脱落酸 (ABA)诱导基因表达的调控元件

本文详细介绍了脱落酸（ABA）诱导基因表达的各种调控元件及各调控元件间的相互作用和关系。综述了近年来对ABA诱导基因表达的调控元件的研究进展。     

脱落酸（ABA）诱导基因表达的调控元件

本文详细介绍了脱落酸（ABA）诱导诱导基因表达的各种调控元件及各调控元件间的相经作用和关系,综述了近年来对ABA诱导基因表达的调控元件的研究进展。     

外源茉莉酸甲酯通过调节相关基因表达诱导光温敏雄性不育小麦BS366离体花药开裂

植物育性与花药开裂性状相关. 茉莉酮酸甲酯(methyl jasmonic acid, MeJA)是一种植物激素,广泛参与植物的胁迫应答和生长发育过程. 植物体内存在6类基因所编码的酶共同维持茉莉酮酸(JA)代谢途径的畅通,并与植物花药开裂有关. 本研究以小麦光温敏不育系BS366为材料,于抽穗期—开花期进行穗部离体48 h的 MeJA外源处理. 分别于0、1、3、6、12、24和48 h时间点收集花药并进行RNA提取. 通过半定量RT-PCR分析发现,在内参基因甘油醛-3-磷酸脱氢酶(glyceraldehyde-3- phosphate dehydrogenase, GAPDH)表达基本一致的情况下,BS366的JA代谢途径中参与调控的6种基因均存在不同程度的诱导表达. 经MeJA 的48 h处理后的离体花药开裂程度明显增大. 本研究获得了BS366离体环境下JA代谢途径基因经MeJA诱导后表达水平的概况,并为诱导BS366花药开裂及人工调控育性,达到高效制种及繁种的目的提供了初步的理论依据.     

CoupTFI Interacts with Retinoic Acid Signaling during Cortical Development

We examined the role of the orphan nuclear hormone receptor CoupTFI in mediating cortical development downstream of meningeal retinoic acid signaling. CoupTFI is a regulator of cortical development known to collaborate with retinoic acid (RA) signaling in other systems. To examine the interaction of CoupTFI and cortical RA signaling we utilized Foxc1-mutant mice in which defects in meningeal development lead to alterations in cortical development due to a reduction of RA signaling. By analyzing CoupTFI^−/−;Foxc1^H/L double mutant mice we provide evidence that CoupTFI is required for RA rescue of the ventricular zone and the neurogenic phenotypes in Foxc1-mutants. We also found that overexpression of CoupTFI in Foxc1-mutants is sufficient to rescue the Foxc1-mutant cortical phenotype in part. These results suggest that CoupTFI collaborates with RA signaling to regulate both cortical ventricular zone progenitor cell behavior and cortical neurogenesis.     

Retinoic Acid Treatment Induces Cell Death and the Protein Expression of Retinoic Acid Receptor β in the Mesenchymal Cells of Mouse Facial Primordia in Vitro

We isolated mesenchymal cells from individual facial primordia of mouse embryos on 11 days post coitum and examined the effects of retinoic acid (RA) on chondrogenesis, induction of cell death, and the protein expression of retinoic acid receptor (RAR) β and γ in micromass culture. Under the control condition, cells of both medial and lateral nasal prominences (MNP and LNP) displayed high chondrogenic potential, while those of maxillary and mandibular prominences (Mx and Md) had constant growth activity and low chondrogenic potential. Though none of the cells expressed detectable levels of the RAR β protein, RAR γ was expressed in the cells of all the facial primordia. One μM RA inhibited the chondrogenesis, and induced cell death accompanied with the induction of the RAR β protein in LNP, MX and Md cells within 6 hr. On the contrary, both cell death and RAR β protein induction were detected in the MNP cells treated with RA for 24 hr. These results suggest that the RAR β is involved in the process of the cell death induced by the RA treatment in the mesenchymal cells of the mouse facial primordia.     

维甲酸对SK-N-SH细胞增殖和相关基因表达的影响

目的:研究维甲酸对SK-N-SH细胞的增殖和相关基因表达的影响.方法:通过苔盼蓝排除法绘制细胞生长曲线、流式细胞技术测定细胞周期、HE染色光镜观察细胞形态改变以及SABC免疫细胞化学梁色法观察维甲酸对SK-N-SH相关癌基因、抑癌基因表达的影响.结果:1μmol/LRA处理后,SK-N-SH细胞的增殖活动受到明显的抑制,处理第7天抑制率达36.16%;周期测定显示处理后出现明显的G0/G1期阻滞,由对照组的49.7%增加至62.7%,增加了26.2%;免疫细胞化学染色结果显示,处理后细胞癌基因c-myc、c-fos的表达较对照组明显降低,而抑癌基因p53、p27的表达则有所加强.结论:维甲酸能有效抑制SK-N-SH细胞的增殖活动,其对细胞的增殖抑制作用与RA下调c-myc、c-fos等癌基因以及上调p53、p27等抑癌基因的表达有关.     

Retinoic Acid Receptor-Dependent,Cell-Autonomous,Endogenous Retinoic Acid Signaling and Its Target Genes in Mouse Collecting Duct Cells

Background

Vitamin A is necessary for kidney development and has also been linked to regulation of solute and water homeostasis and to protection against kidney stone disease, infection, inflammation, and scarring. Most functions of vitamin A are mediated by its main active form, all-trans retinoic acid (tRA), which binds retinoic acid receptors (RARs) to modulate gene expression. We and others have recently reported that renal tRA/RAR activity is confined to the ureteric bud (UB) and collecting duct (CD) cell lineage, suggesting that endogenous tRA/RARs primarily act through regulating gene expression in these cells in embryonic and adult kidney, respectively.

Methodology/Principal Findings

To explore target genes of endogenous tRA/RARs, we employed the mIMCD-3 mouse inner medullary CD cell line, which is a model of CD principal cells and exhibits constitutive tRA/RAR activity as CD principal cells do in vivo. Combining antagonism of RARs, inhibition of tRA synthesis, exposure to exogenous tRA, and gene expression profiling techniques, we have identified 125 genes as candidate targets and validated 20 genes that were highly regulated (Dhrs3, Sprr1a, and Ppbp were the top three). Endogenous tRA/RARs were more important in maintaining, rather than suppressing, constitutive gene expression. Although many identified genes were expressed in UBs and/or CDs, their exact functions in this cell lineage are still poorly defined. Nevertheless, gene ontology analysis suggests that these genes are involved in kidney development, renal functioning, and regulation of tRA signaling.

Conclusions/Significance

A rigorous approach to defining target genes for endogenous tRA/RARs has been established. At the pan-genomic level, genes regulated by endogenous tRA/RARs in a CD cell line have been catalogued for the first time. Such a catalogue will guide further studies on molecular mediators of endogenous tRA/RARs during kidney development and in relation to renal defects associated with vitamin A deficiency.     

视黄酸对小鼠早期胚胎结构及0tx2基因表达的影响

以全反式视黄酸 ( all trans-retinoic acid,AT-RA)体外处理 EB( early allantoic bud)期和 LB( lateallantoic acid)期的小鼠胚胎 ,然后用洋地黄毒苷 ( digoxigenin)标记的 0 tx2反意义 RNA探针对整体胚胎进行原位杂交。以 4× 1 0 - 6 mol/ l的 AT— RA处理 ,抑制或减少了胚胎的前肠形成 ,经处理的胚胎的头褶没有对照的那样明显向腹部突出 ,其神经沟也不整齐 ;经处理的 EB期胚胎 ,其 0 tx2表达范围剧烈地向前退缩或只有很微弱的表达 ;但以同样浓度处理 LB期胚胎时 ,与对照相比 ,0 tx2的表达除了在极少数胚胎中变得弱一些以外 ,在绝大多数胚胎中其表达模式没有变化     

Interplay of Protein Disorder in Retinoic Acid Receptor Heterodimer and Its Corepressor Regulates Gene Expression

1. Download : Download high-res image (205KB)
2. Download : Download full-size image