Transcriptional Profile of Rat Extraocular Muscle by Serial Analysis of Gene Expression

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Transcriptional Profile of Rat Extraocular Muscle by Serial Analysis of Gene Expression

Georgiana Cheng¹ and John D. Porter¹^,2^,3

¹ From the Departments of Ophthalmology, ² Neurology, and ³ Neurosciences, Case Western Reserve University; and The Research Institute of University Hospitals of Cleveland, Cleveland, Ohio.

PURPOSE. Although extraocular muscle (EOM) is skeletal muscle,aspects of its biology are unlike other striated muscle. Inthis study, the broad molecular genetics profile underlyingthe novel EOM phenotype was examined.

METHODS. Serial analysis of gene expression (SAGE) was usedto quantify adult rat EOM gene transcripts. SAGE isolates andsequences 10-bp tags from defined locations in mRNA-derivedcDNA. Tag sequence-location was used to extract transcript identityfrom a curated SAGE database, and detection frequencies reflectedabundance of corresponding mRNAs.

RESULTS. The 54,764 expressed sequence tags generated and sequencedfrom EOM included 17,602 unique tags. Of the unique tags, 7.8%were detected at high to intermediate levels ( $>=$ 5 copies), 19.3%at lower levels (2–4 copies), and 72.9% as single copies;40% of the tags matched known expressed sequence tags (ESTs),most of which (85.7%) represented a unique EST. Tags withoutmatches in the SAGE database and those expressed as single copiesonly were not considered further. SAGE tags expressed at morethan 0.1% of total transcripts reflected several aspects ofmuscle biology, including sarcomeric structure, energy metabolism,and ribosomal protein expression. Genes highly expressed inEOM were compared with other existing muscle expression databasesto identify conserved and novel patterns in EOM.

CONCLUSIONS. The data provide a normative gene expression databaseand a novel molecular signature that will facilitate study ofEOM development and function and of the mechanisms behind itspreferential targeting or sparing in neuromuscular disease.

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