叉头框P2(FoxP2)基因与鸟鸣

叉头框P2(FoxP2)基因是与人类语言相关的基因,在鸣禽脑中也存在,不仅参与胚胎时期的关键性发育,对鸣禽鸣曲学习也有影响.实验表明,FoxP2基因对神经回路发育和出生后的鸣唱学习,以及成鸟的鸣曲稳定都有重要作用.FoxP2基因主要在与人类同源的基底神经节--X区表达.本文介绍了FoxP2基因与鸟鸣的新近研究进展.     

叉头框C2蛋白与恶性肿瘤关系的研究进展

叉头框C2蛋白(forkhead box C2,FOXC2)是forkhead box转录因子家族的一员,具有重要的生物学功能,可参与调控细胞的增殖、分化、凋亡和代谢等过程.近年的研究表明,FOXC2与恶性肿瘤细胞的生长、增殖、侵袭和迁移等密切相关,有望作为一种新的生物标记物用于肿瘤的临床诊断和预后评估,针对FOXC2...     

棉铃虫叉头框蛋白A类似蛋白基因HarmFoxAl的克隆及表达谱分析

【目的】本研究旨在克隆并分析一种棉铃虫Helicoverpa armigera叉头框蛋白A (forkhead box protein A, FoxA)类似蛋白基因HarmFoxAl,探讨2-十三烷酮胁迫下棉铃虫中肠中HarmFoxAl的表达情况,为进一步明确棉铃虫FoxA的功能和参与棉铃虫生长发育的调控通路提供依据。【方法】从棉铃虫幼虫中肠中扩增得到HarmFoxAl的cDNA序列,并对其氨基酸序列和蛋白结构进行分析。将HarmFoxAl的ORF序列连接至pET32a载体并转化大肠杆菌Escherichia coli Transetta菌株,IPTG诱导后检测目的蛋白的表达形式,并利用镍柱亲和层析法纯化融合蛋白。通过qPCR检测棉铃虫不同发育阶段(1-6龄幼虫和预蛹),6龄幼虫不同组织(脂肪体、中肠、体壁和头部)以及10 mg/g 2-十三烷酮处理6龄幼虫不同时间后中肠中HarmFoxAl的表达谱。【结果】HarmFoxAl(GenBank登录号:XM021331806)的开放阅读框为669 bp,编码222个氨基酸,蛋白的相对分子质量和等电点分别为25.03 kD和6.34。氨基酸序列分析表明,HarmFoxAl单体蛋白无信号肽、跨膜区和二硫键,核心区域是由4个α螺旋和3个β折叠组成的球状结构。将重组的Transetta (pET32a-HarmFoxAl)菌株用0.5 mmol/L IPTG在25℃条件下诱导5 h,约45 kD的融合蛋白His-HarmFoxAl能以可溶的形式存在于重组菌中,这与预测的分子量(42.8 kD)相一致。发育阶段特异性表达谱表明,HarmFoxAl在棉铃虫1-3龄幼虫期、6龄幼虫期和预蛹期均有表达,且预蛹期的表达量最高。组织表达谱结果表明,该基因在6龄幼虫的脂肪体、中肠和体壁中表达,且脂肪体内的表达量最高,而在头部中不表达。10 mg/g 2-十三烷酮处理棉铃虫6龄幼虫后中肠中HarmFoxAl的表达量显著降低,但随着时间延长其表达量逐渐升高,处理48 h后表达量显著高于对照。【结论】棉铃虫HarmFoxAl在预蛹期和幼虫脂肪体中表达量最高,2-十三烷酮处理幼虫后HarmFoxAl的表达量急速降低后逐渐升高,推测其在棉铃虫变态发育和解毒代谢过程中发挥重要作用。     

叉头框(Fox)转录因子家族的结构与功能

叉头框(forkheadbox,Fox)蛋白家族是一类DNA结合区具有翼状螺旋结构的转录因子,目前已有17个亚族。Fox蛋白不仅能作为典型的转录因子通过招募共激活因子等调节基因转录,有些还能直接同凝聚染色质结合参与其重构,协同其他转录因子参与转录调节。PI3K-Akt/PKB、TGFβ-Smad和MAPKinase等多条信号通路都可以影响Fox蛋白的磷酸化水平,从而调节其活性。Fox蛋白在胚胎发育、细胞周期调控、糖类和脂类代谢、生物老化和免疫调节等多种生物学过程中发挥作用。     

中胚叶叉头-1在骨成形蛋白-2诱导肌胚细胞C2C12转化成骨细胞过程中的作用

为了研究中胚叶叉头-1(MFH-1)基因在骨骼形成和细胞分化中的作用,利用基因重组、杂交瘤技术制作MFH-1单克隆抗体, 利用蛋白质印迹和RNA印迹分析观察了骨成形蛋白-2 (BMP-2)诱导小鼠肌胚细胞C2C12表达MFH-1、产生碱性磷酸酶和骨钙蛋白.小鼠肌胚细胞C2C12低水平地表达内源性MFH-1蛋白以及导入小鼠MFH-1 cDNA的人膀胱癌细胞HTB9也表达小鼠MFH-1蛋白,这种蛋白质定位于细胞核中.用BMP-2处理后, MFH-1蛋白和mRNA在C2C12细胞中的表达显著地增加.用反义MFH-1序列转染小鼠肌胚细胞C2C12可降低内源性MFH-1水平, BMP-2不能诱导导入反义MFH-1序列的肌胚细胞C2C12产生MFH-1蛋白,也不能诱导碱性磷酸酶(ALP)活性和骨钙蛋白量的增加.结果表明, BMP-2诱导的MFH-1蛋白在调节肌胚细胞C2C12向成骨细胞分化方面起关键作用.     

成对框基因2蛋白在C57BL/6J小鼠脑发育进程中的表达

目的 研究正常C57BL/6J小鼠脑发育进程中的组织形态学变化以及成对框基因2(Pax2)蛋白在胚胎期和出生后脑组织中的表达规律。方法 取C57BL/6J小鼠胚胎期11.5 d、13.5 d、15.5 d的胎鼠头部和胚胎期17.5 d、出生后0 d、7 d、14 d和30 d小鼠的全脑组织进行石蜡包埋,连续矢状位切片后进行HE染色和免疫组织化学染色。结果 胚胎期11.5d可见小鼠完整的5个脑泡结构,15.5 d大脑皮质出现5层结构,小脑皮质外颗粒层明显可见。出生后各脑区按照时空顺序继续发育,到P30大脑皮质和小脑皮质均发育成熟出现典型的结构特征。Pax2蛋白在脑组织中的表达主要定位于细胞核和神经纤维上,在胚胎期的表达主要集中在脑桥延髓部位且呈弥漫性表达,E13.5达到高峰,出生后在脑桥延髓的表达逐渐减弱,但在小脑中的表达较胚胎期增强;E13.5时在小脑内开始少量表达,P7时达到高峰,P14后表达量逐渐降低;Pax2蛋白在外颗粒层中于E17.5时开始表达,出生后主要在内颗粒层和髓质中强烈表达,到P30时表达减弱,仅分布在内颗粒层中。结论 小鼠脑发育在一定的时空顺序下,经历了一个复杂的过程...     

缺氧诱导因子-1α调节叉头框蛋白1表达促进大鼠外周血间充质干细胞缺氧存活

间充质干细胞(mesenchymal stem cells, MSCs)是再生医学中临床使用最多的干细胞之一。外周血间充质干细胞(peripheral blood mesenchymal stem cells, PBMSCs)以其获取简便、创伤小和具有多向分化能力等优势,在人类缺血性疾病的治疗方面具有重要应用前景。但尚未建立在缺氧环境下,使PBMSCs高存活和高扩增培养方法。本研究旨在探讨HIF-1α(hypoxia-inducible factor-1α, HIF-1α)通过调节叉头框蛋白1(forkhead box C1, FoxC1)表达,促进PBMSCs缺氧存活和扩增的作用。采取SD大鼠外周血,分离出单个核细胞(mononuclear cells, MNCs),培养第3代后得到MSCs,随机将细胞进行以下3种处理,并分组：未处理组(Control, CON)、HIF-1α激动剂组(dimethyloxallyl glycine, DMOG,0.1 mmol/L,DMOG组)和HIF-1α抑制剂组(BAY87-2243,50 nmol/L,BAY组),进行缺氧培养PBMSCs,观...     

AP2功能基因在植物花发育中的重要作用

AP2基因作为调控植物花发育的功能基因,参与花分生特性建立、花器官的特性特化以及形成调控。所编码的AP2/EREBP转录因子的主要特征是都至少含有一个由60到70个左右的氨基酸组成高度保守的DNA结合区,称作AP2结合域。按其所含的AP2结构域的数目分为3个亚族,即AP2亚家族、EREBP亚家族和RAV亚家族,每个亚家族都有各自的作用。AP2基因不但自身调控着花、胚珠的发育,而且与其他因子相互协作,参与到复杂的花发育调控网络。将对AP2基因的特征和分类及其在花发育中的作用进行概述。     

Sox2在内耳发育中的作用

转录因子Sox2是Sox基因家族的成员之一,由于它在早期胚胎发生、神经分化和内耳发育等多种重要的发育事件中都起着关键的作用,从而引起了越来越广泛的关注。哺乳动物的内耳主要由6个形态上和功能上不同的感觉区组成,这些区域对声音和前庭信息的传导是必需的,在这些区域的发育过程中,Sox2基因是内耳细胞早期发育所必需的基因。该文就Sox2在内耳发育中的作用作一综述。     

Peg3, Cdkn1c和 Gtl2基因在克隆绵羊和自然分娩绵羊中的DNA甲基化水平检测

尽管研究证明很多克隆动物存在DNA甲基化异常的情况,却很少有研究比较克隆绵羊与自然分娩绵羊之间的甲基化情况,可能是由于克隆绵羊的获得、绵羊基因组、绵羊基因组印记等因素的限制．本研究中,为了证明克隆绵羊重编程的状况,克隆了Peg3基因的差异甲基化区域(differential methylated region,DMR),并且分析了Peg3、Cdkn1c、Gtl2在克隆绵羊和自然分娩绵羊不同组织中的甲基化水平．研究发现,在克隆绵羊和自然分娩绵羊中Peg3呈现为超甲基化水平,在克隆绵羊的肾脏和肺脏中DNA甲基化水平为95.45%、81.18%,相对于正常分娩的绵羊组织中的98.18%、87.27%无显著性差异,而Cdkn1c在两组实验动物中的肾脏和肺脏中表现为非甲基化水平,分别为0%、0.53%、0.53%和0.53%,Gtl2则是低甲基化水平,并且克隆绵羊与正常分娩绵羊之间的DNA甲基化水平无显著性差异(r² = 0.77)．这些结果表明,Peg3、Cdkn1c、Gtl2三个印记基因在克隆绵羊和自然分娩绵羊组织中呈现类似甲基化水平,无显著性差异．     

Mouse Mesenchyme forkhead 2 (Mf2): expression, DNA binding and induction by sonic hedgehog during somitogenesis

Cloning and sequencing of mouse Mf2 (mesoderm/mesenchyme forkhead 2) cDNAs revealed an open reading frame encoding a putative protein of 492 amino acids which, after in vitro translation, binds to a DNA consensus sequence. Mf2 is expressed at high levels in the ventral region of newly formed somites, in sclerotomal derivatives, in lateral plate and cephalic mesoderm and in the first and second branchial arches. Other regions of mesodermal expression include the developing tongue, meninges, nose, whiskers, kidney, genital tubercule and limb joints. In the nervous system Mf2 is transcribed in restricted regions of the mid- and forebrain. In several tissues, including the early somite, Mf2 is expressed in cell populations adjacent to regions expressing sonic hedgehog (Shh) and in explant cultures of presomitic mesoderm Mf2 is induced by Shh secreted by COS cells. These results suggest that Mf2, like other murine forkhead genes, has multiple roles in embryogenesis, possibly mediating the response of cells to signaling molecules such as SHH.     

The mouse Dlx-2 (Tes-1) gene is expressed in spatially restricted domains of the forebrain, face and limbs in midgestation mouse embryos

The pattern of RNA expression of the murine Dlx-2 (Tes-1) homeobox gene is described in embryos ranging in age from E8.5 through E11.5. Dlx-2 is a vertebrate homologue of the Drosophila Distal-less (Dll) gene. Dll expression in the Drosophila embryo is principally limited to the primordia of the brain, head and limbs. Dlx-2 is also expressed principally in the primordia of the forebrain, head and limbs. Within these regions it is expressed in spatially restricted domains. These include two discontinuous regions of the forebrain (basal telencephalon and ventral diencephalon), the branchial arches, facial ectoderm, cranial ganglia and limb ectoderm. Several mouse and human disorders have phenotypes which potentially are the result of mutations in the Dlx genes.     

过表达BTG2增强人肺腺癌细胞的辐射敏感性

在肺癌类型中,肺腺癌占大多数,其总体生存率差,BTG2是抗增殖基因家族的一员,属于BTG/TOB家族。许多研究表明,B细胞易位基因2(BTG2)多种类型的肿瘤中存在异常表达,但其在肺腺癌放疗敏感性中发挥的调控作用尚不明确。本研究通过肺腺癌组织样本及在线数据库,探究BTG2在肺腺癌患者中的表达水平及其表达与临床预后之间的相关性,结果提示在具有放疗抗性的肺腺癌患者中,BTG2的表达水平显著降低,且在肺腺癌细胞系中,BTG2能对放疗产生响应,其在肺腺癌患者中的低表达状态与不良的预后相关(P＜0.05);在人肺腺癌A549和H1299细胞系中转染过表达BTG2(OE-BTG2)慢病毒,通过克隆形成检测过表达BTG2对肺腺癌细胞系的辐射敏感性的影响,实验证实过表达BTG2可显著增强A549和H1299细胞系的辐射敏感性(P＜0.05);并进一步通过WB、免疫组化检测BTG2及凋亡相关蛋白BAX的表达水平,结果证实:过表达BTG2可显著增加A549和H1299细胞辐射后的凋亡水平。最后通过裸鼠成瘤试验检测BTG2在活体中对肺腺癌辐射敏感性的影响,结果提示:在动物实验中,过表达BTG2可显著增强肺腺癌的辐射敏感性(P＜0.05)及增加辐射后BAX的表达水平。综上所述,BTG2在肺腺癌组织中处于低表达状态,并且与不良的临床预后紧密相关,过表达BTG2可促进凋亡过程,增加人肺腺癌细胞系的辐射敏感性,能为克服肺腺癌的辐射抗性提供新的靶点。     

Construction, detection and microarray analysis on theShigella flexneri 2asitC mutant

In order to overcome the defects of difficult gene operations in low-copy suicide plasmid pCVD442, Gateway technology was applied in the construction process of recombinant plasmid for gene knockout in this study. With this improved knockout system, we inactivatedsitC gene, which is associated with iron transport inShigella flexneri 2a strain 301, to yield the mutant, MTS. The functional detection of the mutant was performed at the level of culture medium, cell and animal experiment, respectively. The gene expression profiles were compared with DNA microarray between the mutant and the wild type under iron-restricted conditions. The results showed that MTS grew obviously less well than the wild-type strains in L broth containing 150 μmol/L iron chelator DIP (2,2′-dipyridyl). Addition of iron or manganese to the cultures stimulated the growth of MTS to wild-type levels in rich culture medium. In either the experiment on the ability of intracellular multiplication and cell-to-cell spread in HeLa and U937 cell lines, or the experiment on keratoconjunctivitis in guinea pigs, MTS showed no obvious changes in virulence compared with the parental strain Sf301. When 65 μmol/L DIP was added to the cultured HeLa cells, the ability of intracellular multiplication of MTS reduced about 51.6% as compared with that of Sf301. The analysis of expression profiles under iron-limited condition showed that MTS was more sensitive for the change of iron deficiency than Sf301. There are 106 more up-regulated genes in MTS than in wild-type strains, which are involved in membrane transportation, amino acid metabolism and uncategorized function genes, while down-regulated genes are mainly involved in energy and carbohydrate metabolism. Under low iron conditions, the expression levels of known iron-transport associated genes generally increased. Additionally, the number of these genes and their increase amplitude in MTS are more than those in Sf301. Together, these results confirmed that Sit iron-transport system is important for the growth ofShigella.     

H2O2对蛇足石杉离体培养物诱变效应的研究

为了获得高产石杉碱甲(Huperzine A,Hup A)的蛇足石杉[Huperzia serrata(Thunb.)Trev.]叶状体,对H_2O_2诱变后的叶状体进行了研究。结果表明,诱变后叶状体株系的Hup A含量显著提高,并获得高产株系SH42,其相对生长率和Hup A含量分别达到4499.28%和261.17μg g~(–1) DW,比起始叶状体分别提高了2.35倍和2.43倍;且株系间可溶性蛋白质谱带和SOD同工酶谱均存在差异,经过连续9代培养,变异叶状体可以稳定遗传。因此,H_2O_2对叶状体细胞具有良好的诱变效应,可以用于筛选高产Hup A株系。     

FOXl2基因的研究现状

FOXL2基因为一单外显子基因,定位于染色体的3q23区域,编码一个分叉头的转录因子。FOXL2基因的正常表达是维持女性性别特征的极其重要的基本条件。该基因若发生突变可导致女性性别特征呈现异常。同时证实其是睑裂狭小、逆向内眦赘皮和上睑下垂综合征（blepharophimosis—ptosis—epicanthus inversus syndrome,BPES）的致病基因。此外,FOXL2基因发生突变与卵巢早衰（premature ovarian failure,POF）有关,并认为FOXL2是卵巢分化早期的调控因子。另有资料提示FOXL2基因突变与生殖系统肿瘤有相关性。     

Cd2+胁迫对石龙尾超微结构的影响

以在不同浓度梯度Cd2+溶液中培养48h的石龙尾为实验材料,用透射电镜观察叶细胞超微结构的损伤,结果表明:Cd2+浓度越高,超微结构的损伤越严重。表现为核糖体数目减少;高尔基体膨胀或消失;线粒体出芽或破裂;质膜收缩产生质壁分离,胞间连丝断裂;叶绿体膨胀,类囊体解体,进而影响了细胞的整体功能,造成细胞损伤乃至死亡。     

油葵HaFAD2-2基因的克隆及表达分析

脂肪酸脱氢酶2(fatty acid desaturase,FAD2)催化油酸生成亚油酸,是植物体内生成多不饱和脂肪酸的关键酶。根据已报道的向日葵(Helianthus annuus L.)FAD2基因序列,设计引物进行RT-PCR,克隆得到油葵FAD2-2基因全长cDNA,命名为HaFAD2-2。该基因开放阅读框为1 152bp,编码383个氨基酸,相对分子质量43.96kD,等电点为8.56。对基因组进行内含子调查发现,该基因在编码区内没有内含子。多序列比对和系统进化分析发现,FAD2-2基因编码蛋白与金盏菊(Calendula officinalis)、斑鸠菊(Vernonia galamensis)等菊科植物具有较近的亲缘关系。qRT-PCR分析表明,HaFAD2-2基因在根、茎、叶、花、子叶和未成熟种子中均有表达,且以叶中的表达量最高,未成熟种子中的表达量最低;低温(5℃、15℃)胁迫处理能显著促进该基因在根中的表达,抑制其在叶中的表达;盐胁迫(300 mmol/L NaCl)处理对其表达也具有抑制作用。该研究结果可为进一步探讨HaFAD2-2基因的功能奠定基础。     

Effect of cleidocranial dysplasia‐related novel mutation of RUNX2 on characteristics of dental pulp cells and tooth development

Cleidocranial dysplasia (CCD) is an autosomal‐dominant disorder caused by a lack of function of one or more alleles of the RUNX2 gene. Mutations of the RUNX2 gene were analyzed in a family with CCD, and a novel nonsense mutation was identified, c. 1096G > T, p.E366X, which was predicted to cause a number of potential dysfunctions. Western blot analysis showed that the novel mutation created a shortened protein product, which lost 155 aa in the C‐terminal domain. The mutant protein was detected to be localized mostly in the cytoplasm, not in the nucleus, which demonstrated that transport of the RUNX2 protein into the nucleus was disturbed by the p.E366X mutation. For the first time, RUNX2^+/m dental pulp cells (DPCs) were isolated from two permanent incisors of the CCD patient. Compared to RUNX2^+/+ controls, RUNX2^+/m DPCs presented an impeded progression from the G1 to the S phase in the cell cycle, a lower rate of proliferation, weaker ability of calcification, and distinct ultrastructure. More interestingly, the ultrastructural analysis and energy dispersive X‐ray spectrometry (EDS) analysis showed that the CCD tooth exhibited insufficient mineralization of enamel and dentin. This study suggests that the truncated RUNX2 mutant protein may be responsible for the alterations of RUNX2^+/m DPCs, and RUNX2 gene may be involved in dental development by affecting the cell growth and differentiation, which provides new insights into understanding of dental abnormalities in CCD patients. J. Cell. Biochem. 111: 1473–1481, 2010. © 2010 Wiley‐Liss, Inc.