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21.
Esterina Pascale Christine Liu Eulalia Valle Karen Usdin Anthony V. Furano 《Journal of molecular evolution》1993,36(1):9-20
Summary All modern mammals contain a distinctive, highly repeated (⩾50,000 members) family of long interspersed repeated DNA called
the L1 (LINE 1) family. While the modern L1 families were derived from a common ancestor that predated the mammalian radiation
∼80 million years ago, most of the members of these families were generated within the last 5 million years. However, recently
we demonstrated that modern murine (Old World rats and mice) genomes share an older long interspersed repeated DNA family
that we called Lx. Here we report our analysis of the DNA sequence of Lx family members and the relationship of this family
to the modern L1 families in mouse and rat. The extent of DNA sequence divergence between Lx members indicates that the Lx
amplification occurred about 12 million years ago, around the time of the murine radiation. Parsimony analysis revealed that
Lx elements were ancestral to both the modern rat and mouse L1 families. However, we found that few if any of the evolutionary
intermediates between the Lx and the modern L1 families were extensively amplified. Because the modern L1 families have evolved
under selective pressure, the evolutionary intermediates must have been capable of replication. Therefore, replicationcompetent
L1 elements can reside in genomes without undergoing extensive amplification. We discuss the bearing of our findings on the
evolution of L1 DNA elements and the mammalian genome. 相似文献
22.
Quantitative trait loci influencing protein and starch concentration in the Illinois Long Term Selection maize strains 总被引:15,自引:0,他引:15
I. L. Goldman T. R. Rocheford J. W. Dudley 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1993,87(1-2):217-224
A study was initiated to determine the number, chromosomal location, and magnitude of effect of QTL (quantitative trait loci or locus depending on context) controlling protein and starch concentration in the maize (Zea mays L.) kernel. Restriction fragment length polymorphism (RFLP) analysis was performed on 100 F3 families derived from a cross of two strains, Illinois High Protein (IHP), X Illinois Low Protein (ILP), which had been divergently selected for protein concentration for 76 generations as part of the Illinois Long Term Selection Experiment. These families were analyzed for kernel protein and starch in replicated field trials during 1990 and 1991. A series of 90 genomic and cDNA clones distributed throughout the maize genome were chosen for their ability to detect RFLP between IHP and ILP. These clones were hybridized with DNA extracted from the 100 F3 families, revealing 100 polymorphic loci. Single factor analysis of variance revealed significant QTL associations of many loci with both protein and starch concentration (P < 0.05 level). Twenty-two loci distributed on 10 chromosome arms were significantly associated with protein concentration, 19 loci on 9 chromosome arms were significantly associated with starch concentration. Sixteen of these loci were significant for both protein and starch concentration. Clusters of 3 or more significant loci were detected on chromosome arms 3L, 5S, and 7L for protein concentration, suggesting the presence of QTL with large effects at these locations. A QTL with large additive effects on protein and starch concentration was detected on chromosome arm 3L. RFLP alleles at this QTL were found to be linked with RFLP alleles at the Shrunken-2 (Sh2) locus, a structural gene encoding the major subunit of the starch synthetic enzyme ADP-glucose pyrophosphorylase. A multiple linear regression model consisting of 6 significant RFLP loci on different chromosomes explained over 64 % of the total variation for kernel protein concentration. Similar results were detected for starch concentration. Thus, several chromosomal regions with large effects may be responsible for a significant portion of the changes in kernel protein and starch concentration in the Illinois Long Term Selection Experiment. 相似文献
23.
Visual performance of the toad (Bufo bufo) at low light levels: retinal ganglion cell responses and prey-catching accuracy 总被引:3,自引:0,他引:3
A. -C. Aho K. Donner S. Helenius L. Olesen Larsen T. Reuter 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1993,172(6):671-682
The accuracy of toad snapping towards moving worm dummies under various levels of dim illumination (from absolute threshold to moonlight) was videorecorded and related to spike responses of retinal ganglion cells exposed to equivalent stimuli. Some toads (at ca. 16 °C) successfully snapped at dummies that produced only one photoisomerization per 50 rods per second in the retina, in good agreement with thresholds of sensitive retinal ganglion cells. One factor underlying such high sensitivity is extensive temporal summation by the ganglion cells. This, however, is inevitably accompanied by very long response latencies (around 3 s near threshold), whereby the information reaching the brain shows the dummy in a position where it was several seconds earlier. Indeed, as the light was dimmed, snaps were displaced successively further to the rear of the dummy, finally missing it. The results in weak but clearly supra-threshold illumination indicate that snaps were aimed at the advancing head as seen by the brain, but landed further backwards in proportion to the retinal latency. Near absolute threshold, however, accuracy was too good, suggesting that the animal had recourse to a neural representation of the regularly moving dummies to correct for the slowness of vision. 相似文献
24.
家兔三叉神经终止核对颏舌肌肌电活动的调制作用 总被引:3,自引:1,他引:2
本工作在35只氨基甲酸乙酯麻醉、自主呼吸的家兔上观察了刺激三叉神经终止核(NTV)对颏舌肌肌电活动的影响。结果发现,电刺激NTV和NTV内微量注射谷氨酸钠都能使颏舌肌出现明显的易化效应。电刺激NTV背侧与腹侧时,颏舌肌肌电反应的潜伏期分别为5.9±0.7ms和3.0±0.4ms,电刺激舌下神经核时颏舌肌反应的潜伏期为2.2±0.2ms。结果提示三叉神经终止核的兴奋可加强颏舌肌的活动从而减小上呼吸道阻力。 相似文献
25.
H. Nomura H. Suzuki 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1995,176(1):11-15
To elucidate the role of the water receptor in the frog (Rana catesbeiana), reflex activities elicited by its excitation were studied. Application of tap water to the oral mucosa depressed the rhythmical movement of gorge (buccal) respiration, accompanied by an elevation of the inner pressure of the oral cavity (buccal pressure). Tonic reflex discharges were elicited in the nerves innervating the submental and submaxillary muscles, which close the nostrils, the pterygoid and the profound portion of the major masseter muscles, which produce a strong bite, and the geniohyoid and hyoglossus muscles, which elevate buccal pressure. These muscles, except for the pterygoid, also participate in the rhythmical movement of gorge respiration as expiratory muscles. Rhythmical movements in the minor masseter and sternohyoid muscles, which act as inspiratory muscles in gorge respiration, were depressed by the water stimulation of the oral mucosa. These findings indicate that the water receptor plays a role in the interruption of gorge respiratory movements, accompanied by an elevation of buccal pressure. 相似文献
26.
Christopher L. B. Lavelle 《American journal of physical anthropology》1977,46(3):423-425
Canonical correlations between tooth and long bone dimensions showed a greater correlation for Anglo-Saxons and apes than for Nineteenth Century Londoners, i.e., coefficients of 0.75 for gorilla, 0.72 for chimpanzee, 0.69 for orang-utans, 0.74 for Anglo-Saxons, but 0.53 for Nineteenth Century Londoners. Although based upon limited sample sizes and limited metrical profiles of teeth and long bones, the data support the thesis that modern Europeans are under reduced selection pressure to maintain tooth size compared with apes or ancient man. 相似文献
27.
28.
Dorian Salin Pierre-Jean Arnoux Kambiz Kayvantash Michel Behr 《Computer methods in biomechanics and biomedical engineering》2016,19(14):1578-1582
In the field of biomechanics, the offer of models which are more and more realistic requires to integrate a physiological response, in particular, the controlled muscle bracing and the reflexes. The following work aims to suggest a unique methodology which couples together a sensory and motor loop with a finite element model. Our method is applied to the study of the oscillation of the elbow in the case of a biceps brachial stretch reflex. The results obtained are promising in the purpose of the development of reactive human body models. 相似文献
29.
Many insects possess adhesive organs that can produce extreme attachment forces of more than 100 times body weight but they can rapidly release adhesion to allow locomotion. During walking, weaver ants (Oecophylla smaragdina) use only a fraction of their maximally available contact area, even upside-down on a smooth surface. To test whether the reduced contact area makes the ants more susceptible to sudden and unexpected detachment forces, for example, by rain or wind gusts, we investigated the reaction of untethered ants to rapid horizontal displacements of the substrate. High-speed video recordings revealed that the pad''s contact area could more than double within the first millisecond after the perturbation. This contact area expansion is much faster than any neuromuscular reflex and therefore represents a passive ‘preflex’, resulting from the mechanical properties and geometrical arrangement of the (pre-)tarsus. This preflex reaction protects ants effectively against unexpected detachment, and allows them to use less contact area during locomotion. Contact area expanded most strongly when the substrate displacement generated a pull along the axis of the tarsus, showing that the ants'' preflex is direction-dependent. The preflex may be based on the ability of Hymenopteran adhesive pads to unfold when pulled towards the body. We tested Indian stick insects (Carausius morosus), which have smooth pads that lack this motility. Similar to the ants, they showed a rapid and direction-dependent expansion of the contact area mainly in the lateral direction. We propose that the preflex reaction in stick insects is based on the reorientation of internal cuticle fibrils in a constant-volume system, whereas the ants'' pad cuticle is probably not a hydrostat, and pad extension is achieved by the arcus, an endoscelerite of the arolium. 相似文献
30.