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31	Transcriptional control of the mitotic regulator string, in Drosophila / by Briony Patterson. Patterson, Briony January 1996 (has links) Bibliography: p. 69-81. / 81, [52] p., [16] leaves of plates : ill. (chiefly col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This thesis demonstrates that string (a homologue of the mitotic initiator cdc 25 from Schizosaccharomyces pombe) is a downstream target of the patterning genes, making a direct connection between patterning information and morphogenesis, which suggests that mitotic timing forms an independent and important part of morphogenesis. / Thesis (Ph.D.)--University of Adelaide, Depts. of Biochemistry and Genetics, 1997 Drosophila Morphogenesis. Genetic transcription. Cellular control mechanisms. Genetic regulation. Embryonic periodicity.
32	Analýza vývoje míry nezaměstnanosti v ČR / Analysis of trend of unemployment rate in Czech Republic Jeřábková, Věra January 2008 (has links) The unemployment is one of the main economic indicators. Thanks to time series analysis and predicting values, we can take measures of eliminating negative aspects of the unemployment in the economy. This thesis is concentrated on connection between theory of unemployment with time series analysis of unemployment rate, especially based on Box-Jenkins methodology.
33	Transformation of tonalitic gneiss into potassic garnet-sillimanite gneiss in a deep crustal shear zone in the Limpopo belt Mokgatlha, Kgomotso P.B. 17 November 2014 (has links) M.Sc. (Geology) / Please refer to full text to view abstract Gneiss - South Africa - Limpopo Belt Geology - Periodicity Geology - South Africa
34	Sound Production and Behavior of Red Grouper (<sub>Epinephelus morio</sub>) on the West Florida Shelf Montie, Misty D 05 May 2010 (has links) Red grouper (Epinephelus morio) are long-lived, commercially important, soniferous fish belonging to the family Epinephelidae. Found throughout the western North Atlantic and Gulf of Mexico, they are protogynous hermaphrodites, and peak spawning occurs from March through May. Unlike many grouper species, red grouper do not form large spawning aggregations; rather, they form small polygynous groups, and remain in relatively close proximity to rocky depressions excavated in the sandy bottom by males. This excavation activity creates structure and habitat for a wide variety of species, and as a result, red grouper are a keystone species on the West Florida Shelf. While extensive life-history information exists, largely from fishery catches, little is known about sound production or behavior of red grouper in their natural environment. Passive acoustic recordings combined with simultaneous digital video recordings were used to investigate sonic activity and behavior of red grouper on the Steamboat Lumps and Madison-Swanson marine reserves on the West Florida Shelf. Red grouper were found to produce a unique series of low-frequency (180 Hz peak) pulses, consisting of 1-4 brief (0.15 s) broadband pulses and a 0.5-2 s down-swept "buzz" (i.e., short call); occasionally these were followed by a rapid series of 10-50 broadband pulses (i.e., pulse train). Sound production was observed throughout the day and night, but most sounds occurred between sunrise and sunset, with a noticeable increase during late afternoon. Behaviors associated with sound production included territorial displays and courtship interactions, indicating that sound production is likely related to spawning activity. Thus, monitoring red grouper using passive acoustics could be an effective tool in fisheries management and conservation efforts. passive acoustics diel periodicity acoustic communication Epinephelidae fish sounds American Studies Arts and Humanities
35	Reproductive maturation and diel reproductive periodicity in western Gulf of Maine haddock Anderson, Katie A 01 January 2011 (has links) (PDF) A new macroscopic ovarian reproductive maturity index for haddock, Melanogrammus aeglefinus L, was developed to improve field collection of reproductive stage data. The index was tested, validated and revised based on a comparison with a laboratory histological staging method. The comparison of field and histological observations helped to improve the field index and methodologies and provided useful insight into the reproductive biology of Haddock. Although laboratory staging based on histology is inherently more accurate than any macroscopic field staging method, field observations can reveal weaknesses in the laboratory approach due to sampling bias. The revised field index includes three new macroscopic stages that represent a progression in final oocyte maturation from early to late, which were found to be reliable for staging spawning readiness in the field. This index was then used to study a population of Haddock in the Gulf of Maine to determine if it exhibits diel spawning periodicity. Commercial fishing vessels were chartered for 25 dedicated longlining trips to collect sexually mature haddock in the Southwestern Gulf of Maine at locations identified by commercial fishers as having spawning aggregations. In order to examine diel effects on haddock reproduction, the change in catch per unit effort and percentage of male and female haddock of all reproductive maturity stages together with the gonadosomatic index were observed across a 24 hour diel cycle. Only females in hydration stage 3 (defined as late final oocyte maturation stage ovaries with 50-75% of oocytes hydrated) were significantly affected by time of day with significant increases in both catch per unit effort and percentage of hydration stage 3 haddock during the night. Because H3 is the most advanced reproductive stage observed prior to a spawning event and therefore the best indicator of imminent spawning these results demonstrate that female haddock in Southwestern Gulf of Maine primarily spawn during night hours with a peak between 2100 and 0100 hours. No diel trend was observed for any male reproductive stages. Additionally, no diel trend was observed in male or female reproductive stages unrelated to spawning including immature, spent and resting. haddock Gulf of Maine diel reprodutcive periodicity reproductive maturation final oocyte maturation maturity index Aquaculture and Fisheries
36	A New Approach to ANOVA Methods for Autocorrelated Data Liu, Gang January 2016 (has links) No description available. Mathematics
37	Computational and Structural Approaches to Periodicities in Strings Baker, Andrew R. 04 1900 (has links) <p>We investigate the function ρ<sub><em>d</em></sub>(<em>n</em>) = max { <em>r</em>(<em><strong>x</strong></em>) \| <em><strong>x</strong></em> is a (<em>d</em>, <em>n</em>)-string } where <em>r</em>(<em><strong>x</strong></em>) is the number of runs in the string <em><strong>x</strong></em>, and a (<em>d</em>, <em>n</em>)-string is a string with length <em>n</em> and exactly <em>d</em> distinct symbols. Our investigation is motivated by the conjecture that ρ<sub><em>d</em></sub>(<em>n</em>) ≤ <em>n</em>-<em>d</em>. We present and discuss fundamental properties of the ρ<sub><em>d</em></sub>(<em>n</em>) function. The values of ρ<sub><em>d</em></sub>(<em>n</em>) are presented in the (<em>d</em>, <em>n</em>-<em>d</em>)-table with rows indexed by <em>d</em> and columns indexed by <em>n</em>-<em>d</em> which reveals the regularities of the function. We introduce the concepts of the r-cover and core vector of a string, yielding a novel computational framework for determining ρ<sub><em>d</em></sub>(<em>n</em>) values. The computation of the previously intractable instances is achieved via first computing a lower bound, and then using the structural properties to limit our exhaustive search only to strings that can possibly exceed this number of runs. Using this approach, we extended the known maximum number of runs in binary string from 60 to 74. In doing so, we find the first examples of run-maximal strings containing four consecutive identical symbols. Our framework is also applied for an arbitrary number of distinct symbols, <em>d</em>. For example, we are able to determine that the maximum number of runs in a string with 23 distinct symbols and length 46 is 23. Further, we discuss the structural properties of a shortest (<em>d</em>, <em>n</em>)-string <em><strong>x</strong></em> such that <em>r</em>(<em><strong>x</strong></em>) > <em>n</em>-<em>d</em>, should such a string exist.</p> / Doctor of Philosophy (PhD) string algorithm run word periodicity string algorithm Theory and Algorithms Theory and Algorithms
38	Emergent simplicities in the stochastic dynamics of living timekeepers Kunaal Joshi (18406470) 20 April 2024 (has links) <p dir="ltr">In this dissertation, I use methods of theoretical physics to study principles governing the stochastic dynamics of living timekeepers in a few different contexts. First, focusing on the phenomenon of stochastic growth and division processes in the simplest living organism (the bacterial cell), I present a procedure for analyzing high-throughput, high-precision dynamic datasets to identify emergent simplicities, in particular scaling laws, that provide new insights into a long-standing problem (that of cell size homeostasis). Recasting the question from a stochastic, intergenerational viewpoint (i.e., one that considers the entire life histories of individual cells without recourse to a priori mechanistic assumptions), and taking advantage of identified emergent simplicities to achieve dimensional reduction of the problem, permits a reformulation that captures the inherent stochasticity of individual cells. Identification of discrete modes by which homeostasis is maintained---in particular, via reflexive (elastic) adaptation of cell size and reflective (plastic) adaptation of growth rate---provides important insights into key system constraints that govern living bacterial cells, with additional implications for the design of functional adaptive synthetic homeostats. The observation of non-Markovian dynamics in single-cell growth rates implies the existence of intergenerational memory and plastic adaptation in these simple organisms. I also present my work on the process of early endosomal maturation in human cell lines, multi- fork DNA replication in Escherichia coli cells, and a physics principle and theory predictions for emergent periodicity in a decentralized follow-the-leader dynamic in a collective of randomly signaling agents. This body of work provides mechanistic insights into how temporal organization in outcomes emerges despite the inherently stochastic nature of the constituent dynamics, with each system adopting its own mechanism to achieve this universal goal.</p> Biological physics emergent simplicities scaling laws cell size homeostasis emergent periodicity stochastic dynamics
39	Joint probability distribution of rainfall intensity and duration Patron, Glenda G. 23 June 2009 (has links) Intensity-duration-frequency (IDF) curves are widely used for peak discharge estimation in designing hydraulic structures. The traditional Gumbel probability method entails selecting annual maximum rainfall depths (intensities) conditioned on a fixed time window width (which in general will not coincide with the rainfall event duration) from a continuous record to perform a frequency analysis in terms of the marginal distribution. The digitized database contains annual maximum intensities for selected discrete durations. This method presents problems when intensities are required for arbitrary durations which are not part of the selected durations. Accurate interpolated and especially extrapolated intensity values are hard to obtain. The present study offers two methods both involving a joint probability approach to overcome the deficiencies inherent in the traditional method of IDF analysis. The first joint probability approach employs Box-Cox and modulus transformations to transform original data to near bivariate normality. The second method does not require such a transformation. Instead, it uses the closed-form bivariate Burr III cumulative distribution to fit the data. Another advantage of the joint probability approach is that it allows one to gauge the rarity of certain extreme events, such as probable maximum precipitation, in terms of the joint occurrence of its extremely high intensity and a sufficiently long duration (e.g. 24 hours). The joint probability approach is applied to three data sets. The resulting conditional probability intensity estimates are quite close to those obtained by traditional Gumbel IDF analysis. In addition, reliable interpolated and extrapolated intensities are available because the approach essentially fits a flexible surface to the discrete data with the capability of providing a complete probabilistic structure. / Master of Science LD5655.V855 1993.P387 Probability forecasts (Meteorology) Rain and rainfall -- Periodicity Rainfall probabilities
40	Pavages : périodicité et complexité calculatoire Vanier, Pascal 22 November 2012 (has links) Cette thèse est dédiée à l'étude des pavages : des ensembles de coloriages du plan discret respectant des contraintes locales données par un jeu de tuiles. Nous nous penchons en particulier sur les liens qui unissent les pavages et la calculabilité. Les pavages étant des ensembles effectivement clos particuliers, nous étudions dans un premier temps la structure des ensembles de degrés Turing des pavages, la comparant à celle des ensembles effectivement clos en général : pour tout ensemble effectivement clos il existe un pavage qui a les même degrés Turing à 0 près, le degré des ensembles récursifs. De plus les pavages ne contenant pas de membre récursif ont une structure particulière : ils contiennent toujours un cône de degrés Turing, un degré Turing et tous les degrés qui lui sont supérieurs. Dans un second temps, nous étudions les ensembles de périodes des pavages, pour diverses notions de périodicité, parvenant à des caractérisations à l'aide de classes de complexité ou de calculabilité pour chaque notion étudiée. Enfin nous nous intéressons à la difficulté calculatoire des problèmes de la factorisation et de la conjugaison, des notions de simulation et d'équivalence adaptées aux spécificités des pavages. / This thesis is dedicated to the study of subshifts of finite type (SFTs) : sets of colorings of the discrete plane which respect some local constraints given by a set of forbidden patterns. We study the links between SFTs and computation. SFTs being specific effectively closed classes, we fist study their Turing degree structure, comparing it to the one of effectively closed classes in general: for any effectively closed class, there exist an SFT having the same Turing degrees except maybe 0, the degree of recursive sets. Furthermore, SFTs containing no recursive member have a particular structure: they always contain a cone of Turing degrees, ie. a Turing degree and all degrees above it. We then study the sets of periods of SFTs, for different notions of periodicity, reaching characterizations by means of computational complexity classes or computability classes for each notion introduced. Finally we look at the computable hardness of the factorization and conjugacy problems, the right notions of simulation and equivalence for SFTs. Pavages Sous-shifts Calculabilité Complexité Sft Périodicité Factorisation Degrés Turing Tilings Subshifts Computability Complexity Sft Periodicity Factorization Turing degree

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