Articles by Sang-Hyuck Park in JoVE
のリグニンダウンレギュレーション Sang-Hyuck Park1, Rebecca Garlock Ong2, Chuansheng Mei3, Mariam Sticklen4 1The School of Plant Sciences, University of Arizona, 2Department of Chemical Engineering and Materials Science, DOE Great Lakes Bioenergy Research Center, Michigan State University, 3The Institute for Sustainable and Renewable Resources, The Institute for Advanced Learning and Research, 4Department of Plant, Soil and Microbial Sciences, Michigan State University 二本鎖RNA干渉（dsRNAi）技術は、より低い植物リグニン含量にトウモロコシシンナモイル補酵素Aレダクターゼ（ZmCCR1）遺伝子をダウンレギュレートするために採用される。細胞壁からのリグニンのダウンレギュレーションは、顕微鏡分析によって可視化しクラソン法により定量される。ヘミセルロースおよび結晶セルロース中の組成変化を分析する。
Other articles by Sang-Hyuck Park on PubMed
Medicago Truncatula Mutants Demonstrate the Role of Plant Calcium Oxalate Crystals As an Effective Defense Against Chewing Insects Plant Physiology. May, 2006 | Pubmed ID: 16514014 Calcium oxalate is the most abundant insoluble mineral found in plants and its crystals have been reported in more than 200 plant families. In the barrel medic Medicago truncatula Gaertn., these crystals accumulate predominantly in a sheath surrounding secondary veins of leaves. Mutants of M. truncatula with decreased levels of calcium oxalate crystals were used to assess the defensive role of this mineral against insects. Caterpillar larvae of the beet armyworm Spodoptera exigua Hübner show a clear feeding preference for tissue from calcium oxalate-defective (cod) mutant lines cod5 and cod6 in choice test comparisons with wild-type M. truncatula. Compared to their performance on mutant lines, larvae feeding on wild-type plants with abundant calcium oxalate crystals suffer significantly reduced growth and increased mortality. Induction of wound-responsive genes appears to be normal in cod5 and cod6, indicating that these lines are not deficient in induced insect defenses. Electron micrographs of insect mouthparts indicate that the prismatic crystals in M. truncatula leaves act as physical abrasives during feeding. Food utilization measurements show that, after consumption, calcium oxalate also interferes with the conversion of plant material into insect biomass during digestion. In contrast to their detrimental effects on a chewing insect, calcium oxalate crystals do not negatively affect the performance of the pea aphid Acyrthosiphon pisum Harris, a sap-feeding insect with piercing-sucking mouthparts. The results confirm a long-held hypothesis for the defensive function of these crystals and point to the potential value of genes controlling crystal formation and localization in crop plants.
Degradation of Amine-based Water Treatment Polymers During Chloramination As N-nitrosodimethylamine (NDMA) Precursors Environmental Science & Technology. Mar, 2009 | Pubmed ID: 19350904 Recent studies indicated that water treatment polymers such as poly(epichlorohydrin dimethylamine) (polyamine) and poly(diallyldimethylammonium chloride) (polyDADMAC) may form N-nitrosodimethylamine (NDMA) when in contact with chloramine water disinfectants. To minimize such potential risk and improve the polymer products, the mechanisms of how the polymers behave as NDMA precursors need to be elucidated. Direct chloramination of polymers and intermediate monomers in reagent water was conducted to probe the predominant mechanisms. The impact of polymer properties including polymer purity, polymer molecular weight and structure, residual dimethylamine (DMA), and other intermediate compounds involved in polymer synthesis, and reaction conditions such as pH, oxidant dose, and contact time on the NDMA formation potential (NDMA-FP) was investigated. Polymer degradation after reaction with chloramines was monitored at the molecular level using FT-IR and Raman spectroscopy. Overall, polyamines have greater NDMA-FP than polyDADMAC, and the NDMA formation from both polymers is strongly related to polymer degradation and DMA release during chloramination. Polyamines' tertiary amine chain ends play a major role in their NDMA-FP, while polyDADMACs' NDMA-FP is related to degradation of the quaternary ammonium ring group.
The Role of SIRT1 on Angiogenic and Odontogenic Potential in Human Dental Pulp Cells Journal of Endodontics. Jul, 2012 | Pubmed ID: 22703651 Although several biological roles of SIRT1 have been reported, the expression and role of SIRT1 in human dental pulp cells (HDPCs) remain unknown. To identify the role of SIRT1 in HDPCS, we measured SIRT1 messenger RNA and protein levels during the odontoblastic differentiation of HDPCs. Additionally, we investigated the effects of SIRT1 overexpression and knockdown on the differentiation of HDPCs.