Comparison of Patterns of Accumulation of Ribulose Bisphosphate Carboxylase Antigen and Catalytic Activity and Measurement of Antigen Half-Life during the Cell Cycle of Chlorella sorokiniana

By use of specific immunochemical procedures, ribulose-1,5-bisphosphate carboxylase (RuBPCase), antigen and catalytic activity were shown to have coincident step-patterns of accumulation during the cell cycle of Chlorella sorokiniana. Pulse-chase studies, employing radioactive sulfate, were performed during the period of rapid accumulation of enzyme activity and during the period of constant enzyme activity in the cell cycle. No degradation of RuBPCase antigen could be detected during either of these cell cycle periods. Thus, the step-pattern of accumulation of RuBPCase activity resulted from periodic synthesis of an enzyme that was stable under steady-state cell cycle conditions. Although inhibition of protein synthesis by cycloheximide, at different times in the cell cycle in the light, resulted in rapid decay of RuBPCase activity, this loss in activity occurred without detectable loss in enzyme antigen. When synchronous cells were placed into the dark, to slow the rate of protein synthesis in the absence of cycloheximide, the levels of enzyme antigen and activity decreased by 30 and 50%, respectively, during the 10-hour dark period. Thus, in C. sorokiniana changes in RuBPCase activity do not necessarily reflect parallel changes in enzyme antigen, particularly when cell growth is perturbed by changes from steady-state cultural conditions.     

Diagnostic d’une ectopie parathyroïdienne par scintigraphie double traceur

IntroductionA common cause of hyperparathyroidism is the presence of an ectopic parathyroid adenoma. Its diagnostic management remains a challenge and multiple imaging tests exist.Case reportA 39-year-old patient with hyperparathyroidism. At diagnosis, ultrasound and CT were not conclusive. MIBI scintigraphy has objectified a typical parathyroid ectopia in mediastinal position. Surgical resection confirmed parathyroid adenoma allowing standardization of laboratory patient.DiscussionMIBI scintigraphy is the most efficient technique for the diagnosis of hyperparathyroidism, especially in the case of an ectopic parathyroid.     

High fitness costs of climate change‐induced camouflage mismatch

Anthropogenic climate change has created myriad stressors that threaten to cause local extinctions if wild populations fail to adapt to novel conditions. We studied individual and population‐level fitness costs of a climate change‐induced stressor: camouflage mismatch in seasonally colour molting species confronting decreasing snow cover duration. Based on field measurements of radiocollared snowshoe hares, we found strong selection on coat colour molt phenology, such that animals mismatched with the colour of their background experienced weekly survival decreases up to 7%. In the absence of adaptive response, we show that these mortality costs would result in strong population‐level declines by the end of the century. However, natural selection acting on wide individual variation in molt phenology might enable evolutionary adaptation to camouflage mismatch. We conclude that evolutionary rescue will be critical for hares and other colour molting species to keep up with climate change.     

Structural characterization of the heme‐based oxygen sensor,AfGcHK, its interactions with the cognate response regulator,and their combined mechanism of action in a bacterial two‐component signaling system

The oxygen sensor histidine kinase AfGcHK from the bacterium Anaeromyxobacter sp. Fw 109‐5 forms a two‐component signal transduction system together with its cognate response regulator (RR). The binding of oxygen to the heme iron of its N‐terminal sensor domain causes the C‐terminal kinase domain of AfGcHK to autophosphorylate at His183 and then transfer this phosphate to Asp52 or Asp169 of the RR protein. Analytical ultracentrifugation revealed that AfGcHK and the RR protein form a complex with 2:1 stoichiometry. Hydrogen‐deuterium exchange coupled to mass spectrometry (HDX‐MS) suggested that the most flexible part of the whole AfGcHK protein is a loop that connects the two domains and that the heme distal side of AfGcHK, which is responsible for oxygen binding, is the only flexible part of the sensor domain. HDX‐MS studies on the AfGcHK:RR complex also showed that the N‐side of the H9 helix in the dimerization domain of the AfGcHK kinase domain interacts with the helix H1 and the β‐strand B2 area of the RR protein's Rec1 domain, and that the C‐side of the H8 helix region in the dimerization domain of the AfGcHK protein interacts mostly with the helix H5 and β‐strand B6 area of the Rec1 domain. The Rec1 domain containing the phosphorylable Asp52 of the RR protein probably has a significantly higher affinity for AfGcHK than the Rec2 domain. We speculate that phosphorylation at Asp52 changes the overall structure of RR such that the Rec2 area containing the second phosphorylation site (Asp169) can also interact with AfGcHK. Proteins 2016; 84:1375–1389. © 2016 Wiley Periodicals, Inc.