MiRNA-based therapeutic intervention of cancer

P1201 is a lytic corynephage of Corynebacterium glutamicum NCHU 87078. Its genome consists of a linear double-stranded DNA molecule of 70,579 base pairs, with 3'-protruding cohesive ends of ten nucleotides. We have identified 69 putative open reading frames, including three apparent genes (thymidylate synthase, terminase, and RNR alpha subunit genes) that are interrupted by an intein. Protein-splicing activities of these inteins were demonstrated in Escherichia coli. Three structural proteins including major capsid and major tail proteins were separated by SDS-PAGE and identified by both LC-MS-MS and N-terminal sequence analyses. Bioinformatics analysis indicated that only about 8.7% of its putative gene products shared substantial protein sequence similarity with the lytic corynephage BFK20 from Brevibacterium flavum, the only corynephage whose genome had been sequenced to date, revealing that the P1201 genome is distinct from BFK20. The mosaic-like genome of P1201 indicates extensive horizontal gene transfer among P1201, Gordonia terrae phage GTE5, mycobacteriophages, and several regions of Corynebacterium spp. genomes.

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Biochemical characterization of a novel lysine racemase from Proteus mirabilis BCRC10725

Kuan¹,

Kao²,

Chen³

et al. 2011

Process Biochemistry

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Crystal Structures of Lysine-Preferred Racemases, the Non-Antibiotic Selectable Markers for Transgenic Plants

Kuan

Chu

et al. 2012

PLoS ONE

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Lysine racemase, a pyridoxal 5′-phosphate (PLP)-dependent amino acid racemase that catalyzes the interconversion of lysine enantiomers, is valuable to serve as a novel non-antibiotic selectable marker in the generation of transgenic plants. Here, we have determined the first crystal structure of a lysine racemase (Lyr) from Proteus mirabilis BCRC10725, which shows the highest activity toward lysine and weaker activity towards arginine. In addition, we establish the first broad-specificity amino acid racemase (Bar) structure from Pseudomonas putida DSM84, which presents not only the highest activity toward lysine but also remarkably broad substrate specificity. A complex structure of Bar-lysine is also established here. These structures demonstrate the similar fold of alanine racemase, which is a head-to-tail homodimer with each protomer containing an N-terminal (α/β)8 barrel and a C-terminal β-stranded domain. The active-site residues are located at the protomer interface that is a funnel-like cavity with two catalytic bases, one from each protomer, and the PLP binding site is at the bottom of this cavity. Structural comparisons, site-directed mutagenesis, kinetic, and modeling studies identify a conserved arginine and an adjacent conserved asparagine that fix the orientation of the PLP O3 atom in both structures and assist in the enzyme activity. Furthermore, side chains of two residues in α-helix 10 have been discovered to point toward the cavity and define the substrate specificity. Our results provide a structural foundation for the design of racemases with pre-determined substrate specificity and for the development of the non-antibiotic selection system in transgenic plants.

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Yi-Chia Kuan

Purification and characterization of an aspartic protease from the Rhizopus oryzae protease extract, Peptidase R

Genome sequence of the lytic bacteriophage P1201 from Corynebacterium glutamicum NCHU 87078: Evolutionary relationships to phages from Corynebacterineae

Biochemical characterization of a novel lysine racemase from Proteus mirabilis BCRC10725

Crystal Structures of Lysine-Preferred Racemases, the Non-Antibiotic Selectable Markers for Transgenic Plants

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