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Nam Sook Park,Han Seok Kang,Seon Ku Kim,Yong Gyun Kim,Byung Uuk Cho,Teak Soon Shin,Keun Ki Kim,Hyun Chul Park,Hong Joo Son,Hong Gu Lee,Sang Mong Lee 한국응용곤충학회 2010 한국응용곤충학회 학술대회논문집 Vol.2010 No.05
Fungi belonging to the Paecilomyces spp. have recently been used as food and herbal medicines in Korea and are greatly popular as commercially available powdered supplement or dried fruiting body. Despite this acceptance and its use, little is known of the genes related to its reactive agents. Presently, We have constructed an olig-d(T) primed directional cDNA library from the silkworm Dongchunghacho, an entomopathogenic fungus, of which species is belonging to Paecilomyces spp. based on the previous identification of ITS1 and ITS2 at the molecular level and collected from Jocheon Miryang, Korea. To isolate and screen genes in the fungus, 626 expressed sequence tags(ESTs) were generated by a partial sequencing from the cDNA library. cDNA encoding the glyceraldehyde-3-phosphate dehydrogenase(Pt-GAPDH) of Paecilomyces tenuipes- Jocheon was cloned from the above cDNA library. The complete cDNA sequence of Pt-GAPDH is comprised of 1,014bp encoding 338 amino acid residues. The deduced protein sequence of Pt-GAPDH showed higher homology with Beauberia bassiana-GAPDH(93% amino acid identity). Hydropathy analysis revealed that Pt-GAPDH protein is hydrophilic. The major three amino acids in its composition of amino acid residues were alanine(11.54%), valine(9.47%) and glycine(8.88%). The Pt-GAPDH gene of Paecilomyces tenuipes entomopathogenic fungus consisted of three exons and two introns coding for 338 amino acid residues, and the genomic DNA length of the gene spans 1302bp. The accession number of the gene in GenBank are GU997099 for Pt-GAPDH cDNA and GU997102 for Pt-GAPDH genomic DNA. More investigation works including gene expression, immunological analysis etc. will be carried continuously without hesitation after this presentation.
Nam Sook Park,Han Seok Kang,Seon Ku Kim,Yong Gyun Kim,Byung Uuk Cho,Teak Soon Shin,Keun Ki Kim,Hyun Chul Park,Hong Joo Son,Hong Gu Lee,Sang Mong Lee 한국응용곤충학회 2011 한국응용곤충학회 학술대회논문집 Vol.2011 No.05
Presently, We have constructed an olig-d(T) primed directional cDNA library from the silkworm Dongchunghacho, an entomopathogenic fungus, of which species is belonging to Paecilomyces tenuipes Jocheon-1. To isolate and screen genes in the fungus, 626 expressed sequence tags(ESTs) were generated by a partial sequencing from the cDNA library. Paecilomyces tenuipes Jocheon-1 cDNA encoding the glyceraldehyde-3-phosphate dehydrogenase(Pt-GAPDH) of Paecilomyces tenuipes Jocheon-1 was cloned from the above cDNA library. The complete cDNA sequence of Pt-GAPDHis comprised of 1,014bp encoding 338 amino acid residues. The deduced protein sequence of Pt-GAPDH showed higher homology with Beauberia bassiana-GAPDH(93% amino acid identity). Hydropathy analysis revealed that Pt-GAPDH protein is hydrophilic. The major three amino acids in its composition of amino acid residues were alanine(11.54%), valine(9.47%) and glycine(8.88%). The cDNA encoding Pt-GAPDH was expressed as a 37 kDa polypeptide in baculovirus-infected insect Sf9 cells. The Pt-GAPDH gene of Paecilomyces tenuipes entomopathogenic fungus consisted of three exons and two introns coding for 338 amino acid residues, and the genomic DNA length of the gene spans 1302bp. The accession number of the gene in GenBank are GU997099 for Pt-GAPDH cDNA and GU997102 for Pt-GAPDH genomic DNA.
신택순,김선구,강한석,이길왕,조병욱,전해열 密陽産業大學校 農業技術開發硏究所 1998 農業技術開發硏究所報 Vol.2 No.1
본 연구는 제주재래마의 유전적 특성파악과 이를 통한 타품종과의 유전적 특이성을 가지는 DNA 표지인자를 개발하고자 PCR-RAPD기법을 이용하여 제주재래마와 더러브렛, 가고시마의 3품종에서의 다형 band에 대한 특성파악을 실시한 결과이다. 각 품종별로 10두의 혈액을 혼합한 후 분석하였고 200개의 random primer들 중 PCR증폭양상의 재현성을 기준으로 70개의 primer를 선별하였다. 또한 선별된 primer들중 다형성을 9개의 primer를 이용하여 개체별 DNA분석을 실시하였으며 9개의 prkmer에 의해 나타난 15개의 band는 제주재래마 특이 band, 4개는 더러브렛종에 그리고 4개는 가지고시마 재래마에 품종특이 RAPD band가 나타났다. 따라서 RAPD기법에 의해 품종간의 차이를 보이는 표지인자의 개발이 가능할 뿐 아니라 품종간의 특성차이를 보이는 유전인자 개발과 특성파악이 용이한 것으로 평가되었다. This study was carried out using PCR-RAPD technique to estimate genetic characteristics of Cheju Horse (Jorangmal) and to develop the DNA marker for bread identification in horse. Each three horse breeds was represented by pooled DNA from 10 individuals and tested for 200 different random primers for their reproducible PCR pattern. From them 70 primer were selected and 9 primers were used to detect the difference between breeds at the individual level. Fifteen highly polymorphic bands were observed between breeds using 9 primers . Additionally, the 15 most polymorphic bands showed great difference between breeds in their appearing frequencies, implicating their usefulness in the breed discrimination and in the characterization of genetic structure. Therefore, the polymorphism of RAPD could be used in characterizing genomic difference between breeds and some genetic mechanism that give rise to breed disctimination in horse.
Tool Chipping Detection Using Peak Period of Spindle Vibration During End-Milling of Inconel 718
Gu-Seon Kang,Seung-Gi Kim,양기동,박경희,Dong Yoon Lee 한국정밀공학회 2019 International Journal of Precision Engineering and Vol.20 No.11
This paper presents a new approach to detecting tool chipping by analyzing peak period of spindle vibration, for changing the tool securely before the occurrence of a tool fracture. Peak period analysis refers to the observation of time differences for adjacent peak values, which gives the quantitative variation in time domain. Peak period refers to the time difference for adjacent peak values and indicates changes of frequency component based on the tool condition, thus, it can be used to monitor tool condition. During the end-milling of Inconel 718, monitoring variables such as cutting force, spindle vibration, and spindle current are monitored with sensors. The correlations of monitoring variables are analyzed by comparing them from the perspective of machining pass and tooth period. The spindle vibration is used for detecting the tool chipping and then the peak periods at each machining pass are featured with a statistical value. The result is significantly successful for detecting tool chipping. As chipping occurs in the tool, the magnitude of the feature value increases significantly. Furthermore, the real-time chipping detection capabilities of the proposed method are tested.
Gu-Seon Kang,Jaehyeok Kim,Youngjae Choi,Dong Yoon Lee 한국정밀공학회 2022 International Journal of Precision Engineering and Vol.23 No.8
The in-process monitoring of cutting force coefficients can provide information with which to determine tool wear and tool deflection during machining processes. The robustness of monitoring and control algorithms utilizing virtual machining can also be improved with well-identified cutting coefficients. However, conventional methods for calibrating the coefficients require sets of measured forces in various cutting conditions for linear regression analysis. In this study, we propose to identify the cutting force coefficients using an optimization method to acquire the coefficients from a single cutting condition. The optimization method modifies the design parameters (i.e., arbitrary cutting coefficients) to reduce the discrepancy between the measured and simulated cutting forces, and determines the optimal design parameters (i.e., identifies the cutting coefficients). The proposed method predicts cutting forces more accurately compared to the conventional method. For the real-time identification of the cutting coefficients during the operation, a virtual machining model is utilized, and accurate and rapid calculations are achieved. Moreover, the behaviors of the identified cutting coefficients related to the tool geometry, feed direction, and radial immersion are examined. The proposed method is implemented at a CNC machining center and is experimentally validated.