This document describes the Reaxys Medicinal Chemistry database and how it can be used for drug discovery tasks. The database contains over 5 million substances and 25 million biological data points. It organizes and normalizes data to calculate pX values for comparing biological results. A heatmap allows comparing pX values by filtering and adjusting axes. The document demonstrates searches for in vitro activity data, cytochrome P450 inhibition data, PK data, and toxicity data. It also shows how to find substances active against a target but not others.
This document discusses different camera shots and angles used in filmmaking and their effects. It analyzes shots such as close-ups, over-the-shoulder shots, wide angles, low angles, panning shots, long shots, point-of-view shots, bird's-eye views, and 3-person shots. Each shot type is explained in terms of how it draws attention, builds drama, tension, or character, and provides different perspectives and understanding for the audience.
Finding Substances and their Properties in ReaxysReaxys
Presentation about finding chemical properties and tautomers, radicals, isotopes, and Markush structures in Reaxys. An Rgroup query and organometallic query are also included.
This document outlines an agenda and provides information for a webinar on searching literature in Reaxys. The webinar covers the types of literature content included in Reaxys, such as journals, patents, dissertations and more. It describes the fields that are searchable, including bibliographic fields, titles, abstracts and keywords. Finally, it demonstrates three methods for searching literature - using the "Ask Reaxys" function, the literature search form, and the Reaxys tree.
This document describes the Reaxys Medicinal Chemistry database and how it can be used for drug discovery tasks. The database contains over 5 million substances and 25 million biological data points. It organizes and normalizes data to calculate pX values for comparing biological results. A heatmap allows comparing pX values by filtering and adjusting axes. The document demonstrates searches for in vitro activity data, cytochrome P450 inhibition data, PK data, and toxicity data. It also shows how to find substances active against a target but not others.
This document discusses different camera shots and angles used in filmmaking and their effects. It analyzes shots such as close-ups, over-the-shoulder shots, wide angles, low angles, panning shots, long shots, point-of-view shots, bird's-eye views, and 3-person shots. Each shot type is explained in terms of how it draws attention, builds drama, tension, or character, and provides different perspectives and understanding for the audience.
Finding Substances and their Properties in ReaxysReaxys
Presentation about finding chemical properties and tautomers, radicals, isotopes, and Markush structures in Reaxys. An Rgroup query and organometallic query are also included.
This document outlines an agenda and provides information for a webinar on searching literature in Reaxys. The webinar covers the types of literature content included in Reaxys, such as journals, patents, dissertations and more. It describes the fields that are searchable, including bibliographic fields, titles, abstracts and keywords. Finally, it demonstrates three methods for searching literature - using the "Ask Reaxys" function, the literature search form, and the Reaxys tree.
The document discusses drug repurposing and summarizes the capabilities of the Reaxys Medicinal Chemistry database. It provides an example of using the database to create a drug profile for ketamine, exploring its targets and similar substances. The document demonstrates searching the database by effect to find marketed drugs with antiparasitic activity and their relevant targets. It also shows how to select experimental data from search results to add to a report.
This document provides an introduction to Reaxys, a chemistry discovery engine. It outlines the agenda which includes what's new in Reaxys, what Reaxys is, who uses it, what content is included, and what functions it performs. Reaxys allows searching of over 500 million experimental facts from 400 core chemistry journals and 16,000 periodicals. It is used widely in industries like pharmaceuticals and food and by professionals including chemists and patent researchers. Reaxys integrates data to help answer questions about compounds and their properties, synthesis, commercial availability and related biological effects.
This document outlines strategies for searching the Reaxys database, including querying methods, effective filtering, list logic, and finding specific substructures like pyrroles and isotopes. It provides examples of queries to find substances containing pyrrole groups or specific isotopes, and shows how to filter lists by substructure or properties. The document also demonstrates how to view Markush structures within search results and substances from specific patents. It concludes by providing contact information for additional training webinars on using Reaxys search features.
This document provides an overview of how to search for reaction information in Reaxys. It outlines five direct ways to begin a reaction search, including drawing and mapping a reaction or using the reaction details form. It also demonstrates how to filter results by reagent or solvent, export filtered results, and add results to a report. The document concludes by describing how to search by catalyst and provides contact information for the presenter.
This document provides an overview and agenda for a webinar introducing Reaxys, a chemistry discovery engine. The webinar covers the key features of Reaxys, including its ability to help answer questions across the chemistry research workflow from understanding what is known to designing experiments. It demonstrates how Reaxys can be used to search for reactions, substances, and patents. The webinar highlights Reaxys' integration with other tools and data sources to provide a powerful suite of decision support solutions for researchers.
Searching for Inorganic Organometallic Substances in Reaxys 2013Reaxys
This document provides an overview of searching for inorganic and organometallic substances in Reaxys. It discusses searching by name, molecular formula, structure queries, and using ligand codes. The agenda covers searching for inorganics using these fields, and searching for organometallics and coordination compounds using structure queries and ligand codes. Examples of queries are provided to illustrate how to search for specific substances and properties.
This document provides an overview and examples of using the Reaxys database to search for natural products, reactions, and literature. It demonstrates how to search for substances from natural products containing 8-membered rings with anti-inflammatory activity. It also shows how to search for literature on the transfer hydrogenation of ketones and ketimines using Ask Reaxys, the Literature Search Form, and the Reaxys Tree. The document emphasizes using different search techniques and filters available in Reaxys to obtain tailored and relevant results.
This document summarizes a webinar presentation about searching for natural product information in the Reaxys database. It discusses the various natural product content sources in Reaxys, including information on isolation from organisms, location, taxonomy. It then demonstrates different search methods in Reaxys for finding natural products, including using the natural product search form, literature searches, substance name searches, and bioactivity searches. Specific examples are shown of searching for xanthones, substances from Garcinia bracteata, and active compounds from starfish.
1) Dr. Olivier Barberan presented an introduction to Reaxys Medicinal Chemistry, a discovery tool from Elsevier that contains over 2.4 million chemical compounds and 9 million biological experimental results.
2) Reaxys Medicinal Chemistry supports all stages of drug discovery and development by providing relevant information on compounds, targets, assays, and properties. It allows searching based on chemistry, pharmacology, or taxonomy.
3) The tool covers journals back to 1980, patents from the US, Europe, and World Intellectual Property Organization, and extracts over 100 experimental fields to provide essential information for research.
Editoriale di Pierluigi De Pascalis sulla nuova rivista di Nonsolofitness, Scienza e Movimento.
http://www.calzetti-mariucci.it/shop/prodotti/scienza-e-movimento-de-pascalis-n-0
Alunni Tagliacarne si svela: Assemblea dei soci e Presentazione del sito online.
Il secondo evento della neo costituita Associazione "Alunni Tagliacarne" - alias Next (Network Ex Alunni Tagliacarne).
L’incontro si è svolto a Roma il 19 aprile 2010 alle ore 19:00 presso la sede dell’Istituto Tagliacarne di Via Appia Pignatelli, 62.
Nel corso della serata si è tenuta l'Assemblea dei Soci e sono state presentate le news dell'associazione.
Nel file si può prendere visione delle attività previste e dei prossimi passi
Candidatura Simona Ferradini Elezioni del Consiglio dell'Ordine degli Archite...Simona Ferradini
Ordine
Servizi
Professione
Formazione
Tirocinio
Premi
Concorsi
Attività culturali
Biblioteca
e-shop
calendario
/in primo piano
/archivio notizie
Ordine
Elezioni del Consiglio dell'Ordine degli Architetti PPC della Provincia di Milano 2021 - 2025
The document discusses drug repurposing and summarizes the capabilities of the Reaxys Medicinal Chemistry database. It provides an example of using the database to create a drug profile for ketamine, exploring its targets and similar substances. The document demonstrates searching the database by effect to find marketed drugs with antiparasitic activity and their relevant targets. It also shows how to select experimental data from search results to add to a report.
This document provides an introduction to Reaxys, a chemistry discovery engine. It outlines the agenda which includes what's new in Reaxys, what Reaxys is, who uses it, what content is included, and what functions it performs. Reaxys allows searching of over 500 million experimental facts from 400 core chemistry journals and 16,000 periodicals. It is used widely in industries like pharmaceuticals and food and by professionals including chemists and patent researchers. Reaxys integrates data to help answer questions about compounds and their properties, synthesis, commercial availability and related biological effects.
This document outlines strategies for searching the Reaxys database, including querying methods, effective filtering, list logic, and finding specific substructures like pyrroles and isotopes. It provides examples of queries to find substances containing pyrrole groups or specific isotopes, and shows how to filter lists by substructure or properties. The document also demonstrates how to view Markush structures within search results and substances from specific patents. It concludes by providing contact information for additional training webinars on using Reaxys search features.
This document provides an overview of how to search for reaction information in Reaxys. It outlines five direct ways to begin a reaction search, including drawing and mapping a reaction or using the reaction details form. It also demonstrates how to filter results by reagent or solvent, export filtered results, and add results to a report. The document concludes by describing how to search by catalyst and provides contact information for the presenter.
This document provides an overview and agenda for a webinar introducing Reaxys, a chemistry discovery engine. The webinar covers the key features of Reaxys, including its ability to help answer questions across the chemistry research workflow from understanding what is known to designing experiments. It demonstrates how Reaxys can be used to search for reactions, substances, and patents. The webinar highlights Reaxys' integration with other tools and data sources to provide a powerful suite of decision support solutions for researchers.
Searching for Inorganic Organometallic Substances in Reaxys 2013Reaxys
This document provides an overview of searching for inorganic and organometallic substances in Reaxys. It discusses searching by name, molecular formula, structure queries, and using ligand codes. The agenda covers searching for inorganics using these fields, and searching for organometallics and coordination compounds using structure queries and ligand codes. Examples of queries are provided to illustrate how to search for specific substances and properties.
This document provides an overview and examples of using the Reaxys database to search for natural products, reactions, and literature. It demonstrates how to search for substances from natural products containing 8-membered rings with anti-inflammatory activity. It also shows how to search for literature on the transfer hydrogenation of ketones and ketimines using Ask Reaxys, the Literature Search Form, and the Reaxys Tree. The document emphasizes using different search techniques and filters available in Reaxys to obtain tailored and relevant results.
This document summarizes a webinar presentation about searching for natural product information in the Reaxys database. It discusses the various natural product content sources in Reaxys, including information on isolation from organisms, location, taxonomy. It then demonstrates different search methods in Reaxys for finding natural products, including using the natural product search form, literature searches, substance name searches, and bioactivity searches. Specific examples are shown of searching for xanthones, substances from Garcinia bracteata, and active compounds from starfish.
1) Dr. Olivier Barberan presented an introduction to Reaxys Medicinal Chemistry, a discovery tool from Elsevier that contains over 2.4 million chemical compounds and 9 million biological experimental results.
2) Reaxys Medicinal Chemistry supports all stages of drug discovery and development by providing relevant information on compounds, targets, assays, and properties. It allows searching based on chemistry, pharmacology, or taxonomy.
3) The tool covers journals back to 1980, patents from the US, Europe, and World Intellectual Property Organization, and extracts over 100 experimental fields to provide essential information for research.
Editoriale di Pierluigi De Pascalis sulla nuova rivista di Nonsolofitness, Scienza e Movimento.
http://www.calzetti-mariucci.it/shop/prodotti/scienza-e-movimento-de-pascalis-n-0
Alunni Tagliacarne si svela: Assemblea dei soci e Presentazione del sito online.
Il secondo evento della neo costituita Associazione "Alunni Tagliacarne" - alias Next (Network Ex Alunni Tagliacarne).
L’incontro si è svolto a Roma il 19 aprile 2010 alle ore 19:00 presso la sede dell’Istituto Tagliacarne di Via Appia Pignatelli, 62.
Nel corso della serata si è tenuta l'Assemblea dei Soci e sono state presentate le news dell'associazione.
Nel file si può prendere visione delle attività previste e dei prossimi passi
Candidatura Simona Ferradini Elezioni del Consiglio dell'Ordine degli Archite...Simona Ferradini
Ordine
Servizi
Professione
Formazione
Tirocinio
Premi
Concorsi
Attività culturali
Biblioteca
e-shop
calendario
/in primo piano
/archivio notizie
Ordine
Elezioni del Consiglio dell'Ordine degli Architetti PPC della Provincia di Milano 2021 - 2025
11. Cari Colleghi
La Lista Innovare…, nasce in vista delle elezioni del prossimo 15 e 16 novembre con un obiettivo
molto difficile.
Da un lato vogliamo riportare l’Ordine indietro di almeno 20 anni, ai tempi in cui l’appartenenza
dell’iscritto all’Ordine era prima di tutto un motivo di orgoglio e non un obbligo, quando i colleghi
si incontravano alla sede dell’Ordine o del Collegio per discutere, per confrontarsi, per fare
conversazione, anche per divertirsi, quando la prima cosa che si chiedeva alle segreterie erano le
condizioni di salute, come stavano i famigliari e poi, dopo, si parlava di lavoro.
La nostra lista vuole tuttavia innovare, quindi nel solco delle grandi innovazioni stilistiche apportate
negli ultimi 14 anni dall’attuale Presidente (una sede più bella, un bollettino più bello, un sito
internet più bello), vogliamo che la bellezza diventi utilità e praticità, la sede sarà bella perché sarà
luogo di incontro e formazione appassionante, il bollettino sarà bello perché avrà notizie utili alla
vita dell’iscritto, il sito internet bello perché tutti lo vorremo avere come home page del computer
per l’utilità che avrà.
Innovare perché vogliamo che tutto sia trasparente, utile, al servizio dell’iscritto.
Innovare perché vogliamo che l’iscritto voglia partecipare alla vita dell’Ordine e non subire
l’Ordine come mero obbligo.
12. Innovare…,
Le Liste
Dottori Commercialisti Ragionieri Commericlisti
Presidente: Vice Presidente:
FEDERICO RATTI STEFANO PERCUDANI
1. Paolo Villa 1. Alessandro Beretta
2. Luigi Corbella 2. Monica Angela Confalonieri
3. Barbara Russo 3. Stefania Bonando
4. Luca Brivio 4. Antonella Cazzaniga
5. Marzia Galli
6. Marco Viganò 5. Salvatore Leggiero
7. Stefano Vittadini 6. Fabio Antonio Carzaniga
8. Giovanni Bolis 7. Massimiliano Calloni
9. Paola Paleari 8. Giorgio Giovanni Mario
10. Maurizio Biraghi Catania
11. Barbara Brambilla 9. Giancarlo Restori
12. Roberto Barbaro 10. Carlo Alberto Tassini
13. Alberto Pessina
13. Innovare…, segna la data
15 novembre 16 novembre
16.00-20.00 orari
PRESSO L’ORDINE DEI DOTTORI COMMERICLISTI DI MONZA E
BRIANZA, VIA………….
VAI A VOTARE
E
VOTA INNOVARE…,