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991.
E. Newton Harvey 《The Journal of general physiology》1927,10(6):875-881
A study of the oxygen consumed per lumen of luminescence during oxidation of Cypridina luciferin in presence of luciferase, gives 11.4 x 10–5 gm. oxygen per lumen or 88 molecules per quantum of λ = 0.48µ, the maximum in the Cypridina luminescence spectrum. For reasons given in the text, the actual value is probably somewhat less than this, perhaps of the order of 6.48 x 10–5 gm. per lumen or 50 molecules of oxygen and 100 molecules of luciferin per quantum. It is quite certain that more than 1 molecule per quantum must react. On the basis of a reaction of the type: luciferin + 1/2 O2 = oxyluciferin + H2O + 54 Cal., it is calculated that the total efficiency of the luminescent process, energy in luminescence/heat of reaction, is about 1 per cent; and that a luciferin solution containing 4 per cent of dried Cypridina material should rise in temperature about 0.001°C. during luminescence, and contain luciferin in approximately 0.00002 molecular concentration. 相似文献
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J. H. Harvey Pirie 《BMJ (Clinical research ed.)》1929,2(3576):125-126
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Mutations in the N‐terminal kinase‐like domain of the repressor of photomorphogenesis SPA1 severely impair SPA1 function but not light responsiveness in Arabidopsis 下载免费PDF全文
Xu Holtkotte Stefan Dieterle Leonie Kokkelink Oliver Artz Lisa Leson Kirsten Fittinghoff Ryosuke Hayama Margaret Ahmad Ute Hoecker 《The Plant journal : for cell and molecular biology》2016,88(2):205-218
The COP1/SPA complex is an E3 ubiquitin ligase that acts as a key repressor of photomorphogenesis in dark‐grown plants. While both COP1 and the four SPA proteins contain coiled‐coil and WD‐repeat domains, SPA proteins differ from COP1 in carrying an N‐terminal kinase‐like domain that is not present in COP1. Here, we have analyzed the effects of deletions and missense mutations in the N‐terminus of SPA1 when expressed in a spa quadruple mutant background devoid of any other SPA proteins. Deletion of the large N‐terminus of SPA1 severely impaired SPA1 activity in transgenic plants with respect to seedling etiolation, leaf expansion and flowering time. This ΔN SPA1 protein showed a strongly reduced affinity for COP1 in vitro and in vivo, indicating that the N‐terminus contributes to COP1/SPA complex formation. Deletion of only the highly conserved 95 amino acids of the kinase‐like domain did not severely affect SPA1 function nor interactions with COP1 or cryptochromes. In contrast, missense mutations in this part of the kinase‐like domain severely abrogated SPA1 function, suggesting an overriding negative effect of these mutations on SPA1 activity. We therefore hypothesize that the sequence of the kinase‐like domain has been conserved during evolution because it carries structural information important for the activity of SPA1 in darkness. The N‐terminus of SPA1 was not essential for light responsiveness of seedlings, suggesting that photoreceptors can inhibit the COP1/SPA complex in the absence of the SPA1 N‐terminal domain. Together, these results uncover an important, but complex role of the SPA1 N‐terminus in the suppression of photomorphogenesis. 相似文献