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111.
Anaerobic Degradation of Normal- and Branched-Chain Fatty Acids with Four or More Carbons to Methane by a Syntrophic Methanogenic Triculture 下载免费PDF全文
Syntrophic degradation of normal- and branched-chain fatty acids with 4 to 9 carbons was investigated with a mesophilic syntrophic isobutyrate-butyrate-degrading triculture consisting of the non-spore-forming, syntrophic, fatty acid-degrading, gram-positive rod-shaped strain IB, Methanobacterium formicicum T1N, and Methanosarcina mazei T18. This triculture converted butyrate and isobutyrate to methane and converted valerate and 2-methylbutyrate to propionate and methane. This triculture also degraded caproate, 4-methylvalerate, heptanoate, 2-methylhexanoate, caprylate, and pelargoate. During the syntrophic conversion of isobutyrate and butyrate, a reversible isomerization between butyrate and isobutyrate occurred; isobutyrate and butyrate were isomerized to the other isomeric form to reach nearly equal concentrations and then their concentrations decreased at the same rates. Butyrate was an intermediate of syntrophic isobutyrate degradation. When butyrate was degraded in the presence of propionate, 2-methylbutyrate was synthesized from propionate and isobutyrate formed from butyrate. During the syntrophic degradation of valerate, isobutyrate, butyrate, and 2-methylbutyrate were formed and then degraded. During syntrophic degradation of 2-methylbutyrate, isobutyrate and butyrate were formed and then degraded. 相似文献
112.
Evidence suggests that humans might have neurological specializations for music processing, but a compelling adaptationist
account of music and dance is lacking. The sexual selection hypothesis cannot easily account for the widespread performance
of music and dance in groups (especially synchronized performances), and the social bonding hypothesis has severe theoretical
difficulties. Humans are unique among the primates in their ability to form cooperative alliances between groups in the absence
of consanguineal ties. We propose that this unique form of social organization is predicated on music and dance. Music and
dance may have evolved as a coalition signaling system that could, among other things, credibly communicate coalition quality,
thus permitting meaningful cooperative relationships between groups. This capability may have evolved from coordinated territorial
defense signals that are common in many social species, including chimpanzees. We present a study in which manipulation of
music synchrony significantly altered subjects’ perceptions of music quality, and in which subjects’ perceptions of music
quality were correlated with their perceptions of coalition quality, supporting our hypothesis. Our hypothesis also has implications
for the evolution of psychological mechanisms underlying cultural production in other domains such as food preparation, clothing
and body decoration, storytelling and ritual, and tools and other artifacts.
Edward Hagen is a research scientist at the Institute for Theoretical Biology, Humboldt University, Berlin. Gregory Bryant
is a doctoral candidate in the Department of Psychology, University of California, Santa Cruz. 相似文献
113.
Claudia Siegl Patricia Hamminger Herbert Jank Uwe Ahting Benedikt Bader Adrian Danek Allison Gregory Monika Hartig Susan Hayflick Andreas Hermann Holger Prokisch Esther M. Sammler Zuhal Yapici Rainer Prohaska Ulrich Salzer 《PloS one》2013,8(10)
Neuroacanthocytosis (NA) refers to a group of heterogenous, rare genetic disorders, namely chorea acanthocytosis (ChAc), McLeod syndrome (MLS), Huntington’s disease-like 2 (HDL2) and pantothenate kinase associated neurodegeneration (PKAN), that mainly affect the basal ganglia and are associated with similar neurological symptoms. PKAN is also assigned to a group of rare neurodegenerative diseases, known as NBIA (neurodegeneration with brain iron accumulation), associated with iron accumulation in the basal ganglia and progressive movement disorder. Acanthocytosis, the occurrence of misshaped erythrocytes with thorny protrusions, is frequently observed in ChAc and MLS patients but less prevalent in PKAN (about 10%) and HDL2 patients. The pathological factors that lead to the formation of the acanthocytic red blood cell shape are currently unknown. The aim of this study was to determine whether NA/NBIA acanthocytes differ in their functionality from normal erythrocytes. Several flow-cytometry-based assays were applied to test the physiological responses of the plasma membrane, namely drug-induced endocytosis, phosphatidylserine exposure and calcium uptake upon treatment with lysophosphatidic acid. ChAc red cell samples clearly showed a reduced response in drug-induced endovesiculation, lysophosphatidic acid-induced phosphatidylserine exposure, and calcium uptake. Impaired responses were also observed in acanthocyte-positive NBIA (PKAN) red cells but not in patient cells without shape abnormalities. These data suggest an “acanthocytic state” of the red cell where alterations in functional and interdependent membrane properties arise together with an acanthocytic cell shape. Further elucidation of the aberrant molecular mechanisms that cause this acanthocytic state may possibly help to evaluate the pathological pathways leading to neurodegeneration. 相似文献
114.
Understanding the links between intraspecific genetic variation and patterns of diversity in associated communities has been the primary focus of community genetics or ‘genes-to-ecosystem’ research in ecology. While other ecological factors, such as the abiotic environment, have well-documented influences on communities, the relative contributions of genetic variation versus the environment to species interactions remains poorly explored. In this study, we use a common garden experiment to study a coastal dune plant community dominated by the shrub, Baccharis pilularis, which displays a morphological dimorphism in plant architecture. We found the differences in the understory plant community between erect and prostrate morphs of Baccharis to be statistically significant, but small relative to the impacts of nutrient additions (NPK and C additions), for the richness, cover, and biomass of the understory plant community. There were no significant interactions between Baccharis morphology and nutrient-addition treatments, suggesting the influence of nutrient addition was consistent between erect and prostrate morphs. Moreover, we found no difference in overall plant community composition between Baccharis morphs, while NPK additions led to shifts in understory community composition compared to unfertilized shrubs. In sum, our results indicate that nutrients are the more important factor governing understory plant community structure in a coastal dunes ecosystem followed by intraspecific variation in dominant shrub architecture. Our results address a growing call to understand the extended consequences of intraspecific variation across heterogeneous environments in terrestrial ecosystems. 相似文献
115.
C. Anthony Altar Mark Armanini Millicent Dugich-Djordjevic Gregory L. Bennett Regina Williams Shamiram Feinglass Vince Anicetti† Dominick Sinicropi Charles Bakhit 《Journal of neurochemistry》1992,59(6):2167-2177
Polyclonal antibodies against recombinant human nerve growth factor (rhNGF) potently inhibited PC12 neurite outgrowth, blocked high-affinity 125I-rhNGF binding but not its receptor, and cross-reacted with rat, mouse, and human nerve growth factor (NGF) but not with brain-derived neurotrophic factor, neurotrophin-3, ciliary neurotrophic factor, insulin-like growth factor, epidermal growth factor, or activin A. Immunocytochemistry revealed many NGF-positive neurons in the rat neostriatum. The NGF-positive neurons disappeared by 3 days after mechanical injury to the neostriatum and were replaced by intensely NGF- and glial fibrillary acidic protein-positive astrocytes. Enzyme-linked immunosorbent assay measurements revealed that the NGF content of the injured striatum was elevated by eightfold 3 days postinjury and by twofold 2 weeks later. The high-affinity choline uptake (HACU) into cholinergic nerve terminals was decreased by 23% at 2 and 4 weeks postinjury, yet choline acetyltransferase (ChAT) activity in these neurons was unchanged at 2 weeks and decreased by 14% at 4 weeks. Daily infusion of 1 microgram of rhNGF into the injury area did not alter the loss of HACU. However, this treatment elevated ChAT activity by 23-29% above intact neostriatal levels and by 53-65% relative to HACU at both survival times. Thus, lesion-induced increases in NGF levels within astrocytes are associated with maintenance of striatal ChAT activity at normal levels following cholinergic injury, even with decreases in HACU. Pharmacologic doses of rhNGF can further augment ChAT activity in damaged cholinergic neurons, showing the usefulness of exogenous NGF even when endogenous NGF is elevated in response to injury. 相似文献
116.
Two pot experiments at the Plant Environment Laboratory (PEL), Reading, UK investigated sterility, boron (B) accumulation
and B partitioning of wheat cultivars grown with limited B in the growing medium. The first experiment evaluated nine cultivars
of spring wheat with diverse field responses to low available soil B, supplied with or without 20 μM B. A second experiment
examined the response of a susceptible (SW-41) and a tolerant (Fang-60) cultivar to B-deficiency. These cultivars were supplied
with either 20 μM B from sowing to flag leaf emergence and no added B thereafter, or 20 μM B from sowing to maturity. When
B was not supplied in the nutrient solution, the number of grains ranged from 4 per ear (cv. BL-1135) to 32 per ear (cv. BL-1249)
and sterility of competent florets ranged from 39% to 93%. Boron concentration in the flag leaf at anthesis did not differ
greatly when the growing medium contained limited B, but differences between cultivars were evident when B was unlimited.
Tolerance of B-deficiency was not related to the B concentration in the flag leaf. Some cultivars produced viable pollen and
set grains while others failed to do so at similar B concentrations in the flag leaf. The two contrasting cultivars did not
differ much in their pattern of B partitioning when B supply was restricted from flag leaf emergence onwards. Similarly, little
evidence was found that the tolerant cultivars translocated B from their leaves, roots or stems when the supply in the growing
medium was restricted. The proportion of total B partitioned in different organs was the same irrespective of B supply and
cultivar. On average, leaves contained 68% of the total B content in the whole plant compared to 16% in the roots, 10% in
the ears and only 6% in the stems. Tolerant or susceptible cultivars of wheat could not be distinguished based on the B concentration
and B content of the flag leaf.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
117.
The locations of the joint axes of the ankle complex vary considerably between subjects, yet no noninvasive method with demonstrated accuracy exists for locating these axes. The moments of muscle and ground reaction forces about the joint axes are dependent on axis locations, making knowledge of these locations critical to accurate musculoskeletal modeling of the foot and ankle. The accuracy of a computational optimization method that fits a two-revolute model to measured motion was assessed using computer-generated data, a two-revolute mechanical linkage, and three lower-leg cadaver specimens. Motions were applied to cadaver specimens under axial load while bone-mounted markers attached to the tibia, talus, and calcaneus were tracked using a video-based motion analysis system. Estimates of the talocrural and subtalar axis locations were computed from motions of the calcaneus relative to the tibia using the optimization method. These axes were compared to mean helical axes computed directly from tibia, talus, and calcaneus motions. The optimization method performed well when the motions were computer-generated or measured in the mechanical linkage, with angular differences between optimization and mean helical axes ranging from 1 deg to 5 deg. In the cadaver specimens, however, these differences exceeded 20 deg. Optimization methods that locate the anatomical joint axes of the ankle complex by fitting two revolute joints to measured tibia-calcaneus motions may be limited because of problems arising from non-revolute behavior. 相似文献
118.
119.
Sheridan BS Khanna KM Frank GM Hendricks RL 《Journal of immunology (Baltimore, Md. : 1950)》2006,177(12):8356-8364
The influence of latent virus on CD8+ T cell memory is poorly understood. HSV type 1 specifically establishes latency in trigeminal ganglia (TG) after corneal infection of mice. In latently infected TG, IL-15 deprivation reduced the following: 1) accumulation of HSV-specific CD8+ effector T cells (HSV-CD8(eff)), 2) accumulation of CD127(+) putative HSV-CD8 memory precursors, and 3) the size and functionality of the memory (HSV-CD8(mem)) population. Although compromised in IL-15(-/-) mice, the HSV-CD8(mem) pool persisted in latently infected tissue, but not in noninfected tissue of the same mice. Anti-IL-2 treatment also dramatically reduced the size of the HSV-CD8(eff) population in the TG, but did not influence the concomitant generation of the CD127+ putative HSV-CD8(mem) precursor population or the size or functionality of the HSV-CD8(mem) pool. Thus, the size of the memory pool appears to be determined by the size of the CD127+ CD8(mem) precursor population and not by the size of the overall CD8(eff) pool. HSV-CD8(mem) showed a higher basal rate of proliferation in latently infected than noninfected tissue, which was associated with a reduced population of CD4+FoxP3+ regulatory T cells. Thus, the generation, maintenance, and function of memory CD8+ T cells is markedly influenced by latent virus. 相似文献
120.
Escalation and extinction selectivity: morphology versus isotopic reconstruction of bivalve metabolism 总被引:1,自引:0,他引:1
Dietl GP Kelley PH Barrick R Showers W 《Evolution; international journal of organic evolution》2002,56(2):284-291
Studies that have tested and failed to support the hypothesis that escalated species (e.g., those with predation-resistant adaptations) are more susceptible to elimination during mass extinctions have concentrated on the distribution and degree of morphological defenses in molluscan species. This morphological approach to determining level of escalation in bivalves may be oversimplified because it does not account for metabolic rate, which is an important measure of escalation that is less readily accessible for fossils. Shell growth rates in living bivalves are positively correlated with metabolic rate and thus are potential indicators of level of escalation. To evaluate this approach, we used oxygen isotopes to reconstruct shell growth rates for two bivalve species (Macrocallista marylandica and Glossus markoei) from Miocene-aged sediments of Maryland. Although both species are classified as non-escalated based on morphology, the isotopic data indicate that M. marylandica was a faster-growing species with a higher metabolic rate and G. markoei was a slower-growing species with a lower metabolic rate. Based on these results, we predict that some morphologically non-escalated species in previous tests of extinction selectivity should be reclassified as escalated because of their fast shell growth rates (i.e., high metabolic rates). Studies that evaluate the level of escalation of a fauna should take into account the energetic physiology of taxa to avoid misleading results. 相似文献