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Circadian rhythms: pervasive, and often times evasive. [PDF]
Philos Trans R Soc Lond B Biol SciLarrondo LF.
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The transcription factor RttA contributes to sterol regulation and azole resistance in <i>Aspergillus fumigatus</i>. [PDF]
mBioBirštonas L +8 more
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Spectroscopy and crystallography define carotenoid oxygenases as a new subclass of mononuclear non-heme Fe<sup>II</sup> enzymes. [PDF]
J Biol ChemDeWeese DE +5 more
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Galactosyltransferase of Neurospora
Experientia, 1977An enzyme, galactosyltransferase, able to catalyze the formation of galactose polymers was detected in cell-free extracts of a wild type strain of Neurospora crassa. Enzyme activity was found in both the supernatant and the particle fractions after centrifugation at 100,000 X g.
A, Forsthoefel, N C, Mishra
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Nature, 1960
IN the ascus of Neurospora, meiosis and mitosis appear to resemble those in higher plants1–4. However, within the mycelium of Neurospora and of a number of other fungi, some observers report that the conventional stages of nuclear division are lacking, that the spindle is absent, and that the nuclei divide by becoming constricted and pulling in two5–8.
E S, DOWDING, J, WEIJER
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IN the ascus of Neurospora, meiosis and mitosis appear to resemble those in higher plants1–4. However, within the mycelium of Neurospora and of a number of other fungi, some observers report that the conventional stages of nuclear division are lacking, that the spindle is absent, and that the nuclei divide by becoming constricted and pulling in two5–8.
E S, DOWDING, J, WEIJER
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Photoperiodism in Neurospora Crassa
Journal of Biological Rhythms, 2004Plants and animals use day or night length for seasonal control of reproduction and other biological functions. Overwhelming evidence suggests that this photoperiodic mechanism relies on a functional circadian system. Recent progress has defined how flowering time in plants is regulated by photoperiodic control of output pathways, but the underlying ...
Tan, Ying +2 more
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The Neurospora Circadian System
Journal of Biological Rhythms, 2004The eukaryotic filamentous fungus Neurospora crassa has proven to be a durable and dependable model system for the analysis of the cellular and molecular bases of circadian rhythms. Pioneering genetic analyses identified clock genes, and beginning with the cloning of frequency ( frq), work over the past 2 decades has revealed the molecular basis of a ...
Jay C, Dunlap, Jennifer J, Loros
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Archives of Biochemistry and Biophysics, 1957
Abstract Uricase from Neurospora crassa has been purified 400-fold. The properties of this enzyme are similar to those of the animal uricases except that it is more soluble at low pH values. Addition of uric acid to the growth medium causes a twofold increase in the amount of enzyme. One atom of oxygen is consumed per mole of uric acid decomposed in
R C, GREENE, H K, MITCHELL
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Abstract Uricase from Neurospora crassa has been purified 400-fold. The properties of this enzyme are similar to those of the animal uricases except that it is more soluble at low pH values. Addition of uric acid to the growth medium causes a twofold increase in the amount of enzyme. One atom of oxygen is consumed per mole of uric acid decomposed in
R C, GREENE, H K, MITCHELL
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Conidiation in Neurospora crassa
Archiv f�r Mikrobiologie, 1971Conidiation in Neurospora crassa has been studied in vivo by time-lapse microphotography and shown to be most generally (in aerial, “dry” conditions) a budding-fission process. Such a two-phase process is characterized by an initial basifugal budding of proconidial elements which are then secondarily separated as maturing conidia by interconidial septa.
G, Turian, D E, Bianchi
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1973
Publisher Summary Neurospora is a valuable experimental organism for studying transport processes as its growth medium is simple, requiring only inorganic salts, a carbon source, and biotin. Many nutrilite transport systems in Neurospora have been characterized with respect to kinetic properties and genetic regulation.
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Publisher Summary Neurospora is a valuable experimental organism for studying transport processes as its growth medium is simple, requiring only inorganic salts, a carbon source, and biotin. Many nutrilite transport systems in Neurospora have been characterized with respect to kinetic properties and genetic regulation.
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