2003
DOI: 10.1073/pnas.2136655100
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Cap analysis gene expression for high-throughput analysis of transcriptional starting point and identification of promoter usage

Abstract: We introduce cap analysis gene expression (CAGE), which is based on preparation and sequencing of concatamers of DNA tags deriving from the initial 20 nucleotides from 5 end mRNAs. CAGE allows high-throughout gene expression analysis and the profiling of transcriptional start points (TSP), including promoter usage analysis. By analyzing four libraries (brain, cortex, hippocampus, and cerebellum), we redefined more accurately the TSPs of 11-27% of the analyzed transcriptional units that were hit. The frequency … Show more

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Cited by 671 publications
(544 citation statements)
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“…Similarly, full-length human cDNAs were used to annotate and functionally analyse human promoters [19,20]. More recently, several techniques that sequence short tags from the 5' end of cDNAs have been developed including 5' serial analysis of gene expression (5' SAGE) [21], oligo-capping [22] and cap analysis of gene expression (CAGE) [23], which when combined with high-throughput sequencing achieve higher coverage producing more reliable and quantitative mapping of 5' ends. These techniques allow genome-wide precise TSS mapping at single nucleotide resolution and provide the means for analysing promoterassociated features at high resolution.…”
Section: Single-nucleotide Transcription Initiation Data Is Central Tmentioning
confidence: 99%
See 1 more Smart Citation
“…Similarly, full-length human cDNAs were used to annotate and functionally analyse human promoters [19,20]. More recently, several techniques that sequence short tags from the 5' end of cDNAs have been developed including 5' serial analysis of gene expression (5' SAGE) [21], oligo-capping [22] and cap analysis of gene expression (CAGE) [23], which when combined with high-throughput sequencing achieve higher coverage producing more reliable and quantitative mapping of 5' ends. These techniques allow genome-wide precise TSS mapping at single nucleotide resolution and provide the means for analysing promoterassociated features at high resolution.…”
Section: Single-nucleotide Transcription Initiation Data Is Central Tmentioning
confidence: 99%
“…CAGE is a high-throughput method for transcriptome analysis [23] that takes advantage of the 7-methylguanosine cap structure found at 5' ends of RNAPII transcripts to map precise transcription start sites (Fig. 2).…”
Section: Cap Analysis Of Gene Expression (Cage)mentioning
confidence: 99%
“…Subsequently, improved approaches such as rapid amplification of cDNA ends (RACE) (Frohman et al 1988) and cap-trapped 59 expressed sequence tag (EST) sequencing (Carninci et al 1996) were developed. More recently, cap analysis of gene expression (CAGE), a high-throughput method for promoter discovery, has been used in mouse and human to characterize capped transcript ends (Shiraki et al 2003;Carninci et al 2006). In Drosophila, TSSs have been defined on a modest scale by sequencing and annotation of 59 ESTs generated from cap-trapped cDNA clones (Misra et al 2002;Stapleton et al 2002).…”
mentioning
confidence: 99%
“…The conventional SAGE has been further optimized. LongSAGE (Saha et al 2002), CAGE (Shiraki et al 2003) and SuperSAGE (Matsumura et al 2003) were developed by using different tagging enzymes to release longer tags, which would provide higher specificity for transcript identification. Recently, a so-called SuperSAGE array was At present, a few disadvantages remain with the technique (Table 1).…”
Section: Tag-based Sequencing Transcriptome Platformmentioning
confidence: 99%