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101.
Electromyographic activity from human laryngeal, pharyngeal, and submental muscles during swallowing. 总被引:3,自引:0,他引:3
A L Perlman P M Palmer T M McCulloch D J Vandaele 《Journal of applied physiology》1999,86(5):1663-1669
The durations and temporal relationships of electromyographic activity from the submental complex, superior pharyngeal constrictor, cricopharyngeus, thyroarytenoid, and interarytenoid muscles were examined during swallowing of saliva and of 5- and 10-ml water boluses. Bipolar, hooked-wire electrodes were inserted into all muscles except for the submental complex, which was studied with bipolar surface electrodes. Eight healthy, normal, subjects produced five swallows of each of three bolus volumes for a total of 120 swallows. The total duration of electromyographic activity during the pharyngeal stage of the swallow did not alter with bolus condition; however, specific muscles did show a volume-dependent change in electromyograph duration and time of firing. Submental muscle activity was longest for saliva swallows. The interarytenoid muscle showed a significant difference in duration between the saliva and 10-ml water bolus. Finally, the interval between the onset of laryngeal muscle activity (thyroarytenoid, interarytenoid) and of pharyngeal muscle firing patterns (superior pharyngeal constrictor onset, cricopharyngeus offset) decreased as bolus volume increased. The pattern of muscle activity associated with the swallow showed a high level of intrasubject agreement; the presence of somewhat different patterns among subjects indicated a degree of population variance. 相似文献
102.
Takeshi Fukuda Kenjiro Ueda Takashi Ishiyama Riki Goto Sumie Muramatsu Masami Hashimoto Kengo Watanabe Naoki Tanaka 《Bioorganic & medicinal chemistry letters》2017,27(10):2148-2152
Hepcidin has emerged as the central regulatory molecule of systemic iron homeostasis. Inhibition of hepcidin could be a strategy favorable to treating anemia of chronic disease (ACD). We report herein the synthesis and structure-activity relationships (SARs) of a series of indazole compounds as hepcidin production inhibitors. The optimization study of compound 1 led to a potent hepcidin production inhibitor 45, which showed serum hepcidin lowering effects in a mouse IL-6 induced acute inflammatory model. 相似文献
103.
An exceptional family: Ophiocordyceps‐allied fungus dominates the microbiome of soft scale insects (Hemiptera: Sternorrhyncha: Coccidae)
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Priscila Gomez‐Polo Matthew J. Ballinger Maya Lalzar Assaf Malik Yair Ben‐Dov Neta Mozes‐Daube Steve J. Perlman Lilach Iasur‐Kruh Elad Chiel 《Molecular ecology》2017,26(20):5855-5868
Hemipteran insects of the suborder Sternorrhyncha are plant sap feeders, where each family is obligately associated with a specific bacterial endosymbiont that produces essential nutrients lacking in the sap. Coccidae (soft scale insects) is the only major sternorrhynchan family in which obligate symbiont(s) have not been identified. We studied the microbiota in seven species from this family from Israel, Spain and Cyprus, by high‐throughput sequencing of ribosomal genes, and found that no specific bacterium was prevalent and abundant in all the tested species. In contrast, an Ophiocordyceps‐allied fungus sp.—a lineage widely known as entomopathogenic—was highly prevalent. All individuals of all the tested species carried this fungus. Phylogenetic analyses showed that the Ophiocordyceps‐allied fungus from the coccids is closely related to fungi described from other hemipterans, and they appear to be monophyletic, although the phylogenies of the Ophiocordyceps‐allied fungi and their hosts do not appear to be congruent. Microscopic observations show that the fungal cells are lemon‐shaped, are distributed throughout the host's body and are present in the eggs, suggesting vertical transmission. Taken together, the results suggest that the Ophiocordyceps‐allied fungus may be a primary symbiont of Coccidae—a major evolutionary shift from bacteria to fungi in the Sternorrhyncha, and an important example of fungal evolutionary lifestyle switch. 相似文献
104.
Butler NS Theodossis A Webb AI Nastovska R Ramarathinam SH Dunstone MA Rossjohn J Purcell AW Perlman S 《PLoS pathogens》2008,4(10):e1000186
High affinity antigen-specific T cells play a critical role during protective immune responses. Epitope enhancement can elicit more potent T cell responses and can subsequently lead to a stronger memory pool; however, the molecular basis of such enhancement is unclear. We used the consensus peptide-binding motif for the Major Histocompatibility Complex molecule H-2K(b) to design a heteroclitic version of the mouse hepatitis virus-specific subdominant S598 determinant. We demonstrate that a single amino acid substitution at a secondary anchor residue (Q to Y at position 3) increased the stability of the engineered determinant in complex with H-2K(b). The structural basis for this enhanced stability was associated with local alterations in the pMHC conformation as a result of the Q to Y substitution. Recombinant viruses encoding this engineered determinant primed CTL responses that also reacted to the wildtype epitope with significantly higher functional avidity, and protected against selection of virus mutated at a second CTL determinant and consequent disease progression in persistently infected mice. Collectively, our findings provide a basis for the enhanced immunogenicity of an engineered determinant that will serve as a template for guiding the development of heteroclitic T cell determinants with applications in prevention of CTL escape in chronic viral infections as well as in tumor immunity. 相似文献
105.
Endo peptidyl epoxides, in which the central epoxidic moiety replaces the scissile amide bond of a P(3)-P(3)' peptide, were designed as cysteine proteases inhibitors. The additional P'-S' interactions, relative to those of an exo peptidyl epoxide of the same P(3)-P(1) sequence, significantly improved affinity to the enzymes papain and cathepsin B, but also changed the mode of inhibition from active-site directed inactivation to reversible competitive inhibition. Computational models rationalize the binding affinity and the inhibition mechanism. 相似文献
106.
Population biology of cytoplasmic incompatibility: maintenance and spread of Cardinium symbionts in a parasitic wasp 总被引:1,自引:0,他引:1
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Bacteria that cause cytoplasmic incompatibility (CI) are perhaps the most widespread parasites of arthropods. CI symbionts cause reproductive failure when infected males mate with females that are either uninfected or infected with a different, incompatible strain. Until recently, CI was known to be caused only by the alpha-proteobacterium Wolbachia. Here we present the first study of the population biology of Cardinium, a recently discovered symbiont in the Bacteroidetes that causes CI in the parasitic wasp Encarsia pergandiella (Hymenoptera: Aphelinidae). Cardinium occurs at high frequency ( approximately 92%) in the field. Using wasps that were recently collected in the field, we measured parameters that are crucial for understanding how CI spreads and is maintained in its host. CI Cardinium exhibits near-perfect rates of maternal transmission, causes a strong reduction in viable offspring in incompatible crosses, and induces a high fecundity cost, with infected females producing 18% fewer offspring in the first 4 days of reproduction. We found no evidence for paternal transmission or horizontal transmission of CI Cardinium through parasitism of an infected conspecific. No evidence for cryptic parthenogenesis in infected females was found, nor was sex allocation influenced by infection. We incorporated our laboratory estimates into a model of CI dynamics. The model predicts a high stable equilibrium, similar to what we observed in the field. Interestingly, our model also predicts a high threshold frequency of CI invasion (20% for males and 24% for females), below which the infection is expected to be lost. We consider how this threshold may be overcome, focusing in particular on the sensitivity of CI models to fecundity costs. Overall our results suggest that the factors governing the dynamics of CI Wolbachia and Cardinium are strikingly similar. 相似文献
107.
Severe Acute Respiratory Syndrome Coronavirus Protein 6 Is Required for Optimal Replication
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Jincun Zhao Ana Falcón Haixia Zhou Jason Netland Luis Enjuanes Pilar Pérez Bre?a Stanley Perlman 《Journal of virology》2009,83(5):2368-2373
Severe acute respiratory syndrome coronavirus (SARS-CoV) encodes several accessory proteins of unknown function. One of these proteins, protein 6 (p6), which is encoded by ORF6, enhances virus replication when introduced into a heterologous murine coronavirus (mouse hepatitis virus [MHV]) but is not essential for optimal SARS-CoV replication after infection at a relatively high multiplicity of infection (MOI). Here, we reconcile these apparently conflicting results by showing that p6 enhances SARS-CoV replication to nearly the same extent as when expressed in the context of MHV if cells are infected at a low MOI and accelerates disease in mice transgenic for the human SARS-CoV receptor.The genome of severe acute respiratory syndrome coronavirus (SARS-CoV) encodes several structural proteins, including the spike, nucleocapsid, membrane, and envelope proteins (13). Integrated between and within these structural proteins are eight accessory proteins (6, 8, 10, 15, 16, 18, 21-27). Our laboratory showed previously that one of these SARS-CoV-specific accessory proteins, encoded by ORF6, showed a clearly recognizable phenotype when introduced into a heterologous attenuated murine coronavirus, mouse hepatitis virus (MHV) strain J2.2-V-1 (rJ2.2.6). rJ2.2.6 grew more rapidly and to higher titers in tissue culture cells and in the murine central nervous system than control viruses, and the presence of p6 increased mortality in mice from 10 to 20% to 80% (7, 19, 20). However, the absence of p6 did not diminish SARS-CoV growth in tissue culture cells when cells were infected with 1 PFU/cell (31). In addition to a role in enhancing virus replication, when expressed in the context of a SARS-CoV infection or by transfection, p6 blocked interferon (IFN)-induced STAT1 nuclear translocation by retention of the nuclear import adaptor molecule karyopherin alpha 2 in the cytoplasm, indicating a role in thwarting innate immune effectors (5, 11). In contrast, p6 did not significantly diminish IFN sensitivity when expressed in the context of rJ2.2 (20).The results described above were puzzling, because p6 seemed to be required for the optimal replication of a heterologous coronavirus but not for that of SARS-CoV. Thus, the objective of this study was to determine whether p6 could enhance SARS-CoV replication in tissue culture cells under any conditions. For this purpose, we examined its function by comparing the growth of a recombinant SARS-CoV (rSARS-CoV) in which p6 was deleted (rSARS-CoVΔ6) with that of wild-type rSARS-CoV at a range of multiplicities of infection (MOIs). Normal mice infected with SARS-CoV readily cleared the infection, making it difficult to detect a role for p6 in vivo. However, mice that are transgenic for expression of the human receptor angiotensin-converting enzyme 2 (hACE2) are exquisitely sensitive to infection with SARS-CoV and are useful for identifying an in vivo role for p6 (14). 相似文献
108.
Susan B. Perlman James P. Morris Brent C. Vander Wyk Steven R. Green Jaime L. Doyle Kevin A. Pelphrey 《PloS one》2009,4(6)
Background
Determining the ways in which personality traits interact with contextual determinants to shape social behavior remains an important area of empirical investigation. The specific personality trait of neuroticism has been related to characteristic negative emotionality and associated with heightened attention to negative, emotionally arousing environmental signals. However, the mechanisms by which this personality trait may shape social behavior remain largely unspecified.Methodology/Principal Findings
We employed eye tracking to investigate the relationship between characteristics of visual scanpaths in response to emotional facial expressions and individual differences in personality. We discovered that the amount of time spent looking at the eyes of fearful faces was positively related to neuroticism.Conclusions/Significance
This finding is discussed in relation to previous behavioral research relating personality to selective attention for trait-congruent emotional information, neuroimaging studies relating differences in personality to amygdala reactivity to socially relevant stimuli, and genetic studies suggesting linkages between the serotonin transporter gene and neuroticism. We conclude that personality may be related to interpersonal interaction by shaping aspects of social cognition as basic as eye contact. In this way, eye gaze represents a possible behavioral link in a complex relationship between genes, brain function, and personality. 相似文献109.
Severe Acute Respiratory Syndrome caused substantial morbidity and mortality during the 2002–2003 epidemic. Many of the features of the human disease are duplicated in BALB/c mice infected with a mouse-adapted version of the virus (MA15), which develop respiratory disease with high morbidity and mortality. Here, we show that severe disease is correlated with slow kinetics of virus clearance and delayed activation and transit of respiratory dendritic cells (rDC) to the draining lymph nodes (DLN) with a consequent deficient virus-specific T cell response. All of these defects are corrected when mice are treated with liposomes containing clodronate, which deplete alveolar macrophages (AM). Inhibitory AMs are believed to prevent the development of immune responses to environmental antigens and allergic responses by interacting with lung dendritic cells and T cells. The inhibitory effects of AM can also be nullified if mice or AMs are pretreated with poly I:C, which directly activate AMs and rDCs through toll-like receptors 3 (TLR3). Further, adoptive transfer of activated but not resting bone marrow–derived dendritic cells (BMDC) protect mice from lethal MA15 infection. These results may be relevant for SARS in humans, which is also characterized by prolonged virus persistence and delayed development of a SARS-CoV-specific immune response in individuals with severe disease. 相似文献
110.
The emerging diversity of Rickettsia 总被引:1,自引:0,他引:1
Perlman SJ Hunter MS Zchori-Fein E 《Proceedings. Biological sciences / The Royal Society》2006,273(1598):2097-2106
The best-known members of the bacterial genus Rickettsia are associates of blood-feeding arthropods that are pathogenic when transmitted to vertebrates. These species include the agents of acute human disease such as typhus and Rocky Mountain spotted fever. However, many other Rickettsia have been uncovered in recent surveys of bacteria associated with arthropods and other invertebrates; the hosts of these bacteria have no relationship with vertebrates. It is therefore perhaps more appropriate to consider Rickettsia as symbionts that are transmitted vertically in invertebrates, and secondarily as pathogens of vertebrates. In this review, we highlight the emerging diversity of Rickettsia species that are not associated with vertebrate pathogenicity. Phylogenetic analysis suggests multiple transitions between symbionts that are transmitted strictly vertically and those that exhibit mixed (horizontal and vertical) transmission. Rickettsia may thus be an excellent model system in which to study the evolution of transmission pathways. We also focus on the emergence of Rickettsia as a diverse reproductive manipulator of arthropods, similar to the closely related Wolbachia, including strains associated with male-killing, parthenogenesis, and effects on fertility. We emphasize some outstanding questions and potential research directions, and suggest ways in which the study of non-pathogenic Rickettsia can advance our understanding of their disease-causing relatives. 相似文献