[Frontiers in Bioscience 2, a31-36, November 1, 1997]

	[Frontiers in Bioscience 2, a31-36, November 1, 1997] Reprints PubMed CAVEAT LECTOR
	FUNCTIONAL BIOINFORMATICS: THE CELLULAR RESPONSE DATABASE James Sorace^1,2,3, Kip Canfield¹, Steven Russell¹ 1 Department of Information Systems University of Maryland Baltimore County, ²The Department of Pathology and Laboratory Service Baltimore VA Medical Center, Baltimore MD.³Department of Pathology, University of Maryland at Baltimore School of Medicine Received 4/3/97 Accepted 10/24/97 6. REFERENCES 1. Makonkaweyoon S, Limonson-Pobre RNR, Scauf V, & Kaplan G: Thalidomide inhibits the replication of human immunodeficency virus type 1. Proc Natl Acad Sci USA 90, 5974-5978 (1993). PMID: 8327469 2. Peterson PK, Hu S, Sheng WS, Kravitz FH, Molitor TW, Chatterjee D, & Chao CC.: Thalidomide inhibits tumor necrosis factor-alpha production by lipopolysaccharide and lipoarabinomannan-stimulated Human microglial cells. J Infec Dis 172, 1137-40 (1995). PMID: 7561198 3. Moreia AL, Sampaio EP, Zumidzinas A, Frindt P, Smith KA, & Kaplan G: Thalidomide exerts its inhibitory action on tumor necrosis factor alpha by enhancing mRNA degradation. J Exp Med 177, 1675-1680 (1993). PMID: 8496685 4. Shannon EJ, Sandoval F, & Krahenbul JL: Hydrolysis of thalidomide abrogates its ability to enhance mononuclear cell synthesis of IL-2 as well as its ability to suppress the synthesis of TNF-alpha. Immunopharamacol Immunotoxicol 36, 9-15 (1997). PMID: 9129992 5. Shannon EJ, & Sandoval F: Thalidomide can be either agonistic or antagonistic to LPS evoked synthesis of TNF-alpha by mononuclear cells. Immunopharamacol Immunotoxicol 18, 59-72 (1996). PMID: 8683039 6. Weinstein JN, Myers TG, O'connor PM, Friend SH, Fornace AJ, Kohn KW, Fojo T, Bates SE, Rubinstein LV, Anderson NL, Buolamwin JK, vasn Osdol WW, Monks AP, Scudiero DA, Sausville EA, Zaharevitz DW, Bunow B, Viswanadhan VN, Johnson GS, Wittes RE, & Paul KD: An informational intensive approach to the molecular pharmacology of cancer. Science 275, 343-349 (1997). PMID: 8994024 7. Williams N: Drug firms move to link databases. Science 277, 902 (1997). PMID: 9281071 8. Sorace JM, Johnson RJ, Howard DL, & Drysdale BE: Identification of an Endotoxin and IFN-inducible cDNA: possible identification of a novel protein family. J Leukoc Biol 58, 477-84 (1995). PMID: 7561525 9. Lafuse WF, Brown D, Castle L, & Zwilling BS: Cloning and characterization of a novel cDNA that is IFN-gamma-induced in mouse peritoneal macrophages and encodes a putative GTP-binding protein. J Leukoc Biol 57, 477-83 (1995). PMID: 7884320 10. Taylor GA, Jeffers M, Largespada DA, Jenkins NA, Copeland NG, & Vande Woude GF: Identification of a novel GTPase, the inducibly expressed GTPase, that accumulates in response to interferon gamma. J Bio Chem 271, 20399-20405 (1996). PMID: 8702776 11. Gilly M, & Wall R: The IRG-47 gene is IFN-gamma induced in B cells and encodes a protein with GTP-binding motifs. J Immunol 148, 3275-81 (1992). PMID: 1578148 12. Carlow DA, Marth J, Clark-Lewis I, & Teh HS: Isolation of a gene encoding a developmentally regulated T cell-specific protein with a guanine nucleotide triphosphate-binding motif. J Immunol 154, 1724-34 (1995). PMID: 7836757 13. Sorace JM, Ritondo M, &Canfield K: Information engineering for molecular diagnostics. In: Proceedings of the 18th Annual Symposium on Computer Application in Medical Care: 293-297, (1994). PMID: 7949937 14. M. Wooldridge, JP Muller, & M Tambe eds. Lecture Notes in Artificial Intellegence 1037: Intellegent Agents II, agents, theories, architectures, and languages. Proceedings of IJCAI'95 Worhshop (ATAL) Montreal Canada, August 1995. Springer-Verlag 1996. 15. Zare RN. Knowledge and distributed intellegence, Science 275, 1047 (1997). 16. Cohen J. The Genomics Gamble. Science 275, 767-772 (1997). PMID: 9036536

[Frontiers in Bioscience 2, a31-36, November 1, 1997]
Reprints
PubMed
CAVEAT LECTOR

FUNCTIONAL BIOINFORMATICS: THE CELLULAR RESPONSE DATABASE

James Sorace^1,2,3, Kip Canfield¹, Steven Russell¹

1 Department of Information Systems University of Maryland Baltimore County, ²The Department of Pathology and Laboratory Service Baltimore VA Medical Center, Baltimore MD.³Department of Pathology, University of Maryland at Baltimore School of Medicine

Received 4/3/97 Accepted 10/24/97

6. REFERENCES

1. Makonkaweyoon S, Limonson-Pobre RNR, Scauf V, & Kaplan G: Thalidomide inhibits the replication of human immunodeficency virus type 1. Proc Natl Acad Sci USA 90, 5974-5978 (1993). PMID: 8327469

2. Peterson PK, Hu S, Sheng WS, Kravitz FH, Molitor TW, Chatterjee D, & Chao CC.: Thalidomide inhibits tumor necrosis factor-alpha production by lipopolysaccharide and lipoarabinomannan-stimulated Human microglial cells. J Infec Dis 172, 1137-40 (1995). PMID: 7561198

3. Moreia AL, Sampaio EP, Zumidzinas A, Frindt P, Smith KA, & Kaplan G: Thalidomide exerts its inhibitory action on tumor necrosis factor alpha by enhancing mRNA degradation. J Exp Med 177, 1675-1680 (1993). PMID: 8496685

4. Shannon EJ, Sandoval F, & Krahenbul JL: Hydrolysis of thalidomide abrogates its ability to enhance mononuclear cell synthesis of IL-2 as well as its ability to suppress the synthesis of TNF-alpha. Immunopharamacol

Immunotoxicol 36, 9-15 (1997). PMID: 9129992

5. Shannon EJ, & Sandoval F: Thalidomide can be either agonistic or antagonistic to LPS evoked synthesis of TNF-alpha by mononuclear cells. Immunopharamacol Immunotoxicol 18, 59-72 (1996). PMID: 8683039

6. Weinstein JN, Myers TG, O'connor PM, Friend SH, Fornace AJ, Kohn KW, Fojo T, Bates SE, Rubinstein LV, Anderson NL, Buolamwin JK, vasn Osdol WW, Monks AP, Scudiero DA, Sausville EA, Zaharevitz DW, Bunow B, Viswanadhan VN, Johnson GS, Wittes RE, & Paul KD: An informational intensive approach to the molecular pharmacology of cancer. Science 275, 343-349 (1997). PMID: 8994024

7. Williams N: Drug firms move to link databases. Science 277, 902 (1997). PMID: 9281071

8. Sorace JM, Johnson RJ, Howard DL, & Drysdale BE: Identification of an Endotoxin and IFN-inducible cDNA: possible identification of a novel protein family. J Leukoc Biol 58, 477-84 (1995). PMID: 7561525

9. Lafuse WF, Brown D, Castle L, & Zwilling BS: Cloning and characterization of a novel cDNA that is IFN-gamma-induced in mouse peritoneal macrophages and encodes a putative GTP-binding protein. J Leukoc Biol 57, 477-83 (1995). PMID: 7884320

10. Taylor GA, Jeffers M, Largespada DA, Jenkins NA, Copeland NG, & Vande Woude GF: Identification of a novel GTPase, the inducibly expressed GTPase, that accumulates in response to interferon gamma. J Bio Chem 271, 20399-20405 (1996). PMID: 8702776

11. Gilly M, & Wall R: The IRG-47 gene is IFN-gamma induced in B cells and encodes a protein with GTP-binding motifs. J Immunol 148, 3275-81 (1992). PMID: 1578148

12. Carlow DA, Marth J, Clark-Lewis I, & Teh HS: Isolation of a gene encoding a developmentally regulated T cell-specific protein with a guanine nucleotide triphosphate-binding motif. J Immunol 154, 1724-34 (1995). PMID: 7836757

13. Sorace JM, Ritondo M, &Canfield K: Information engineering for molecular diagnostics. In: Proceedings of the 18th Annual Symposium on Computer Application in Medical Care: 293-297, (1994). PMID: 7949937

14. M. Wooldridge, JP Muller, & M Tambe eds. Lecture Notes in Artificial Intellegence 1037: Intellegent Agents II, agents, theories, architectures, and languages. Proceedings of IJCAI'95 Worhshop (ATAL) Montreal Canada, August 1995. Springer-Verlag 1996.

15. Zare RN. Knowledge and distributed intellegence, Science 275, 1047 (1997).

16. Cohen J. The Genomics Gamble. Science 275, 767-772 (1997). PMID: 9036536