Your search keyword '"Sang Deuk Lee"' showing total 9 results

1. A Descriptive Review on the Potential Use of Diatom Biosilica as a Powerful Functional Biomaterial: A Natural Drug Delivery System

Author

Sunggu Kang, Yeeun Woo, Yoseph Seo, Daehyeon Yoo, Daeryul Kwon, Hyunjun Park, Sang Deuk Lee, Hah Young Yoo, and Taek Lee

Subjects

diatom biosilica, drug delivery system, surface functionalization, anticancer drugs, wound healing, bone regeneration, Pharmacy and materia medica, RS1-441

Abstract

Although various chemically synthesized materials are essential in medicine, food, and agriculture, they can exert unexpected side effects on the environment and human health by releasing certain toxic chemicals. Therefore, eco-friendly and biocompatible biomaterials based on natural resources are being actively explored. Recently, biosilica derived from diatoms has attracted attention in various biomedical fields, including drug delivery systems (DDS), due to its uniform porous nano-pattern, hierarchical structure, and abundant silanol functional groups. Importantly, the structural characteristics of diatom biosilica improve the solubility of poorly soluble substances and enable sustained release of loaded drugs. Additionally, diatom biosilica predominantly comprises SiO2, has high biocompatibility, and can easily hybridize with other DDS platforms, including hydrogels and cationic DDS, owing to its strong negative charge and abundant silanol groups. This review explores the potential applications of various diatom biosilica-based DDS in various biomedical fields, with a particular focus on hybrid DDS utilizing them.

Published

2024

2. Recent Progress in Diatom Biosilica: A Natural Nanoporous Silica Material as Sustained Release Carrier

Author

Hayeon Lim, Yoseph Seo, Daeryul Kwon, Sunggu Kang, Jiyun Yu, Hyunjun Park, Sang Deuk Lee, and Taek Lee

Subjects

diatom, drug delivery systems, biosilica, oral administration, biocompatible, Pharmacy and materia medica, RS1-441

Abstract

A drug delivery system (DDS) is a useful technology that efficiently delivers a target drug to a patient’s specific diseased tissue with minimal side effects. DDS is a convergence of several areas of study, comprising pharmacy, medicine, biotechnology, and chemistry fields. In the traditional pharmacological concept, developing drugs for disease treatment has been the primary research field of pharmacology. The significance of DDS in delivering drugs with optimal formulation to target areas to increase bioavailability and minimize side effects has been recently highlighted. In addition, since the burst release found in various DDS platforms can reduce drug delivery efficiency due to unpredictable drug loss, many recent DDS studies have focused on developing carriers with a sustained release. Among various drug carriers, mesoporous silica DDS (MS-DDS) is applied to various drug administration routes, based on its sustained releases, nanosized porous structures, and excellent solubility for poorly soluble drugs. However, the synthesized MS-DDS has caused complications such as toxicity in the body, long-term accumulation, and poor excretion ability owing to acid treatment-centered manufacturing methods. Therefore, biosilica obtained from diatoms, as a natural MS-DDS, has recently emerged as an alternative to synthesized MS-DDS. This natural silica carrier is an optimal DDS platform because culturing diatoms is easy, and the silica can be separated from diatoms using a simple treatment. In this review, we discuss the manufacturing methods and applications to various disease models based on the advantages of biosilica.

Published

2023

3. New Records of the Diatoms (Bacillariophyceae) from the Coastal Lagoons in Korea

Author

Daeryul Kwon, Mirye Park, Chang Soo Lee, Chaehong Park, and Sang Deuk Lee

Subjects

lagoon, new record diatoms, taxonomic, ecological, habitat, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Lagoons are natural bodies of water that are isolated from the sea due to the development of a sand bar or spit. Each lagoon has distinct ecological characteristics, and these sites also serve as popular tourist attractions because they are common habitats for migratory birds and are characterized by beautiful natural scenery. Lagoons also have distinct ecological characteristics from those of their associated estuaries, and there are active research efforts to classify, qualify, and quantify the high biodiversity of lagoons. The lagoons in Korea are primarily distributed in the East Sea, and are represented by Hwajinpo, Yeongrangho, and Gyeongpoho. Here, we report the discovery of 11 unrecorded diatom species (Diploneis didyma, Mastogloia elliptica, Cosmioneis citriformis, Haslea crucigera, Pinnularia bertrandii, Pinnularia nodosa var. percapitata, Gyrosigma sinense, Gomphonema guaraniarum, Gomphonema italicum, Navicula freesei, Trybionella littoralis var. tergestina) among samples collected from the Hwajinpo, Hyangho, Maeho, Gapyeongri wetland, Cheonjinho, and Gyeongpoho lagoons in Korea during a survey from 2018–2020. We present the taxonomic characteristics, ecological information, habitat environmental conditions, and references for these 11 species.

Published

2021

4. Identification of New Sub-Fossil Diatoms Flora in the Sediments of Suncheonman Bay, Korea

Author

Mirye Park, Sang Deuk Lee, Hoil Lee, Jin-Young Lee, Daeryul Kwon, and Jeong-Min Choi

Subjects

sub-fossil diatom, sediment, Suncheonman Bay, new record, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Suncheonman Bay, Korea’s most representative estuary, is an invasive coastal wetland composed of 22.6 km2 of tidal flats surrounded by the Yeosu and Goheung Peninsulas. In January 2006, this region was registered in the Ramsar Convention list in Korea, representing the first registered wetland. Estuaries are generally known to have high species diversity. In particular, several studies have been conducted on planktonic and epipelic diatoms as primary producers. Suncheonman Bay has already been involved in many biological and geochemical studies, but fossil diatoms have not been evaluated. Therefore, we investigated fossil diatoms in Suncheonman Bay and introduced sub-fossil diatoms recorded in Korea. One sedimentary core has been extracted in 2018. We identified 87 diatom taxa from 52 genera in the SCW03 core sample. Of these, six species represent new records in Korea: Cymatonitzschia marina, Fallacia hodgeana, Navicula mannii, Metascolioneis tumida, Surirella recedens, and Thalassionema synedriforme. These six newly recorded diatom species were examined by light microscopy and scanning electron microscopy. The ecological habitats for all the investigated taxa are presented.

Published

2021

5. Morphology and Phylogeny of Scrippsiella precaria Montresor & Zingone (Thoracosphaerales, Dinophyceae) from Korean Coastal Waters

Author

Hyun Jung Kim, Zhun Li, Nam Seon Kang, Haifeng Gu, Daekyung Kim, Min Ho Seo, Sang Deuk Lee, Suk Min Yun, Seok-Jin Oh, and Hyeon Ho Shin

Subjects

Scrippsiella, resting cyst, intercalary plate, precingular plate, ribotype, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

The dinoflagellate genus Scrippsiella is a common member of phytoplankton and their cysts are also frequently reported in coastal sediments worldwide. However, the diversity of Scrippsiella in Korean waters has not been fully investigated. Here, several isolates of Scrippsiella precaria collected from Korean waters and germinated from resting cysts were examined using light and scanning electron microscopy. The resting cysts were characterized by pointed calcareous spines and one or two red accumulation bodies, and the archeopyle was mesoepicystal, representing the loss of 2–4′ and 1–3a paraplates. Rounded resting cysts were found in culture, and an increase in spine length was observed until 8 days of development. Korean isolates of S. precaria had the plate formula of Po, X, 4′, 3a, 7″, 6C, 4S, 5‴, 2⁗. There were differences in the cell size and location of the red body between Korean isolates and previously described cells of S. precaria. In addition, the Korean isolates of S. precaria had two types of the 5″ plate that either contacted the 2a plate or not. Molecular phylogeny based on internal transcribed spacer (ITS) and large subunit (LSU) rDNA sequences revealed that the Korean isolates were nested within the subclade of PRE (S. precaria and related species) in the clade of Scrippsiella sensu lato, and that the PRE subclade had two ribotypes: ribotype 1 consisting of the isolates from Korea, China, and Australia, and ribotype 2 consisting of the isolates from Italy and Greece. Lineages between isolates of ribotype 1 were likely to be related to the dispersal by ocean currents and ballast waters from international shipping, and the two types of spine shapes and locations of the 5″ plates may be a distinct feature for ribotype 1.

Published

2021

6. New Records of the Diatoms (Bacillariophyceae) from the Coastal Lagoons in Korea

Author

Chae-Hong Park, Daeryul Kwon, Chang Soo Lee, Sang Deuk Lee, and Mirye Park

Subjects

0106 biological sciences, taxonomic, Naval architecture. Shipbuilding. Marine engineering, Pinnularia, Biodiversity, habitat, VM1-989, Ocean Engineering, Wetland, GC1-1581, Oceanography, 010603 evolutionary biology, 01 natural sciences, ecological, Water Science and Technology, Civil and Structural Engineering, geography, geography.geographical_feature_category, biology, Ecology, 010604 marine biology & hydrobiology, Shoal, Estuary, biology.organism_classification, new record diatoms, lagoon, Diatom, Habitat, Navicula

Abstract

Lagoons are natural bodies of water that are isolated from the sea due to the development of a sand bar or spit. Each lagoon has distinct ecological characteristics, and these sites also serve as popular tourist attractions because they are common habitats for migratory birds and are characterized by beautiful natural scenery. Lagoons also have distinct ecological characteristics from those of their associated estuaries, and there are active research efforts to classify, qualify, and quantify the high biodiversity of lagoons. The lagoons in Korea are primarily distributed in the East Sea, and are represented by Hwajinpo, Yeongrangho, and Gyeongpoho. Here, we report the discovery of 11 unrecorded diatom species (Diploneis didyma, Mastogloia elliptica, Cosmioneis citriformis, Haslea crucigera, Pinnularia bertrandii, Pinnularia nodosa var. percapitata, Gyrosigma sinense, Gomphonema guaraniarum, Gomphonema italicum, Navicula freesei, Trybionella littoralis var. tergestina) among samples collected from the Hwajinpo, Hyangho, Maeho, Gapyeongri wetland, Cheonjinho, and Gyeongpoho lagoons in Korea during a survey from 2018–2020. We present the taxonomic characteristics, ecological information, habitat environmental conditions, and references for these 11 species.

Published

2021

7. Identification of New Sub-Fossil Diatoms Flora in the Sediments of Suncheonman Bay, Korea

Author

Hoil Lee, Sang Deuk Lee, Mirye Park, Daeryul Kwon, Jin-Young Lee, and Jeong-Min Choi

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Ocean Engineering, Wetland, GC1-1581, Oceanography, 01 natural sciences, new record, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, geography, geography.geographical_feature_category, biology, 010604 marine biology & hydrobiology, Species diversity, Estuary, Plankton, biology.organism_classification, Diatom, Habitat, sediment, Suncheonman Bay, Navicula, Bay, sub-fossil diatom

Abstract

Suncheonman Bay, Korea’s most representative estuary, is an invasive coastal wetland composed of 22.6 km2 of tidal flats surrounded by the Yeosu and Goheung Peninsulas. In January 2006, this region was registered in the Ramsar Convention list in Korea, representing the first registered wetland. Estuaries are generally known to have high species diversity. In particular, several studies have been conducted on planktonic and epipelic diatoms as primary producers. Suncheonman Bay has already been involved in many biological and geochemical studies, but fossil diatoms have not been evaluated. Therefore, we investigated fossil diatoms in Suncheonman Bay and introduced sub-fossil diatoms recorded in Korea. One sedimentary core has been extracted in 2018. We identified 87 diatom taxa from 52 genera in the SCW03 core sample. Of these, six species represent new records in Korea: Cymatonitzschia marina, Fallacia hodgeana, Navicula mannii, Metascolioneis tumida, Surirella recedens, and Thalassionema synedriforme. These six newly recorded diatom species were examined by light microscopy and scanning electron microscopy. The ecological habitats for all the investigated taxa are presented.

Published

2021

8. Morphology and Phylogeny of Scrippsiella precaria Montresor & Zingone (Thoracosphaerales, Dinophyceae) from Korean Coastal Waters

Author

Zhun Li, Hyun-Jung Kim, Min Ho Seo, Haifeng Gu, Daekyung Kim, Seok-Jin Oh, Sang Deuk Lee, Suk Min Yun, Nam Seon Kang, and Hyeon Ho Shin

Subjects

0106 biological sciences, Zoology, Ocean Engineering, 010603 evolutionary biology, 01 natural sciences, lcsh:Oceanography, Sensu, lcsh:VM1-989, Genus, Phylogenetics, resting cyst, lcsh:GC1-1581, Internal transcribed spacer, Water Science and Technology, Civil and Structural Engineering, intercalary plate, biology, 010604 marine biology & hydrobiology, Dinoflagellate, lcsh:Naval architecture. Shipbuilding. Marine engineering, Subclade, biology.organism_classification, Scrippsiella, ribotype, Molecular phylogenetics, precingular plate, Dinophyceae

Abstract

The dinoflagellate genus Scrippsiella is a common member of phytoplankton and their cysts are also frequently reported in coastal sediments worldwide. However, the diversity of Scrippsiella in Korean waters has not been fully investigated. Here, several isolates of Scrippsiella precaria collected from Korean waters and germinated from resting cysts were examined using light and scanning electron microscopy. The resting cysts were characterized by pointed calcareous spines and one or two red accumulation bodies, and the archeopyle was mesoepicystal, representing the loss of 2–4′ and 1–3a paraplates. Rounded resting cysts were found in culture, and an increase in spine length was observed until 8 days of development. Korean isolates of S. precaria had the plate formula of Po, X, 4′, 3a, 7″, 6C, 4S, 5‴, 2⁗. There were differences in the cell size and location of the red body between Korean isolates and previously described cells of S. precaria. In addition, the Korean isolates of S. precaria had two types of the 5″ plate that either contacted the 2a plate or not. Molecular phylogeny based on internal transcribed spacer (ITS) and large subunit (LSU) rDNA sequences revealed that the Korean isolates were nested within the subclade of PRE (S. precaria and related species) in the clade of Scrippsiella sensu lato, and that the PRE subclade had two ribotypes: ribotype 1 consisting of the isolates from Korea, China, and Australia, and ribotype 2 consisting of the isolates from Italy and Greece. Lineages between isolates of ribotype 1 were likely to be related to the dispersal by ocean currents and ballast waters from international shipping, and the two types of spine shapes and locations of the 5″ plates may be a distinct feature for ribotype 1.

Published

2021

9. Effects of Different Nutrient and Trace Metal Concentrations on Growth of the Toxic Dinoflagellate Gymnodinium catenatum Isolated from Korean Coastal Waters

Author

Kyeong Yoon Kwak, Hyeon Ho Shin, Weol-Ae Lim, Suk Min Yun, Min Ho Seo, Hyun-Jung Kim, Sang Deuk Lee, Zhun Li, Seok Jin Oh, Jinik Hwang, Kyong Ha Han, Joo Yeon Youn, and Jong Woo Park

Subjects

0106 biological sciences, Vitamin, lcsh:TJ807-830, Geography, Planning and Development, lcsh:Renewable energy sources, chemistry.chemical_element, 010501 environmental sciences, Management, Monitoring, Policy and Law, vitamin B1, 01 natural sciences, chemistry.chemical_compound, iron, Nutrient, Nitrate, nitrate, Trace metal, Growth rate, selenium, lcsh:Environmental sciences, phosphate, 0105 earth and related environmental sciences, lcsh:GE1-350, biology, Renewable Energy, Sustainability and the Environment, lcsh:Environmental effects of industries and plants, 010604 marine biology & hydrobiology, Dinoflagellate, biology.organism_classification, Phosphate, lcsh:TD194-195, chemistry, copper, Environmental chemistry, growth rate, Selenium

Abstract

The effects of the addition of nutrients (nitrate: N, phosphate: P, and vitamin B1) and trace metals (iron: Fe, Copper: Cu, and selenium: Se) on the growth of Gymnodinium catenatum, which was isolated from Korean coastal waters, were investigated. The Korean isolate of G. catenatum grew under a wide range of concentrations of N and P. Whilst high concentrations of N (&gt, N: P ratio of 23.5) did not stimulate the growth rate, an enhanced growth rate and cell density were observed with the addition of P. The experimental addition of vitamin B1 revealed that G. catenatum is not dependent on vitamin B1 for growth. Moreover, the addition of Fe and Cu resulted in no significant differences in the growth patterns and rates of G. catenatum between the controls and treatments. It is thus possible that growth of the Korean isolate of G. catenatum does not require high concentrations of Fe and Cu. However, the cell densities were enhanced in the stationary phases of treatments upon addition of Se, and the maximum cell densities were higher than those in the culture experiments upon additions of other nutrient and trace metals. Our findings indicate that G. catenatum prefers P and Se for proliferation, rather than other nutritional sources.

Published

2020