:orphan: .. status publishable .. product QT .. sectionauthor Clive .. SME Clive .. PR David .. TW Ken .. date 2018 .. _QT-DTS: |medea| |qt| - An Interactive QSPR Toolbox ------------------------------------------ |medea|\ :sup:`®`\ [#TM]_ *QT* ("**Q**\ SPR **T**\ oolbox") is an interactive toolbox that allows you to develop Quantitative Structure Property/Activity Relationship (QSPR/QSAR) models. .. admonition:: **At-a-Glance** Employing |medea| structure lists as a convenient storage mechanism for collections of molecular information, |medea| |qt| enables you to construct correlative models, linking materials descriptors to properties and activities. With |medea| |qt|, you interactively adjust the details of QSPR models in order to describe any selected observation or activity for a given set of molecules or materials based on molecular descriptors, properties, and activities. **Key Benefits** * |medea| |qt| makes the construction of QSPR models efficient by allowing users to select optimal descriptor sets and to compare models easily * Replaces ad hoc methods requiring manual data transformations and processing * Reveals QSPR models, using molecular and structure based descriptors to predict a wide range of physical properties * Interactively employs ordinary least squares (OLS) and partial least squares (PLS) methods to develop correlation models efficiently * Provides insights into the key determinants and tradeoffs that govern complex phenomena, properties, activities, and process characteristics As Cherkasov notes in a recent review [#Cherkasov2014]_, Corwin Hansch and colleagues have been long credited with developing correlative methods employed to extract insights from observed properties and descriptors for chemical systems. With |medea| |qt| any desired observable or activity can be employed in creating QSPR models. The resulting QSPR models not only provide predicted properties for new systems, but direct insights into the relationship between physical properties and molecular or structural descriptors. When you use |medea| |qt| models, you can predict properties for materials that are not part of the training set. |medea| |qt| allows you to assess interactively the quality of the resulting QSPR models while varying the descriptors included in these models. Any molecule or structure, or set of molecules, can be omitted from the training set employed in the development of the model. Models can then be immediately validated based on their ability to describe the properties of systems not included in the ordinary and partial least squares (OLS & PLS) procedures. :myquote:`Hansch foresaw the power of large, searchable databases and put "inductive knowledge transfer" into practice` :myquotee:`Cherkasov et al., in 'QSAR Modeling: Where have you been? Where are you going to?` Once created, a |medea| |qt| model can be applied in the |medea| |menvironment| to arbitrary structure lists with the same descriptors, either interactively or using |medea| |mflowcharts|. When used with |medea| |mflowcharts|, entire databases of materials can be efficiently annotated with computed model based properties. |medea| |qt| makes the construction of QSPR models efficient, and eliminates the need to carry out ad hoc, manual data transformations and processing. |medea| |qt| is designed for use by experts and non-experts to gain insights into the origin of physical phenomena and to build links between observation and atomic descriptions. Whenever sets of observations, even for properties that are challenging to simulate directly, can be obtained, |medea| |qt| can provide insights into the underlying causes of those varying properties. For example, the glass temperatures of epoxy thermosets can be modeled based on experimental information, as obtained by Morrill *et al.* [#Morrill2004]_. The example of glass transition temperatures for epoxy thermosets employs reported experimental information collected by Morrill *et al.*, and is an illustration of the type of analysis that |medea| |qt| facilitates. .. figure:: /Datasheets/images/QT-3621-DHvap.png :scale: 100% :align: center Developing a transferable model for the heat of vaporization using a training set containing 3,270 organic molecules and a correlative model based on PLS. Key Features ^^^^^^^^^^^^ * Employs an efficient molecular spreadsheet system as its user interface * Uses efficient partial least squares (PLS) based regression analysis to compute optimal regression models * Any |medea| descriptor or property can be used as the basis for building QSPR models * Stores |medea| |qt| QSPR models in an open and accessible XML based format, for straightforward inspection and publication * |medea| |qt| QSPR models can be applied to |medea| structure lists interactively and to large scale structure lists using |medea| |mflowcharts| .. add for a column break, adjust where needed .. raw:: latex \newpage * Highly interactive: automatic QSPR model updates, interactive descriptor selection and model comparison, interactive selection of training set members * Correlates complex physical phenomena and their molecular and atomic level determinants * Provides a foundation for more detailed atomistic simulations .. figure:: /Datasheets/images/MedeA-QT.png :scale: 100% :align: center Investigating the molecular determinants of the glass transition temperature (T\ :sub:`g`\) of thermoset epoxy systems. Required Modules ^^^^^^^^^^^^^^^^^^^^^^ * |medea| |menvironment| * |medea| |qt| Supported Modules ^^^^^^^^^^^^^^^^^ * |medea| |qspr| * |medea| |p3c| * |medea| |mmopac| * |medea| |mgaussiangui| Find Out More ^^^^^^^^^^^^^ To learn more about how |medea| |qt| creates correlative models, contact info@materialsdesign.com. |medea| |qt| was developed in partnership with Integrated Chemistry Design, Inc. .. figure:: /Datasheets/images/ICD-Logo_783_x_324.png :scale: 25% :align: center .. [#TM] |regTMinfo| .. [#Cherkasov2014] A. Cherkasov *et al.*, *J. Med. Chem.* **57**, 4977 (2014) (`DOI `__) .. [#Morrill2004] J. A. Morrill *et al.*, *J. Chem. Inf. Comput. Sci.* **44**, 912 (2004) (`DOI `__) .. only:: html :download: :download:`pdf `