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Expanded molecular diversity generation during directed evolution by trinucleotide exchange (TriNEx).


ABSTRACT: Trinucleotide exchange (TriNEx) is a method for generating novel molecular diversity during directed evolution by random substitution of one contiguous trinucleotide sequence for another. Single trinucleotide sequences were deleted at random positions in a target gene using the engineered transposon MuDel that were subsequently replaced with a randomized trinucleotide sequence donated by the DNA cassette termed SubSeq(NNN). The bla gene encoding TEM-1 beta-lactamase was used as a model to demonstrate the effectiveness of TriNEx. Sequence analysis revealed that the mutations were distributed throughout bla, with variants containing single, double and triple nucleotide changes. Many of the resulting amino acid substitutions had significant effects on the in vivo activity of TEM-1, including up to a 64-fold increased activity toward ceftazidime and up to an 8-fold increased resistance to the inhibitor clavulanate. Many of the observed amino acid substitutions were only accessible by exchanging at least two nucleotides per codon, including charge-switch (R164D) and aromatic substitution (W165Y) mutations. TriNEx can therefore generate a diverse range of protein variants with altered properties by combining the power of site-directed saturation mutagenesis with the capacity of whole-gene mutagenesis to randomly introduce mutations throughout a gene.

SUBMITTER: Baldwin AJ 

PROVIDER: S-EPMC2490759 | biostudies-literature | 2008 Aug

REPOSITORIES: biostudies-literature

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Expanded molecular diversity generation during directed evolution by trinucleotide exchange (TriNEx).

Baldwin Amy J AJ   Busse Kathy K   Simm Alan M AM   Jones D Dafydd DD  

Nucleic acids research 20080617 13


Trinucleotide exchange (TriNEx) is a method for generating novel molecular diversity during directed evolution by random substitution of one contiguous trinucleotide sequence for another. Single trinucleotide sequences were deleted at random positions in a target gene using the engineered transposon MuDel that were subsequently replaced with a randomized trinucleotide sequence donated by the DNA cassette termed SubSeq(NNN). The bla gene encoding TEM-1 beta-lactamase was used as a model to demons  ...[more]

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