DOI:10.1126/SCIENCE.1083395

Corpus ID: 39877841

From Knowing to Controlling: A Path from Genomics to Drugs Using Small Molecule Probes

@article{Strausberg2003FromKT,
  title={From Knowing to Controlling: A Path from Genomics to Drugs Using Small Molecule Probes},
  author={R. Strausberg and S. Schreiber},
  journal={Science},
  year={2003},
  volume={300},
  pages={294 - 295}
}

R. Strausberg, S. Schreiber

Published 2003

Biology, Medicine

Science

The National Cancer Institute Initiative in Chemical Genetics is designed to encourage the development of small molecular probes. The probes are useful for activating or inactivating protein functions, thereby providing resources that help discern the functions of gene products in normal and disease cells, as well as in tissues. This initiative includes “ChemBank,” a suite of informatics tools and databases aimed at promoting the development and use of chemical genetics by scientists worldwide… CONTINUE READING

Share This Paper

213 Citations

Highly Influential Citations

2

Background Citations

32

Methods Citations

8

Topics from this paper

Explore Further: Topics Discussed in This Paper

ChemBank

Informatics (discipline)

Neoplasms

Paper Mentions

Blog Post

Sampling biased data

Mining Drug Space

31 January 2007

Functional genomics: identifying drug targets for parasitic diseases.

A. Cowman, B. Crabb
Biology, Medicine
Trends in parasitology
2003

24

Oncogenomics and the development of new cancer therapies

R. Strausberg, A. Simpson, L. Old, G. Riggins
Biology, Medicine
Nature
2004

92
PDF

High-throughput target validation in model organisms

Thanh Doan, C. D. Eilertson, A. Rubinstein
Biology
2004

5

Chemogenomics: an emerging strategy for rapid target and drug discovery

M. Bredel, E. Jacoby
Biology, Medicine
Nature Reviews Genetics
2004

282
PDF

Exploring the chemogenomic knowledge space with annotated chemical libraries.

N. Savchuk, K. Balakin, S. Tkachenko
Biology, Medicine
Current opinion in chemical biology
2004

48
PDF

Proteasome modulators: essential chemical genetic tools for understanding human diseases.

M. Wehenkel, J. Hong, K. B. Kim
Biology, Medicine
Molecular bioSystems
2008

7

Oncogenomics: opportunities to integrate basic and clinical research

R. Strausberg
Biology
2003

Identifying the proteins to which small-molecule probes and drugs bind in cells

S. Ong, M. Schenone, +14 authors S. Carr
Biology, Medicine
Proceedings of the National Academy of Sciences
2009

270
PDF

8 Chemical genetics

D. Shuker
Biology
2004

3

DNA-encoded chemical libraries.

J. Scheuermann, Christoph E. Dumelin, S. Melkko, D. Neri
Biology, Medicine
Journal of biotechnology
2006

48
PDF

‹
1
2
3
4
5
›

References

SHOWING 1-9 OF 9 REFERENCES

Target-oriented and diversity-oriented organic synthesis in drug discovery.

S. Schreiber
Chemistry, Medicine
Science
2000

1,723
PDF

Genome and genetic resources from the Cancer Genome Anatomy Project.

G. Riggins, R. Strausberg
Biology, Medicine
Human molecular genetics
2001

84
PDF

Cancer Modeling in the Modern Era Progress and Challenges

T. V. Dyke, T. Jacks
Biology, Medicine
Cell
2002

356
PDF

RNAi: gene-silencing in therapeutic intervention.

D. Shuey, D. Mccallus, T. Giordano
Medicine, Biology
Drug discovery today
2002

150

Small molecule inhibitor of mitotic spindle bipolarity identified in a phenotype-based screen.

T. U. Mayer, T. Kapoor, S. Haggarty, R. King, S. Schreiber, T. Mitchison
Biology, Medicine
Science
1999

1,092
PDF

A one-bead, one-stock solution approach to chemical genetics: part 1.

H. Blackwell, L. Pérez, +4 authors S. Schreiber
Medicine, Biology
Chemistry & biology
2001

80

A one-bead, one-stock solution approach to chemical genetics: part 2.

P. Clemons, A. N. Koehler, +5 authors M. Foley
Medicine, Chemistry
Chemistry & biology
2001

78

Dissecting Temporal and Spatial Control of Cytokinesis with a Myosin II Inhibitor

A. Straight, Amy Cheung, +4 authors T. Mitchison
Biology, Medicine
Science
2003

1,247
PDF

The small-molecule approach to biology

S. Schreiber
Engineering
2003

200