Bioethanol is a renewable,clean energy and a very important basic chemical raw material,improving production efciency and reducing production cost are the goals pursued by ethanol enterprises.Adding acid protease in t...Bioethanol is a renewable,clean energy and a very important basic chemical raw material,improving production efciency and reducing production cost are the goals pursued by ethanol enterprises.Adding acid protease in the process of producing ethanol from grain will have many efects on fermentation,one of the most concerned efects is to increase liquor yield.Acid protease can hydrolyze the protein in cereals to produce free amino acids that can be used directly by yeast,thus reducing the amount of sugar consumed for amino acid metabolism,and allowing more sugar to be converted to ethanol.The application method and efect of acid protease in the industrial production of ethanol from corn were studied in this study,the results showed that the addition of acid protease at the dosage of 10 U/g(raw material)during yeast seeding could replace urea,promote yeast proliferation,reduce the infection rate,shorten the fermentation period by 7.5 h and increase the alcohol yield of raw materials by 0.33 percentage point.When acid protease was used in ethanol production line with an annual output of 180,000 tons,the net proft increased by at least US$4900/day compared with the control process.It is hoped that this study can lay a foundation for the application of acid protease in ethanol industry.展开更多
The small ubiquitin-related modifier (SUMO) modification plays an important role in the regulation of abscisic acid (ABA) signaling, but the function of the SUMO protease, in ABA signaling, remains largely unknown...The small ubiquitin-related modifier (SUMO) modification plays an important role in the regulation of abscisic acid (ABA) signaling, but the function of the SUMO protease, in ABA signaling, remains largely unknown. Here, we show that the SUMO protease, ASPI positively regulates ABA signaling. Mutations in ASPI resulted in an ABA-insensitive phenotype, during early seedling develop- ment. Wild-type ASP1 successfully rescued, whereas an ASPI mutant (C577S), defective in SUMO protease activity, failed to rescue, the ABA-insensitive phenotype of asp1-1. Expression of ABI5 and MYB3o target genes was attenuated in asp^-I and our genetic analyses revealed that ASP1 may function upstream of ABI5 and MYB3o.展开更多
Traditionally,universally used pelt bating technologies rely on the application of trypsin,neutral and alkaline microbial proteases but suffer from complicated operation,limited bating efficiency and unsatisfac-tory l...Traditionally,universally used pelt bating technologies rely on the application of trypsin,neutral and alkaline microbial proteases but suffer from complicated operation,limited bating efficiency and unsatisfac-tory leather performance.Therefore,devising a new pelt bating approach to achieve high bating efficiency and excellent leather performance has always been wished for by the leather industry.To pursue this goal,years of persistent research work enabled us to develop a novel approach for pelt bating by means of acidic proteases in pickling process.Initially,basic enzymatic characteristics and bating effectiveness of several typical acidic pro-teases in pelt pickling medium were investigated;then,the bating effectiveness through the quantitative charac-terization of protease activity of the optimal acidic protease was compared with that of the conventional bating enzyme.The results indicated that all of the selected acidic proteases had good salt-tolerance and exhibited optimum activity at pH 3.0–4.0.The novel pickling-bating method based on microbial origin acidic protease L80A led to an outstanding performance on pelt bating at the dosage of 150 U/mL of collagenolytic activity.The bating effectiveness of acidic protease L80A was comparable to and even better than that of trypsin BEM due to its mod-erate proteolytic ability.Moreover,the deep and even penetration of acidic protease in the pelt permitted it to produce soft,organoleptically stable and overall better quality crust leather than that of the conventional trypsin bating method.Additionally,pelt bating was performed along with the pickling process without extra inactiva-tion and washing operation,making the bating operation more efficient,economical,and environment friendly.Results had made us to conclude that this cutting-edge acidic proteases based pickling-bating method could be the first step/way forward to replace the decades-old traditional pelt bating technology.展开更多
文摘Bioethanol is a renewable,clean energy and a very important basic chemical raw material,improving production efciency and reducing production cost are the goals pursued by ethanol enterprises.Adding acid protease in the process of producing ethanol from grain will have many efects on fermentation,one of the most concerned efects is to increase liquor yield.Acid protease can hydrolyze the protein in cereals to produce free amino acids that can be used directly by yeast,thus reducing the amount of sugar consumed for amino acid metabolism,and allowing more sugar to be converted to ethanol.The application method and efect of acid protease in the industrial production of ethanol from corn were studied in this study,the results showed that the addition of acid protease at the dosage of 10 U/g(raw material)during yeast seeding could replace urea,promote yeast proliferation,reduce the infection rate,shorten the fermentation period by 7.5 h and increase the alcohol yield of raw materials by 0.33 percentage point.When acid protease was used in ethanol production line with an annual output of 180,000 tons,the net proft increased by at least US$4900/day compared with the control process.It is hoped that this study can lay a foundation for the application of acid protease in ethanol industry.
基金supported by grants from the National Natural Science Foundation of China(31670186)the Chinese Academy of Sciences(XDA08010105)
文摘The small ubiquitin-related modifier (SUMO) modification plays an important role in the regulation of abscisic acid (ABA) signaling, but the function of the SUMO protease, in ABA signaling, remains largely unknown. Here, we show that the SUMO protease, ASPI positively regulates ABA signaling. Mutations in ASPI resulted in an ABA-insensitive phenotype, during early seedling develop- ment. Wild-type ASP1 successfully rescued, whereas an ASPI mutant (C577S), defective in SUMO protease activity, failed to rescue, the ABA-insensitive phenotype of asp1-1. Expression of ABI5 and MYB3o target genes was attenuated in asp^-I and our genetic analyses revealed that ASP1 may function upstream of ABI5 and MYB3o.
基金This work was financially supported by the National Key Research and Devel-opment Program of China(2017YFB0308402).
文摘Traditionally,universally used pelt bating technologies rely on the application of trypsin,neutral and alkaline microbial proteases but suffer from complicated operation,limited bating efficiency and unsatisfac-tory leather performance.Therefore,devising a new pelt bating approach to achieve high bating efficiency and excellent leather performance has always been wished for by the leather industry.To pursue this goal,years of persistent research work enabled us to develop a novel approach for pelt bating by means of acidic proteases in pickling process.Initially,basic enzymatic characteristics and bating effectiveness of several typical acidic pro-teases in pelt pickling medium were investigated;then,the bating effectiveness through the quantitative charac-terization of protease activity of the optimal acidic protease was compared with that of the conventional bating enzyme.The results indicated that all of the selected acidic proteases had good salt-tolerance and exhibited optimum activity at pH 3.0–4.0.The novel pickling-bating method based on microbial origin acidic protease L80A led to an outstanding performance on pelt bating at the dosage of 150 U/mL of collagenolytic activity.The bating effectiveness of acidic protease L80A was comparable to and even better than that of trypsin BEM due to its mod-erate proteolytic ability.Moreover,the deep and even penetration of acidic protease in the pelt permitted it to produce soft,organoleptically stable and overall better quality crust leather than that of the conventional trypsin bating method.Additionally,pelt bating was performed along with the pickling process without extra inactiva-tion and washing operation,making the bating operation more efficient,economical,and environment friendly.Results had made us to conclude that this cutting-edge acidic proteases based pickling-bating method could be the first step/way forward to replace the decades-old traditional pelt bating technology.
