An“endotoxin-free”E.coli-based cell-free protein synthesis system has been reported to produce therapeutic proteins rapidly and on-demand.However,preparation of the most complex CFPS reagent–the cell extract–remai...An“endotoxin-free”E.coli-based cell-free protein synthesis system has been reported to produce therapeutic proteins rapidly and on-demand.However,preparation of the most complex CFPS reagent–the cell extract–remains time-consuming and labor-intensive because of the relatively slow growth kinetics of the endotoxin-free ClearColiTMBL21(DE3)strain.Here we report a streamlined procedure for preparing E.coli cell extract from ClearColi™using auto-induction media.In this work,the term auto-induction describes cell culture media which eliminates the need for manual induction of protein expression.Culturing Clearcoli™cells in autoinduction media significantly reduces the hands-on time required during extract preparation,and the resulting“endotoxinfree”cell extract maintained the same cell-free protein synthesis capability as extract produced with traditional induction as demonstrated by the high-yield expression of crisantaspase,an FDA approved leukemia therapeutic.It is anticipated that this work will lower the barrier for researchers to enter the field and use this technology as the method to produce endotoxin-free E.coli-based extract for CFPS.展开更多
The thyroid hormones L-thyroxine and triiodo-L-thyronine have profound effects on postembryonic development of most vertebrates. Analysis of their action in mammals is vitiated by the exposure of the developing foetus...The thyroid hormones L-thyroxine and triiodo-L-thyronine have profound effects on postembryonic development of most vertebrates. Analysis of their action in mammals is vitiated by the exposure of the developing foetus to a number of maternal factors which do not allow one to specifically define the role of thyroid hormone (TH)or that of other hormones and factors that modulate its action. Amphibian metamorphosis is obligatorily dependent on TH which can initiate all the diverse physiological manifestations of this postembryonic developmental process(morphogenesis, cell death, re-structuring, etc.) in free-living embryos and larvae of most anurans. This article will first describe the salient features of metamorphosis and its control by TH and other hormones. Emphasis will be laid on the key role played by TH receptor (TR), in particular the phenomenon of TR gene autoinduction, in initiating the developmental action of TH. Finally, it will be argued that the findings on the control of amphibian metamorphosis enhance our understanding of the regulation of postembryonic development by TH in other vertebrate species.展开更多
基金This work was supported by the National Science Foundation CBET Division CAREER Award(grant number:1254148)the Utah NASA Space Grant Consortiumand by the Simmons Center for Cancer Research at Brigham Young University.
文摘An“endotoxin-free”E.coli-based cell-free protein synthesis system has been reported to produce therapeutic proteins rapidly and on-demand.However,preparation of the most complex CFPS reagent–the cell extract–remains time-consuming and labor-intensive because of the relatively slow growth kinetics of the endotoxin-free ClearColiTMBL21(DE3)strain.Here we report a streamlined procedure for preparing E.coli cell extract from ClearColi™using auto-induction media.In this work,the term auto-induction describes cell culture media which eliminates the need for manual induction of protein expression.Culturing Clearcoli™cells in autoinduction media significantly reduces the hands-on time required during extract preparation,and the resulting“endotoxinfree”cell extract maintained the same cell-free protein synthesis capability as extract produced with traditional induction as demonstrated by the high-yield expression of crisantaspase,an FDA approved leukemia therapeutic.It is anticipated that this work will lower the barrier for researchers to enter the field and use this technology as the method to produce endotoxin-free E.coli-based extract for CFPS.
文摘The thyroid hormones L-thyroxine and triiodo-L-thyronine have profound effects on postembryonic development of most vertebrates. Analysis of their action in mammals is vitiated by the exposure of the developing foetus to a number of maternal factors which do not allow one to specifically define the role of thyroid hormone (TH)or that of other hormones and factors that modulate its action. Amphibian metamorphosis is obligatorily dependent on TH which can initiate all the diverse physiological manifestations of this postembryonic developmental process(morphogenesis, cell death, re-structuring, etc.) in free-living embryos and larvae of most anurans. This article will first describe the salient features of metamorphosis and its control by TH and other hormones. Emphasis will be laid on the key role played by TH receptor (TR), in particular the phenomenon of TR gene autoinduction, in initiating the developmental action of TH. Finally, it will be argued that the findings on the control of amphibian metamorphosis enhance our understanding of the regulation of postembryonic development by TH in other vertebrate species.
