Integrating gene synthesis and microfluidic protein analysis for rapid protein engineering
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A symposium report. The concept of template assembled synthetic proteins (TASP) has been evaluated for the locked-in fold derived from the DNA-binding bba zinc finger motif based on the consensus sequence Xaa3-Cys-Xaa2-4-Cys-Xaa12-His-Xaa3-4-His-Xaa4 to mi ...
One of the important goals of biol. is to understand the relationship between DNA sequence information and nonlinear cellular responses. This relationship is central to the ability to effectively engineer cellular phenotypes, pathways, and characteristics. ...
During DNA sequence analysis of cosmid L373 from the Mycobacterium leprae genome, an open reading frame of 1.4 kb encoding a protein with some homology to the immunodominant 34-kDa protein of Mycobacterium paratuberculosis, but lacking significant serologi ...
A symposium report on synthetic strategies which provide a synthetic entry to a new generation of template assembled synthetic proteins (TASP). [on SciFinder (R)] ...
A review, with 33 refs. The authors review here the template-assembled synthetic proteins concept and some of its extensions in peptide mimicry and supramol. chem. [on SciFinder (R)] ...
A review with 43 refs. on strategies for the synthesis of protein mimetics and artificial proteins. The ultimate goal in protein de novo design is the construction of artificial proteins inhibiting tailor-made structural and functional properties. To creat ...
A review with 35 refs. Creating functional biol. mols. de novo requires a detailed understanding of the intimate relationship between primary sequence, folding mechanism, and packing topol., and remains up to now a most challenging goal in protein design a ...
The ability to determine the location and relative strength of all transcription-factor binding sites in a genome is important both for a comprehensive understanding of gene regulation and for effective promoter engineering in biotechnological applications ...
A review with 38 refs. The ultimate goal in protein de novo design is the construction of artificial proteins exhibiting tailor-made structural and functional properties. To create native-like macromols. in copying nature's way had proven to be difficult b ...
