Abstract Background Current high-throughput sequencing platforms provide capacity to sequence multiple samples in parallel. Different samples are labeled by attaching a short sample specific nucleotide sequence, barcode, to each DNA molecule prior pooling them into a mix containing a number of libraries to be sequenced simultaneously. After sequencing, the samples are binned by identifying the barcode sequence within each sequence read. In order to tolerate sequencing errors, barcodes should be sufficiently apart from each other in sequence space. An additional constraint due to both nucleotide usage and basecalling accuracy is that the proportion of different nucleotides should be in balance in each barcode position. The number of samples ...
We consider the design and evaluation of short barcodes, with a length between six and eight nucleot...
We consider the design and evaluation of short barcodes, with a length between six and eight nucleot...
Abstract Background The multiplexing becomes the major limitation of the next-generation sequencing ...
Background: Current high-throughput sequencing platforms provide capacity to sequence multiple sampl...
Abstract Background Current high-throughput sequencin...
Short DNA oligonucleotides (~4 mer) have been used to index samples from different sources, such as ...
Short DNA oligonucleotides (~4 mer) have been used to index samples from different sources, such as ...
Random DNA barcodes are a versatile tool for tracking cell lineages, with applications ranging from ...
The diversity and scope of multiplex parallel sequencing applications is steadily increasing. Critic...
The diversity and scope of multiplex parallel sequencing applications is steadily increasing. Critic...
The diversity and scope of multiplex parallel sequencing applications is steadily increasing. Critic...
International audienceUsing adequate DNA barcodes is essential to unambiguously identify each DNA li...
Synthetic DNA barcodes are double-stranded DNA molecules designed to carry recoverable information, ...
High-throughput screens allow for the identification of specific biomolecules with characteristics o...
Random DNA barcodes are a versatile tool for tracking cell lineages, with applications ranging from ...
We consider the design and evaluation of short barcodes, with a length between six and eight nucleot...
We consider the design and evaluation of short barcodes, with a length between six and eight nucleot...
Abstract Background The multiplexing becomes the major limitation of the next-generation sequencing ...
Background: Current high-throughput sequencing platforms provide capacity to sequence multiple sampl...
Abstract Background Current high-throughput sequencin...
Short DNA oligonucleotides (~4 mer) have been used to index samples from different sources, such as ...
Short DNA oligonucleotides (~4 mer) have been used to index samples from different sources, such as ...
Random DNA barcodes are a versatile tool for tracking cell lineages, with applications ranging from ...
The diversity and scope of multiplex parallel sequencing applications is steadily increasing. Critic...
The diversity and scope of multiplex parallel sequencing applications is steadily increasing. Critic...
The diversity and scope of multiplex parallel sequencing applications is steadily increasing. Critic...
International audienceUsing adequate DNA barcodes is essential to unambiguously identify each DNA li...
Synthetic DNA barcodes are double-stranded DNA molecules designed to carry recoverable information, ...
High-throughput screens allow for the identification of specific biomolecules with characteristics o...
Random DNA barcodes are a versatile tool for tracking cell lineages, with applications ranging from ...
We consider the design and evaluation of short barcodes, with a length between six and eight nucleot...
We consider the design and evaluation of short barcodes, with a length between six and eight nucleot...
Abstract Background The multiplexing becomes the major limitation of the next-generation sequencing ...