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Mechanisms of the transfer of chemical signals in field mice of the genus Apodemus
Havrdová, Leona ; Stopková, Romana (advisor) ; Vošlajerová, Barbora (referee)
Proteins from the lipocalin family play significant roles during the transport of chemical signals. These globular proteins (molecular mass: 17,7 - 21,7 kDa) are able to bind a wide spectrum of volatile ligands. Since they decay continuously, the scent impact is prolonged. Major urinary proteins (MUPs) are lipocalins, typically found in the urine and used during olfactory communication in the house mouse. But the urine is not the only source of chemical signals. Many species of mammals perform selfgrooming - a technique in which saliva is transported into the fur. The goal of the thesis is to identify main proteins that are involved in chemical communication by selected species of the genus Apodemus, and to discover the source of production (i.e. saliva or urine). The Experion capillary electrophoresis system was used to confirm the absence of lipocalins in the urine in two Apodemus species (A. uralensis, A. sylvaticus). Furthermore, a lot of lipocalins is present in the saliva of above-mentioned species. The quantity and types of salivary lipocalins was identified by 2D electrophoresis along with mass spectrometry analyses (MALDI MS/MS) in three species of the genus Apodemus (A. uralensis, A. sylvaticus and A. flavicollis). The conclusion of this inter-specific comparison suggests, that sociality...
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Evolution of intrinsic postzygotic reproductive isolation in birds
Opletalová, Kamila ; Reifová, Radka (advisor) ; Vošlajerová, Barbora (referee)
Hybrid sterility plays a key role in reproductive isolation during evolution of species. The mechanisms responsible for hybrid sterility are relatively well understood in organisms with heterogametic males, such as drosophila or mouse but are largely unknown in organisms with heterogametic females (e.g. birds). Studies on reproductive isolation in birds takes place in natural hybrid zones, instead of captivity. Hybrid sterility preferentially affects the heterogametic sex, males in mammals (XY) and females in birds (ZW), according to Haldane's rule. This leads to reduced introgression in sex chromosomes and mitochondrial DNA compared to autosomal DNA. The purpose of this thesis is to summarize known information on hybrid sterility and its expression in two models of interspecies hybridization: flycatchers and nightingales. Additionally, this thesis contains also a practical part, which compares morfology of sperms of two species of nightingales. Powered by TCPDF (www.tcpdf.org)
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Mechanisms of the transfer of chemical signals in field mice of the genus Apodemus
Havrdová, Leona ; Stopková, Romana (advisor) ; Vošlajerová, Barbora (referee)
Proteins from the lipocalin family play significant roles during the transport of chemical signals. These globular proteins (molecular mass: 17,7 - 21,7 kDa) are able to bind a wide spectrum of volatile ligands. Since they decay continuously, the scent impact is prolonged. Major urinary proteins (MUPs) are lipocalins, typically found in the urine and used during olfactory communication in the house mouse. But the urine is not the only source of chemical signals. Many species of mammals perform selfgrooming - a technique in which saliva is transported into the fur. The goal of the thesis is to identify main proteins that are involved in chemical communication by selected species of the genus Apodemus, and to discover the source of production (i.e. saliva or urine). The Experion capillary electrophoresis system was used to confirm the absence of lipocalins in the urine in two Apodemus species (A. uralensis, A. sylvaticus). Furthermore, a lot of lipocalins is present in the saliva of above-mentioned species. The quantity and types of salivary lipocalins was identified by 2D electrophoresis along with mass spectrometry analyses (MALDI MS/MS) in three species of the genus Apodemus (A. uralensis, A. sylvaticus and A. flavicollis). The conclusion of this inter-specific comparison suggests, that sociality...
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Study of chemical communication in the house mouse: a proteomic approach
Janotová, Kateřina ; Stopka, Pavel (advisor) ; Piálek, Jaroslav (referee) ; Vošlajerová, Barbora (referee)
Chemical communication of the house mouse is similarly as in other mammals, substantially complex and influence every social ineraction between individuals. Important part of mouse chemical signalling system is Major Urinary Protein complex (MUP). These proteins are known as pheromone-carriers that prolong longevity of the pheromones by retarding their evaporation from the scent mark. Their other role in chemical communication is direct signalling which is mediated by VNO. MUP have been shown to trigger both behavioural and physiological effects in recipient. Proteins belonging to the same family (lipocalins) as MUPs, have been found in other, mainly rodent, species. Although the information about these urinary lipocalins are, with exception of mouse, very limited, it is likely that their roles relies in chemical communication. The Ph.D. thesis is related to the urinary proteins in the house mouse and Mastomys coucha. Thesis contains four chapters represented by three published and one submitted manuscript. One aim of the thesis is to provide information about these proteins in the subspecies Mus musculus musculus which is widespread in the Czech Republic and which is much less studied when compared to Mus musculus domesticus. The part of Ph.D thesis is a review publication which summarizes recent...
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