Screen for stage-specific expression genes between tail bud stage and heartbeat beginning stage in embryogenesis of gynogenetic silver crucian carp

A systemic study was initiated to identify stage-specific expression genes in fish embryogenesis by using suppression subtractive hybridization (SSH) technique. In this study, we presented a preliminary result on screen for stage-specific expression genes between tail bud stage (TBS) and heartbeat beginning stage (HBS) in gynogenetic silver crucian carp (Carassius auratus gibelio). Two SSH plasmid libraries specific for TBS embryos and HBS embryos were constructed, and stage-specific expression genes were screened between the two stages. 1963 TBS positive clones and 2466 HBS positive clones were sampled to PCR amplification, and 1373 TBS and 1809 HBS PCR positive clones were selected to carry out dot blots. 169 TBS dot blot positive clones and 272 HBS dot blot positive clones were sequenced. Searching GenBank by using these nucleotide sequences indicated that most of the TBS dot blot positive clones could not be found homologous sequences in the database, while known genes were mainly detected from HBS dot blot positive clones. Of the 79 known genes, 20 were enzymes or kinases involved in important metabolism of embryonic development. Moreover, specific expressions of partial genes were further confirmed by virtual northern blots. This study is the first step for making a large attempt to study temporal and spatial control of gene expression in the gynogenetic fish embryogenesis.

Rice bicoid-related cDNA sequence and its expression during early embryogenesis

Bicoid is one of the important Drosophila maternal genes involved in the control of embryo polarity and larvae segmentation. To clone and characterize the rice bicoid-related genes, one cDNA clone, Rb24 (EMBL accession number: AJ2771380), was isolated by screening of rice unmature seed cDNA library. Sequence analysis indicates that Rb24 contains a putative amino acid sequence, which is homologous to unique 8 amino acids sequence within Drosophila bicoid homeodomain (50% identity, 75% similarity) and involves a lys-9 in putative helix 3. Northern blot analysis of rice RNA has shown that this sequence is expressed in a tissue-specific manner. The transcript was detected strongly in young panicles, but less in young leaves and roots. This results are further confirmed with paraffin section in situ hybridization. The signal is intensive in rice globular embryo and located at the apical tip of the embryo, then, along with the development of embryo, the signal is getting reduced and transfers into both sides of embryo. The existence of bicoid-related sequence in rice embryo and the similarity of polar distribution of bicoid and Rb24 mRNA in early embryo development may implicates a conserved maternal regulation mechanism of body axis presents in Drosophila and in rice.

Differentially expressed genes in hepatocellular carcinoma induced by woodchuck hepatitis B virus in mice

INTRODUCTIONHepatocellular carcinoma(HCC)is one of the major causes of death in the word.The mechanism of carcinogenesis is unknown,although it is widely accepted that HBV and HCV are clsely related to liver cancer[1-5[1-5].Previously,a variety of studies have described the differences in gene expression which distinguished tumor from nontumor[6-11].Cloning of the genes,especially the genes associated with HBV and HCV,is still very important to account for the development of liver cancer.

Cloning of differentially expressed genes in human hepatocellular carcinoma and nontumor liver

INTRODUCTIONThe mechanism of hepatocellular carcinoma(HCC)is still unclear,although some genes have been found to play a role in the transformation of liver cells,and a variety of studies have described differences in gene expression which distinguished tumor from nontumor[1-6].The new genes,especially the functional genes directly related with tumor are still worth being found.The purpose of our study is to find the different genes between human liver tumor and normal tissues using suppression subtractive hybridization.

Differential expression of cholangiocyte and ileal bile acid transporters following bile acid supplementation and depletion

AIM: We have previously demonstrated that cholangiocytes, the epithelial cells lining intrahepatic bile ducts,encode two functional bile acid transporters via alternative splicing of a single gene to facilitate bile acid vectorial transport. Cholangiocytes possess ASBT,an apical sodium-dependent bile acid transporter to take up bile acids,and t-ASBT,a basolateral alternatively spliced and truncated form of ASBT to efflux bile acids.Though hepatocyte and ileal bile acid transporters are in part regulated by the flux of bile acids, the effect of alterations in bile acid flux on the expression of t-ASBT in terminal ileocytes remains undear.Thus,we tested the hypothesis that expression of ASBT and t-ASBT in cholangiocytes and ileocytes was regulated by bile acid flux. METHODS: Expression of ASBT and t-ASBT message and protein in cholangiocytes and ileocytes isolated from pair- fed rats given control (C) and 1% taurocholate (TCA) or 5% cholestyramine (CY) enriched diets,were assessed by both quantitative RNase protection assays and quantitative immunoblotting.The data obtained from each of the control groups were pooled to reflect the changes observed following TCA and CY treatments with respect to the control diets. Cholangiocyte taurocholate uptake was determined using a novel microperfusion technique on intrahepatic bile duct units (IBDUs) derived from C,TCA and CY fed rats. RESULTS: In cholangiocytes,both ASBT and t-ASBT message RNA and protein were significantly decreased in response to TCA feeding compared to C diet.In contrast, message and protein of both bile acid transporters significantly increased following CY feeding compared to C diet.In the ileum,TCA feeding significantly up-regulated both ASBT and t-ASBT message and protein compared to C diet,while CY feeding significantly down-regulated message and protein of both bile acid transporters compared to C diet.As anticipated from alterations in cholangiocyte ASBT expression,the uptake of taurocholate in microperfused IBDUs derived from rats on TCA diet decreased 2.7-fold,whereas it increased 1.7-fold in those on CY diet compared to C diet fed groups. CONCLUSION: These data demonstrate that expression of ASBT and t-ASBT in cholangiocytes is regulated by a negative feedback loop while the expression of these transporters in terminal ileum is modified via positive feedback.Thus, while transcriptional regulatory mechanisms in response to alterations in bile acid pool size are operative in both cholangiocytes and ileocytes,each cell type responds differently to bile acid supplementation and depletion.

The expression and antigenicity identification of recombinant rat TGF-β1 in bacteria

In order to study structure-function details of TGF-beta1, the recombinant mature form of rat TGF-beta1 was expressed in bacteria. Synthesis of the 112 amino-acid carboxyl-terminal part of TGF-beta1 (amino acid 279-390) was controlled by an inducible gene expression system based on bacteriophage T7 RNA polymerase. This system allowed an active and selective synthesis of recombinant TGF-beta1. The molecular weight of expressed TGF-alpha1 monomer determined on SDS-polyacrylamide gel under reducing conditions was about 13 kD. Serial detergent washes combined with a single gel-filtration purification step were sufficient to purify the expression product to homogeneity. Amino-terminal sequencing revealed that the N-terminal of the recombinant protein was identical to the published data. In Western blot analysis the recombinant polypeptide showed excellent antigenicity against polyclonal TGF-beta1 antibody. The mature recombinant rat TGF-beta1 expressed in this study provides a useful tool for future detailed structural and functional studies.

Involvement of chromatin and histone acetylation in the regulation of HIV-LTR by thyroid hormone receptor

The HIV-1 LTR controls the expression of HIV-1 viral genes and thus is critical for viral propagation and pathology. Numerous host factors have been shown to participate in the regulation of the LTR promoter. Among them is the thyroid hormone (T3) receptor (TR). TR has been shown to bind to the critical region of the promoter that contain the NFbB and Sp1 binding sites. Interestingly, earlier transient transfection studies in tissue culture cells have yielded contradicting conclusions on the role of TR in LTR regulation, likely due to the use of different cell types and/or lack of proper chromatin organization. Here, using the frog oocyte as a model system that allows replication-coupled chromatin assembly, mimicking that in somatic cells, we demonstrate that unliganded heterodimers of TR and RXR (9-cis retinoic acid receptor) repress LTR while the addition of T3 relieves the repression and further activates the promoter. More importantly, we show that chromatin and unliganded TR/RXR synergize to repress the promoter in a histone deacetylase-dependent manner.

油酸上调围脂滴蛋白2表达增强巨噬细胞对结核分枝杆菌的清除作用

目的:研究油酸对巨噬细胞清除结核分枝杆菌(Mycobacterium tuberculosis,MTB)的作用,并进一步探讨其作用机制。方法:使用人单核细胞白血病细胞(THP-1)细胞系诱导的巨噬细胞,加入或不加入油酸(oleic acid,OA)后感染MTB标准株H37Ra,用菌落形成单位(colony-forming unit,CFU)计数及免疫荧光方式检测油酸对巨噬细胞清除MTB的影响。通过RNA-seq筛选出关键靶基因,并采用基因富集分析筛选出相关通路,实时荧光定量PCR验证基因表达。结果:MTB标准株H37Ra感染未经油酸诱导(H37Ra组)巨噬细胞后72 h的菌落计数单位(CFU)中位数(四分位数)为[49×10^(4)(48×10^(4),59×10^(4))],明显高于经油酸诱导(OA+H37Ra组)的巨噬细胞的CFU[34×10^(4)(30×10^(4),42×10^(4))],差异有统计学意义(U=3.500,P=0.017)。RNA-Seq数据显示,围脂滴蛋白2(recombinant perilipin 2,PLIN2)的表达在OA+H37Ra组明显高于H37Ra组。在油酸诱导的巨噬细胞中,敲低PLIN2基因后的CFU结果显示,在H37Ra感染72 h后,敲低PLIN2组的CFU中位数(四分位数)为86×10^(4)(78×10^(4),96×10^(4)),明显高于对照空载体组[56×10^(4)(54×10^(4),62×10^(4))],差异有统计学意义(U=3.000,P=0.015)。OA+H37Ra组中,PLIN2的相对表达量为3.219±0.298,明显高于H37Ra组的0.555±0.028,差异有统计学意义(t=15.410,P<0.01);OA+H37Ra组中PPARγ的相对表达量为0.666±0.075,明显低于H37Ra组的2.217±0.153,差异有统计学意义(t=14.700,P<0.01);OA+H37Ra组中,ACOX1、HADHA基因的相对表达量分别为1.410±0.124和1.107±0.111,均明显低于H37Ra组的2.476±0.207和3.140±0.240,差异均有统计学意义(t=13.520,P<0.01;t=12.760,P<0.01)。结论:油酸通过脂滴表面蛋白PLIN2调控巨噬细胞的脂肪酸氧化促进巨噬细胞对MTB的清除。

GABA transporter 1 transcriptional starting site exhibiting tissue specific difference

GABA transporter 1(GAT1) takes important roles in multiple physiological processes through the uptake and release of GABA, but the regulation of GAT1 gene expression in different tissues is rarely known. To address the question, first, 5’ Rapid amplification of cDNA end (RACE) was used to determine GAT1 transcriptional starting sites in neonatal mouse cerebral cortex and intestine, adult mouse brain and adult rat testis. The products of 5’RACE were confirmed by DNA sequencing. We found that the transcript of GAT1 in neonatal mouse cerebral cortex and adult mouse brain starts at the same site (inside of exon 1), while in mouse intestine, GAT1 starts transcription in intron 1, and in rat testis, the transcript of GAT1 has an additional untranslation exon to the 5’ direction.

全反式维甲酸调控K562细胞红系分化的表观遗传机制

全反式维甲酸(ATRA)是早幼粒细胞分化的有效诱导剂,其对红系分化过程的作用尚不完全清楚。为研究ATRA在红系分化进程中的作用及其表观遗传调控机制,本文以诱导白血病细胞K562向红系分化为模型,对ATRA干扰红系分化过程的调控机制进行研究。首先利用血红素(he-min)诱导K562细胞向红系分化;流式细胞术结果显示,ATRA影响细胞向红系分化过程中的谱系变化,阻滞细胞分化进程;ATRA处理分化中的细胞后,红系分化相关基因表达水平降低;而通过3C、FAIRE和ChIP技术对其中的表观遗传机制进行探究发现,ATRA处理细胞后,β-珠蛋白家族基因座位内的染色质可及性降低,LCR与其靶基因启动子之间的相互作用频率降低;而基因座位染色质可及性降低导致了红系相关转录因子GATA1、LDB1、LMO2和TAL1在LCR及珠蛋白家族基因座位的启动子区的富集频率降低。上述结果表明,ATRA处理分化中的细胞导致红系分化相关基因的染色质可及性降低,更加封闭的染色质结构阻碍了LCR招募转录因子与基因启动子区的结合,进而抑制β-珠蛋白家族基因表达,这种动态的变化过程阐明了ATRA调控红系分化的表观遗传机制。

甘蔗可溶性酸性转化酶(SoSAI1)基因的克隆及表达分析

【目的】克隆甘蔗可溶性酸性转化酶基因(SoSAI1)全长cDNA序列和5侧翼启动子序列,并分析其序列特征和基因表达模式。【方法】利用RACE技术克隆SoSAI1的全长cDNA序列,应用生物信息学软件分析SoSAI1预期编码蛋白特征;采用Genome Walking技术克隆SoSAI1的启动子序列;采用实时荧光定量PCR分析不同生长期SoSAI1在甘蔗叶和茎中的表达,以及PEG 6000、100 mmol·L-1NaCl和6℃胁迫下,SoSAI1在甘蔗苗期根和叶中表达模式。【结果】SoSAI1的cDNA序列全长为2 387 bp,ORF长2 058 bp,编码685个氨基酸,预测其分子量和等电点分别为74.44 kD和5.6,GenBank登录号为JQ406875。5侧翼启动子序列长417 bp,含有胚乳特异表达顺式作用元件和参与干旱诱导的MYB结合位点,GenBank登录号为KC862314。SoSAI1表达在生理成熟期的花序和花序轴中较高,而在成熟茎和老茎中较低。15%PEG和6℃能诱导叶中SoSAI1表达,而15%PEG和NaCl能诱导根中SoSAI1表达。【结论】获得SoSAI1全长cDNA序列和部分启动子序列,SoSAI1在甘蔗生长发育和蔗糖积累,并在应对环境胁迫中发挥作用。

植物蔗糖转化酶及其基因表达调控研究进展

糖是植物体的能源物质,也是基因表达的重要调节物质。在植物蔗糖代谢过程中,特别是园艺作物和大田作物果实发育过程中转化酶起到了很重要的作用,催化蔗糖水解成为己糖,直接影响蔬菜和水果的品质。蔗糖转化酶分为酸性转化酶和中性/碱性转化酶,两者在植物体中的作用不同。由于转化酶种类不同,其表达方式也比较复杂,同时能够调控转化酶基因表达的因素也较多,主要有器官和发育特异性、糖、胁迫以及激素等。

植物酸性转化酶基因及其表达调控

酸性转化酶是蔗糖代谢的关键酶,在植物体中具有重要的生理作用。近十几年来,许多植物酸性转化酶基因已经克隆,其基因表达调控的研究也取得了很大的进展。本文综述了植物酸性转化酶基因及其蛋白结构、基因表达的器官和发育特异性以及糖、受伤、病原﹑胁迫和激素对基因表达的调节和蛋白抑制因子对酶活性的影响,并讨论了当前在该研究领域存在的问题。

外源生长素对番茄果实蔗糖代谢关键酶活性及基因表达的影响

以普通栽培型番茄辽园多丽为试验材料,研究了花期施用PCPA对发育过程中的番茄果实糖含量变化、蔗糖代谢关键酶活性及可溶性酸性转化酶基因表达的影响。结果表明,随着番茄果实的发育,可溶性酸性转化酶的活性和酶基因的表达均增强,果糖和葡萄糖的含量也呈递增的趋势,成熟时含量最高。PCPA处理在果实发育的成熟期提高了酸性转化酶的活性,促进了可溶性酸性转化酶基因的表达,增加了果糖和葡萄糖的含量。

OsMYB调控化感水稻酚酸类物质合成及其抑草作用

基因表达调控是水稻化感作用形成的重要基础。本研究对化感水稻PI312777(Oryza sativa L.)的Os MYB(CT829537)基因分别进行过表达(overexpression,OE)和RNA干扰(RNAi),再与稗草(Echinochloa crusgalli,BYG)共培养,以野生型PI312777为对照。结果发现,与稗草共培养下CT829537-OEPI312777的酚类代谢关键酶基因表达上调,根系及其水培液中的总酚酸浓度增加,抑草能力增强;相同处理下CT829537-RNAi PI312777则相反,其酚类代谢关键酶基因较野生型植株表达下调,总酚酸浓度降低,抑草能力下降。这表明Os MYB(CT829537)通过调节化感水稻的酚酸类物质合成进而影响其抑草能力。

杨梅酸性转化酶基因cDNA分离及表达分析

杨梅果实富含蔗糖,酸性转化酶是蔗糖代谢关键酶,根据植物酸性转化酶基因保守区序列设计引物,提取杨梅叶片RNA,逆转录获得cDNA,以此为模板通过PCR技术扩增到长度为516bp的基因片段,克隆入pMD18-T载体中,命名为MrIVR1(GenBank:DQ339699)。测序及同源性检索表明,该基因推导氨基酸序列与君子兰、葡萄、草莓、胡萝卜等酸性转化酶基因氨基酸序列同源性为60%～69%。运用ClustalX软件对植物转化酶基因进行了系统树分析,结果显示,MrIVR1编码的蛋白质属于细胞壁酸性转化酶。半定量RT-PCR表达分析显示,MrIVR1基因在杨梅果实发育早期表达量最高,随着果实的发育表达量下降,在成熟果实中表达水平较低。

甜高粱SAI基因的表达与茎秆糖分积累的相关性分析

【目的】通过检测不同甜高粱品种在各个生育时期叶片和茎秆中SAI基因的差异表达量与含糖量,探讨二者之间的相关性,为研究甜高粱糖分积累机制提供理论依据。【方法】高效液相色谱(HPLC)测定甜高粱品种不同生育时期茎秆中的含糖量,qRT-PCR分析叶片和茎秆中SAI基因的表达水平。【结果】拔节期蔗糖含量很低,主要是还原性糖,抽穗和开花期蔗糖含量显著增加,灌浆和成熟期持续增加至最高值,成熟后又有所下降。高糖品种整个生育时期叶片中SAI基因的表达水平高于中糖、低糖和髓干型三类品种,茎秆中SAI基因的表达水平则相反。甜高粱成熟期糖分含量与叶片中SAI基因的表达量呈显著正相关关系,相关系数达0.7239,而与茎秆中的表达量呈负相关关系,相关系数为-0.5971。【结论】甜高粱茎秆蔗糖积累与SAI基因在叶片和茎秆中的表达水平具有相关性,叶片中SAI基因的表达与蔗糖积累正相关,茎秆中SAI基因表达与蔗糖积累负相关,叶片的相关系数高于茎秆。

甜瓜果实酸性转化酶基因反义表达载体的构建(英文)

应用RNA反义技术抑制甜瓜果实发育过程中酸性转化酶活性,促进蔗糖积累,从而为培育优质品种提供了可行的新方法。将已克隆到pMD18-T载体上的甜瓜酸性转化酶基因用BamHⅠ和HincⅡ双酶切,得到该基因编码区1038bp的cDNA片段,将其定向插入到植物表达载体pROK2的BamHⅠ/SmaⅠ克隆位点,构建了甜瓜酸性转化酶cDNA反义表达载体(Anti-MAI1)。采用冻融法将其转入根癌农杆菌LBA4404,得到了完整的Ti质粒表达载体系统。利用叶盘法转化烟草,经PCR和PCR-Southern杂交检测,证明此基因已整合入烟草的核基因组中。

枸杞酸性转化酶基因的克隆及组织表达分析

以“宁杞1号”枸杞为试材，通过RT-PCR及RACE技术进行枸杞酸性转化酶基因的克隆及组织表达分析，并运用MEGA5．0软件对植物转化酶基因进行了系统树分析。结果表明：扩增获得2193bp的枸杞酸性转化酶基因，命名为LbSAJ（GenBank：KC776575），该基因推导氨基酸序列与马铃薯、番茄、梨等酸性转化酶基因氨基酸序列同源性为68％～100％；LbSAJ编码的蛋白质属于液泡酸性转化酶；Real—timePCR表达分析显示，L6SA，基因在枸杞花中表达量最高，在根中表达水平较低。

全反式维甲酸对人细胞线粒体基因表达的调控

目的：探讨维甲酸在预防和治疗肿瘤中的作用机制，分离受维甲酸调控的靶基因。方法：采用ＡＰ－ＰＣＲ、测序、Ｎｏｒｔｈ－ｅｍ杂交及序列同源分析等方法。结果：首次发现ＡＴＲＭ可上调线粒体基因ＡＴＰ酶第六亚单位表达，这种表达上调开始于Ａ－ＴＲＡ诱导早期并持续整个诱导过程（７ｄ）。 Ｎｏｒｔｈｅｍ杂交结果证实 ＡＴＲＡ对线粒体基因 ＡＴＰ酶第六亚单位的上调作用。对线粒体基因组的转录调控区Ｄ－ｌｏｏｐ序列进行了初步分析发现，该转录调控区两处存在着与维甲酸受体反应元件核心序列高度一致的外翻重复序列（ｅｖｅｒｔｅｄ ｒｅｐｅａｔｅｄ ｓｅｏｐｎｃｅｓ），其间隔分别为 １２ｂｐ和 １３ｂｐ。结论：维甲酸受体与线粒体基因组维甲酸反应元件相互作用可能是其调控线粒体基因的表达。维甲酸除调控核基因外，亦可对线粒体基因进行直接调控。