Biomedical Engineering Reference
In-Depth Information
TABLE 5.1
(
Continued
)
Name
Website
Function
BioPortfolio
http://www.bioportfolio.com/
Information aggregator of news
and biological and chemical
entities
ACS Member
Network
http://portal.acs.org/portal/acs/
corg/networkLanding?_
nfpb= true & _pageLabel =
PP_MNLANDING& node_
id= 2127 & use_sec = false & __
uuid= f1b95b5e - fc29 - 450b -
8b1e - 695b8cf2e321
Networking website
LabMeeting
http://www.labmeeting.com/
Website for organizing and
sharing papers
Nature
Network
http://network.nature.com/
Networking website
Innocentive
http://www.innocentive.com/
Uses crowdsoursing to solve
science challenges
PD
2
https://pd2.lilly.com/pd2Web/
Crowdsourcing site to bring
molecules to Lilly for
phenotypic testing
ChemSpider
www.chemspider.com
Chemisty aggregator and
database
Pubchem
http://
pubchem.ncbi.nlm.nih.gov/
Molecule structure and bioassay
data
DrugBank
http://www.drugbank.ca/
Detailed drug and target
information
eMolecules
http://www.emolecules.com/
Chemistry structure search
engine and supplier
information
CDD
www.collaborativedrug.com
Collaborative database enabling
secure selective sharing
ZINC
http://zinc.docking.org/
Over 13 million commercially
available molecules for virtual
screening
community of chemistry research expands resources beyond a single labora-
tory. The ability to do this in real time via blogs [4, 5] or wikis, commonly used
to host open notebooks [6] (see Chapter 25), rather than having to wait for a
journal article to publish fi ndings, obviously could greatly increase the speed
(by months) with which chemistry syntheses could be made available, thereby
preventing unnecessary and costly repetition in other laboratories. The work
can be hosted not only in these common environments but via exemplar
efforts such as the crowdsourced ChemSpider SyntheticPages (http://
cssp.chemspider.com/) where the community can publish and share reaction
syntheses data on the same day that they do the work.
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