Nuclear dynamics in the homothallic ascomycete Sordaria fimicola

This introductory chapter considers first the relation between molecular reaction dynamics and the major branches of physical chemistry. The concept of elementary chemical reactions at the quantized state-to-state level is discussed. The theoretical description of these reactions based on the time-dependent Schrödinger equation and the Born–Oppenheimer approximation is introduced and the resulting time-dependent Schrödinger equation describing the nuclear dynamics is discussed. The chapter concludes with a brief discussion of matter at thermal equilibrium, focusing at the Boltzmann distribution. Thus, the Boltzmann distribution for vibrational, rotational, and translational degrees of freedom is discussed and illustrated.

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Inherited Differences in Crossing Over and Gene Conversion Frequencies Between Wild Strains of Sordaria fimicola From “Evolution Canyon”

Genetics ◽

10.1093/genetics/159.4.1573 ◽

2001 ◽

Vol 159 (4) ◽

pp. 1573-1593

Author(s):

Muhammad Saleem ◽

Bernard C Lamb ◽

Eviatar Nevo

Keyword(s):

Genetic Variation ◽

Gene Conversion ◽

Spontaneous Mutation ◽

Crossing Over ◽

Natural Genetic Variation ◽

Evolution Canyon ◽

Wild Strains ◽

Sordaria Fimicola ◽

First And Second Generation ◽

Consistent Direction

Abstract Recombination generates new combinations of existing genetic variation and therefore may be important in adaptation and evolution. We investigated whether there was natural genetic variation for recombination frequencies and whether any such variation was environment related and possibly adaptive. Crossing over and gene conversion frequencies often differed significantly in a consistent direction between wild strains of the fungus Sordaria fimicola isolated from a harsher or a milder microscale environment in “Evolution Canyon,” Israel. First- and second-generation descendants from selfing the original strains from the harsher, more variable, south-facing slope had higher frequencies of crossing over in locus-centromere intervals and of gene conversion than those from the lusher north-facing slopes. There were some significant differences between strains within slopes, but these were less marked than between slopes. Such inherited variation could provide a basis for natural selection for optimum recombination frequencies in each environment. There were no significant differences in meiotic hybrid DNA correction frequencies between strains from the different slopes. The conversion analysis was made using only conversions to wild type, because estimations of conversion to mutant were affected by a high frequency of spontaneous mutation. There was no polarized segregation of chromosomes at meiosis I or of chromatids at meiosis II.

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Electron–Nuclear Dynamics Accompanying Proton-Coupled Electron Transfer

Journal of the American Chemical Society ◽

10.1021/jacs.0c10626 ◽

2021 ◽

Vol 143 (8) ◽

pp. 3104-3112

Author(s):

Yusuke Yoneda ◽

S. Jimena Mora ◽

James Shee ◽

Brian L. Wadsworth ◽

Eric A. Arsenault ◽

...

Keyword(s):

Electron Transfer ◽

Nuclear Dynamics ◽

Proton Coupled Electron Transfer

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Inherited and Environmentally Induced Differences in Mutation Frequencies Between Wild Strains of Sordaria fimicola From “Evolution Canyon”

Genetics ◽

10.1093/genetics/149.1.87 ◽

1998 ◽

Vol 149 (1) ◽

pp. 87-99

Author(s):

Bernard C Lamb ◽

Muhammad Saleem ◽

William Scott ◽

Nina Thapa ◽

Eviatar Nevo

Keyword(s):

Genetic Variation ◽

Spontaneous Mutation ◽

The South ◽

Natural Genetic Variation ◽

The North ◽

Ascospore Germination ◽

Evolution Canyon ◽

Two Generations ◽

Wild Strains ◽

Sordaria Fimicola

Abstract We have studied whether there is natural genetic variation for mutation frequencies, and whether any such variation is environment-related. Mutation frequencies differed significantly between wild strains of the fungus Sordaria fimicola isolated from a harsher or a milder microscale environment in “Evolution Canyon,” Israel. Strains from the harsher, drier, south-facing slope had higher frequencies of new spontaneous mutations and of accumulated mutations than strains from the milder, lusher, north-facing slope. Collective total mutation frequencies over many loci for ascospore pigmentation were 2.3, 3.5 and 4.4% for three strains from the south-facing slope, and 0.9, 1.1, 1.2, 1.3 and 1.3% for five strains from the north-facing slope. Some of this between-slope difference was inherited through two generations of selfing, with average spontaneous mutation frequencies of 1.9% for south-facing slope strains and 0.8% for north-facing slope strains. The remainder was caused by different frequencies of mutations arising in the original environments. There was also significant heritable genetic variation in mutation frequencies within slopes. Similar between-slope differences were found for ascospore germination-resistance to acriflavine, with much higher frequencies in strains from the south-facing slope. Such inherited variation provides a basis for natural selection for optimum mutation rates in each environment.

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