Bo-Rahm Lee scite author profile

We show here that NdgR, a known transcriptional activator of isopropylmalate dehydratase in actinomycetes, may have other targets in the cell. An in-frame deletion mutant of ndgR showed unexpectedly poor growth in defined minimal medium even in the presence of leucine. To our surprise, it was supplementation of cysteine and methionine that corrected the growth. Based on this, we propose that NdgR induces cysteine-methionine biosynthesis. Direct involvement of NdgR in the very last steps of methionine synthesis with methionine synthase (metH) and 5,10-methylenetetrahydrofolate reductase (metF) was examined. From a pulldown assay, it was seen that NdgR was enriched from crude cell lysates with a strong affinity to metH and metF upstream sequences. Direct physical interaction of NdgR with these targets was further examined with a gel mobility shift assay. ndgR, leuC, metH, and metF were inducible in M145 cells upon nutrient downshift from rich to minimal medium but were not induced in the ndgR knockout mutant. Taking these observations together, NdgR-dependent metH-metF expression would account for the abnormal growth phenotype of the ndgR mutant although there may be additional NdgR-dependent genes in the Cys-Met metabolic pathways. As the first transcriptional factor reported for regulating Cys-Met metabolism in Streptomyces, NdgR links two disparate amino acid families, branched-chain amino acids (BCAAs) and sulfur amino acids, at the transcriptional level. Considering that Cys-Met metabolism is connected to mycothiol and one-carbon metabolism, NdgR may have broad physiological impacts.

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Genome-wide primary transcriptome analysis of H2-producing archaeon Thermococcus onnurineus NA1

Cho

Kim

Jeong

et al. 2017

Sci Rep

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In spite of their pivotal roles in transcriptional and post-transcriptional processes, the regulatory elements of archaeal genomes are not yet fully understood. Here, we determine the primary transcriptome of the H2-producing archaeon Thermococcus onnurineus NA1. We identified 1,082 purine-rich transcription initiation sites along with well-conserved TATA box, A-rich B recognition element (BRE), and promoter proximal element (PPE) motif in promoter regions, a high pyrimidine nucleotide content (T/C) at the −1 position, and Shine-Dalgarno (SD) motifs (GGDGRD) in 5′ untranslated regions (5′ UTRs). Along with differential transcript levels, 117 leaderless genes and 86 non-coding RNAs (ncRNAs) were identified, representing diverse cellular functions and potential regulatory functions under the different growth conditions. Interestingly, we observed low GC content in ncRNAs for RNA-based regulation via unstructured forms or interaction with other cellular components. Further comparative analysis of T. onnurineus upstream regulatory sequences with those of closely related archaeal genomes demonstrated that transcription of orthologous genes are initiated by highly conserved promoter sequences, however their upstream sequences for transcriptional and translational regulation are largely diverse. These results provide the genetic information of T. onnurineus for its future application in metabolic engineering.

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Medium engineering for enhanced production of undecylprodigiosin antibiotic in Streptomyces coelicolor using oil palm biomass hydrolysate as a carbon source

Bhatia

Lee

Sathiyanarayanan

et al. 2016

Bioresource Technology

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Determination of single nucleotide variants in Escherichia coli DH5α by using short-read sequencing

Song

Lee

Cho

et al. 2015

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Escherichia coli DH5α is a common laboratory strain that provides an important platform for routine use in cloning and synthetic biology applications. Many synthetic circuits have been constructed and successfully expressed in E. coli DH5α; however, its genome sequence has not been determined yet. Here, we determined E. coli DH5α genome sequence and identified genetic mutations that affect its phenotypic functions by using short-read sequencing. The sequencing results clearly described the genotypes of E. coli DH5α, which aid in further studies using the strain. Additionally, we observed 105 single nucleotide variants (SNVs), 83% of which were detected in protein-coding regions compared to the parental strain E. coli DH1. Interestingly, 23% of the protein-coding regions have mutations in their amino acid residues, whose biological functions were categorized into two-component systems, peptidoglycan biosynthesis and lipopolysaccharide biosynthesis. These results underscore the advantages of E. coli DH5α, which tolerates the components of transformation buffer and expresses foreign plasmids efficiently. Moreover, these SNVs were also observed in the commercially available strain. These data provide the genetic information of E. coli DH5α for its future application in metabolic engineering and synthetic biology.

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In vitro selection of sialic acid specific RNA aptamer and its application to the rapid sensing of sialic acid modified sugars

Cho

Lee

Cho

et al. 2012

Biotech & Bioengineering

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Sialic acids (SAs) are located on the terminal positions of glycan on a cell surface, which play important role in the spread and metastasis of cancer cells and infection of pathogen. For their detection and diagnosis, the finding of SA specific ligand is an essential prerequisite. Here, RNA aptamer for N-acetylneuraminic acid (Neu5Ac), a representative of SAs, with the high affinity of 1.35 nM and the selectivity was screened by in vitro selection method. The strong binding of the screened aptamer was enough to protect the hydrolysis of Neu5Ac by neuraminidase with the stoichiometry of 1:1 molar ratio. For the rapid detection of SAs, the RNA aptamer was further engineered to the aptazyme sensor by conjugating with a ribozyme following the characterization of selected aptamer by RNase footprinting assay. Without additional desialylation, modification, or/and purification processes, the aptazyme indicated high catalytic activities in the presence of Neu5Ac over 20 µM in several minutes. Also, we observed that the aptazyme sensor shows high sensitivities to Neu5Ac-conjugated sugars as well as Neu5Ac monomer, but not in non-Neu5Ac modified sugars. The aptamer for Neu5Ac can support valuable tools in a wide range of bioanalytical applications as well as biosensors.

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Bo-Rahm Lee

NdgR, a Common Transcriptional Activator for Methionine and Leucine Biosynthesis in Streptomyces coelicolor

Genome-wide primary transcriptome analysis of H2-producing archaeon Thermococcus onnurineus NA1

Medium engineering for enhanced production of undecylprodigiosin antibiotic in Streptomyces coelicolor using oil palm biomass hydrolysate as a carbon source

Determination of single nucleotide variants in Escherichia coli DH5α by using short-read sequencing

In vitro selection of sialic acid specific RNA aptamer and its application to the rapid sensing of sialic acid modified sugars

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