黑籽南瓜NBS类基因CfRFN2的克隆及VIGS验证

黑籽南瓜(Cucurbita ficifolia)是云南特有的具有高抗枯萎病遗传性状的瓜类种质资源。为鉴定黑籽南瓜中NBS-LRR类基因的抗病功能,该研究从其叶片中克隆了NBS类基因CfRFN2 (GenBank ID:MK618462),测序全长为4 303 bp,完整的编码框长度为4 092 bp,编码1 363个氨基酸残基,该基因注释为拟南芥抗病蛋白At4g27190类转录体X1的同源基因,含有1个NB-ARC和2个LRR结构域,属于具有信号肽的可溶性蛋白。核苷酸相似性分析显示,CfRFN2与其他瓜类NBS类基因相似性在87%～98%之间;系统进化树分析表明,CfRFN2蛋白和瓜类的其他NBS类抗病蛋白聚为一个分支,其中CfRFN2蛋白与中国南瓜和美洲南瓜的RPS2、印度南瓜的RPS2-like亲缘关系最近,其次是黄瓜的At4g27190和苦瓜的At4g27220,与甜瓜的Atg27190亲缘关系相对较远;组织表达特性分析表明,CfRFN2基因在黑籽南瓜叶片中表达量最高,其次是茎,而在果皮和根中表达量较低。该研究采用烟草脆裂病毒载体系统,构建了黑籽南瓜VIGS沉默载体pTRV2-CfRFN2,含沉默载体的农杆菌侵染黑籽南瓜幼苗后接种枯萎病菌,qRT-PCR检测表明,接种后2 d和4 d的转pTRV2-CfRFN2沉默组植株的CfRFN2基因表达量比接种后同时期的野生型植株显著降低(分别下降34.75%和98.27%),病情指数增加为野生型的1.32倍,初步证明黑籽南瓜CfRFN2基因具有抗枯萎病的功能,推测该基因可能在黑籽南瓜抗枯萎病防御过程中发挥着重要作用。该研究中NBS类基因CfRFN2的克隆和VIGS验证为黑籽南瓜更多优异基因的克隆和功能验证奠定了前期基础,也为发掘黑籽南瓜优异抗病基因和开展瓜类分子育种提供新信息。     

人群中卷发与直发性状遗传调查及研究分析

本文运用随机问卷调查的方法对1143名师生(男687名,女466名)进行了卷发与直发遗传性状特征的调查。通过数据分析以及查找相关文献,得出了人群中卷发与直发和性别无关系的结论并且推测控制直发与卷发的基因位于常染色体上。除此之外还发现卷发与直发性状不仅受到遗传因素的影响,还受到外部因素的影响,包括生活环境、生活习惯、营养状况等等。     

蛋白质截短检测在基因突变在检测中的应用

蛋白质截短检测（ｐｒｏｔｅｉｎ ｔｒｕｎｃａｔｉｏｎ ｔｅｓｔ，ＰＴＴ）是从蛋白质水平对基因突变进行检测的方法。由于ＰＴＴ具有与以往广泛使用的方法不同的独特优点，自１９９３年发明以来，先后在ＡＰＣ、ＤＭＤ、ＢＲＣＡ１、错配修复基因（ｍｉｓｍａｔｃｈ ｒｅｐａｉｒ ｇｅｎｅ）突变检测中得以应用。     

建立以TK基因为标记将外源基因导入臭曲霉（Asper—gillus...

A new system for selection of transformed Aspergillus foetidus was reported. In this system, TK- A. foetidus which were constructed by homologous recombination of mutated TK gene of vaccinia virus with TK gene of A. foetidus were screened by adding BUdR in agar plates. Conditions for screen of TK+ A. foetidus strain, transformation of A. foetidus and selection of transformed TK- A. foetidus have been studied. By using this system, several transformed A. foetidus which contained HBsAg gene derived bf a promoter H8 cloned from genomic DNA of A. foetidus were isolated. It was demonstrated that HBsAg gene was integrated into the chromosome DNA of A. foetidus by Southern blot after many passages of spores. ELISA showed that HBsAg was positive in the growth medium (p/n = 20). The 22 nm particles which were very similar to the HBsAg particles in human serum were found in the growth medium by immunoelectromicroscope. Western blot also gave the specific bands. All these data showed that HBsAg gene was expressed in A. foetidus and the products were secreted into the growth medium. The selection system using TK gene as marker could generally be used to study the expression of foreign gene in A. foetidus.     

CRISPR/Cas9系统纳米递送及其在肿瘤治疗中应用

新兴的CRISPR/Cas9基因编辑技术可实现在分子水平上对基因进行操作,具有设计简单、易于操作、特异性好、效率高等优点,广泛应用于肿瘤发生、发展和转移的潜在机制以及临床治疗的研究.利用纳米技术研发的非病毒纳米载体可以将CRISPR/Cas9系统高效递送到体内,为CRISPR/Cas9技术在临床领域的应用提供新途径.本文介绍CRISPR/Cas9的作用原理,简要概括目前CRISPR/Cas9系统的递送形式和常用的纳米递送载体,总结在部分肿瘤治疗中应用该技术的研究进展,并进一步对此进行展望.