Results 301 to 310 of about 533,076 (344)

Visualization of genetic lineages and inheritance information in genetic programming

Proceedings of the 15th annual conference companion on Genetic and evolutionary computation, 2013
Many studies emphasize the importance of genetic diversity and the need for an appropriate tuning of selection pressure in genetic programming. Additional important aspects are the performance and effects of the genetic operators (crossover and mutation) on the transfer and stabilization of inherited information blocks during the run of the algorithm ...
Bogdan Burlacu, Michael Affenzeller, Michael Kommenda, Stephan Winkler, Gabriel Kronberger   +4 more
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Domestic dog lineages reveal genetic drivers of behavioral diversification

Cell, 2022
SummarySelective breeding of domestic dogs has generated diverse breeds often optimized for performing specialized tasks. Despite the heritability of breed-typical behavioral traits, identification of causal loci has proven challenging due to the complexity of canine population structure.
Emily V. Dutrow, James A. Serpell, Elaine A. Ostrander   +2 more
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Spatial genetic patterns generated by two admixing genetic lineages: a simulation study

Conservation Genetics, 2006
Two formerly geographically separated lineages of the zebra mussel Dreissena polymorpha had been given the opportunity to mix extensively across the newly built German Main–Danube canal. We had monitored this admixture of mussel lineages and had described spatial patterns in different genetic measures [Muller et al. 2001 (Heredity, 86: 103); 2002 (Proc.
Griebeler, E., Mueller, J., Seitz, A.
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Erythrocyte–Plasmodium interactions: genetic manipulation of the erythroid lineage

Current Opinion in Microbiology, 2022
Targeting critical host factors is an emerging concept in the treatment of infectious diseases. As obligate pathogens of erythrocytes, the Plasmodium spp. parasites that cause malaria must exploit erythroid host factors for their survival. However, our understanding of this important aspect of the malaria lifecycle is limited, in part because ...
Marilou, Tetard, Nana A, Peterson, Elizabeth S, Egan   +2 more
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Cell lineage, embryogenesis and mouse molecular genetics

Theriogenology, 1997
Abstract Pluripotent stem cells are present in the murine embryo until at least the 64-cell stage (day 3.5 of development). These cells can be cultured in vitro and genetically modified to fulfill various specific requirements. After re-introduction into a host blastocyst, which then develops to maturity, they colonize all tissues, including the germ-
R. Moore, R. Kemler
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Genetic Lineage Tracing Analysis of Anterior Hox Expressing Cells

2014
Cell lineage studies have been widely used in developmental biology to establish which cells, and how many cells, in the early embryo will give rise to a specific structure and its derivatives. Several methods have been developed to label progenitor cells in the early embryo.
Laforest, B., Bertrand, N., Zaffran, S.
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Genetic Mosaicism in Adult Mice of Quadriparental Lineage

Science, 1965
Genetic mosaic mice can be produced by aggregating, during cleavage stages, the blastomeres of two embryos of different genotype into a single cluster, and by transferring the developing aggregates to the uterus of a surrogate mother. Substantial numbers of such composite embryos survive past birth.
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Genetic mosaics and cell lineage analysis in plants

Trends in Genetics, 1989
The use of genetic mosaics for cell lineage analysis has revealed several important features of plant development. All multicellular organs in higher plants are polyclonal in origin. Although primordial cell lineages have fairly regular fates, the fate of any given cell within these lineages cannot be accurately predicted.
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Genetic diversity of Croatian paternal lineages

2003
The purpose of this study was to examine population structure based on the polymorphisms of biallelic (M8, YAP, SRY-1532, 92R7, SRY-8299/4064, 12f2, M20, M52, M70, M89, M124, M170, M201, M173, M175) and eight microsatelitte markers (DYS19, DYS388, DYS389I, DYS389II, DYS390, DYS391, DYS392 and DYS393) in 457 Croatian Y chromosomes.
Martinović Klarić, Irena, Peričić Salihović, Marijana, Barać Lauc, Lovorka, Janićijević, Branka, Rudan, Pavao   +4 more
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Genetic Lineage Tracing of Nonmyocyte Population by Dual Recombinases

Circulation, 2018
Background: Whether the adult mammalian heart harbors cardiac stem cells for regeneration of cardiomyocytes is an important yet contentious topic in the field of cardiovascular regeneration.
Yan, Li, Lingjuan, He, Xiuzhen, Huang, Shirin Issa, Bhaloo, Huan, Zhao, Shaohua, Zhang, Wenjuan, Pu, Xueying, Tian, Yi, Li, Qiaozhen, Liu, Wei, Yu, Libo, Zhang, Xiuxiu, Liu, Kuo, Liu, Juan, Tang, Hui, Zhang, Dongqing, Cai, Adams H, Ralf, Qingbo, Xu, Kathy O, Lui, Bin, Zhou   +20 more
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