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991.
In this review, we focus on the assembly of DNA/protein complexes that trigger transposition in eukaryotic members of the
IS630–Tc1–mariner (ITm) super-family, the Tc1- and mariner-like elements (TLEs and MLEs). Elements belonging to this super-family encode transposases with DNA binding domains of different
origins, and recent data indicate that the chimerization of functional domains has been an important evolutionary aspect in
the generation of new transposons within the ITm super-family. These data also reveal that the inverted terminal repeats (ITRs) at the ends of transposons contain three kinds
of motif within their sequences. The first two are well known and correspond to the cleavage site on the outer ITR extremities,
and the transposase DNA binding site. The organization of ITRs and of the transposase DNA binding domains implies that differing
pathways are used by MLEs and TLEs to regulate transposition initiation. These differences imply that the ways ITRs are recognized
also differ leading to the formation of differently organized synaptic complexes. The third kind of motif is the transposition
enhancers, which have been found in almost all the functional MLEs and TLEs analyzed to date. Finally, in vitro and in vivo
assays of various elements all suggest that the transposition initiation complex is not formed randomly, but involves a mechanism
of oriented transposon scanning.
Electronic Supplementary Material Supplementary material is available to authorised users in the online version of this article at .
An erratum to this article can be found at 相似文献
992.
Diversification and speciation processes are influenced by intrinsic (ecological specialization, dispersal) and extrinsic
(habitat structure and instability) factors, but the effect of ecological characteristics on dispersal is difficult to assess.
This study uses mitochondrial control region sequences to investigate the population structure and demographic history of
the endemic Lake Tanganyika cichlid Neolamprologus caudopunctatus with a preference for the rock-sand interface along two stretches of continuous, rocky shoreline, and across a sandy bay
representing a potential dispersal barrier. Populations along uninterrupted habitat were not differentiated; whereas, the
sandy bay separated two reciprocally monophyletic clades. The split between the two clades between 170,000 and 260,000 years
BP coincides with a period of rising water level following a major lowstand, and indicates that clades remained isolated throughout
subsequent lake level fluctuations. Low long-term effective population sizes were inferred from modest genetic diversity estimates,
and may be due to recent population expansions starting from small population sizes 45,000–60,000 years BP. Comparisons with
available data from specialized rock-dwelling species of the␣same area suggest that habitat structure and lake level fluctuations
determine phylogeographic patterns on large scales, while fine-scale population structure and demography are modulated by
species-specific ecologies. 相似文献
993.
Considerable effort has been invested in determining traits underlying invasiveness. Yet, identifying a set of traits that
commonly confers invasiveness in a range of species has proven elusive, and almost nothing is known about genetic loci affecting
invasive success. Incorporating genetic model organisms into ecologically relevant studies is one promising avenue to begin
dissecting the genetic underpinnings of invasiveness. Molecular biologists are rapidly characterizing genes mediating developmental
responses to diverse environmental cues, i.e., genes for plasticity, as well as to environmental factors likely to impose
strong selection on invading species, e.g., resistance to herbivores and competitors, coordination of life-history events
with seasonal changes, and physiological tolerance of heat, drought, or cold. Here, we give an overview of molecular genetic
tools increasingly used to characterize the genetic basis of adaptation and that may be used to begin identifying genetic
mechanisms of invasiveness. Given the divergent traits that affect invasiveness, “invasiveness genes” common to many clades
are unlikely, but the combination of developmental genetic advances with further evolutionary studies and modeling may provide
a framework for identifying genes that account for invasiveness in related species. 相似文献
994.
Haag ES 《Genetica》2007,129(1):45-55
The evolution of molecules, developmental circuits, and new species are all characterized by the accumulation of incompatibilities
between ancestors and descendants. When specific interactions between components are necessary at any of these levels, this
requires compensatory coevolution. Theoretical treatments of compensatory evolution that only consider the endpoints predict
that it should be rare because intermediate states are deleterious. However, empirical data suggest that compensatory evolution
is common at all levels of molecular interaction. A general solution to this paradox is provided by plausible neutral or nearly
neutral intermediates that possess informational redundancy. These intermediates provide an evolutionary path between coadapted
allelic combinations. Although they allow incompatible end points to evolve, at no point was a deleterious mutation ever in
need of compensation. As a result, what appears to be compensatory evolution may often actually be “pseudocompensatory.” Both
theoretical and empirical studies indicate that pseudocompensation can speed the evolution of intergenic incompatibility,
especially when driven by adaptation. However, under strong stabilizing selection the rate of pseudocompensatory evolution
is still significant. Important examples of this process at work discussed here include the evolution of rRNA secondary structures,
intra- and inter-protein interactions, and developmental genetic pathways. Future empirical work in this area should focus
on comparing the details of intra- and intergenic interactions in closely related organisms. 相似文献
995.
The osmotolerant and cell wall properties of the two most studied wild-type Zygosaccharomyces rouxii strains (CBS 732 and ATCC 42981) were examined. Differences in their (1) tolerance to high salt content in the medium, (2) resistance to the lysing enzymes Lyticase and Zymolyase, (3) cell-wall polymer content and (4) cell wall micromorphology suggested that the less osmotolerant CBS 732 strain possesses a more rigid cell wall than the more osmotolerant ATCC 42981, whose cell wall seems to be more flexible and elastic. 相似文献
996.
Di Bonaventura G Stepanović S Picciani C Pompilio A Piccolomini R 《Folia microbiologica》2007,52(1):86-90
The influence of environmental factors (temperature, aerobiosis-anaerobiosis, static-dynamic conditions, pH) was determined on biofilm formation by 51 S. maltophilia clinical isolates. The strains produced more biofilm at 32 degrees C than at 37 or 18 degrees C. Aerobic and 6% CO2 atmosphere yielded comparable biofilm amounts, higher than under anaerobic conditions. Biofilm production was not affected by static vs. agitated culture conditions. Biofilm production at pH 7.5 and 8.5 was comparable but significantly higher than at pH 5.5. The capacity of individual strains to form biofilm and thus contribute to the severity of some diseases is influenced by host traits and environmental conditions at the site of infection, and play an important role in the pathogenesis of biomaterial-related disease caused by S. maltophilia. 相似文献
997.
A promising route for understanding the origin and diversification of organismal form is through studies at the intersection
of evolution and development (evo-devo). While much has been learned over the last two decades concerning macroevolutionary
patterns of developmental change, a fundamental gap in the evo-devo synthesis is the integration of mathematical population
and quantitative genetics with studies of how genetic variation in natural populations affects developmental processes. This
micro-evo-devo synthesis requires model organisms with which to ask empirical questions. Threespine stickleback fish (Gasterosteus aculeatus), long a model for studying behavior, ecology and evolution, is emerging as a prominent model micro-evo-devo system. Research
on stickleback over the last decade has begun to address the genetic basis of morphological variation and sex determination,
and much of this work has important implications for understanding the genetics of speciation. In this paper we review recent
threespine stickleback micro-evo-devo results, and outline the resources that have been developed to make this synthesis possible.
The prospects for stickleback research to speed the micro-(and macro-) evo-devo syntheses are great, and this workhorse model
system is well situated to continue contributing to our understanding of the generation of diversity in organismal form for
many more decades. 相似文献
998.
999.
Terje D Josefsen Karen K Sørensen Torill Mørk Svein D Mathiesen Kathrine A Ryeng 《Acta veterinaria Scandinavica》2007,49(1):27
Background
In a project to determine the causes of winter mortality in reindeer in Finnmark County, northern Norway, the most frequent diagnosis turned out to be complete emaciation, despite several of the reindeer having been given silage for up to 4 weeks before they died. The present paper describes autopsy results and other findings in these animals. 相似文献1000.
Ann Margaret Grøndahl Ellen Margrete Skancke Cecilie Marie Mejdell Johan Høgset Jansen 《Acta veterinaria Scandinavica》2007,49(1):16
Over a period of two years, growth rate and health were measured for dairy calves allowed to suckle their mothers up to 6–8
weeks of age. Thirty-one calves were weighted weekly, and the mean daily growth rate was 1.2 ± 0.03 kg from birth up to 13
weeks of age. Illness in calves and young stock was not observed. In the cows, the mean incidences of ketosis, displaced abomasum,
puerperal paresis, mastitis, teat injury and retained placenta were 0, 0, 8, 22, 1 and 1%, respectively, during a 6-year period.
The mean daily gain of 56 growing bulls was 1.4 kg when slaughtered at 15 months of age, which is higher than the mean daily
gain of 0.95 kg in the population. Probiotics, hormones and vaccines were not used, and antibiotics were only used for treating
illness. The present study indicates many advantages and few problems when dairy calves are penned together with the cows
and allowed natural feeding up to 6–8 weeks of age. This production system was easy to manage, preferred by the farmer, and
may satisfy the public concern regarding the practice of immediate separation of cow and calf in commercial milk production. 相似文献