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31.
Rates and patterns of evolution in partial sequences of five mitochondrial
genes (cytochrome b, ATPase 6, NADH dehydrogenase subunit 5, tRNA(Glu), and
the control region) were compared among taxa in the passerine bird genera
Fringilla and Carduelis. Rates of divergence do not vary significantly
among genes, even in comparisons with the control region. Rate variation
among lineages is significant only for the control region and NADH
dehydrogenase subunit 5, and patterns of variation are consistent with the
expectations of neutral theory. Base composition is biased in all genes but
is stationary among lineages, and there is evidence for directional
mutation pressure only in the control region. Despite these similarities,
patterns of substitution differ among genes, consistent with alternative
regimes of selective constraint. Rates of nonsynonymous substitution are
higher in NADH dehydrogenase subunit 5 than in other protein-coding genes,
and transitions exist in elevated proportions relative to transversions.
Transitions appear to accumulate linearly with time in tRNA(Glu), and
despite exhibiting the highest overall rate of divergence among species,
there are no transversional changes in this gene. Finally, for resolving
phylogenetic relationships among Fringilla taxa, the combined
protein-coding data are broadly similar to those of the control region in
terms of phylogenetic informativeness and statistical support.
相似文献
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Fain GL 《Molecular neurobiology》2011,44(3):374-382
All sensory receptors adapt. As the mean level of light or sound or odor is altered, the sensitivity of the receptor is adjusted
to permit the cell to function over as wide a range of ambient stimulation as possible. In a rod photoreceptor, adaptation
to maintained background light produces a decrease (or “sag”) in the response to the prolonged illumination, as well as an
acceleration in response decay time and a Weber–Fechner-like decrease in sensitivity. Earlier work on salamander indicated
that adaptation is controlled by the intracellular concentration of Ca2+. Three Ca2+-dependent mechanisms were subsequently identified, namely, regulation of guanylyl cyclase, modulation of activated rhodopsin
lifetime, and alteration of channel opening probability, with the contribution of the cyclase thought to be the most important.
Later experiments on mouse that exploit the powerful techniques of molecular genetics have shown that cyclase does indeed
play a significant role in mammalian rods, but that much of adaptation remains even when regulation of cyclase and both of
the other proposed pathways have been genetically deleted. The identity of the missing mechanism or mechanisms is unclear,
but recent speculation has focused on direct modulation of spontaneous and light-activated phosphodiesterase. 相似文献
35.
Knowledge of avian phylogeny is prerequisite to understanding the circumstances and timing of the diversification of birds and the evolution of morphological, behavioral, and life-history traits. Recent molecular datasets have helped to elucidate the three most basal clades in the tree of living birds, but relationships among neoavian orders (the vast majority of birds) remain frustratingly vexing. Here, we examine intron 7 of the beta-fibrinogen gene in the most taxonomically inclusive survey of DNA sequences of nonpasserine bird families and orders to date. These data suggest that Neoaves consist of two sister clades with ecological parallelisms comparable to those found between marsupial and placental mammals. Some members of the putative respective clades have long been recognized as examples of convergent evolution, but it was not appreciated that they might be parts of diverse parallel radiations. In contrast, some traditional orders of birds are suggested by these data to be polyphyletic, with representative families in both radiations. 相似文献
36.
Fain PR Babu SR Bennett DC Spritz RA 《Pigment cell research / sponsored by the European Society for Pigment Cell Research and the International Pigment Cell Society》2006,19(1):51-57
Generalized vitiligo is a common autoimmune disorder characterized by white patches of skin and overlying hair caused by loss of pigment-forming melanocytes from involved areas. Familial clustering of vitiligo is not uncommon, and patients and their relatives are at increased risk for a specific complex of other autoimmune diseases. Compared with sporadic vitiligo, familial vitiligo is characterized by earlier disease onset and greater risk and broader repertoire of autoimmunity, suggesting a stronger genetic component, and perhaps stronger associations with specific alleles. To determine whether the major histocompatibility complex (MHC) contributes to the familial clustering of vitiligo and vitiligo-associated autoimmune/autoinflammatory diseases, we performed case-control and family-based association analyses of HLA class II-DRB1 and -DQB1 alleles and haplotypes in affected probands and their parents from 76 European-American Caucasian families with familial vitiligo. Affected probands showed a significantly increased frequency of DRB1*04-DQB1*0301 and a significantly decreased frequency of DRB1*15-DQB1*0602 compared with a large sample of reference chromosomes. Family-based association analyses confirmed these results. Probands with DRB1*04-DQB1*0301 developed vitiligo an average of 13.32 yr earlier than probands with DRB1*15-DQB1*0602. Overall, our results indicate that specific MHC-linked genetic variation contributes to risk of familial vitiligo, although HLA does not completely explain familial clustering of vitiligo-associated autoimmune/autoinflammatory diseases. 相似文献
37.
Why photoreceptors die (and why they don't) 总被引:5,自引:0,他引:5
Fain GL 《BioEssays : news and reviews in molecular, cellular and developmental biology》2006,28(4):344-354
Light can kill the photoreceptors of the eye, not only very bright direct sunlight, but more moderate illumination if the light is present continuously. Recent experiments show that rod apoptosis can be triggered by strong and constant activation of transduction, and that death can be prevented if transduction is inhibited even though the eye is illuminated. Vitamin A deficiency and genetically inherited diseases, such as some forms of retinitis pigmentosa and Leber congenital amaurosis, appear to kill like this: transduction is activated at a high rate and continuously, and this causes the rods to die. Why does transduction kill? Our best guess is that continuous activation produces a prolonged lowering of the Ca2+ concentration, which is also thought to kill neurons in tissue culture and during the development of the nervous system. To prevent death in constant light, rods have evolved protective mechanisms including modulation of channels and ion transport to keep the Ca2+ from going too low. Prolonged light exposure also causes migration of transduction proteins from one part of the cell to another and a reversible shortening of the rod outer segments, the part of the cell that contains the pigment rhodopsin. All of these mechanisms are at work in the normal eye to reduce transduction and prevent the Ca2+ concentration from dropping too low for too long a time. That most of us retain our vision our entire lives is a testament to their effectiveness. BioEssays 28: 344–354, 2006. © 2006 Wiley Periodicals, Inc. 相似文献
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Molecular dissection of Rab11 binding from coiled-coil formation in the Rab11-FIP2 C-terminal domain
The Rab11-family interacting protein (Rab11-FIP) group of effector proteins contain a highly conserved region in their C-termini that bind the GTPase, Rab11. Rab11 belongs to the largest family of small GTPases and is believed to regulate vesicle docking with target membranes and vesicle fusion. The amino acid sequence of the Rab11-FIP proteins predicts coiled-coil formation in the conserved C-terminal domain. In this study on Rab11-FIP2, we found experimental evidence for the coiled-coil and then defined the minimal structured core using limited proteolysis. We also showed that the Rab11-FIP2 coiled-coil domain forms a parallel homodimer in solution using cross-linking and mutagenesis and sedimentation equilibrium experiments. Various constructs representing the C-terminal domain of Rab11-FIP2 were characterized by circular dichroism, and their affinity with Rab11 was measured using isothermal titration calorimetry. The longest construct was both well-structured and bound Rab11. A construct truncated at the N-terminus was poorly structured but retained the same affinity for binding to Rab11. Conformational changes were also demonstrated upon complex formation between Rab11 and Rab11-FIP2. A construct truncated at the C-terminus, which was the minimal coiled-coil domain defined by limited proteolysis, did not retain the ability to interact with Rab11, although it was as well-structured as the longer peptide. These data show that coiled-coil formation and Rab11 binding are separable functions of the C-terminal domain of Rab11-FIP2. The dissection of Rab11 binding from the formation of defined structure in a coiled-coil provides a potential mechanism for regulating Rab11-dependent endosomal trafficking. 相似文献
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