In order to design microarray oligonucleotides, in the context of new metabolic pathways discovery, it appears that a full backtranslation of oligopeptides is a promising approach. Protein to DNA reverse translation is a time-consuming task that can provide unreasonable quantities of data. This is why most current applications use genetic degenerated code or data mining-based techniques to select the best reverse translation of a short protein sequence called oligopeptide. When the purpose is only to design short oligos it is particularly interesting to have the complete sequences to solve the design problems of enzyme specific oligos for microarrays. In this paper, we revisit existing bioinformatics applications, which bring reverse transl...
Sixty-one codons specify 20 amino acids, offering cells many options for encoding a polypeptide sequ...
The construction of custom libraries is critical for rational protein engineering and directed evolu...
AbstractAn important goal in protein engineering is to control associations between designed protein...
In order to design microarray oligonucleotides, in the context of new metabolic pathways discovery, ...
International audienceIn the context of new metabolic pathways discovery, a full backtranslation of ...
International audienceWhen studying complex environments where the composing microorganisms are unkn...
When studying complex environments where the composing microorganisms are unknown, exploratory tools...
DNA hybridization methods have become the most widely used tools in molecular biology to identify or...
Summary: Several applications require the backtranslation of a protein sequence into a nucleic acid ...
Several technological applications require the translation of a protein into a nucleic acid that cod...
National audienceIn the genomic sequence processing domain, bias in codon usage is a well known phen...
Background: Backtranslation is the process of decoding a sequence of amino acids into the correspond...
This study describes a method for the backtranslation of an aminoacidic sequence, an extremely usefu...
International audienceFrameshift mutations in protein-coding DNA sequences produce a drastic change ...
Recent advances in DNA sequencing, synthesis and genetic engineering have enabled the introduction o...
Sixty-one codons specify 20 amino acids, offering cells many options for encoding a polypeptide sequ...
The construction of custom libraries is critical for rational protein engineering and directed evolu...
AbstractAn important goal in protein engineering is to control associations between designed protein...
In order to design microarray oligonucleotides, in the context of new metabolic pathways discovery, ...
International audienceIn the context of new metabolic pathways discovery, a full backtranslation of ...
International audienceWhen studying complex environments where the composing microorganisms are unkn...
When studying complex environments where the composing microorganisms are unknown, exploratory tools...
DNA hybridization methods have become the most widely used tools in molecular biology to identify or...
Summary: Several applications require the backtranslation of a protein sequence into a nucleic acid ...
Several technological applications require the translation of a protein into a nucleic acid that cod...
National audienceIn the genomic sequence processing domain, bias in codon usage is a well known phen...
Background: Backtranslation is the process of decoding a sequence of amino acids into the correspond...
This study describes a method for the backtranslation of an aminoacidic sequence, an extremely usefu...
International audienceFrameshift mutations in protein-coding DNA sequences produce a drastic change ...
Recent advances in DNA sequencing, synthesis and genetic engineering have enabled the introduction o...
Sixty-one codons specify 20 amino acids, offering cells many options for encoding a polypeptide sequ...
The construction of custom libraries is critical for rational protein engineering and directed evolu...
AbstractAn important goal in protein engineering is to control associations between designed protein...