A yeast deletion library was screened based on NADH fluorescence using a 384-well plate assay to identify a yeast isolate lacking a previously identified cell surface oxidase exhibiting an oscillatory pattern with a p...A yeast deletion library was screened based on NADH fluorescence using a 384-well plate assay to identify a yeast isolate lacking a previously identified cell surface oxidase exhibiting an oscillatory pattern with a period length of 25 min and resistant to the ENOX1-specific inhibitor simalikalactone D (YNOX for yeast-specific ENOX = ENOX4). The cDNA was cloned from a yeast over expression library using NADH fluorescence analyzed by Fast Fourier transform and decomposition fits. The objective was to identify and sequence an ENOX homologue in Saccharomyces cerevisiae with a 25 min rather than a 24 min period length (YNOX). The finding identified YDR005C as the yeast ENOX protein with a temperature-independent 25 min period length and insensitive to inhibition by simalikalactone D. The encoded protein was expressed in bacteria and characterized. Gel slices corresponding to 55 kDa and 39 kDa His-tagged proteins exhibited 25 min oscillatory patterns not inhibited by 1 μM simalikalactone D for both NADH oxidation and reduced coenzyme Q10 oxidation as well as a protein disulfide-thiol interchange activity which alternated with the oxidative activities. Activities were phased by low-frequency electromagnetic fields but, in contrast, to yeast ENOX1, not by addition of melatonin. The assay in the presence of D2O shifted the length of the oscillatory period from 25 min to 32 min. The YDR005C deletion mutant cells lacked the ENOX4 clock output present in the wild type yeast.展开更多
The yeast, Saccharomyces cerevisiae, has an ENOX1 activity with a period length of 24 min similar to that of other eukaryotes. In contrast to other eukaryotes, however, Saccharomyces cerevisiae has a second ENOX1-like...The yeast, Saccharomyces cerevisiae, has an ENOX1 activity with a period length of 24 min similar to that of other eukaryotes. In contrast to other eukaryotes, however, Saccharomyces cerevisiae has a second ENOX1-like activity with a period length of 25 min. The latter is distinguishable from the traditional ENOX1 on the basis of the longer period length along with resistance to an ENOX1 inhibitor, simalikalactone D, and failure to be phased by melatonin. In addition, two periods are apparent in measurements of oxygen consumption indicating that the consumption of oxygen to water occurs independently by homodimers of both of the two forms of ENOX. Based on the measurements of glyceraldehyde-3- phosphate dehydrogenase, S. cerevisiae exhibits circadian activity maxima at 24 and 25 h together with a 40 h period possibly representing the 40 min metabolic rhythm of yeast not observed in our measurement of oxygen consumption and normally observed only with continuous cultures. The findings are indicative of at least three independent time-keeping systems being operative in a single cell.展开更多
A yeast (Saccharomyces cerevisiae) deletion library was screened based on NADH fluorescence using a 384 well plate assay and robotics to identify a yeast isolate lacking the 24 min periodic cell surface oxidase. The o...A yeast (Saccharomyces cerevisiae) deletion library was screened based on NADH fluorescence using a 384 well plate assay and robotics to identify a yeast isolate lacking the 24 min periodic cell surface oxidase. The oxidase was shown previously to be a candidate ultradian oscillator of the yeast’s biological clock. The cDNA was cloned from a yeast overexpression library and the encoded protein was expressed in bacteria and characterized. Glyceraldehyde-3-phosphate dehydrogenase activity was used as the cellular circadian indicator. The identified gene was YML117W which encodes a ca 126 kDa putative RNA-binding protein. The candidate ENOX1 activity from yeast had functional characteristics similar to those of other constitutive ENOX1 proteins of eukaryotes exhibiting oscillating activities with a temperature independent period length of 24 min phased by melatonin and low frequency electromagnetic fields and susceptible to inhibition by the ENOX1 inhibitor, simalikalactone D. The YML117W deletion mutant cells lacked the ENOX1 clock output present in wild type yeast. The findings identify YML117W as the ENOX1 of Saccharomyces cerevisiae and support its proposed function as an ultradian oscillator of the yeast biological clock.展开更多
文摘A yeast deletion library was screened based on NADH fluorescence using a 384-well plate assay to identify a yeast isolate lacking a previously identified cell surface oxidase exhibiting an oscillatory pattern with a period length of 25 min and resistant to the ENOX1-specific inhibitor simalikalactone D (YNOX for yeast-specific ENOX = ENOX4). The cDNA was cloned from a yeast over expression library using NADH fluorescence analyzed by Fast Fourier transform and decomposition fits. The objective was to identify and sequence an ENOX homologue in Saccharomyces cerevisiae with a 25 min rather than a 24 min period length (YNOX). The finding identified YDR005C as the yeast ENOX protein with a temperature-independent 25 min period length and insensitive to inhibition by simalikalactone D. The encoded protein was expressed in bacteria and characterized. Gel slices corresponding to 55 kDa and 39 kDa His-tagged proteins exhibited 25 min oscillatory patterns not inhibited by 1 μM simalikalactone D for both NADH oxidation and reduced coenzyme Q10 oxidation as well as a protein disulfide-thiol interchange activity which alternated with the oxidative activities. Activities were phased by low-frequency electromagnetic fields but, in contrast, to yeast ENOX1, not by addition of melatonin. The assay in the presence of D2O shifted the length of the oscillatory period from 25 min to 32 min. The YDR005C deletion mutant cells lacked the ENOX4 clock output present in the wild type yeast.
文摘The yeast, Saccharomyces cerevisiae, has an ENOX1 activity with a period length of 24 min similar to that of other eukaryotes. In contrast to other eukaryotes, however, Saccharomyces cerevisiae has a second ENOX1-like activity with a period length of 25 min. The latter is distinguishable from the traditional ENOX1 on the basis of the longer period length along with resistance to an ENOX1 inhibitor, simalikalactone D, and failure to be phased by melatonin. In addition, two periods are apparent in measurements of oxygen consumption indicating that the consumption of oxygen to water occurs independently by homodimers of both of the two forms of ENOX. Based on the measurements of glyceraldehyde-3- phosphate dehydrogenase, S. cerevisiae exhibits circadian activity maxima at 24 and 25 h together with a 40 h period possibly representing the 40 min metabolic rhythm of yeast not observed in our measurement of oxygen consumption and normally observed only with continuous cultures. The findings are indicative of at least three independent time-keeping systems being operative in a single cell.
文摘A yeast (Saccharomyces cerevisiae) deletion library was screened based on NADH fluorescence using a 384 well plate assay and robotics to identify a yeast isolate lacking the 24 min periodic cell surface oxidase. The oxidase was shown previously to be a candidate ultradian oscillator of the yeast’s biological clock. The cDNA was cloned from a yeast overexpression library and the encoded protein was expressed in bacteria and characterized. Glyceraldehyde-3-phosphate dehydrogenase activity was used as the cellular circadian indicator. The identified gene was YML117W which encodes a ca 126 kDa putative RNA-binding protein. The candidate ENOX1 activity from yeast had functional characteristics similar to those of other constitutive ENOX1 proteins of eukaryotes exhibiting oscillating activities with a temperature independent period length of 24 min phased by melatonin and low frequency electromagnetic fields and susceptible to inhibition by the ENOX1 inhibitor, simalikalactone D. The YML117W deletion mutant cells lacked the ENOX1 clock output present in wild type yeast. The findings identify YML117W as the ENOX1 of Saccharomyces cerevisiae and support its proposed function as an ultradian oscillator of the yeast biological clock.
