SAGE Projects Human

• Breast Cancer Molecular Signatures as Determined by SAGE: Correlation with Lymph Node Status
• GATA3 protein as a MUC1 transcriptional regulator in breast cancer cells
• Gene Expression Signature of Estrogen Receptor α Status in Breast Cancer
• Transcriptomic changes in human breast cancer progression as determined by serial analysis of gene expression
• Effects of Estrogen on Global Gene Expression: Identification of Novel Targets of Estrogen Action

Mouse

• Transcriptomic signature of the chemopreventive Bexarotene (Rexinoid LGD1069) on mammary gland from three transgenic mouse mammary cancer models
• Identification of Novel Amplification Gene Targets in Mouse and Human Breast Cancer at a Syntenic Cluster Mapping to Mouse ch8A1 and Human ch13q34
• SAGE Profiling of UV-Induced Mouse Skin Squamous Cell Carcinomas, Comparison with Acute UV Irradiation Effects.
• From Mice To Humans: Identification Of Commonly Deregulated Genes In Mammary Cancer via Comparative SAGE Studies.
• Serial Analysis of Gene Expression in Normal p53 Null Mammary Epithelium.
• Effects of Ultraviolet Light Irradiation in E2F1 Null Mouse Skin. Unpublished data. Access data with password.

General

• Overdispersed Logistic Regression for SAGE: Modelling Multiple Groups and Covariates.
• Differential expression in SAGE: accounting for normal between-library variation.
• Review: Serial Analysis of Gene Expression (SAGE) in Cancer Research.

Other SAGE Links

• SAGE Genie
• SAGEmap
• SAGEnet
• Genzyme

RAGE Projects

• Response of human mammary epithelial cells to DNA damage induced by BPDE: involvement of novel regulatory pathways
• Effects of overexpression of human E2F1 on gene expression in murine keratinocytes.

Other RAGE Links

• Capital Genomix, Inc.

Tools

• Global gene expression informatics tools at Science Park

Serial Analysis of Gene Expression (SAGE)

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Schematic representation of the SAGE protocol

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Adapted from Velculescu V.E, Zhang L., Vogelstein B. and Kinzler K. W. (Science 270:484-487, 1995)

Legend

Step 1	The restriction enzyme Nla III, "anchoring enzyme" (AE), cleaves at the sequence 5'-CATG, leaving a four nucleotide 3' overhang. Biotinylated fragments are isolated using streptavidin beads.
Step 2	Divide in half and ligate to linkers A or B. The linkers contain unique primer binding sites, the recognition sequence (5'-GGGAC) for a tagging enzyme (TE), in this case BsmFI, and an Nla III compatible sticky end.
Step 3	Cleave with BsmFI tagging enzyme (TE) and blunt-end-fill in. The enzyme BsmFI cuts 10 and 14 bases in the 3' direction from its recognition site, thus adding the "Tag" sequence to the linkers.
Step 4	Ligation and amplification using primers A and B.
Step 5	Restriction with anchoring enzyme, isolation of ditags, concatenate and clone. X and O represent nucleotides from different transcripts.

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Tags and Ditags from Sequencing Gel

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SAGE software searches GenBank for matches to each tag

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This allows assignment to 3 categories of tags:

• mRNAs derived from known genes
• anonymous mRNAs, also known as expressed sequence tags (ESTs)
• mRNAs derived from currently unidentified genes

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Advantages of SAGE Technology

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• Analyzes all transcripts (Transcriptome) without prior selection of known genes
• Provides quantitative data on both known and unknown genes
• Ideally suited for determining changes on gene expression as consequence of an experimental treatment (e.g. carcinogen, hormone)