发表一篇学和医学成像类SCI论文
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Abstract:
:It has been proposed that Amyloid β Precursor Protein (APP) might act as a rheostat controlling neuronal excitability, but mechanisms have remained untested. APP and its catabolite Aβ are known to impact upon synapse function and dysfunction via their interaction with the prion protein (PrPC), suggesting a candidate pathway. Here we test if PrPC is required for this APP function in vivo, perhaps via modulating mGluR5 ion channels. We engineered zebrafish to lack homologs of PrPC and APP, allowing us to assess their purported genetic and physiological interactions in CNS development. We generated four appa null alleles as well as prp1-/-;appa-/- double mutants (engineering of prp1 mutant alleles is described elsewhere). Unexpectedly, appa-/- and compound prp1-/-;appa-/- mutants are viable and lacked overt phenotypes (except being slightly smaller than wildtype fish at some developmental stages). Zebrafish prp1-/- mutants were substantially more sensitive to appa knockdown than wildtype fish, and both zebrafish prp1 and mammalian Prnp mRNA were significantly able to partially rescue this effect. Further, appa-/- mutants exhibited increased seizures upon exposure to low doses of convulsant. The mechanism of this seizure susceptibility requires prp1 insomuch that seizures were significantly dampened to wildtype levels in prp1-/-;appa-/- mutants. Inhibiting mGluR5 channels, which may be downstream of PrPC, increased seizure intensity only in prp1-/- mutants, and this seizure mechanism required intact appa. Taken together, these results support an intriguing genetic interaction between prp1 and appa with their shared roles impacting upon neuron hyperexcitability, thus complementing and extending past works detailing their biochemical interaction(s).
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最新影响因子:5.62 | 期刊ISSN:0014-4886 | CiteScore:4.51 |
出版周期:Monthly | 是否OA:YES | 出版年份:1959 |
期刊官方网址:http://ees.elsevier.com/yexnr/default.asp?pg=login.asp
期刊投稿地址:http://ees.elsevier.com/yexnr/default.asp?pg=login.asp
自引率:3.00% | 研究方向:医学-神经科学 |
出版地区:UNITED STATES |
SCI期刊coverage:Science Citation Index Expanded(科学引文索引扩展)
专业编辑在线一对一答疑及时解决您的问题
As one of the premier review journals in the neurosciences, Molecular Neurobiology is specifically designed to synthesize and critically assess research trends in experimental and clinical neuroscience at the molecular level. Its distinguished editorial board is comprised of four Nobelists and other preeminent neuroscientists who carefully review papers to ensure their high quality.
分子神经生物学是神经科学领域最重要的评论期刊之一,是专门为在分子水平上综合和批判性地评估实验和临床神经科学的研究趋势而设计的。其杰出的编辑委员会由四名诺贝尔奖获得者和其他杰出的神经科学家组成,他们仔细审查论文以确保其高质量。
大类(学科) | 小类(学科) | 学科排名 |
医学 |
NEUROSCIENCES (神经科学) 2区 |
60/261 |
年度总发文量 | 年度论文发表量 | 年度综述发表量 |
218 | 179 | 39 |
引文计数(2018)
文献(2015-2017)
3681次引用
817篇文献
序号 | 类别 | 排名 | 百分位 |
1 |
大类(学科):Neuroscience
小类(学科):Neurology
|
#18/142
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|
2 |
大类(学科):Neuroscience
小类(学科):Developmental Neuroscience
|
#5/33
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研究方向:神经系统疾病
接受率: 中等(50%命中)
影响因子:13.029
ISSN:1522-8517
研究方向:医学-临床神经学
影响因子:4.506
ISSN:0167-594X
研究方向:医学-临床神经学
影响因子:7.723
ISSN:2162-402X
研究方向:ONCOLOGYIMMUNOLOGY-IMMUNOLOGY
影响因子:4.912
ISSN:1524-9557
研究方向:医学-免疫学
影响因子:12.02
ISSN:2326-6066
研究方向:ONCOLOGY-IMMUNOLOGY
影响因子:3.698
ISSN:1750-9378
研究方向:ONCOLOGY-IMMUNOLOGY
影响因子:6.63
ISSN:0340-7004
研究方向:医学-免疫学
影响因子:3.077
ISSN:1534-7354
研究方向:医学-全科医学与补充医学
影响因子:0
ISSN:1868-8497
研究方向:ONCOLOGY-ENDOCRINOLOGY & METABOLISM
发表一篇学和医学成像类SCI论文
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