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Ján Lí?KA Július BRTKO Michal DUBOVICKY Dana MACEJOVá Viktória KISSOVá ?tefan POLáK Eduard UJHáZY 《Experimental Animals》2016,65(1):1-9
The mammary gland is a dynamic organ that undergoes structural and functional changesassociated with growth, reproduction, and post-menopausal regression. The postnataltransformations of the epithelium and stromal cells of the mammary gland may contribute toits susceptibility to carcinogenesis. The increased cancer incidence in mammary glands ofhumans and similarly of rodents in association with their development is believed to bepartly explained by proliferative activity together with lesser degree of differentiation,but it is not completely understood how the virgin gland retains its higher susceptibilityto carcinogenesis. During its developmental cycle, the mammary gland displays many of theproperties associated with breast cancer. An early first full-term pregnancy may have aprotective effect. Rodent models are useful for investigating potential breastcarcinogens. The purpose of this review is to help recognizing histological appearance ofthe epithelium and the stroma of the normal mammary gland in rats, and throughout itsdevelopment in relation to tumorigenic potential. 相似文献
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Cuticle hydrolysis in four medically important fly species by enzymes of the entomopathogenic fungus Conidiobolus coronatus 下载免费PDF全文
M. I. BOGUŚ E. WŁÓKA A. WROŃSKA A. KACZMAREK M. KAZEK K. ZALEWSKA M. LIGĘZA ‐ ŻUBER M. GOŁĘBIOWSKI 《Medical and veterinary entomology》2017,31(1):23-35
Entomopathogenic fungi infect insects via penetration through the cuticle, which varies remarkably in chemical composition across species and life stages. Fungal infection involves the production of enzymes that hydrolyse cuticular proteins, chitin and lipids. Host specificity is associated with fungus–cuticle interactions related to substrate utilization and resistance to host‐specific inhibitors. The soil fungus Conidiobolus coronatus (Constantin) (Entomophthorales: Ancylistaceae) shows virulence against susceptible species. The larvae and pupae of Calliphora vicina (Robineau‐Desvoidy) (Diptera: Calliphoridae), Calliphora vomitoria (Linnaeus), Lucilia sericata (Meigen) (Diptera: Calliphoridae) and Musca domestica (Linnaeus) (Diptera: Muscidae) are resistant, but adults exposed to C. coronatus quickly perish. Fungus was cultivated for 3 weeks in a minimal medium. Cell‐free filtrate, for which activity of elastase, N‐acetylglucosaminidase, chitobiosidase and lipase was determined, was used for in vitro hydrolysis of the cuticle from larvae, puparia and adults. Amounts of amino acids, N‐glucosamine and fatty acids released were measured after 8 h of incubation. The effectiveness of fungal enzymes was correlated with concentrations of compounds detected in the cuticles of tested insects. Positive correlations suggest compounds used by the fungus as nutrients, whereas negative correlations may indicate compounds responsible for insect resistance. Adult deaths result from the ingestion of conidia or fungal excretions. 相似文献
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Many animal lineages exhibit allometry in sexual size dimorphism (SSD), known as ‘Rensch’s rule’. When applied to the interspecific level, this rule states that males are more evolutionary plastic in body size than females and that male‐biased SSD increases with body size. One of the explanations for the occurrence of Rensch’s rule is the differential‐plasticity hypothesis assuming that higher evolutionary plasticity in males is a consequence of larger sensitivity of male growth to environmental cues. We have confirmed the pattern consistent with Rensch’s rule among species of the gecko genus Paroedura and followed the ontogeny of SSD at three constant temperatures in a male‐larger species (Paroedura picta). In this species, males exhibited larger temperature‐induced phenotypic plasticity in final body size than females, and body size and SSD correlated across temperatures. This result supports the differential‐plasticity hypothesis and points to the role phenotypic plasticity plays in generating of evolutionary novelties. 相似文献
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Arne B Gjuvsland Enikö Zörgö Jeevan KA Samy Simon Stenberg Ibrahim H Demirsoy Francisco Roque Ewa Maciaszczyk‐Dziubinska Magdalena Migocka Elisa Alonso‐Perez Martin Zackrisson Robert Wysocki Markus J Tamás Inge Jonassen Stig W Omholt Jonas Warringer 《Molecular systems biology》2016,12(12)
A major rationale for the advocacy of epigenetically mediated adaptive responses is that they facilitate faster adaptation to environmental challenges. This motivated us to develop a theoretical–experimental framework for disclosing the presence of such adaptation‐speeding mechanisms in an experimental evolution setting circumventing the need for pursuing costly mutation–accumulation experiments. To this end, we exposed clonal populations of budding yeast to a whole range of stressors. By growth phenotyping, we found that almost complete adaptation to arsenic emerged after a few mitotic cell divisions without involving any phenotypic plasticity. Causative mutations were identified by deep sequencing of the arsenic‐adapted populations and reconstructed for validation. Mutation effects on growth phenotypes, and the associated mutational target sizes were quantified and embedded in data‐driven individual‐based evolutionary population models. We found that the experimentally observed homogeneity of adaptation speed and heterogeneity of molecular solutions could only be accounted for if the mutation rate had been near estimates of the basal mutation rate. The ultrafast adaptation could be fully explained by extensive positive pleiotropy such that all beneficial mutations dramatically enhanced multiple fitness components in concert. As our approach can be exploited across a range of model organisms exposed to a variety of environmental challenges, it may be used for determining the importance of epigenetic adaptation‐speeding mechanisms in general. 相似文献
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