| A ''GC-rich'' method for mammalian gene expression: a dominant role of non-coding DNA GC content in regulation of mammalian gene expression
| [0055]
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| Distribution of fragile X mental retardation 1 CGG repeat and flanking haplotypes in a large Chinese population
| [0055]
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| Fragile X syndrome screening in Chinese children with unknown intellectual developmental disorder
| [0055]
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| Fundamentals of sequencing of difficult templates---an overview.
| [0055]
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| Improved PCR method for amplification of GC-rich DNA sequences
| [0055]
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| A primer design strategy for PCR amplification of GC-rich DNA sequences
| [0055]
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| DMSO and betaine greatly improve amplification of GC-rich constructs in de novo synthesis
| [0055]
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| Enhancement of PCR amplification of moderate GC-containing and highly GC-rich DNA sequences
| [0055]
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| Sequencing the unsequenceable: expanded CGG-repeat alleles of the fragile X gene
| [0055]
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| A window into third-generation sequencing
| [0055]
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| Single-locus enrichment without amplification for sequencing and direct detection of epigenetic modifications
| [0055]
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| Target Enrichment via DNA Hybridization Capture
| [0055]
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| Comprehensive human genome amplification using multiple displacement amplification.
| [0055]
|