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931.
端粒酶调控机制的研究进展 总被引:1,自引:0,他引:1
端粒酶在细胞中的主要生物学功能是通过其逆转录酶活性复制和延长端粒DNA来稳定染色体端粒DNA的长度。近年有关端粒酶与肿瘤关系的研究进展表明,在肿瘤细胞中端粒酶还参与了对肿瘤细胞的凋亡和基因组稳定的调控过程。与端粒酶的多重生物学活性相对应,肿瘤细胞中也存在复杂的端粒酶调控网络。通过蛋白质-蛋白质相互作用在翻译后水平对端粒酶活性及功能进行调控,则是目前研究端粒酶调控机制的热点之一。 相似文献
932.
高秆隐性e杂交水稻研究进展 总被引:6,自引:0,他引:6
本文综述利用eui基因来提高杂交水稻制种产量的设想与实践,以及通过直接辐射诱变方法育成高秆隐性恢复系和长穗颈不育系,继而育成e杂交水稻组合等方面的研究进展,提出了今后e杂交水稻的研究方向. 相似文献
933.
934.
为了建立一种在先天性智力低下患儿中快速分析脆性X综合征智力低下基因1(Fragile X mental retardation gene 1.FMR-1)突变的方法,对先天性智力低下儿童进行脆性X综合征的大面积筛查和诊断,应用复式多聚酶链式反应一次性扩增FMR-1基因的(CGG)n的重复区,分析CGG重复序列的大小,判断FMR-1基因状态(正常、突变前、突变后),对脆性X综合征可疑患儿快速筛查,在113倒不明原因的先天性智力低下患儿中,分析有脆性X综合征携带者(FMR-1基因前突变者)7例(2男5女),脆性X综合征患者(FMR-1基因突变者)5例,应用多聚酶链式反应可以对脆性X综合征可疑患儿进行大面积初筛,确定携带者和患者。 相似文献
935.
有性繁殖是动物繁衍后代的主要方式,关于这一机制的分子生物学研究已经有了相当的进展。在对模式动物线虫、果蝇以及人类自身的性别决定机制的研究中,几个关键的基因已经被克隆,其分子特征和作用机制也得到详细的阐述。通过对性别决定基因的比较发现,在性别决定过程中其下游调节因子较上游更为保守,在进化途径中出现较早。现就近几年动物性别决定进化途径的研究进展进行综述。 相似文献
936.
Within the accompanying paper in this issue (Reger et al. (2008) Biochemistry, 47, 8016-8025) we reported the X-ray structure of 4-chlorobenzoate:CoA ligase (CBL) bound with 4-chlorobenzoyl-adenylate (4-CB-AMP) and the X-ray structure of CBL bound with 4-chlorophenacyl-CoA (4-CP-CoA) (an inert analogue of the product 4-chlorobenzoyl-coenzyme A (4-CB-CoA)) and AMP. These structures defined two CBL conformational states. In conformation 1, CBL is poised to catalyze the adenylation of 4-chlorobenzoate (4-CB) with ATP (partial reaction 1), and in conformation 2, CBL is poised to catalyze the formation of 4-CB-CoA from 4-CB-AMP and CoA (partial reaction 2). These two structures showed that, by switching from conformation 1 to conformation 2, the cap domain rotates about the domain linker and thereby changes its interface with the N-terminal domain. The present work was carried out to determine the contributions made by each of the active site residues in substrate/cofactor binding and catalysis, and also to test the role of domain alternation in catalysis. In this paper, we report the results of steady-state kinetic and transient state kinetic analysis of wild-type CBL and of a series of site-directed CBL active site mutants. The major findings are as follows. First, wild-type CBL is activated by Mg (2+) (a 12-75-fold increase in activity is observed depending on assay conditions) and its kinetic mechanism (ping-pong) supports the structure-derived prediction that PP i dissociation must precede the switch from conformation 1 to conformation 2 and therefore CoA binding. Also, transient kinetic analysis of wild-type CBL identified the rate-limiting step of the catalyzed reaction as one that follows the formation of 4-CB-CoA (viz. CBL conformational change and/or product dissociation). The single turnover rate of 4-CB and ATP to form 4-CB-AMP and PP i ( k = 300 s (-1)) is not affected by the presence of CoA, and it is approximately 3-fold faster than the turnover rate of 4-CB-AMP and CoA to form 4-CB-CoA and AMP ( k = 120 s (-1)). Second, the active site mutants screened via steady-state kinetic analysis were ranked based on the degree of reduction observed in any one of the substrate k cat/ K m values, and those scoring higher than a 50-fold reduction in k cat/ K m value were selected for further evaluation via transient state kinetic analysis. The single-turnover time courses, measured for the first partial reaction, and then for the full reaction, were analyzed to define the microscopic rate constants for the adenylation reaction and the thioesterification reaction. On the basis of our findings we propose a catalytic mechanism that centers on a small group of key residues (some of which serve in more than one role) and that includes several residues that function in domain alternation. 相似文献
937.
A midgut cadherin AgCad1 cDNA was cloned from Anopheles gambiae larvae and analyzed for its possible role as a receptor for the Cry4Ba toxin of Bacillus thuringiensis strain israelensis. The AgCad1 cadherin encodes a putative 1735-residue protein organized into an extracellular region of 11 cadherin repeats (CR) and a membrane-proximal extracellular domain (MPED). AgCad1 mRNA was detected in midgut of larvae by polymerase chain reaction (PCR). The AgCad1 protein was localized, by immunochemistry of sectioned larvae, predominately to the microvilli in posterior midgut. The localization of Cry4Ba binding was determined by the same technique, and toxin bound microvilli in posterior midgut. The AgCad1 protein was present in brush border membrane fractions prepared from larvae, and Cry4Ba toxin bound the same-sized protein on blots of those fractions. The AgCad1 protein was expressed transiently in Drosophila melanogaster Schneider 2 (S2) cells. 125I-Cry4Ba toxin bound AgCad1 from S2 cells in a competitive manner. Cry4Ba bound to beads extracted 200 kDa AgCad1 and a 29 kDa fragment of AgCad1 from S2 cells. A peptide containing the AgCad1 region proximal to the cell (CR11-MPED) was expressed in Escherichia coli. Although Cry4Ba showed limited binding to CR11-MPED, the peptide synergized the toxicity of Cry4Ba to larvae. AgCad1 in the larval brush border is a binding protein for Cry4Ba toxin. On the basis of binding results and CR11-MPED synergism of Cry4Ba toxicity, AgCad1 is probably a Cry4Ba receptor. 相似文献
938.
至今,基因枪法以其实用性和有效性应用于水稻工程育种已有十几年。本文阐述了其在水稻工程育种的六个主要领域的应用现状,同时评价了外源基因在转基因水稻中的稳定性和对转基因水稻主要农艺性状的影响。当然,基因枪法的转化效率还有待提高,随着转不同基因的工程水稻的日益增多,进一步的安全性试验显得十分必要,它是转基因水稻商品化的前提。 相似文献
939.
药用野生稻具有多种抗病虫性,是水稻品种改良重要的种质资源之一。本研究采用与栽培稻遗传图第4连锁群中与RTSV和Glh紧密连锁的RFLP标记RZ262及其筛选出来的BAC克隆作探针,对药用野生稻进行荧光原位杂交,供试探针均被定位于药用野生稻第4染色体短臂的中部,百分距分别为74.86±3.72和73.98±4.44,信号检出率为7.6%和45.1%。BAC克隆和RFLP标记探针杂交位置几乎一致,说明在栽培稻和野生稻中RFLP标记RZ262都存在同一BAC克隆的大插入片段中,药用野生稻与抗性基因RTSV和Glh的同源顺序就在第4染色体信号出现的相应位置,从而为作物育种开发和利用野生资源的抗性基因提供了理论依据。 相似文献
940.
MiR‐342 controls Mycobacterium tuberculosis susceptibility by modulating inflammation and cell death
Beibei Fu Xiaoyuan Lin Shun Tan Rui Zhang Weiwei Xue Haiwei Zhang Shanfu Zhang Qingting Zhao Yu Wang Kelly Feldman Lei Shi Shaolin Zhang Weiqi Nian Krishna Chaitanya Pavani Zhifeng Li Xingsheng Wang Haibo Wu 《EMBO reports》2021,22(9)
Tuberculosis (TB) is an infectious disease caused by Mycobacterium tuberculosis (Mtb) that places a heavy strain on public health. Host susceptibility to Mtb is modulated by macrophages, which regulate the balance between cell apoptosis and necrosis. However, the role of molecular switches that modulate apoptosis and necrosis during Mtb infection remains unclear. Here, we show that Mtb‐susceptible mice and TB patients have relatively low miR‐342‐3p expression, while mice with miR‐342‐3p overexpression are more resistant to Mtb. We demonstrate that the miR‐342‐3p/SOCS6 axis regulates anti‐Mtb immunity by increasing the production of inflammatory cytokines and chemokines. Most importantly, the miR‐342‐3p/SOCS6 axis participates in the switching between Mtb‐induced apoptosis and necrosis through A20‐mediated K48‐linked ubiquitination and RIPK3 degradation. Our findings reveal several strategies by which the host innate immune system controls intracellular Mtb growth via the miRNA‐mRNA network and pave the way for host‐directed therapies targeting these pathways. 相似文献