenyx Daemon submits mass spectra to a workflow. This workflow is a set of dependant actions that can run on a local system or on a remote server. Typically, these actions can include pre-processing steps such as raw data processing, data filtering and format conversion as well as submission to Phenyx as a search engine. The Daemon keeps track of already submitted datasets and displays the status of jobs in a session.

Easy integration with your Proteomics pipeline -- Phenyx uses XML and text files extensively to store and define data, parameters, configuration, etc. Communication and manipulation of these resources is primarily made using Perl modules. Phenyx provides secured Web services to remotely submit peak lists to the engine, monitor search progress, and retrieve results files.

Pre and post processing can be configured to enhance the identification process and then facilitate its integration in third party tools (and your own bioinformatics tools/pipeline). Expressionist (GeneData) (see G6G Abstract Number 20057R), TPP (Institute for Systems Biology), IPP (Insilicos) (see G6G Abstract Number 20084), ProteinScape (Bruker Daltonics) (see G6G Abstract Number 20079), Proteus (GenoLogics) (see G6G Abstract Number 20082R), Scaffold (Proteome Software) (see G6G Abstract Number 20081), Sorcerer (Sage-N Research) are just a few examples of solutions and tools integrating Phenyx.

Export jobs for reporting or further processing --

1) Excel spreadsheets in four pages; reported information includes protein and peptide identification, submission parameters, calculated pl, retention time, detailed validation status, intensities of reporter ions (for iTRAQ experiments), etc.

2) Reports that integrate with third-party software: MSight, Scaffold, pepXML for the Trans-Proteomics Pipeline (TPP/IPP), just to name a few.

3) Customized reports: additional exports can be generated that incorporate external parsers, statistics and other post-processing software.

Configurable user and server environment via a flexible 'Management Console' --

The Management Console allows users to work in a personalized environment:

1) Each user can add their own AA modifications, cleavage rules, and databanks to flexibly adapt the submission criteria to experimental workflows.

2) Upload to private databanks to quickly match peptides with your own sequences.

3) Import results from other Phenyx users and servers or search engines like Mascot, SEQUEST, X! Tandem and Popitam to visualize compare and validate these jobs within the Phenyx Web interface.

4) Build customized reports: Users can generate additional information and exports to be incorporated into external parsers, statistics tools and any other post processing systems and 3rd party tools.

5) Access additional tools to do peak list format conversion and filtering.

6) Access a number of server configuration and monitoring options for admin users, such as management of users, control and statistics on the server activities, configuration of the steps of a Phenyx run, etc.

Enhanced server functionalities -- Jobs are properties of a user. A user can decide to share access to selected jobs. Access rights means: a job result can be visualized, altered via manual validation and resubmitted or deleted by another user; in a typical service lab, a user can run a job, another can validate it, and the customer can only visualize and export the result.

Additional properties and features can be attributed to users, such as: access to specific scoring models, submission profiles, dedicated reports, taxonomy trees, search space limits, submission limits, priorities on jobs, etc.

Phenyx has implemented a advanced and flexible queuing system to manage users and jobs priorities. You can decide which user has priority over others to access the calculation resource; you can also attribute a maximum number of simultaneous calculation nodes per user queue.

System Requirements

Phenyx Public server users have to create their login credentials from the Login page at phenyx.vital-it.ch/pwi).

PhenyxOnline customers, please contact support@phenyx-ms.com for any login issue.

PhenyxServer customers, please contact your admin to create your login credentials.

Manufacturer

Manufacturer Web Site GeneBio Phenyx

Price Contact manufacturer.

G6G Abstract Number 20080

G6G Manufacturer Number 101111