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141.
The small-subunit ribosomal RNA gene sequences from the hypotrichous ciliates Oxytricha nova and Stylonychia pustulata 总被引:17,自引:0,他引:17
We have determined the complete nucleotide sequence of the small- subunit
ribosomal RNA genes for the ciliate protozoans Stylonychia pustulata and
Oxytricha nova. The sequences are homologous and sufficiently similar that
these organisms must be closely related. In a phylogeny inferred from
comparisons of several eukaryotic small-subunit ribosomal RNAs, the
divergence of the ciliates from the eukaryotic line of descent is seen to
coincide with the radiation of the plants, the animals, and the fungi. This
radiation is preceded by the divergence of the slime mold, Dictyostelium
discoideum.
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Summary Queen attendance behavior of workers from selected honey bee colonies with high and low worker retinue response to synthetic queen mandibular gland pheromone (QMP) was investigated. Antennating, licking, grooming, and feeding of the queen by workers from high and low responding colonies were examined. High and low QMP responding workers did not attend the queen differently. However, workers originating from different colonies antennated and licked the queen more frequently than others, suggesting there may be a genetic basis for queen attendance behavior not necessarily associated with response to QMP. The median age of queen attendance was independent of strain. 相似文献
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147.
Molecular population genetics of ref(2)P, a locus which confers viral resistance in Drosophila 总被引:4,自引:0,他引:4
The ref(2)P locus (2-54.2) is polymorphic for two allelic forms in natural
populations of Drosophila melanogaster, ref(2)Po and ref(2)Pp. The latter
allele confers resistance to the rhabdovirus sigma infecting wild
populations. Previous work, based on a small sample of prescreened
restrictive (resistant) and permissive (susceptible) alleles, identified a
large number of amino acid replacement changes (7) relative to synonymous
changes (1). Such protein variability could be the result of
variation-enhancing selection. To further test the selection hypothesis, we
have examined the DNA sequences of ten randomly chosen lines of D.
melanogaster and one line of D. simulans. Nine of the ten lines are
permissive; D. simulans does not harbor the virus. The melanogaster alleles
contain 4 synonymous changes, 19 noncoding changes, and 13 amino acid
replacement changes, indicating a relatively high level of polymorphism.
Three sequenced restrictive alleles have nearly identical sequences,
indicating that they are relatively young. Compared to the permissive
alleles, they share only a complex deletion at codon 34, CAG-AAT to GGA,
which our analysis indicates to be the site conferring the restrictive
phenotype. Patterns of polymorphism and divergence differ from neutral
predictions by several criteria for the amino terminal region, which
contains the complex deletion (codons 1-91), but not the remainder of the
protein (codons 92-599). We find a higher rate of evolution on the D.
melanogaster lineage than on the D. simulans lineage. The relatively large
amount of both replacement and silent polymorphism in the permissive
alleles and the lack of divergence between permissive and restrictive
alleles suggests that the sigma virus and ref(2)P may be engaged in an
evolutionary race in which new restrictive alleles are continually arising
but are relatively short-lived.
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148.
Relationships among msx gene structure and function in zebrafish and other vertebrates 总被引:6,自引:2,他引:4
Ekker M; Akimenko MA; Allende ML; Smith R; Drouin G; Langille RM; Weinberg ES; Westerfield M 《Molecular biology and evolution》1997,14(10):1008-1022
The zebrafish genome contains at least five msx homeobox genes, msxA, msxB,
msxC, msxD, and the newly isolated msxE. Although these genes share
structural features common to all Msx genes, phylogenetic analyses of
protein sequences indicate that the msx genes from zebrafish are not
orthologous to the Msx1 and Msx2 genes of mammals, birds, and amphibians.
The zebrafish msxB and msxC are more closely related to each other and to
the mouse Msx3. Similarly, although the combinatorial expression of the
zebrafish msx genes in the embryonic dorsal neuroectoderm, visceral arches,
fins, and sensory organs suggests functional similarities with the Msx
genes of other vertebrates, differences in the expression patterns preclude
precise assignment of orthological relationships. Distinct duplication
events may have given rise to the msx genes of modern fish and other
vertebrate lineages whereas many aspects of msx gene functions during
embryonic development have been preserved.
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149.
Sara B. Zielin Jalene Littlejohn Catherine E. de Rivera Winston P. Smith Sandra L. Jacobson 《Journal of Insect Conservation》2016,20(5):845-854
Whereas roads that bisect habitat are known to decrease population size through animal-vehicle collisions or interruption of key life history events, it is not always obvious how to reduce such impacts, especially for flying organisms. We needed a quick, cost-efficient and effective way to determine how best to decrease vehicle-caused mortality while maintaining habitat connectivity for the federally listed Oregon silverspot butterfly, Speyeria zerene hippolyta. Therefore, we gathered targeted ecological information that informed selection of a mitigation option prior to implementation. We sampled butterfly behavior and environmental conditions along a highway and conducted a small-scale experiment along a decommissioned road corridor used by these butterflies. Using our findings, we recommended vegetation management and helped managers eliminate options they were considering that would be ineffective such as increasing shade or wind in the road, and installing fencing or hedgerows aimed at directing flight above traffic. This quick and inexpensive approach of using ecological observations and small-scale experiments to evaluate the likely success of each available mitigation option can be used to determine effective, species-specific solutions for reducing traffic impacts on pollinators and other small, flying organisms of conservation concern. 相似文献
150.
The MMS22L–TONSL heterodimer directly promotes RAD51‐dependent recombination upon replication stress
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Wojciech Piwko Karun Mutreja Lepakshi Ranjha Diana Stafa Alexander Smirnov Mia ML Brodersen Ralph Zellweger Andreas Sturzenegger Pavel Janscak Massimo Lopes Matthias Peter Petr Cejka 《The EMBO journal》2016,35(23):2584-2601
Homologous recombination (HR) is a key pathway that repairs DNA double‐strand breaks (DSBs) and helps to restart stalled or collapsed replication forks. How HR supports replication upon genotoxic stress is not understood. Using in vivo and in vitro approaches, we show that the MMS22L–TONSL heterodimer localizes to replication forks under unperturbed conditions and its recruitment is increased during replication stress in human cells. MMS22L–TONSL associates with replication protein A (RPA)‐coated ssDNA, and the MMS22L subunit directly interacts with the strand exchange protein RAD51. MMS22L is required for proper RAD51 assembly at DNA damage sites in vivo, and HR‐mediated repair of stalled forks is abrogated in cells expressing a MMS22L mutant deficient in RAD51 interaction. Similar to the recombination mediator BRCA2, recombinant MMS22L–TONSL limits the assembly of RAD51 on dsDNA, which stimulates RAD51‐ssDNA nucleoprotein filament formation and RAD51‐dependent strand exchange activity in vitro. Thus, by specifically regulating RAD51 activity at uncoupled replication forks, MMS22L–TONSL stabilizes perturbed replication forks by promoting replication fork reversal and stimulating their HR‐mediated restart in vivo. 相似文献