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41.
42.
Langergraber KE Siedel H Mitani JC Wrangham RW Reynolds V Hunt K Vigilant L 《PloS one》2007,2(10):e973
A large body of theoretical work suggests that analyses of variation at the maternally inherited mitochondrial (mt)DNA and the paternally inherited non-recombining portion of the Y chromosome (NRY) are a potentially powerful way to reveal the differing migratory histories of men and women across human societies. However, the few empirical studies comparing mtDNA and NRY variation and known patterns of sex-biased migration have produced conflicting results. Here we review some methodological reasons for these inconsistencies, and take them into account to provide an unbiased characterization of mtDNA and NRY variation in chimpanzees, one of the few mammalian taxa where males routinely remain in and females typically disperse from their natal groups. We show that patterns of mtDNA and NRY variation are more strongly contrasting in patrilocal chimpanzees compared with patrilocal human societies. The chimpanzee data we present here thus provide a valuable comparative benchmark of the patterns of mtDNA and NRY variation to be expected in a society with extremely female-biased dispersal. 相似文献
43.
Changes in neuronal structure can contribute to the plasticity of neuronal connections in the developing and mature nervous system. However, the expectation that they would occur slowly precluded many from considering structural changes as a mechanism underlying synaptic plasticity that occurs over a period of minutes to hours. We took time-lapse confocal images of retinotectal axon arbors to determine the timecourse, magnitude, and distribution of changes in axon arbor structure within living Xenopus tadpoles. Images of axons were collected at intervals of 3 min, 30 min, and 2 h over total observation periods up to 8 h. Branch additions and retractions in arbors imaged at 3- or 30-min intervals were confined to shorter branches. Sites of additions and retractions were distributed throughout the arbor. The average lifetime of branches was about 10 min. Branches of up to 10 μm could be added to the arbor within a single 3-min observation interval. Observations of arbors at 3-min intervals showed rapid changes in the structure of branchtips, including transitions from lamellar growth cones to more streamlined tips, growth cone collapse, and re-extension. Simple branchtips were motile and appeared capable of exploratory behavior when viewed in time-lapse movies. In arbors imaged at 2-h intervals over a total of 8 h, morphological changes included longer branches, tens of microns in length. An average of 50% of the total branch length in the arbor was remodeled within 8 h. The data indicate that the elaboration of the arbor occurs by the random addition of branches throughout the arbor, followed by the selective stabilization of a small fraction of the new branches and the retraction of the majority of branches. Stabilized branches can then elongate and support the addition of more branches. These data show that structural changes in presynaptic axons can occur very rapidly even in complex arbors and can therefore play a role in forms of neuronal plasticity that operate on a timescale of minutes. © 1996 John Wiley & Sons, Inc. 相似文献
44.
Jens G. P. Diller Sophia Drescher Mario Hofmann Max Rabus Heike Feldhaar Christian Laforsch 《Ecology and evolution》2022,12(4)
Invasive alien species are a major threat to ecosystems. Invasive terrestrial plants can produce allelochemicals which suppress native terrestrial biodiversity. However, it is not known if leached allelochemicals from invasive plants growing in riparian zones, such as Impatiens glandulifera, also affect freshwater ecosystems. We used mesocosms and laboratory experiments to test the impact of I. glandulifera on a simplified freshwater food web. Our mesocosm experiments show that leachate from I. glandulifera significantly reduced population growth rate of the water flea Daphnia magna and the green alga Acutodesmus obliquus, both keystone species of lakes and ponds. Laboratory experiments using the main allelochemical released by I. glandulifera, 2‐methoxy‐1,4‐naphthoquinone, revealed negative fitness effects in D. magna and A. obliquus. Our findings show that allelochemicals from I. glandulifera not only reduce biodiversity in terrestrial habitats but also pose a threat to freshwater ecosystems, highlighting the necessity to incorporate cross‐ecosystem effects in the risk assessment of invasive species. 相似文献
45.
Mycobacterium tuberculosis, along with other actinobacteria, harbours proteasomes in addition to members of the general bacterial repertoire of degradation complexes. In analogy to ubiquitination in eukaryotes, substrates are tagged for proteasomal degradation with prokaryotic ubiquitin‐like protein (Pup) that is recognized by the N‐terminal coiled‐coil domain of the ATPase Mpa (also called ARC). Here, we reconstitute the entire mycobacterial proteasome degradation system for pupylated substrates and establish its mechanistic features with respect to substrate recruitment, unfolding and degradation. We show that the Mpa–proteasome complex unfolds and degrades Pup‐tagged proteins and that this activity requires physical interaction of the ATPase with the proteasome. Furthermore, we establish the N‐terminal region of Pup as the structural element required for engagement of pupylated substrates into the Mpa pore. In this process, Mpa pulls on Pup to initiate unfolding of substrate proteins and to drag them toward the proteasome chamber. Unlike the eukaryotic ubiquitin, Pup is not recycled but degraded with the substrate. This assigns a dual function to Pup as both the Mpa recognition element as well as the threading determinant. 相似文献
46.
Introns are generally believed to evolve too rapidly and too erratically to be of much use in phylogenetic reconstructions.
Few phylogenetically informative intron sequences are available, however, to ascertain the validity of this supposition. In
the present study the supposition was tested on the example of the mammalian class II major histocompatibility complex (Mhc) genes of the DRB family. Since the Mhc genes evolve under balancing selection and are believed to recombine or rearrange frequently, the evolution of their introns
could be expected to be particularly rapid and subject to scrambling. Sequences of intron 4 and 5 DRB genes were obtained from polymerase chain reaction-amplified fragments of genomic DNA from representatives of six eutherian
orders—Primates, Scandentia, Chiroptera, Dermoptera, Lagomorpha, and Insectivora. Although short stretches of the introns
have indeed proved to be unalignable, the bulk of the intron sequences from all six orders, spanning >85 million years (my)
of evolution, could be aligned and used in a study of the tempo and mode of intron evolution. The analysis has revealed the
Mhc introns to evolve at a rate similar to that of other genes and of synonymous sites of non-Mhc genes. No evidence of homogenization or large-scale scrambling of the intron sequences could be found. The Mhc introns apparently evolve largely by point mutations and insertions/deletions. The phylogenetic signals contained in the
intron sequences could be used to identify Scandentia as the sister group of Primates, to support the existence of the Archonta
superorder, and to confirm the monophyly of the Chiroptera.
Received: 26 October 1998 / Accepted: 21 December 1998 相似文献
47.
Nishinakamura R Matsumoto Y Matsuda T Ariizumi T Heike T Asashima M Yokota T 《Developmental biology》1999,216(2):481-490
Stat3 is one of the main signaling components of cytokine receptors, including gp130. Here we show that activation of cytokine receptor gp130 resulted in a dramatic ventralization of Xenopus embryos and that the ventralization correlated well with Stat3 activation potential of the receptor. This finding led to identification of Xenopus Stat3 (Xstat3), which showed a 95% homology to its murine and human counterparts, at the amino acid level, and was expressed from the one-cell stage throughout development. The mechanism of gp130/XStat3-mediated ventralization proved to be independent of BMP-4. gp130/Xstat3 stimulation inhibited Smad2-induced ectopic axis formation in embryos and Smad2-dependent luciferase activity. A dominant-negative Stat3, in contrast, dorsalized Xenopus embryos, resulting in ectopic axis formation. We propose that Stat3-mediated signaling has the capacity to modify dorsoventral patterning in the early development of Xenopus. 相似文献
48.
Bauer Paul J.; Schauf Heike; Schwarzer Andreas; Brown Joel E. 《American journal of physiology. Cell physiology》1999,276(3):C558
Na+/Ca2+exchange has been investigated in squid(Loligopealei) rhabdomeric membranes.Ca2+-containing vesicles have beenprepared from purified rhabdomeric membranes by extrusion throughpolycarbonate filters of 1-µm pore size. After removal of externalCa2+, up to 90% of the entrappedCa2+ could be specificallyreleased by the addition of Na+;this finding indicates that most of the vesicles containedNa+/Ca2+exchanger. The Na+-inducedCa2+ efflux had a half-maximumvalue (K1/2) of~44 mM and a Hill coefficient of ~1.7. The maximalNa+-inducedCa2+ efflux was ~0.6 nmolCa2+ · s1 · mgprotein1. SimilarNa+-inducedCa2+ effluxes were measured ifK+ was replaced withLi+ orCs+. Vesicles loaded withCa2+ byNa+/Ca2+exchange also released this Ca2+byNa+/Ca2+exchange, suggesting thatNa+/Ca2+exchange operated in both forward and reverse modes. Limited proteolysis by trypsin resulted in a rate ofCa2+ efflux enhanced byapproximately fivefold when efflux was activated with 95 mM NaCl. For vesicles subjected to limited proteolysis by trypsin,Na+/Ca2+exchange was characterized by aK1/2 of ~25 mMand a Hill coefficient of 1.6. For these vesicles, the maximalNa+-inducedCa2+ efflux was about twice asgreat as in control vesicles. We conclude thatNa+/Ca2+exchange proteins localized in rhabdomeric membranes mediate Ca2+ extrusion in squid photoreceptors. 相似文献
49.
50.