OLD
LUTHOR
LUTHOR utilizes a pre-amplification step.
LUTHOR libraries are therefore generated from amplified RNA molecules.
The pre-amplification step enables the generation of libraries from ultra-low input RNA, down to the single-cell level.RNA amplification in LUTHOR is templated by the endogenous mRNA molecules instead of using cDNA intermediates.
QuantSeq
QuantSeq utilizes a different chemistry where no pre-amplification step is employed, requiring higher RNA input amounts.
QuantSeq captures the 3' end of transcripts by oligo(dT) priming and reverse transcription.
During reverse transcription, a partial Illumina compatible adapter is introduced at the 3' end. After removal of the template RNA, the second strand is generated by random priming and extension using a DNA polymerase.
NEW
LUTHOR
LUTHOR HD utilizes a pre-amplification step.
LUTHOR HD libraries are therefore generated from amplified RNA molecules.
The pre-amplification step enables the generation of libraries from ultra-low input RNA, down to the single-cell level.LUTHOR HD includes a 12nt UMI located at the beginning of Read 2, introduced during oligodt priming.
RNA amplification in LUTHOR HD is templated by the endogenous mRNA molecules instead of using cDNA intermediates.
LUTHOR HD requires asymmetrical paired end sequencing to read out the UMI.
QuantSeq
QuantSeq utilizes a different chemistry where no pre-amplification step is employed, requiring higher RNA input amounts.
QuantSeq captures the 3' end of transcripts by oligo(dT) priming and reverse transcription.
During reverse transcription, a partial Illumina compatible adapter is introduced at the 3' end. After removal of the template RNA, the second strand is generated by random priming and extension using a DNA polymerase.QuantSeq is best sequenced with single read sequencing.