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Items: 1 to 20 of 83

1.

Temporal effects in porcine skin following bromine vapor exposure.

Price JA, Rogers JV, Wendling MQ, Plahovinsak JL, Perry MR, Reid FM, Kiser RC, Graham JS.

Cutan Ocul Toxicol. 2011 Sep;30(3):187-97. doi: 10.3109/15569527.2010.546003. Epub 2011 Jan 14.

PMID:
21231885
2.

Gene expression analysis of bromine-induced burns in porcine skin.

Price JA, Rogers JV, McDougal JN, Shaw MQ, Reid FM, Kiser RC, Graham JS.

Toxicol Lett. 2008 Nov 10;182(1-3):69-78. doi: 10.1016/j.toxlet.2008.08.007. Epub 2008 Aug 27.

PMID:
18790026
3.

An assessment of transcriptional changes in porcine skin exposed to bromine vapor.

Rogers JV, Price JA, Wendling MQ, Perry MR, Reid FM, Kiser RC, Graham JS.

J Biochem Mol Toxicol. 2011 Jul-Aug;25(4):252-62. doi: 10.1002/jbt.20383. Epub 2011 Mar 9.

PMID:
21391292
4.

Toxicogenomic analysis of chlorine vapor-induced porcine skin injury.

Price JA, Rogers JV, Plahovinsak JL, Wendling MQ, Perry MR, Reid FM, Graham JS.

Cutan Ocul Toxicol. 2012 Dec;31(4):323-31. doi: 10.3109/15569527.2012.679374. Epub 2012 Apr 25.

PMID:
22533443
5.

Transcriptional changes in porcine skin at 7 days following sulfur mustard and thermal burn injury.

Price JA, Rogers JV, McDougal JN, Shaw MQ, Reid FM, Graham JS.

Cutan Ocul Toxicol. 2009;28(3):129-40. doi: 10.1080/15569520903097754.

PMID:
19694609
6.

Transcriptional responses associated with sulfur mustard and thermal burns in porcine skin.

Rogers JV, McDougal JN, Price JA, Reid FM, Graham JS.

Cutan Ocul Toxicol. 2008;27(3):135-60. doi: 10.1080/15569520802092054.

PMID:
18988085
7.

A dynamic system for delivering controlled bromine and chlorine vapor exposures to weanling swine skin.

Snider TH, Perry MR, Richter WR, Plahovinsak JL, Rogers J, Reid FM, Graham JS.

Cutan Ocul Toxicol. 2014 Jun;33(2):161-7. doi: 10.3109/15569527.2013.806524. Epub 2013 Jun 28.

PMID:
23808400
8.

D-Serine exposure resulted in gene expression changes implicated in neurodegenerative disorders and neuronal dysfunction in male Fischer 344 rats.

Davidson ME, Kerepesi LA, Soto A, Chan VT.

Arch Toxicol. 2009 Aug;83(8):747-62. doi: 10.1007/s00204-009-0405-3. Epub 2009 Feb 11.

PMID:
19212759
9.

Temporal patterns of gene expression in murine cutaneous burn wound healing.

Feezor RJ, Paddock HN, Baker HV, Varela JC, Barreda J, Moldawer LL, Schultz GS, Mozingo DW.

Physiol Genomics. 2004 Feb 13;16(3):341-8.

PMID:
14966252
10.

A review of transcriptomics in cutaneous chemical exposure.

Rogers JV, Price JA, McDougal JN.

Cutan Ocul Toxicol. 2009;28(4):157-70. doi: 10.3109/15569520903157145. Review.

PMID:
19888885
11.

The angiogenic factor Cyr61 activates a genetic program for wound healing in human skin fibroblasts.

Chen CC, Mo FE, Lau LF.

J Biol Chem. 2001 Dec 14;276(50):47329-37. Epub 2001 Oct 2.

12.

Microarray analysis of gene expression patterns during healing of rat corneas after excimer laser photorefractive keratectomy.

Varela JC, Goldstein MH, Baker HV, Schultz GS.

Invest Ophthalmol Vis Sci. 2002 Jun;43(6):1772-82.

PMID:
12036978
13.

Efficacy of laser debridement with autologous split-thickness skin grafting in promoting improved healing of deep cutaneous sulfur mustard burns.

Graham JS, Schomacker KT, Glatter RD, Briscoe CM, Braue EH Jr, Squibb KS.

Burns. 2002 Dec;28(8):719-30.

PMID:
12464469
14.

Bioengineering methods employed in the study of wound healing of sulphur mustard burns.

Graham JS, Schomacker KT, Glatter RD, Briscoe CM, Braue EH Jr, Squibb KS.

Skin Res Technol. 2002 Feb;8(1):57-69.

PMID:
12005121
15.

In vitro gene expression analysis of nephrotoxic drugs in rat primary renal cortical tubular cells.

Suzuki H, Inoue T, Matsushita T, Kobayashi K, Horii I, Hirabayashi Y, Inoue T.

J Appl Toxicol. 2008 Mar;28(2):237-48. doi: 10.1002/jat.1329.

PMID:
18172885
16.

Microarray analysis of gene expression in murine skin exposed to sulfur mustard.

Rogers JV, Choi YW, Kiser RC, Babin MC, Casillas RP, Schlager JJ, Sabourin CL.

J Biochem Mol Toxicol. 2004;18(6):289-99.

PMID:
15674843
17.
18.

Time- and dose-dependent analysis of gene expression using microarrays in sulfur mustard-exposed mice.

Sabourin CL, Rogers JV, Choi YW, Kiser RC, Casillas RP, Babin MC, Schlager JJ.

J Biochem Mol Toxicol. 2004;18(6):300-12.

PMID:
15674844
19.

Analysis of porcine transcriptional response to Salmonella enterica serovar Choleraesuis suggests novel targets of NFkappaB are activated in the mesenteric lymph node.

Wang Y, Couture OP, Qu L, Uthe JJ, Bearson SM, Kuhar D, Lunney JK, Nettleton D, Dekkers JC, Tuggle CK.

BMC Genomics. 2008 Sep 23;9:437. doi: 10.1186/1471-2164-9-437.

20.

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