Abstract Background Systems biology increasingly relies on deep sequencing with combinatorial index tags to associate biological sequences with their sample, cell, or molecule of origin. Accurate data interpretation depends on the ability to classify sequences based on correct decoding of these combinatorial barcodes. The probability of correct decoding is influenced by both sequence quality and the number and arrangement of barcodes. The rising complexity of experimental designs calls for a probability model that accounts for both sequencing errors and random noise, generalizes to multiple combinatorial tags, and can handle any barcoding scheme. The needs for reproducibility and community benchmark standards demand a peer-reviewed tool tha...
Sequencing technologies are capturing longer-range genomic information at lower error rates, enablin...
Short DNA oligonucleotides (~4 mer) have been used to index samples from different sources, such as ...
Next-generation sequencing has proven an ex-tremely effective technology for molecular counting appl...
Random DNA barcodes are a versatile tool for tracking cell lineages, with applications ranging from ...
In the biological sciences, sequence analysis refers to analytical investigations that use nucleic a...
The diversity and scope of multiplex parallel sequencing applications is steadily increasing. Critic...
High-throughput sequencing technologies are improving in quality, capacity, and costs, providing ver...
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...
Random DNA barcodes are a versatile tool for tracking cell lineages, with applications ranging from ...
Abstract Background Current high-throughput sequencing platforms provide capacity to sequence multip...
High-throughput sequencing technologies are improving in quality, capacity, and costs, providing ver...
Background: DNA barcodes are short unique sequences used to label DNA or RNA-derived samples in mult...
Abstract Background The multiplexing becomes the major limitation of the next-generation sequencing ...
Short DNA oligonucleotides (~4 mer) have been used to index samples from different sources, such as ...
Sequencing technologies are capturing longer-range genomic information at lower error rates, enablin...
Short DNA oligonucleotides (~4 mer) have been used to index samples from different sources, such as ...
Next-generation sequencing has proven an ex-tremely effective technology for molecular counting appl...
Random DNA barcodes are a versatile tool for tracking cell lineages, with applications ranging from ...
In the biological sciences, sequence analysis refers to analytical investigations that use nucleic a...
The diversity and scope of multiplex parallel sequencing applications is steadily increasing. Critic...
High-throughput sequencing technologies are improving in quality, capacity, and costs, providing ver...
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...
Random DNA barcodes are a versatile tool for tracking cell lineages, with applications ranging from ...
Abstract Background Current high-throughput sequencing platforms provide capacity to sequence multip...
High-throughput sequencing technologies are improving in quality, capacity, and costs, providing ver...
Background: DNA barcodes are short unique sequences used to label DNA or RNA-derived samples in mult...
Abstract Background The multiplexing becomes the major limitation of the next-generation sequencing ...
Short DNA oligonucleotides (~4 mer) have been used to index samples from different sources, such as ...
Sequencing technologies are capturing longer-range genomic information at lower error rates, enablin...
Short DNA oligonucleotides (~4 mer) have been used to index samples from different sources, such as ...
Next-generation sequencing has proven an ex-tremely effective technology for molecular counting appl...