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41.
Sheikh Imranudin Sheikh-Ali Akil Ahmad Siti-Hamidah Mohd-Setapar Zainul Akmal Zakaria Norfahana Abdul-Talib Aidee Kamal Khamis Md Enamul Hoque 《Journal of microbiology (Seoul, Korea)》2014,52(10):807-818
The contamination of food and feed by Aspergillus has become a global issue with a significant worldwide economic impact. The growth of Aspergillus is unfavourable to the development of food and feed industries, where the problems happen mostly due to the presence of mycotoxins, which is a toxic metabolite secreted by most Aspergillus groups. Moreover, fungi can produce spores that cause diseases, such as allergies and asthma, especially to human beings. High temperature, high moisture, retarded crops, and poor food storage conditions encourage the growth of mold, as well as the development of mycotoxins. A variety of chemical, biological, and physical strategies have been developed to control the production of mycotoxins. A biological approach, using a mixed culture comprised of Saccharomyces cerevisiae and Lactobacillus rhamnosus resulted in the inhibition of the growth of fungi when inoculated into fermented food. The results reveal that the mixed culture has a higher potential (37.08%) to inhibit the growth of Aspergillus flavus (producer of Aflatoxin) compared to either single culture, L. rhamnosus NRRL B-442 and S. cerevisiae, which inhibit the growth by 63.07% and 64.24%, respectively. 相似文献
42.
Ramos CA Bowman TA Boles NC Merchant AA Zheng Y Parra I Fuqua SA Shaw CA Goodell MA 《PLoS genetics》2006,2(9):e159
Hematopoietic stem cells replenish all the cells of the blood throughout the lifetime of an animal. Although thousands of stem cells reside in the bone marrow, only a few contribute to blood production at any given time. Nothing is known about the differences between individual stem cells that dictate their particular state of activation readiness. To examine such differences between individual stem cells, we determined the global gene expression profile of 12 single stem cells using microarrays. We showed that at least half of the genetic expression variability between 12 single cells profiled was due to biological variation in 44% of the genes analyzed. We also identified specific genes with high biological variance that are candidates for influencing the state of readiness of individual hematopoietic stem cells, and confirmed the variability of a subset of these genes using single-cell real-time PCR. Because apparent variation of some genes is likely due to technical factors, we estimated the degree of biological versus technical variation for each gene using identical RNA samples containing an RNA amount equivalent to that of single cells. This enabled us to identify a large cohort of genes with low technical variability whose expression can be reliably measured on the arrays at the single-cell level. These data have established that gene expression of individual stem cells varies widely, despite extremely high phenotypic homogeneity. Some of this variation is in key regulators of stem cell activity, which could account for the differential responses of particular stem cells to exogenous stimuli. The capacity to accurately interrogate individual cells for global gene expression will facilitate a systems approach to biological processes at a single-cell level. 相似文献
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Mice lacking the vesicular glutamate transporter-3 (VGLUT3) are congenitally deaf due to loss of glutamate release at the inner hair cell afferent synapse. Cochlear delivery of VGLUT3 using adeno-associated virus type 1 (AAV1) leads to transgene expression in only inner hair cells (IHCs), despite broader viral uptake. Within 2?weeks of AAV1-VGLUT3 delivery, auditory brainstem response (ABR) thresholds normalize, along with partial rescue of the startle response. Lastly, we demonstrate partial reversal of the morphologic changes seen within the afferent IHC ribbon synapse. These findings represent?a successful restoration of hearing by gene replacement in mice, which is a significant advance toward gene therapy of human deafness. 相似文献
45.
Rats rapidly develop tolerance to the locomotor-inhibiting effects of the novel neuropeptide orphanin FQ 总被引:4,自引:0,他引:4
Darragh P. Devine Larry Taylor Rainer K. Reinscheid Frederick J. Monsma Jr. Olivier Civelli Huda Akil 《Neurochemical research》1996,21(11):1387-1396
We examined the effects of intracerebroventricular (i.c.v.) administration of orphanin FQ (OFQ) on locomotor activity in rats.
The rats were habituated to locomotor-testing boxes and then injected i.c.v. with OFQ (0–10 nmoles). Acute injections of OFQ
produced dose-orderly reductions in horizontal locomotion and rearing activity. This suppression of motor activity was characterized
by a disruption of balance and muscle control. Within minutes of i.c.v. injection of the higher doses of OFQ, the rats exhibited
flaccid muscle tone. They each lay in an atypical posture, pressing the abdomen against the floor, and splaying the hindlimbs.
When these rats locomoted, their gate was unsteady. They wobbled from side to side, and frequently fell over. Repeated daily
injections of OFQ resulted in a rapid development of tolerance to the OFQ-induced suppression of locomotion and rearing activity.
Tolerance to the observed impairments of motor control were also apparent. In the rats that were repeatedly treated with the
highest dose (10 nmol) of OFQ, tolerance to the motoric effects was still apparent after 7 days without OFQ treatment.
Special issue dedicated to Dr. Eric J. Simon. 相似文献
46.
Experiments were carried out to determine whether stress induces biochemical changes in the pro-opiomelanocortin (POMC) system in anterior (AL) and intermediate-posterior lobe (IPL) of rat. In a series of pulse-chase experiments, acute stress led to an increase in POMC biosynthesis and shorter half-life in AL. However, when the animals were chronically stressed, the AL no longer exhibited increased POMC synthesis. On the other hand, in the IPL, acute stress did not produce any biochemical changes, but chronic stress led to an increase in POMC synthesis and shorter half-life. These data suggest that AL and IPL are affected by acute and/or chronic exposure to stress in opposite directions and that the POMC system in AL may play an important role in stress-induced analgesia. 相似文献
47.
Danielson PB Hoversten MT Fitzpatrick M Schreck C Akil H Dores RM 《The Journal of biological chemistry》2001,276(25):22114-22119
The elucidation of the cDNA sequence for sturgeon proorphanin provides a unique window for interpreting the evolutionary history of the opioid/orphanin gene family. The molecular "fossil" status of this precursor can be seen in several ancestral sequence characteristics that point to its origin as a duplication of either a prodynorphin- or proenkephalin-like gene. The sturgeon proorphanin cDNA encodes a precursor protein of 194 residues, and the orphanin heptadecapeptide itself binds not only the opioid receptor-like 1 (ORL1) receptor but also the classical (mu, kappa, and delta) opioid receptors with near equal affinity. Allowing for this broad receptor specificity are several amino acid substitutions at key positions in the heptadecapeptide sequence, relative to its mammalian orthologs, that have been linked by amino acid scans and site-directed mutagenic studies to the exclusion of mammalian orphanin FQ/nociceptin from classic opioid ligands (i.e. F1Y and L14W). The unique receptor binding profile of sturgeon orphanin not only provides insight into the evolutionary history of the opioid and opioid-related peptides but also provides an ideal context in which to investigate the underlying mechanisms by which novel and often divergent physiological functions arise in receptor-ligand systems. 相似文献
48.
López-Figueroa MO Caamaño C Marin R Guerra B Alonso R Morano MI Akil H Watson SJ 《Biochimica et biophysica acta》2001,1540(3):253-264
Nitric oxide (NO) is an important modulator of immune, endocrine and neuronal functions; however, measuring physiological levels of NO in cell cultures is generally difficult because of the lack of suitable methodologies. We have selected three cell lines from different origins: the neuroblastoma-derived Neuro2A (N2A), the cholinergic SN56 and the non-neuronal COS-1. We first demonstrated the presence of NADPH-diaphoretic activity, a potential marker of the NO-synthesizing (NOS) enzyme. By immunocytochemistry, using specific antibodies for each NOS subtype, we observed that subtype I was present in all cell lines and that subtype II was present in COS-1 and N2A cell lines. The presence of these NOS subtypes was further verified by Western blot analysis. Control cells treated with DAF-2 DA exhibited significant fluorescent levels corresponding to basal NO production. The subcellular distribution of the synthesizing enzyme was consistent with the NO-fluorescence signal; whereas, fixation affected the subcellular pattern of NO fluorescence signal. Addition of NOS inhibitors or NO scavengers to the incubation medium reduced the intensity of the NO fluorescence signal in a concentration-dependent manner. Conversely, increasing concentrations of a NO donor, or incident light, increased the fluorescence intensity. Our observation of NO production and distribution using the DAF-2 method has a direct impact on studies using these cell lines. 相似文献
49.
When administered in a novel environment relatively low doses of amphetamine induce c-fos mRNA in the subthalamic nucleus (STN) and in preproenkephalin mRNA-containing (ENK+) neurons in the caudate-putamen (CPu). When administered at home, however, low doses of amphetamine do not produce these effects. Environmental novelty also facilitates the behavioral effects of acute and repeated amphetamine, but this is dose-dependent. The purpose of the present experiment therefore was to determine if the effect of context on amphetamine-induced c-fos expression is also dose-dependent. It was found that: (i) No dose of amphetamine tested (1-10 mg/kg) induced c-fos in many ENK+ cells when given at home. (ii) When given in a novel environment low to moderate doses of amphetamine (1-5 mg/kg) induced c-fos in substantial numbers of ENK+ cells, but the highest dose examined (10 mg/kg) did not. (iii) Environmental novelty enhanced the ability of low to moderate doses of amphetamine to induce c-fos in the STN, but the highest dose of amphetamine induced robust c-fos mRNA expression in the STN regardless of context. The results do not support the idea that engaging ENK+ cells, at least as indicated by c-fos mRNA expression, is critical to produce robust behavioral sensitization, but do suggest a possible role for the STN. Furthermore, the results highlight the importance of drug-environment interactions on the neurobiological effects of drugs, and have implications for thinking about the circuits by which context modulates the acute and long-lasting consequences of amphetamine treatment. 相似文献
50.