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嗜肺軍團菌快速檢測卡

嗜肺軍團菌快速檢測卡

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EIKEN嗜肺軍團菌快速檢測卡 軍團菌革蘭氏陰性桿菌 需要了解更多產品可以咨詢我們,本產品由廣州健侖生物科技有限公司提供

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EIKEN嗜肺軍團菌快速檢測卡

廣州健侖生物科技有限公司

主要用途:用于檢測尿樣中嗜肺軍團菌血清型1抗原,以支持軍團菌感染的診斷。

產品規(guī)格:20T/盒

存儲條件:2-30℃

EIKEN嗜肺軍團菌快速檢測卡

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JL-ET01免疫捕獲諾如病毒檢測試劑盒用于檢測糞便標本中的諾如病毒抗原,以支持諾如病毒感染的診斷。20T/盒2-30℃
JL-ET02免疫捕獲軍團菌檢測試劑盒用于檢測尿樣中嗜肺軍團菌血清型1抗原,以支持軍團菌感染的診斷。20T/盒2-30℃
JL-ET03免疫捕獲肺炎鏈球菌檢測試劑盒用于檢測尿標本中的肺炎鏈球菌抗原,以支持肺炎鏈球菌感染的診斷。20T/盒2-30℃

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【公司名稱】 廣州健侖生物科技有限公司
【】    楊永漢 
【】 
【騰訊 】 2042552662
【公司地址】 廣州清華科技園創(chuàng)新基地番禺石樓鎮(zhèn)創(chuàng)啟路63號二期2幢101-3室

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大腦細胞的自我更新能力很差,細胞療法可使丟失腦細胞的得以更新,已成為中樞神經系統(tǒng)損傷治療的潛力性方法。骨髓間充質干細胞因其可分化為神經元/神經細胞,又可通過血腦屏障遷移至損傷神經組織,還能分泌神經營養(yǎng)因子,營造利于神經再生的微環(huán)境,也被認為是有希望的細胞治療項目。
伊朗Shahid Sadoughi 大學醫(yī)學院的Mohammad Ali Khalili教授所在研究團隊,設計了給創(chuàng)傷性腦損傷模型大鼠尾靜脈注射3×106大鼠骨髓間充質干細胞,靜脈移植后顯著促進了創(chuàng)傷性損傷大腦皮質神經細胞的再生,作者認為此方法可成為因損傷而丟失神經細胞的有益補充。相關研究成果發(fā)表在《中國神經再生研究(英文版)》雜志2014年5月第9期。
在人類細胞中,位于制造能量的稱為線粒體的結構中的DNA 可能出現突變從而形成多個DNA變種。這種稱為異質性的情況是一批疾病的原因,但是健康人群的線粒體基因組中的致病異質性的流行程度尚不清楚,這部分是由于樣本數量少或者此前研究的不充分的測序方法。
Zhenglong Gu及其同事分析了1000基因組項目的14個人群的1085個健康個體的整個線粒體基因組高質量下一代測序數據。這些人的90%擁有至少一種異質性,但是多數人的異質性數量低。然而,所有這些人的19%攜帶了至少一種與疾病有關的異質性。
這組作者說,隨著時間的推移,健康個體的可能有害的線粒體DNA變種的數量可能在一些細胞中增加,zui終達到了一個可能致病的臨界極限值,這強調了管理異質性從而防止疾病進程的重要性。
美國Salk研究所Juan Carlos Izpisua Belmonte實驗室、華大基因(BGI)李英睿團隊和中科院生物物理研究所劉光慧研究組合作,*利用全基因組測序(WGS)明確了現有疾病基因組靶向矯正工具的安全可靠性,并創(chuàng)建了效率遠高于目前基因組靶向編輯技術的新型人類遺傳突變修復工具HDAdV,為開展以干細胞為基礎的基因治療提供了重要的理論依據。 相關文章發(fā)表于2014年7月3日的《Cell Stem Cell》雜志上。
例子:血紅蛋白疾病(如鐮刀形細胞貧血癥和地中海貧血癥)的再生醫(yī)學治療策略
人誘導多能干細胞技術(iPSC)的出現,促進了人類疾病基因組靶向矯正技術的快速發(fā)展。目前可用于人類疾病基因組靶向矯正的方法包括:核酶介導的DNA同源重組技術(如ZFN,TALEN及CRISPR/CAS9等)以及不依賴于核酶的大片段DNA同源重組技術(以第三代腺病毒載體HDAdV為代表)。經遺傳修復的自體干細胞具有治療自身疾病的潛力,因此在個體醫(yī)學和再生醫(yī)學中具有廣闊的應用前景。
劉光慧研究團隊曾zui早利用HDAdV介導的基因組靶向編輯技術在兒童早衰癥患者iPSC中實現了對致病基因LMNA的靶向修復,從概念上證實了在病人細胞中原位矯正遺傳突變的可行性。他們繼而矯正了帕金森氏癥和范可尼貧血癥患者干細胞中的致病突變,為這些遺傳疾病的機理研究、藥物評價及個性化干細胞和基因治療奠定了基礎。

Brain cells are poor at self-renewal and cell therapies that allow for the loss of brain cells have been renewed and have become a potential method of treatment for CNS injury. Bone marrow-derived mesenchymal stem cells are also considered promising because of their ability to differentiate into neurons / neurons, migration to damaged nerve tissue through the blood-brain barrier, secretion of neurotrophic factors, and creation of a microenvironment conducive to nerve regeneration Cell Therapy Project.
Professor Mohammad Ali Khalili, a professor at the Shahid Sadoughi University School of Medicine in Iran, designed a rat model of traumatic brain injury to inject 3 × 10 6 rat bone marrow mesenchymal stem cells into the tail vein of the traumatic brain injury model and significantly promote traumatic injury to the cerebral cortex Regeneration of nerve cells, the authors believe that this method can become a beneficial supplement due to injury and loss of nerve cells. Relevant research results published in the "Chinese Journal of Nervous Regeneration Research (English Edition)" magazine in May 2014 No. 9.
In human cells, DNA located in the structure called mitochondria that make energy can mutate to form multiple DNA variants. This condition, known as heterogeneity, is responsible for a number of diseases, but the prevalence of pathogenic heterogeneity in the mitochondrial genome of healthy populations is unclear, partly due to the small sample size or inadequay studied Sequencing method.
Zhenglong Gu and colleagues analyzed high-quality, next-generation sequencing data from the entire mitochondrial genome of 1085 healthy individuals in 14 global populations of 1000 genome projects. 90% of these people have at least one heterogeneity, but most people have low levels of heterogeneity. However, 19% of all these people carry at least one disease-related heterogeneity.
Over time, the authors say, the number of potentially harmful mitochondrial DNA variants in healthy individuals may increase in some cells, culminating in a potentially pathogenic threshold, emphasizing the management of heterogeneity and thus preventing The importance of the disease process.
The team of Juan Carlos Izpisua Belmonte, Salk Institute of USA, BGL Li Ying-Rui team and Liu Guang-hui Research Group, Institute of Biophysics, Chinese Academy of Sciences, for the first time made use of whole genome sequencing (WGS) to clarify the safety of existing disease genomic targeted remediation tools Reliability and create HDAdV, a novel human genetic mutation repair tool far more efficient than current genomic targeted editing techniques, providing an important theoretical basis for stem cell-based gene therapy. The article appeared in the July 3, 2014 issue of Cell Stem Cell.
Examples: Regenerative medical treatment strategies for hemoglobin diseases such as sickle cell anemia and thalassemia
The advent of human induced pluripotent stem cell technology (iPSC) has led to the rapid development of targeted therapies for human disease genomes. Currently available methods for target-directed genomic remediation of human diseases include ribozyme-mediated DNA homologous recombination techniques (eg, ZFN, TALEN and CRISPR / CAS9, etc.) and large fragment DNA-independent recombination techniques independent of ribozyme Third generation adenovirus vector HDAdV is representative). Genetically repaired autologous stem cells have the potential to treat their own diseases and therefore have broad applications in both individual medicine and regenerative medicine.
Liu Guanghui's team first used the HDAdV-mediated genome-targeted editing technique to target the pathogenic gene LMNA in the iPSC of patients with APA, and conceptually confirmed the feasibility of in situ correction of genetic mutations in patient cells . They then corrected pathogenic mutations in stem cells in patients with Parkinson's and Fanconi anemia and laid the foundation for mechanistic studies of these genetic diseases, drug evaluation, and personalized stem cell and gene therapy.

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