Yunyoung Kwak

Genome sequence of Serratia nematodiphila DSM 21420T, a symbiotic bacterium from entomopathogenic nematode.

Serratia nematodiphila DSM 21420(T) (=CGMCC 1.6853(T), DZ0503SBS1(T)), isolated from the intestine of Heterorhabditidoides chongmingensis, has been known to have symbiotic-pathogenic life cycle, on the multilateral relationships with entomopathogenic nematode and insect pest. In order to better understanding of this rare feature in Serratia species, we present here the genome sequence of S. nematodiphila DSM 21420(T) with the significance of first genome sequence in this species.

Genome sequence of Mycobacterium aromaticivorans JS19b1T, a novel isolate from Hawaiian soil

Mycobacterium aromaticivorans JS19b1(T) (=ATCC BAA-1378(T), DSM 45407(T)), isolated from petroleum-contaminated Hawaiian soil, has received much attention by possessing the powerful degrading capacity to polycyclic aromatic compounds (PAHs). With a significance of first genome sequence for M. aromaticivorans, the draft genome sequence of strain JS19b1(T) described in this study can provide the genomic basis for expanding the perspective insight of biotechnological application of strain JS19b1(T) as a model strain on PAHs-degradation via complex metabolic pathways.

First Azospirillum genome from aquatic environments: Whole-genome sequence of Azospirillum thiophilum BV-ST, a novel diazotroph harboring a capacity of sulfur-chemolithotrophy from a sulfide spring

Azospirillum thiophilum BV-S(T), isolated from a sulfide spring, is a novel nitrogen-fixing bacterium harboring sulfur-lithotrophy. In order to identify genetic characteristics with habitat- and metabolic features contrasting to those from terrestrial Azospirillum species, we present here the genome sequence of a novel species A. thiophilum BV-S(T), with a significance of first genome report in the aquatic Azospirillum species. The genome of strain BV-S(T) is comprised of 7.6Mb chromosome with a GC content of 68.2%. This information will contribute to expand understandings of sulfur-oxidizer microbes that preserve inherencies as a diazotroph, and further it will provide insights into genome plasticity of the genus Azospirillum for niche specific adaptations.

Complete genome sequence of Pseudomonas rhizosphaerae IH5T (=DSM 16299T), a phosphate-solubilizing rhizobacterium for bacterial biofertilizer.

Pseudomonas rhizosphaerae IH5(T) (=DSM 16299(T)), isolated from the rhizospheric soil of grass growing in Spain, has been reported as a novel species of the genus Pseudomonas harboring insoluble phosphorus solubilizing activity. To understanding the multifunctional biofertilizer better, we report the complete genome sequence of P. rhizosphaerae IH5(T).

Identification and Characterization of the Insecticidal Toxin “Makes Caterpillars Floppy” in Photorhabdus temperata M1021 Using a Cosmid Library

Photorhabdus temperata is an entomopathogenic enterobacterium; it is a nematode symbiont that possesses pathogenicity islands involved in insect virulence. Herein, we constructed a P. temperata M1021 cosmid library in Escherichia coli XL1-Blue MRF` and obtained 7.14 × 105 clones. However, only 1020 physiologically active clones were screened for insect virulence factors by injection of each E. coli cosmid clone into Galleria mellonella and Tenebrio molitor larvae. A single cosmid clone, PtC1015, was consequently selected due to its characteristic virulent properties, e.g., loss of body turgor followed by death of larvae when the clone was injected into the hemocoel. The sequence alignment against the available sequences in Swiss-Prot and NCBI databases, confirmed the presence of the mcf gene homolog in the genome of P. temperata M1021 showing 85% homology and 98% query coverage with the P. luminescens counterpart. Furthermore, a 2932 amino acid long Mcf protein revealed limited similarity with three protein domains. The N-terminus of the Mcf encompassed consensus sequence for a BH3 domain, the central region revealed similarity to toxin B, and the C-terminus of Mcf revealed similarity to the bacterial export domain of ApxIVA, an RTX-like toxin. In short, the Mcf toxin is likely to play a role in the elimination of insect pests, making it a promising model for use in the agricultural field.

Isolation of endosulfan degrading bacteria and their degradation characteristics

A bacterium, which was named to be Bacillus sp. E64-2, capable of degrading endosulfan was isolated from the environmental sample using enrichment culture technique. The Bacillus sp. E64-2 was able to degrade 99% of 10 mg/L endosulfan in the culture media within 7 days at 30 . Endosulfan diol ℃ was the only intermediate by the endosulfan degrading bacterial culture and the pH value of the culture media was significantly increased to pH 8.4 from pH 7.0 after 7 days of incubation. When the endosulfan and the crude extract of the strain were incubated, endosulfan diol was a major metabolite. Both the enzymatic reaction and the pH-increasing effect contribute to the degradation of endosulfan by the bacterial culture.

Draft Genome Sequence of Chryseobacterium sp. Strain P1-3, a Keratinolytic Bacterium Isolated from Poultry Waste

ABSTRACT Chryseobacterium sp. strain P1-3, harboring keratin degrading activity, has recently been isolated from poultry waste. Here, we report the 4.6-Mbp draft genome sequence of the keratinolytic bacterium with a G+C content of 37.0% and 4,087 protein-coding genes.

Complete genome sequence of Paenibacillus beijingensis 7188T (=DSM 24997T), a novel rhizobacterium from jujube garden soil

We present here the complete genome sequence of a novel species Paenibacillus beijingensis 7188(T) (=DSM 24997(T)) from jujube rhizosphere soil that consists of one circular chromosome of 5,749,967 bp with a GC content of 52.5%. On the significance of first genome information in this species, the genome sequence of strain 7188(T) will provide a better comprehension of Paenibacillus species for the practical uses as a biofertilizer in agriculture.

Complete genome sequence of a keratin-degrading bacterium Chryseobacterium gallinarum strain DSM 27622T isolated from chicken

Chryseobacterium gallinarum strain DSM 27622(T) is a keratin-degrading bacterium belonging to the class Flavobacteriia, which was isolated from chicken. Here, we report the 4633,632bp complete genome sequence of the strain DSM 27622(T) with 4161 genes.

Application of Biofilm-Forming Bacteria on the Enhancement of Organophosphorus Fungicide Degradation

ABSTRACT This study aimed to develop technology enhancing the biodegradation efficacy against organophosphorus fungicide with biofilm-forming bacteria in situ. Using the crystal violet staining method, two bacterial strains having biofilm formation capability were isolated and identified as Pseudomonas sp. C7 and Bacillus sp. E5. Compared with the culture of tolclofos-methyl degrader Sphingomonas sp. 224, biofilm formation was improved by co-inoculation with biofilm-forming bacterium Bacillus sp. E5. Evaluated in liquid culture conditions, this two-species mixed consortium was observed to degrade tolclofos-methyl more effectively than Sphingomonas sp. 224 alone, with an approximately 90% degradation efficiency within 48 h of dosing. The improved effectiveness of the consortium biofilm was reflected using soil in situ with an approximately 7% increased degradation ratio over Sphingomonas sp. 224 alone. This is the first report demonstrating improved bioremediation degradation efficacy against tolclofos-methyl exhibited by a consortium biofilm. This work presents a possible effective bioremediation strategy using a specific biofilm composition against pollutants containing organophosphorus compounds in situ.