About: BACKGROUND: Phage display is widely used in basic research such as the exploration of protein-protein interaction sites and networks, and applied research such as the development of new drugs, vaccines, and diagnostics. It has also become a promising method for epitope mapping. Research on new algorithms that assist and automate phage display based epitope mapping has attracted many groups. Most of the existing tools have not been implemented as an online service until now however, making it less convenient for the community to access, utilize, and evaluate them. RESULTS: We present MIMOX, a free web tool that helps to map the native epitope of an antibody based on one or more user supplied mimotopes and the antigen structure. MIMOX was coded in Perl using modules from the Bioperl project. It has two sections. In the first section, MIMOX provides a simple interface for ClustalW to align a set of mimotopes. It also provides a simple statistical method to derive the consensus sequence and embeds JalView as a Java applet to view and manage the alignment. In the second section, MIMOX can map a single mimotope or a consensus sequence of a set of mimotopes, on to the corresponding antigen structure and search for all of the clusters of residues that could represent the native epitope. NACCESS is used to evaluate the surface accessibility of the candidate clusters; and Jmol is embedded to view them interactively in their 3D context. Initial case studies show that MIMOX can reproduce mappings from existing tools such as FINDMAP and 3DEX, as well as providing novel, rational results. CONCLUSION: A web-based tool called MIMOX has been developed for phage display based epitope mapping. As a publicly available online service in this area, it is convenient for the community to access, utilize, and evaluate, complementing other existing programs. MIMOX is freely available at .

Facets (new session)
Description
Metadata
Settings
- owl:sameAs
- Inference Rule:

About: BACKGROUND: Phage display is widely used in basic research such as the exploration of protein-protein interaction sites and networks, and applied research such as the development of new drugs, vaccines, and diagnostics. It has also become a promising method for epitope mapping. Research on new algorithms that assist and automate phage display based epitope mapping has attracted many groups. Most of the existing tools have not been implemented as an online service until now however, making it less convenient for the community to access, utilize, and evaluate them. RESULTS: We present MIMOX, a free web tool that helps to map the native epitope of an antibody based on one or more user supplied mimotopes and the antigen structure. MIMOX was coded in Perl using modules from the Bioperl project. It has two sections. In the first section, MIMOX provides a simple interface for ClustalW to align a set of mimotopes. It also provides a simple statistical method to derive the consensus sequence and embeds JalView as a Java applet to view and manage the alignment. In the second section, MIMOX can map a single mimotope or a consensus sequence of a set of mimotopes, on to the corresponding antigen structure and search for all of the clusters of residues that could represent the native epitope. NACCESS is used to evaluate the surface accessibility of the candidate clusters; and Jmol is embedded to view them interactively in their 3D context. Initial case studies show that MIMOX can reproduce mappings from existing tools such as FINDMAP and 3DEX, as well as providing novel, rational results. CONCLUSION: A web-based tool called MIMOX has been developed for phage display based epitope mapping. As a publicly available online service in this area, it is convenient for the community to access, utilize, and evaluate, complementing other existing programs. MIMOX is freely available at . Goto Sponge NotDistinct Permalink

An Entity of Type : fabio:Abstract, within Data Space : covidontheweb.inria.fr associated with source document(s)

Attributes	Values
type	abstract
value	BACKGROUND: Phage display is widely used in basic research such as the exploration of protein-protein interaction sites and networks, and applied research such as the development of new drugs, vaccines, and diagnostics. It has also become a promising method for epitope mapping. Research on new algorithms that assist and automate phage display based epitope mapping has attracted many groups. Most of the existing tools have not been implemented as an online service until now however, making it less convenient for the community to access, utilize, and evaluate them. RESULTS: We present MIMOX, a free web tool that helps to map the native epitope of an antibody based on one or more user supplied mimotopes and the antigen structure. MIMOX was coded in Perl using modules from the Bioperl project. It has two sections. In the first section, MIMOX provides a simple interface for ClustalW to align a set of mimotopes. It also provides a simple statistical method to derive the consensus sequence and embeds JalView as a Java applet to view and manage the alignment. In the second section, MIMOX can map a single mimotope or a consensus sequence of a set of mimotopes, on to the corresponding antigen structure and search for all of the clusters of residues that could represent the native epitope. NACCESS is used to evaluate the surface accessibility of the candidate clusters; and Jmol is embedded to view them interactively in their 3D context. Initial case studies show that MIMOX can reproduce mappings from existing tools such as FINDMAP and 3DEX, as well as providing novel, rational results. CONCLUSION: A web-based tool called MIMOX has been developed for phage display based epitope mapping. As a publicly available online service in this area, it is convenient for the community to access, utilize, and evaluate, complementing other existing programs. MIMOX is freely available at .
subject	Virology Microbiology Bacteriophages Applied disciplines Antigenic determinant Immunologic tests Molecular biology Protein–protein interaction assays Applied sciences Branches of science
part of	MIMOX: a web tool for phage display based epitope mapping
is abstract of	MIMOX: a web tool for phage display based epitope mapping
is hasSource of	covid:ann/target/29cfae7e90e53a047541be62987a5b551a84a92f covid:ann/target/007071895888c423300ee45473634a9dfe1dab2a covid:ann/target/401b44461f6bef7f6b69ff3b9b1bb514549b47d8 covid:ann/target/67c9322da9d561c14f6b1f4a30e2ba33c9918c45 covid:ann/target/1a4455439b3ffe29b89752f9feec2de9369a92a2 covid:ann/target/7c66b9d85947745ca353d04098a616a9ce59bde8 covid:ann/target/1786f8305e517f307aad747f9c202b197959c2a0 covid:ann/target/969b5a07e3ad4ae2aae7de4b3a4e1c36184ddba4 covid:ann/target/c99a4a6329cce1b78accb23105a2a814c36ba789 covid:ann/target/3e9fe5ed104e0a6b0fa0a9997fec240e06de1452 covid:ann/target/2663cac21c222415febbd25cecfe7954a4f2e3d6 covid:ann/target/bfcd499c6af9707b2c6e3e92970ebd92fe04f383 covid:ann/target/8ece0c91bbe652686a6ab39c5368e4da8dd5f304 covid:ann/target/bf2fddbc3f2239b348f5b0959aadcee9413bf554 covid:ann/target/a51dcf414078fc335841d67159a5da712646cdb0 covid:ann/target/f28455c1a4c7b1f816bdadff9e69cc80b909f26a covid:ann/target/108f068d9c634d747d2a0f38eee4c2cf173a697d covid:ann/target/775eead870390978a42bd7cef44be1e574675ff0 covid:ann/target/a29139e85b4f545cd0eab096fee56fec82f8173a covid:ann/target/d369b45bf7bf67028f16aeed14f6036ed0a99c07 covid:ann/target/9b203601a753b5c324a47ef6dbae60d510be451b covid:ann/target/cbbbddca71e0198e2b1b5aee83a601580ad486d0 covid:ann/target/3afd0cf698b29bf4b9f9c01e1d6585bd3aa2efbd covid:ann/target/4720f5e2bec5fe897fde6421add6092c179199e9 covid:ann/target/8d6cdc06641fbfd84804001ccf8151a344d72c60 covid:ann/target/a669014440c9717342c59467b54e94a5defe3a9b covid:ann/target/b42d2c27b3554faad1371106cc8de52075c55a4c covid:ann/target/6c79765946fb9c77e00eb932d7470c2f082ad843 covid:ann/target/8be1d9b927181261da83f9afcbbc0f5fbce9d4ef covid:ann/target/fddfae22908c5f77026ee86f710872e9c36db762 covid:ann/target/9f746950e951453ddd6ea5d89725a0ab57b56d8e covid:ann/target/285da852396f9f61f6f501764d28330b80350b57 covid:ann/target/f87311ca8a57d557e60b7e1de2131e57fe6fa146 covid:ann/target/05b00851a52b9aade62055de9f53177aef0e39df covid:ann/target/904c3ed1dd2326ddbd2e977e6a8051286313a5eb covid:ann/target/3b61ce70d60c031fdea78a05a7a7fdcdb872437e covid:ann/target/95968f82f72826c2156dbafb00da0b5f98c9e4ab covid:ann/target/59c81479347c3476d316b77c9296c50daf20b4e5 covid:ann/target/8cb6fccbe6a02257293a271aa9bf92a07f983c9c covid:ann/target/7134a4a03e1264c2fd96ed58d61222a6a71e6f06 covid:ann/target/204ad35b83fb6066505cba5ff02594c2da372107 covid:ann/target/a04dcbe6dadba94f481a704a104e052f9606b4ae covid:ann/target/8d4fc946faeec2f285de8316d0a018fe9bd1c9ef covid:ann/target/e19c5f2568e9e8d34825b9f702615c09b88f2495 covid:ann/target/3ed478ae261424169249769ee01f2fba50e313c7 covid:ann/target/d7f41e8e6c359c4c5e4806de47ce0fec0443f333 covid:ann/target/dfbf2abad28e12bf1f7076fcdbe3b4e40a4114ec covid:ann/target/78bdcb0b873adb44d662e178ed7325980cfb1fd7 covid:ann/target/d86e03e45a33d6ed4e49d37bf432cf52c564e9f5 covid:ann/target/b20497ecb36afc3e060834765e3602afd326e94a covid:ann/target/0b341de904dc46bfaafd22b459a12c7741ce6bca covid:ann/target/7577aa3e697d78b5f164d8a6fcb8ebbd394618bd covid:ann/target/6e5c7dc8dcb1fe1be65e97224f2fad75a1bd0b1b covid:ann/target/4415b8dce02b991ac2d642ae70fea66a7a73b4c1 covid:ann/target/3a20d7bab86ad148a643ae9eaaa95c6b1acea89a covid:ann/target/ffd35fd0cace3d1118346cb88ee9be392bb388fc covid:ann/target/a5d1a2c5dc16dec21a4ca377a04dd9f4dfb4eed2

Faceted Search & Find service v1.13.91 as of Mar 24 2020

Alternative Linked Data Documents: Sponger | ODE Content Formats:

RDF

ODATA

Microdata

About

OpenLink Virtuoso version 07.20.3229 as of Jul 10 2020, on Linux (x86_64-pc-linux-gnu), Single-Server Edition (94 GB total memory)
Data on this page belongs to its respective rights holders.
Virtuoso Faceted Browser Copyright © 2009-2025 OpenLink Software