AIM To investigate autophagy-related genes, particularly ATG12, in apoptosis and cell cycle in hepatitis B virus(HBV)-associated hepatocellular carcinoma(HCC) and non-HBV-HCC cell lines.METHODS The expression of autop...AIM To investigate autophagy-related genes, particularly ATG12, in apoptosis and cell cycle in hepatitis B virus(HBV)-associated hepatocellular carcinoma(HCC) and non-HBV-HCC cell lines.METHODS The expression of autophagy-related genes in HBVassociated hepatocellular carcinoma and non-HBV-HCC cell lines and human liver tissues was examined by quantitative real-time reverse transcriptase-polymerase chain reaction(q RT-PCR) and western blotting. The silencing of target genes was used to examine the function of various genes in apoptosis and cell cycle progression. RESULTS The expression of autophagy related genes ATG5, ATG12, ATG9 A and ATG4 B expression was analyzed in Hep G2.2.15 cells and compared with Hep G2 and THLE cells. We found that ATG5 and ATG12 m RNA expression was significantly increased in Hep G2.2.15 cells compared to HepG 2 cells(P < 0.005). Moreover, ATG5-ATG12 protein levels were increased in tumor liver tissues compared to adjacent non-tumor tissues mainly from HCC patients with HBV infection. We also analyzed the function of ATG12 in cell apoptosis and cell cycle progression. The percentage of apoptotic cells increased by 11.4% in ATG12-silenced Hep G2.2.15 cells(P < 0.005) but did not change in ATG12-silenced HepG 2 cells under starvation with Earle's balanced salt solution. However, the combination blockade of Notch signaling and ATG12 decreased the apoptotic rate of HepG 2.2.15 cells from 55.6% to 50.4%(P < 0.05). CONCLUSION ATG12 is important for HBV-associated apoptosis and a potential drug target for HBV-HCC. Combination inhibition of ATG12/Notch signaling had no additional effect on HepG 2.2.15 apoptosis.展开更多
The conversion of forests into agricultural lands is a major cause of deforestation,particularly in the mountain ecosystems of northern Thailand.It results in a rapid loss of biological diversity of both flora and fau...The conversion of forests into agricultural lands is a major cause of deforestation,particularly in the mountain ecosystems of northern Thailand.It results in a rapid loss of biological diversity of both flora and fauna.In addition,the above-ground biomass(AGB),which can be a major source of carbon storage,is also decreased.This study aimed to predict the AGB in Doi Suthep-Pui National Park,Chiang Mai province,based on land-use/land cover(LULC)changes from 2000 to 2030.Landsat-5 TM(2000)and Landsat-8 TM(2015)satellite images were analyzed to predict LULC changes to 2030.Temporary plots(30 m 930 m)were established in each LULC type for AGB analysis;trees with diameters at breast height≥4.5 cm were identified and measured.AGB of all LULC types were analyzed based on specific allometric equations of each type.The results show that area of forest and nonforested areas fluctuated during the study period.Through the first 15 years(2000–2015),5%(2.9 km^2)of forest changed to either agriculture or urban lands,especially mixed deciduous forest and lower montane forest.There was a similar trend in the 2030 prediction,showing the effect of forest fragmentation and the resultant high number of patches.Total AGB tended to decrease over the 30-year period from 12.5 to 10.6 t ha^-1 in the first and second periods,respectively.Deforestation was the main factor influencing the loss of AGB(30.6 t ha^-1)related to LULC changes.Furthermore,habitat loss would be expected to result in decreased biological diversity.Consequently,a management plan should be developed to avoid unsustainable land use changes,which may adversely affect human well-being.展开更多
The majority of hepatocellular carcinoma(HCC)cases are associated with the hepatitis B virus(HBV)infection.Autophagy related protein 9A(ATG9A)is a transmembrane protein required for autophagosome formation.In order to...The majority of hepatocellular carcinoma(HCC)cases are associated with the hepatitis B virus(HBV)infection.Autophagy related protein 9A(ATG9A)is a transmembrane protein required for autophagosome formation.In order to investigate the role of ATG9A in HBV-associated HCC,ATG9A protein expression was determined in tumor liver tissues and compared with adjacent nontumor tissues from HCC patients with or without HBV infection.In HBVassociated HCC tissues,ATG9A protein level was increased in tumor liver tissues,but not in cases of non-HBV HCC.Our findings suggested that ATG9A might be involved in HBV and cancer cell survival.Therefore,we aimed to analyze the function of ATG9A in HBV replication using RNA interference to evaluate the HBV DNA level using real-time PCR.In the present study,there were no significant differences between shATG9A-transfected HepG2.2.15 cells and the mock control.However,we found that silencing ATG9A affected apoptosis in HepG2.2.15 and HepG2 cell lines.Our results indicated that ATG9A might be partly involved in the survival of HCC.Thus,the inhibition of ATG9A together with other targets might be a potential drug target for HCC treatment.展开更多
The main propose of this research was to develop a two-step biodiesel production technique from animal fat as a raw material. The developed process consists ofesterification and transesterification steps. With special...The main propose of this research was to develop a two-step biodiesel production technique from animal fat as a raw material. The developed process consists ofesterification and transesterification steps. With special attention to optimize the first step is acid catalyzed esterification to reduce free fatty acid content and the second step is alkali catalyzed transesterification for converting triglyceride to fatty acid methyl ester or biodiesel. Animal fat containing 78.80 mg KOH/g of high acid value and molecular weight of 851 g/mol with the highest oleic acid content was used as raw material. Respond surface methodology (RSM) was applied for the experiment design. This were 20 experiments involving the three investigated variables of methanol to animal fat ratio, amount of sulfuric acid catalyst and reaction time that were studied on esterification to optimize the condition for decreasing acid value in animal fat less than 2 mg KOH/g. The animal fat with low acid value was further experimented in transesterification step to obtain fatty acid methyl ester or biodiesel. Animal fat biodiesel is further investigated by determining its fuel properties according to the ASTM standard test method.展开更多
Wax esters were derived from long chain fatty acids and long chain alcohols with chain length of 12 carbons or more. These compounds have many potential applications in cosmetics, pharmaceuticals and food industries. ...Wax esters were derived from long chain fatty acids and long chain alcohols with chain length of 12 carbons or more. These compounds have many potential applications in cosmetics, pharmaceuticals and food industries. The present work focuses on the synthesis of wax esters using palm fatty acid distillate and oleyl alcohol catalyzed by Amberlyst 15. Response surface methodology (RSM) based on a five-level, three-variable central composite design (CCD) was used to evaluate the interactive effects of synthesis, of amount of Amberlyst 15 catalyst (21.6-38.4% w/w), reaction time (18-102 min) and molar ratio (palm fatty acid distillate to oleyl alcohol, 1:1.16-1:2.84) on the percentage conversion of palm fatty acid distillate. The optimum conditions derived via RSM were: amount of catalyst 33% w/w, reaction time 95 minute and palm fatty acid to oleyl alcohol molar ratio 1:2.7. The actual experimental conversion was 81.52% under optimum condition, which compared well to the maximum predicted value of 80.50%. Analysis of the yield showed that at optimum condition, 80.54% wax esters were produced.展开更多
Objective:To find the possible way to predict the mode of embryonic development of nudibranchs,focusing on egg mass characteristics,embryonic development,and shell patterns of the veligers.Methods:Eight species of nud...Objective:To find the possible way to predict the mode of embryonic development of nudibranchs,focusing on egg mass characteristics,embryonic development,and shell patterns of the veligers.Methods:Eight species of nudibranch were collected in the eastern part of the Gulf of Thailand.The specimens were allowed to copulate and lay their egg masses under laboratory conditions.Embryonic development was monitored under a light microscope with a digital camera every day until hatching.Results:Most of the species of nudibranch collected had a single larva in each egg capsule that developed,except for Jorunna funebris,which had 1-4 larvae in each egg capsule.All the specimens had the same pattern of cell division and hatching into the water column during the veliger form.However,the species developed at different rates in each stage.Conclusions:All species in the current study had planktotrophic development except Doriprismatica atromarginata,which showed lecithotrophic development.Based on embryonic development among the nudibranchs that showed planktotrophic development,Jorunna funebris appeared to be the most advantageous species for culture development with regard to utilization and conservation in the future.展开更多
基金Supported by National Research Council of Thailand 2013 and the Ratchadaphiseksomphot Matching Fund from the Faculty of Medicine,Chulalongkorn UniversityInternational Research Integration,Chula Research Scholar,Ratchadaphiseksomphot Endowment FundCenter of Excellence in Immunology and Immune-mediated Diseases and the Rachadapisaek Sompote Post-Doctoral Fund,Chulalongkorn University
文摘AIM To investigate autophagy-related genes, particularly ATG12, in apoptosis and cell cycle in hepatitis B virus(HBV)-associated hepatocellular carcinoma(HCC) and non-HBV-HCC cell lines.METHODS The expression of autophagy-related genes in HBVassociated hepatocellular carcinoma and non-HBV-HCC cell lines and human liver tissues was examined by quantitative real-time reverse transcriptase-polymerase chain reaction(q RT-PCR) and western blotting. The silencing of target genes was used to examine the function of various genes in apoptosis and cell cycle progression. RESULTS The expression of autophagy related genes ATG5, ATG12, ATG9 A and ATG4 B expression was analyzed in Hep G2.2.15 cells and compared with Hep G2 and THLE cells. We found that ATG5 and ATG12 m RNA expression was significantly increased in Hep G2.2.15 cells compared to HepG 2 cells(P < 0.005). Moreover, ATG5-ATG12 protein levels were increased in tumor liver tissues compared to adjacent non-tumor tissues mainly from HCC patients with HBV infection. We also analyzed the function of ATG12 in cell apoptosis and cell cycle progression. The percentage of apoptotic cells increased by 11.4% in ATG12-silenced Hep G2.2.15 cells(P < 0.005) but did not change in ATG12-silenced HepG 2 cells under starvation with Earle's balanced salt solution. However, the combination blockade of Notch signaling and ATG12 decreased the apoptotic rate of HepG 2.2.15 cells from 55.6% to 50.4%(P < 0.05). CONCLUSION ATG12 is important for HBV-associated apoptosis and a potential drug target for HBV-HCC. Combination inhibition of ATG12/Notch signaling had no additional effect on HepG 2.2.15 apoptosis.
基金supported by the Center for Advanced Studies in Tropical Natural Resources(CASTNaR)Kasetsart University,Bangkok,Thailandthe Kasetsart University Research and Development Institute(KURDI)。
文摘The conversion of forests into agricultural lands is a major cause of deforestation,particularly in the mountain ecosystems of northern Thailand.It results in a rapid loss of biological diversity of both flora and fauna.In addition,the above-ground biomass(AGB),which can be a major source of carbon storage,is also decreased.This study aimed to predict the AGB in Doi Suthep-Pui National Park,Chiang Mai province,based on land-use/land cover(LULC)changes from 2000 to 2030.Landsat-5 TM(2000)and Landsat-8 TM(2015)satellite images were analyzed to predict LULC changes to 2030.Temporary plots(30 m 930 m)were established in each LULC type for AGB analysis;trees with diameters at breast height≥4.5 cm were identified and measured.AGB of all LULC types were analyzed based on specific allometric equations of each type.The results show that area of forest and nonforested areas fluctuated during the study period.Through the first 15 years(2000–2015),5%(2.9 km^2)of forest changed to either agriculture or urban lands,especially mixed deciduous forest and lower montane forest.There was a similar trend in the 2030 prediction,showing the effect of forest fragmentation and the resultant high number of patches.Total AGB tended to decrease over the 30-year period from 12.5 to 10.6 t ha^-1 in the first and second periods,respectively.Deforestation was the main factor influencing the loss of AGB(30.6 t ha^-1)related to LULC changes.Furthermore,habitat loss would be expected to result in decreased biological diversity.Consequently,a management plan should be developed to avoid unsustainable land use changes,which may adversely affect human well-being.
文摘The majority of hepatocellular carcinoma(HCC)cases are associated with the hepatitis B virus(HBV)infection.Autophagy related protein 9A(ATG9A)is a transmembrane protein required for autophagosome formation.In order to investigate the role of ATG9A in HBV-associated HCC,ATG9A protein expression was determined in tumor liver tissues and compared with adjacent nontumor tissues from HCC patients with or without HBV infection.In HBVassociated HCC tissues,ATG9A protein level was increased in tumor liver tissues,but not in cases of non-HBV HCC.Our findings suggested that ATG9A might be involved in HBV and cancer cell survival.Therefore,we aimed to analyze the function of ATG9A in HBV replication using RNA interference to evaluate the HBV DNA level using real-time PCR.In the present study,there were no significant differences between shATG9A-transfected HepG2.2.15 cells and the mock control.However,we found that silencing ATG9A affected apoptosis in HepG2.2.15 and HepG2 cell lines.Our results indicated that ATG9A might be partly involved in the survival of HCC.Thus,the inhibition of ATG9A together with other targets might be a potential drug target for HCC treatment.
文摘The main propose of this research was to develop a two-step biodiesel production technique from animal fat as a raw material. The developed process consists ofesterification and transesterification steps. With special attention to optimize the first step is acid catalyzed esterification to reduce free fatty acid content and the second step is alkali catalyzed transesterification for converting triglyceride to fatty acid methyl ester or biodiesel. Animal fat containing 78.80 mg KOH/g of high acid value and molecular weight of 851 g/mol with the highest oleic acid content was used as raw material. Respond surface methodology (RSM) was applied for the experiment design. This were 20 experiments involving the three investigated variables of methanol to animal fat ratio, amount of sulfuric acid catalyst and reaction time that were studied on esterification to optimize the condition for decreasing acid value in animal fat less than 2 mg KOH/g. The animal fat with low acid value was further experimented in transesterification step to obtain fatty acid methyl ester or biodiesel. Animal fat biodiesel is further investigated by determining its fuel properties according to the ASTM standard test method.
文摘Wax esters were derived from long chain fatty acids and long chain alcohols with chain length of 12 carbons or more. These compounds have many potential applications in cosmetics, pharmaceuticals and food industries. The present work focuses on the synthesis of wax esters using palm fatty acid distillate and oleyl alcohol catalyzed by Amberlyst 15. Response surface methodology (RSM) based on a five-level, three-variable central composite design (CCD) was used to evaluate the interactive effects of synthesis, of amount of Amberlyst 15 catalyst (21.6-38.4% w/w), reaction time (18-102 min) and molar ratio (palm fatty acid distillate to oleyl alcohol, 1:1.16-1:2.84) on the percentage conversion of palm fatty acid distillate. The optimum conditions derived via RSM were: amount of catalyst 33% w/w, reaction time 95 minute and palm fatty acid to oleyl alcohol molar ratio 1:2.7. The actual experimental conversion was 81.52% under optimum condition, which compared well to the maximum predicted value of 80.50%. Analysis of the yield showed that at optimum condition, 80.54% wax esters were produced.
基金funded by the Center of Advanced Studies in Tropical Natural Resources,KU Institute for Advanced Studies,Kasetsart University and Faculty of Technology,Mahasarakham University.
文摘Objective:To find the possible way to predict the mode of embryonic development of nudibranchs,focusing on egg mass characteristics,embryonic development,and shell patterns of the veligers.Methods:Eight species of nudibranch were collected in the eastern part of the Gulf of Thailand.The specimens were allowed to copulate and lay their egg masses under laboratory conditions.Embryonic development was monitored under a light microscope with a digital camera every day until hatching.Results:Most of the species of nudibranch collected had a single larva in each egg capsule that developed,except for Jorunna funebris,which had 1-4 larvae in each egg capsule.All the specimens had the same pattern of cell division and hatching into the water column during the veliger form.However,the species developed at different rates in each stage.Conclusions:All species in the current study had planktotrophic development except Doriprismatica atromarginata,which showed lecithotrophic development.Based on embryonic development among the nudibranchs that showed planktotrophic development,Jorunna funebris appeared to be the most advantageous species for culture development with regard to utilization and conservation in the future.
