Moon‐Soo Kim scite author profile

Transcription activator-like effectors (TALEs) have revolutionized the field of genome engineering. We present here a systematic assessment of TALE DNA recognition, using quantitative electrophoretic mobility shift assays and reporter gene activation assays. Within TALE proteins, tandem 34-amino acid repeats recognize one base pair each and direct sequence-specific DNA binding through repeat variable di-residues (RVDs). We found that RVD choice can affect affinity by four orders of magnitude, with the relative RVD contribution in the order NG > HD ∼ NN ≫ NI > NK. The NN repeat preferred the base G over A, whereas the NK repeat bound G with 103-fold lower affinity. We compared AvrBs3, a naturally occurring TALE that recognizes its target using some atypical RVD-base combinations, with a designed TALE that precisely matches ‘standard’ RVDs with the target bases. This comparison revealed unexpected differences in sensitivity to substitutions of the invariant 5′-T. Another surprising observation was that base mismatches at the 5′ end of the target site had more disruptive effects on affinity than those at the 3′ end, particularly in designed TALEs. These results provide evidence that TALE–DNA recognition exhibits a hitherto un-described polarity effect, in which the N-terminal repeats contribute more to affinity than C-terminal ones.

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Scaling laws of voxels in two-photon photopolymerization nanofabrication

Sun

et al. 2003

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Understanding the performance of individual voxels is critical to establish two-photon photopolymerization as a nanoprocessing tool. In this letter, we report that at near-threshold exposure condition voxel shape scaling follows different laws in the courses of varying laser power and changing exposure duration. The voxel aspect ratio, when exposure enhanced, monotonically increases and reaches a saturation status for the two processes that are conventionally regarded as equivalent for voxel volume tuning. A growth model that deals with fine photopolymerization process occurring at the submicron-focal volume is proposed and applied to interpret the unexpected phenomenon.

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Technological Convergence of IT and BT: Evidence from Patent Analysis

Geum¹,

Kim²,

Lee³

et al. 2012

ETRI J

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Transcription activator like effector (TALE)-directed piggyBac transposition in human cells

Owens

Mauro

Stoytchev

et al. 2013

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Insertional therapies have shown great potential for combating genetic disease and safer methods would undoubtedly broaden the variety of possible illness that can be treated. A major challenge that remains is reducing the risk of insertional mutagenesis due to random insertion by both viral and non-viral vectors. Targetable nucleases are capable of inducing double-stranded breaks to enhance homologous recombination for the introduction of transgenes at specific sequences. However, off-target DNA cleavages at unknown sites can lead to mutations that are difficult to detect. Alternatively, the piggyBac transposase is able perform all of the steps required for integration; therefore, cells confirmed to contain a single copy of a targeted transposon, for which its location is known, are likely to be devoid of aberrant genomic modifications. We aimed to retarget transposon insertions by comparing a series of novel hyperactive piggyBac constructs tethered to a custom transcription activator like effector DNA-binding domain designed to bind the first intron of the human CCR5 gene. Multiple targeting strategies were evaluated using combinations of both plasmid-DNA and transposase-protein relocalization to the target sequence. We demonstrated user-defined directed transposition to the CCR5 genomic safe harbor and isolated single-copy clones harboring targeted integrations.

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Moon‐Soo Kim

Quantitative analysis of TALE–DNA interactions suggests polarity effects

Scaling laws of voxels in two-photon photopolymerization nanofabrication

Technological Convergence of IT and BT: Evidence from Patent Analysis

Transcription activator like effector (TALE)-directed piggyBac transposition in human cells

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