956 resultados para FACTOR COMPLEX


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Previous in vivo study demonstrated that beta gamma-CAT, a newly identified non-lens beta gamma-crystallin and trefoil factor complex from frog Bombina maxima skin secretions, possessed potent lethal toxicity on mammals resulted from hypotension and cardi

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In vertebrates, non-lens beta gamma-crystallins are widely expressed in various tissues but their functions are unknown. The molecular mechanisms of trefoil factors, initiators of mucosal healing and being greatly involved in tumorigenesis, have remained

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In vertebrates, non-lens beta gamma-crystallins are widely expressed in various tissues, but their functions are unknown. The molecular mechanisms of trefoil factors, initiators of mucosal healing and being greatly involved in tumorigenesis, have remained

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Utrophin/dystrophin-related protein is the autosomal homologue of the chromosome X-encoded dystrophin protein. In adult skeletal muscle, utrophin is highly enriched at the neuromuscular junction. However, the molecular mechanisms underlying regulation of utrophin gene expression are yet to be defined. Here we demonstrate that the growth factor heregulin increases de novo utrophin transcription in muscle cell cultures. Using mutant reporter constructs of the utrophin promoter, we define the N-box region of the promoter as critical for heregulin-mediated activation. Using this region of the utrophin promoter for DNA affinity purification, immunoblots, in vitro kinase assays, electrophoretic mobility shift assays, and in vitro expression in cultured muscle cells, we demonstrate that ets-related GA-binding protein α/β transcription factors are activators of the utrophin promoter. Taken together, these results suggest that the GA-binding protein α/β complex of transcription factors binds and activates the utrophin promoter in response to heregulin-activated extracellular signal–regulated kinase in muscle cell cultures. These findings suggest methods for achieving utrophin up-regulation in Duchenne’s muscular dystrophy as well as mechanisms by which neurite-derived growth factors such as heregulin may influence the regulation of utrophin gene expression and subsequent enrichment at the neuromuscular junction of skeletal muscle.

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The CCAAT motif is found in the promoters of many eukaryotic genes. In yeast a single complex of three proteins, termed HAP2, HAP3, and HAP5, binds to this sequence, and in mammals the three components of the equivalent complex (called variously NF-Y, CBF, or CP1) are also represented by single genes. Here we report the presence of multiple genes for each of the components of the CCAAT-binding complex, HAP2,3,5, from Arabidopsis. Three independent Arabidopsis HAP subunit 2 (AtHAP2) cDNAs were cloned by functional complementation of a yeast hap2 mutant, and two independent forms each of AtHAP3 and AtHAP5 cDNAs were detected in the expressed sequence tag database. Additional homologs (two of AtHAP3 and one of AtHAP5) have been identified from available Arabidopsis genomic sequences. Northern-blot analysis indicated ubiquitous expression for each AtHAP2 and AtHAP5 cDNA in a range of tissues, whereas expression of each AtHAP3 cDNA was under developmental and/or environmental regulation. The unexpected presence of multiple forms of each HAP homolog in Arabidopsis, compared with the single genes in yeast and vertebrates, suggests that the HAP2,3,5 complex may play diverse roles in gene transcription in higher plants.

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The anthocyanin biosynthetic pathway is regulated by a transcription factor complex consisting of an R2R3 MYB, a bHLH, and a WD40. Although R2R3 MYBs belonging to the anthocyanin-activating class have been identified in many plants, and their role well elucidated, the subgroups of bHLH implicated in anthocyanin regulation seem to be more complex. It is not clear whether these potential bHLH partners are biologically interchangeable with redundant functions, or even if heterodimers are involved. In this study, AcMYB110, an R2R3 MYB isolated from kiwifruit (Actinidia sp.) showing a strong activation of the anthocyanin pathway in tobacco (Nicotiana tabacum) was used to examine the function of interacting endogenous bHLH partners. Constitutive expression of AcMYB110 in tobacco leaves revealed different roles for two bHLHs, NtAN1 and NtJAF13. A hierarchical mechanism is shown to control the regulation of transcription factors and consequently of the anthocyanin biosynthetic pathway. Here, a model is proposed for the regulation of the anthocyanin pathway in Solanaceous plants in which AN1 is directly involved in the activation of the biosynthetic genes, whereas JAF13 is involved in the regulation of AN1 transcription.

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NAPc2, an anticoagulant protein from the hematophagous nematode Ancylostoma caninum evaluated in phase-II/IIa clinical trials, inhibits the extrinsic blood coagulation pathway by a two step mechanism, initially interacting with the hitherto uncharacterized factor Xa exosite involved in macromolecular recognition and subsequently inhibiting factor VIIa (K-i = 8.4 pM) of the factor VIIa/tissue factor complex. NAPc2 is highly flexible, becoming partially ordered and undergoing significant structural changes in the C terminus upon binding to the factor Xa exosite. In the crystal structure of the ternary factor Xa/NAPc2/selectide complex, the binding interface consists of an intermolecular antiparallel beta-sheet formed by the segment of the polypeptide chain consisting of residues 74-80 of NAPc2 with the residues 86-93 of factor Xa that is additional maintained by contacts between the short helical segment (residues 67-73) and a turn (residues 26-29) of NAPc2 with the short C-terminal helix of factor Xa (residues 233-243). This exosite is physiologically highly relevant for the recognition and inhibition of factor X/Xa by macromolecular substrates and provides a structural motif for the development of a new class of inhibitors for the treatment of deep vein thrombosis and angioplasty. (c) 2006 Elsevier Ltd. All rights reserved.

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Targeting of many secretory and membrane proteins to the inner membrane in Escherichia coli is achieved by the signal recognition particle (SRP) and its receptor (FtsY). In E. coli SRP consists of only one polypeptide (Ffh), and a 4.5S RNA. Ffh and FtsY each contain a conserved GTPase domain (G domain) with an α-helical domain on its N terminus (N domain). The nucleotide binding kinetics of the NG domain of the SRP receptor FtsY have been investigated, using different fluorescence techniques. Methods to describe the reaction kinetically are presented. The kinetics of interaction of FtsY with guanine nucleotides are quantitatively different from those of other GTPases. The intrinsic guanine nucleotide dissociation rates of FtsY are about 105 times higher than in Ras, but similar to those seen in GTPases in the presence of an exchange factor. Therefore, the data presented here show that the NG domain of FtsY resembles a GTPase–nucleotide exchange factor complex not only in its structure but also kinetically. The I-box, an insertion present in all SRP-type GTPases, is likely to act as an intrinsic exchange factor. From this we conclude that the details of the GTPase cycle of FtsY and presumably other SRP-type GTPases are fundamentally different from those of other GTPases.

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NF-Y is a heterotrimeric transcription factor complex. Each of the NF-Y subunits (NF-YA, NF-YB and NF-YC) in plants is encoded by multiple genes. Quantitative RT-PCR analysis revealed that five wheat NF-YC members (TaNF-YC5, 8, 9, 11 & 12) were upregulated by light in both the leaf and seedling shoot. Co-expression analysis of Affymetrix wheat genome array datasets revealed that transcript levels of a large number of genes were consistently correlated with those of the TaNF-YC11 and TaNF-YC8 genes in 3-4 separate Affymetrix array datasets. TaNF-YC11-correlated transcripts were significantly enriched with the Gene Ontology term photosynthesis. Sequence analysis in the promoters of TaNF-YC11-correlated genes revealed the presence of putative NF-Y complex binding sites (CCAAT motifs). Quantitative RT-PCR analysis of a subset of potential TaNF-YC11 target genes showed that ten out of the thirteen genes were also light-upregulated in both the leaf and seedling shoot and had significantly correlated expression profiles with TaNF-YC11. The potential target genes for TaNF-YC11 include subunit members from all four thylakoid membrane bound complexes required for the conversion of solar energy into chemical energy and rate limiting enzymes in the Calvin cycle. These data indicate that TaNF-YC11 is potentially involved in regulation of photosynthesis-related genes.

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非晶状体βγ晶状体蛋白与三叶因子蛋白复合物(non-lens βγ-crystallin and trefoil factor complex,βγ-CAT)是一个从大蹼铃蟾(Bombina maxima)皮肤分泌物中分离的大然分子量为72kDa的全新的蛋白复合物.本研究测定了βγ-CAT处理红细胞后引起细胞内钾离子外流与溶血效应的时效曲线,结合扫描电子显微镜和透射电子显微镜分析βγ-CAT处理红细胞引起的早期形态学变化.结果表明:βγ-CAT(3 nmol/L)37℃处理红细胞5 min,(93.31±5.89)%的细胞内钾离子迅速外流(P<0.01),相心溶解率为(13.12±1.92)%(P<0.05).电子显微镜观察发现红细胞形态发生明显变化,细胞体枳增加,肿胀.少数红细胞表面向外形成棘状异常突起,部分肿胀细胞内的血红蛋白通过棘状突起缺口向细胞外喷射血红蛋白.表明βγ-CAT通过在红细胞膜上形成孔道使细胞内钾离子迅速外流导致红细胞内渗透压改变而溶血.其结果为理解βγ-CAT的溶血机制提供了直接的形态学证据.

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非晶状体-晶状体蛋白质(non-lens -crystallins)在脊椎动物中以一簇的基 因家族的形式存在,在各种上皮细胞中广泛表达,但对其在体内承担的功能,人 们几乎一无所知。三叶因子蛋白(trefoil factors, TFFs)主要分布在胃肠道上皮和两 栖动物皮肤表面,许多研究表明该家族的蛋白质,在粘膜保护,损伤修复和肿瘤 抑制中具有重要的作用;但是自发现以来,TFFs 一直作为孤儿配基存在,对于 其作用的机制了解得很少。人们从来没有把两个家族的蛋白质联系在一起来考虑 过。 本实验室从中国特有的两栖动物大蹼铃蟾(Bombina maxima)皮肤分泌物中, 分离到这两个家族的蛋白质的天然结合在一起的复合物,并命名为:非晶状体- 晶状体蛋白和三叶因子蛋白复合物(non-lens -crystallin and treifol factor complex, -CAT)。尽管在低剂量下,-CAT 已对小鼠,大鼠和兔有致死活性, 但其结构与人源的non-lens -crystallins 和TFFs 的同源性,提示了它可能在正 常的生理功能中起到重要作用,也为揭示两类重要的蛋白质的功能和作用机制提 供了可能性。本研究工作,在多种细胞株中,对-CAT 的生物学活性作了详细 的研究,并对其作用机制进行了进一步深入的探讨。 我们原代培养了人脐静脉血管内皮细胞(HUVEC) ,兔主动脉内皮细胞 (RAEC),兔心内皮细胞(REEC);培养了多种肿瘤细胞株。-CAT 能够引起多种 贴壁细胞的脱落。-CAT 在高剂量下能够引起这些细胞的凋亡;但是在不同的 细胞株中,发生凋亡的通路可能是不同的。在低剂量下,-CAT 能够促进细胞 的迁移,对HUVEC 具有诱导伤口修复的活性。 以HUVEC 细胞为模型,我们探讨了-CAT 的作用机制。在激光共聚焦显 微镜下,观察到-CAT 诱导HUVEC 发生囊泡化,这个效应是剂量依赖的;囊 泡化的发生不依赖于NH4Cl 的存在,但是NH4Cl 能够增大囊泡化的效应。在荧 光染料Cy3 直接标记-CAT 时,观察到-CAT 被定向运输到细胞核上。荧光染 料FITC 分别标记-CAT 的轻链和重链的多克隆抗体,免疫荧光染色发现,在较 短的时间(5 min)内, -CAT 已经进入细胞,并有部分分子被运输到细胞核上。随 着时间增加到30 min,轻链和重链在核上的比例也渐增加;到2 小时,-CAT的重链全部集中在细胞核上,而-CAT 的轻链则退出核外,主要聚集在细胞核 周围。核定位显示-CAT 分子进入HUVEC 细胞核,可能在基因的转录调节中 发挥作用。我们运用基因芯片检测了加药处理前后细胞蛋白质表达水平的变化。 在四组重复实验中均显示,加入-CAT 处理后,有121 个基因发生上调,这些 基因在调节细胞的生存和死亡中具有复杂的功能。其中核受体蛋白质家族 (NR4A1 等)的变化最为明显。而其他的基因包括调节细胞早期生长,凋亡, 炎症反应的相关基因和金属蛋白酶。同时,加入-CAT 处理后,仅有2 个基因 发生下调,包括胶原I,这为解释细胞发生脱落和调亡提供了分子基础。 本研究工作揭示了非晶状体-晶状体蛋白和三叶因子蛋白的相互作用,共 同定位到细胞核上,并调节基因的转录,首次提示非晶状体-晶状体蛋白可能 参与一条全新的细胞信号调节途径,在组织平衡,肿瘤发生和胚胎发育中起到重 要的作用;同时也为三叶因子蛋白的分子作用机制的解析提供了一种新的可能 性。

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非晶状体βγ-晶状体蛋白(non-lens βγ-crystallin, α-亚基)和三叶因子(trefoil factor, β-亚基) 复合物(non-lens βγ-crystallin and trefoil factor complex, 缩写为βγ-CAT)是从大蹼铃蟾皮肤中分离、纯化的一种新型蛋白, 具有促进细胞迁移、伤口愈合功能,同时还可通过核定位、调节转录因子和炎症相关蛋白诱导细胞脱落、凋亡。βγ-CAT对心血管和血液系统的作用和机制还不清楚。本研究的目的在于深入研究这些问题,为人类重大疾病的研究提供新思路。 首先,我们利用各种整体动物模型,研究了βγ-CAT对心血管系统和血液系统的影响。结果发现βγ-CAT可对白细胞、红细胞、血小板、肝细胞、肾细胞和心血管系统产生毒理作用。βγ-CAT可导致白细胞计数、红细胞计数和血小板计数减少、低血压、心律失常、心肌细胞轻度水肿、部分肺泡淤血、炎症细胞浸润肺泡壁、肝细胞水样变性、肾小管水肿、肾小球淤血和脾脏淤血、高钾血症、血糖升高、转氨酶和乳酸脱氢酶升高。我们推测βγ-CAT造成实验动物死亡的主要原因是心功能衰竭、高钾血症和白细胞毒素效应。 其次,为研究βγ-CAT对血管的效应,我们用兔胸主动脉进行了一系列的实验。结果表明,βγ-CAT可引起兔胸主动脉环剂量依赖性收缩,半数有效浓度为(EC50)10 nM; α-肾上腺素能受体阻断剂(酚妥拉明)和5-羟色胺受体阻断剂(S006)不能抑制βγ-CAT的血管收缩效应。因此,我们认为,整体实验观察到的低血压不是由于血管舒张造成的,而是由于βγ-CAT对心肌了产生了抑制效应,并且,βγ-CAT产生的血管收缩效应是通过新的途径引起的。 最后,我们把βγ-CAT导致兔死亡的原因归结为心血管系统衰竭,因为,一方面βγ-CAT抑制心肌使每搏量减少,另一方面它可收缩动脉使心脏的后负荷增加,从而导致重要器官、组织灌注不良而死亡。但导致心功能衰竭的机制还不清楚,于是,我们进行了离体心脏灌流、内皮细胞培养、细胞因子测定、免疫组化、凋亡实验,试图阐明导致动物心力衰竭的机制。首先,我们在离体心脏灌流装置上以恒压和恒流的灌流模式来研究βγ-CAT的心肌变力效应。接下来,我们用高钾去除冠脉血管内皮细胞,以评估内皮细胞在βγ-CAT对心肌的直接效应。最后,我们用βγ-CAT刺激培养的心内皮细胞和主动脉内皮细胞,之后检测细胞因子的释放;并用免疫组化的方法定位冠脉内皮和心肌细胞细胞因子的释放和对这些细胞的凋亡效应。实验一的结果表明,βγ-CAT导致心力衰竭的部分原因是由于βγ-CAT引起的冠脉血管收缩造成;实验二的结果表明,βγ-CAT引起的心力衰竭是内皮依赖的。实验三检测到心内皮、主动脉内皮和冠脉内皮释放TNF-α(TNF-α),高浓度的βγ-CAT还可诱导冠脉内皮凋亡,但不引起心肌细胞凋亡。综上所述,我们认为,冠脉内皮在βγ-CAT引起的心力衰竭中具有较大的贡献,通过冠脉内皮释放细胞因子(如TNF-α)作用于心肌细胞,从而导致收缩能力降低,引起心力衰竭。