DEAD-box RNA helicases with special reference to p68:Unwinding their biology,versatility,and therapeutic opportunity in cancer

In the era of advancement,the entire world continues to remain baffled by the increased rate of progression of cancer.There has been an unending search for novel thera-peutic targets and prognostic markers to curb the oncogenic scenario.The DEAD-box RNA he-licases are a large family of proteins characterized by their evolutionary conserved D-E-A-D(Asp-Glu-Ala-Asp)domain and merit consideration in the oncogenic platform.They perform multidimensional functions in RNA metabolism and also in the pathology of cancers.Their bio-logical role ranges from ribosome biogenesis,RNA unwinding,splicing,modification of second-ary and tertiary RNA structures to acting as transcriptional coactivators/repressors of various important oncogenic genes.They also play a crucial role in accelerating oncogenesis by pro-moting cell proliferation and metastasis.DDX5(p68)is one of the archetypal members of this family of proteins and has gained a lot of attention due to its oncogenic attribute.It is found to be overexpressed in major cancer types such as colon,brain,breast,and prostate cancer.It exhibits its multifaceted nature by not only coactivating genes implicated in cancers but also mediating crosstalk across major signaling pathways in cancer.Therefore,in this review,we aim to illustrate a comprehensive overview of DEAD-box RNA helicases especially p68 by focusing on their multifaceted roles in different cancers and the various signaling pathways affected by them.Further,we have also briefly discoursed the therapeutic interventional approaches with the DEAD-box RNA helicases as the pharmacological targets for designing in-hibitors to pave way for cancer therapy.

RNA解旋酶DEAD-box蛋白家族与肿瘤的相关性研究

RNA解旋酶DEAD-box蛋白家族是RNA解旋酶中最大的家族,是基因表达的重要调控因子,在RNA代谢的多个方面发挥作用。RNA解旋酶DEAD-box蛋白家族既在RNA代谢中具有重要作用,又与人类细胞中基因组的不稳定性直接相关。而基因组的不稳定性是癌症克隆进化的驱动因素,能够促进癌症的发生发展。该文对RNA解旋酶DEAD-box蛋白家族与肿瘤发生发展的相关性做一综述。

Ku70作为RNA解旋酶调节miR-124的加工成熟及神经细胞的分化

目的Ku70蛋白主要通过其DNA结合特性参与双链DNA断裂(DSB)的非同源端连接(NHEJ)修复,有报道称其具有RNA结合功能,本文探索Ku70是否具有RNA解旋酶活性并影响miRNA加工成熟。方法利用RNA免疫共沉淀(RIP)测序结合生物信息学分析Ku蛋白结合的RNA;蛋白质印迹法(Western blot,WB)结合定量反转录PCR(qRTPCR)检测Ku蛋白与miRNAs的表达关系;生物膜干涉技术(BLI)实验分析Ku蛋白与RNA的结合能力;电泳迁移率变动分析(EMSA)实验确定Ku70及Ku80的RNA解旋酶活性;形态学检测结合WB分析Ku70调节miR-124引起的神经细胞功能变化;免疫荧光结合形态学分析寨卡病毒(ZIKV)感染后Ku70及miR-124的变化与神经元分化关联。结果研究发现,Ku70蛋白具有RNA解旋酶活性,并通过其RNA解旋酶活性影响miRNA加工成熟。Ku70缺失引起许多miRNAs上调,其中包括神经细胞特异的miR-124。在人神经前体细胞(h NPCs)和人神经母细胞瘤细胞(SH-SY5Y)中敲低Ku70可促进miR-124的成熟,从而导致上述细胞向神经元分化。本文进一步发现,ZIKV感染影响了Ku70及miR-124的表达,导致细胞形态的分化。结论本研究揭示了Ku70的一种新功能,即Ku70有可能参与miRNA的成熟调控和神经细胞的分化,并且可能是ZIKV病毒致小头症的原因之一。

Identification of the DEAD-box RNA helicase family members in grapevine reveals that VviDEADRH25a confers tolerance to drought stress

Grapevine growing areas are increasingly affected by drought,which has greatly limited global wine production and quality.DEAD-box is one of the largest subfamilies of the RNA helicase family,and its members play key roles in the growth and development of plants and their stress responses.Previous studies have shown the potential of DEAD-box genes in the drought stress responses of Arabidopsis and tomato,rice,and other crop species.However,information about DEAD-box genes in grapevine remains limited.In this report,a total of 40 DEAD-box genes were identified in grapevine and their protein sequence characteristics and gene structures were analyzed.By comparing the expression profiles of VviDEADRHs in response to drought stress in different grapevine varieties,nine candidate genes(VviDEADRH10c,-13,-22,-25a,-25b,-33,-34,-36,and-39)were screened based on expression profiling data.Combined with qRTPCR results,Vvi DEADRH25a was selected for functional verification.Heterologous overexpression of Vvi DEADRH25a in Arabidopsis showed the transgenic plants were more sensitive to drought stress than the control.Both electrolyte permeability and malondialdehyde content were significantly increased in transgenic plants,whereas the chlorophyll content and superoxide dismutase(SOD),peroxidase(POD),catalase(CAT),and ascorbate peroxidase(APX)enzyme activities were significantly decreased.Furthermore,VviDEADRH25a-overexpressing plants showed down-regulated expression levels of several drought stress-related marker genes,namely At COR15a,At RD29A,At ERD15,and At P5CS1,which indicated that they participated in the drought stress response.In summary,this study provides new insights into the structure,evolution,and participation of DEAD-box RNA helicase genes in the response to drought stress in grapevines.

RNA解螺旋酶DDX5的生物学功能及其在肿瘤中的作用机制研究进展

RNA解螺旋酶DDX5(DEAD-box RNA helicase 5)又称RNA解螺旋酶p68蛋白,是一种广泛存在于真核生物中的重要蛋白质,在调节RNA的生物学过程中发挥着多种重要功能,包括转录、剪接、翻译和RNA稳定性的调节等。随着生命科学的发展和技术的进步,越来越多的研究表明,DDX5在肿瘤中的作用十分重要,不仅可以促进肿瘤的发生和发展,还可以作为潜在的治疗靶点和治疗监测指标。因此,针对DDX5在肿瘤发生发展中的作用机制进行深入研究,对于深入理解肿瘤的发生机制,以及制定有效的抗肿瘤治疗策略具有重要的意义,论文对DDX5的结构特点、生物学功能、在肿瘤中的作用机制及其研究进展进行了综述。

老年胃癌患者DEAD-box蛋白家族RNA解旋酶3的表达及临床意义

目的研究老年胃癌患者DEAD-box蛋白家族RNA解旋酶3(DDX3)的表达情况,分析其表达与临床病理参数的相关性。方法选择70例经病理证实的老年胃癌患者,采集胃癌组织和癌旁组织标本,分别采用免疫组化法和RT-PCR法检测DDX3蛋白及mRNA,分析DDX3的表达与病理参数的相关性。结果 DDX3蛋白在胃癌组织中的阳性表达率(51.4%)高于癌旁组织(8.6%),差异有显著性(χ~2=30.6122,P=0.000)。DDX3 mRNA表达吸光度值(1.48±0.19)高于癌旁组织(1.05±0.23),差异有显著性(t=11.8809,P=0.000)。胃癌分化程度、临床分期、肿瘤浸润深度及是否存在淋巴结转移与DDX3表达阳性率有关,胃癌低分化、临床分期Ⅲ～Ⅳ期及出现淋巴结转移者DDX3表达阳性率较高。DDX3 mRNA的表达与胃癌分化程度、临床分期、肿瘤浸润深度及是否存在淋巴结转移显著相关(P<0.05)。结论 DDX3的高表达与老年胃癌的发生、发展相关。

番茄DEAD-box RNA解旋酶基因SlDEAH1的克隆及表达分析

DEAD-box RNA解旋酶是一种特殊的RNA分子伴侣,参与了RNA代谢,包括前体RNA剪接、核糖体合成、RNA降解以及基因表达,并对植物的发育和抗性等也具有重要作用。根据已报道的拟南芥DEAD-box蛋白,通过同源比对,在NCBI据库中筛选得到一个DEAD-box RNA解旋酶同源蛋白,命名为SlDEAH1,并根据其基因序列设计特异引物,应用RT-PCR方法从野生型番茄(Solanum lycopersicum)AC++中克隆得到了该基因的全长编码区序列。利用生物学网站、软件及实时荧光定量PCR方法,对其进行生物信息学、表达模式、胁迫及激素处理分析。结果表明:SlDEAH1包括2 073 bp的开放阅读框,编码690个氨基酸残基,其编码蛋白有9个保守结构基序,其所涉及到的ATP结合、ATP水解及RNA结合等功能对于解旋酶活性是至关重要的;表达模式分析表明SlDEAH1基因可能在野生型番茄萼片、叶片发育及果实成熟方面起到重要作用;高温、低温、脱水、伤害、盐胁迫不同程度的诱导了SlDEAH1的表达,但在根中该基因的表达受盐胁迫抑制;ABA、ACC、IAA、GA3、MeJA和ZT均不同程度诱导了SlDEAH1的表达,其中ABA诱导效应最为明显。这些结果为进一步研究SlDEAH1在番茄发育和胁迫响应中的功能奠定了基础。

玉米DEAD-box RNA解旋酶基因的克隆及分析

DEAD-box RNA解旋酶参与RNA转录、前体mRNA剪切、核糖体发生、核质运输、蛋白质翻译、RNA降解等重要的生命活动.根据本室在S-Mo17Rf3Rf3cDNA芯片研究中,检测到花粉发育后期RNA解旋酶上调表达的结果,应用RACE技术从S-Mo17Rf3Rf3花粉中克隆得到该RNA解旋酶基因全长cDNA,命名为ZmRH2并在GenBank注册登记(DQ327709).序列分析表明该cDNA全长1652bp,从第163bp开始到1386bp含有一个开放阅读框,编码407个氨基酸.其编码的蛋白质具有DEAD-boxRNA解旋酶特有的9个保守模体,与水稻、拟南芥和豌豆中的DEAD-boxRNA解旋酶的氨基酸序列存在着很高的同源性.RT-PCR分析表明,该基因在近等基因系S-Mo17Rf3Rf3和S-Mo17rf3rf3的叶、根、和雌穗中的表达没有差异,但在花丝和花粉中有明显差异.

低温诱导型凡纳滨对虾DEAD-box RNA解旋酶基因的克隆与表达分析

为研究凡纳滨对虾耐寒性状的分子基础,克隆鉴定了凡纳滨对虾DEAD-box RNA解旋酶的同源基因。根据差减文库中筛选到的一个低温上调表达的DEAD-box RNA解旋酶基因片段,通过RACE PCR扩增获得两条高度相似的c DNA全长序列,两条c DNA均为1430 bp,包含139 bp 5′UTR、79 bp 3′UTR和1212 bp开放阅读框,编码403个氨基酸残基。Blast比对结果显示,两条c DNA与其他物种的DDX5相似性最高,推测为凡纳滨对虾DDX5基因的两个变异体,分别命名为Lv DDX5variant A(Lv DDX5A)和Lv DDX5variant B(Lv DDX5B),在系统进化树中,Lv DDX5A和Lv DDX5B聚为最近的一支,并与虾类DDX5、文昌鱼DDX、贝类的DDX5距离较近。Real-time PCR分析结果显示,Lv DDX5A和Lv DDX5B都呈多组织遍在表达,在精巢、鳃、肠、肌肉和卵巢中,Lv DDX5B表达量高于Lv DDX5A,而在肝胰腺中Lv DDX5A表达量高于Lv DDX5B。在低温胁迫对虾肝胰腺和心中,Lv DDX5A呈上调表达而Lv DDX5B表达量无明显变化。进一步对Lv DDX5A在不同低温条件胁迫对虾的肝胰腺中表达变化进行了分析。结果显示,Lv DDX5A在18℃、15℃、13℃和11℃低温胁迫36h均被诱导表达,并随着15℃和13℃低温胁迫时间的增加呈先上升后下降的表达模式,在48h达到峰值,Lv DDX5A的低温诱导表达模式暗示其可能是在凡纳滨对虾低温适应中发挥作用的剪接体。

Heat shock protein 90 promotes RNA helicase DDX5 accumulation and exacerbates hepatocellular carcinoma by inhibiting autophagy

Objective:Hepatocellular carcinoma(HCC),the main type of liver cancer,has a high morbidity and mortality,and a poor prognosis.RNA helicase DDX5,which acts as a transcriptional co-regulator,is overexpressed in most malignant tumors and promotes cancer cell growth.Heat shock protein 90(HSP90)is an important molecular chaperone in the conformational maturation and stabilization of numerous proteins involved in cell growth or survival.Methods:DDX5 m RNA and protein expression in surgically resected HCC tissues from 24 Asian patients were detected by quantitative real-time PCR and Western blot,respectively.The interaction of DDX5-HSP90 was determined by molecular docking,immunoprecipitation,and laser scanning confocal microscopy.The autophagy signal was detected by Western blot.The cell functions and signaling pathways of DDX5 were determined in 2 HCC cell lines.Two different murine HCC xenograft models were used to determine the function of DDX5 and the therapeutic effect of an HSP90 inhibitor.Results:HSP90 interacted directly with DDX5 and inhibited DDX5 protein degradation in the AMPK/ULK1-regulated autophagy pathway.The subsequent accumulation of DDX5 protein induced the malignant phenotype of HCC by activating theβ-catenin signaling pathway.The silencing of DDX5 or treatment with HSP90 inhibitor both blocked in vivo tumor growth in a murine HCC xenograft model.High levels of HSP90 and DDX5 protein were associated with poor prognoses.Conclusions:HSP90 interacted with DDX5 protein and subsequently protected DDX5 protein from AMPK/ULK1-regulated autophagic degradation.DDX5 and HSP90 are therefore potential therapeutic targets for HCC.

P68 RNA helicase is a nucleocytoplasmic shuttling protein

P68 RNA helicase 是原型的死了的盒子 RNA helicase。蛋白质在早机关开发和成熟起一个很重要的作用。与在 transcriptional 规定并且 pre-mRNA 拼接的蛋白质的功能一致， p68 被发现主要在房间原子核本地化。然而，最近的实验表明蛋白质的短暂细胞质的本地化。我们这里报导那 p68 在原子核和细胞质之间的梭。p68 的 nucleocytoplasmic shuttling 被二个原子本地化信号和二个原子出口信号顺序元素调停。我们的实验揭示那 p68 经由一条古典 RanGTPase 依赖的小径的梭。

低温胁迫下红榄李(Lumnitzera littorea)DEAD-box RNA解旋酶基因的表达分析

转录组分析发现DEAD-box RNA解旋酶家族参与红榄李(Lumnitzera littorea)对低温胁迫的响应。本文对4个低温显著差异表达基因LlDEAD12,LlDEAD32,LlDEAD43和LlDEAD65的生物信息学特性、组织特异性以及在不同温度处理下的红榄李幼苗中的差异表达进行研究。结果表明,LlDEAD12、LlDEAD32、LlDEAD43和LlDEAD65均属于疏水性蛋白,二级结构均由α-螺旋、β-转角、延伸链和无规则卷曲组成,具有多个糖基化位点和磷酸化位点,且不含有跨膜结构域和信号肽。亚细胞定位分析表明,LlDEAD12和LlDEAD32分别定位于细胞质和细胞核,而LlDEAD43和LlDEAD65则定位于线粒体上。通过蛋白质氨基酸序列的比对分析发现LlDEAD12、LlDEAD32和LlDEAD43分别与马尾松(Pinus massoniana)、巨桉(Eucalyptus grandis)和石榴(Punica granatum)的DEAD-box RNA解旋酶有较近的亲缘关系。荧光定量PCR技术分析发现,LlDEAD12和LlDEAD32在叶中高表达,LlDEAD43和LlDEAD65在茎和花中高表达,但这4个基因在根中都不表达,说明这4个基因对红榄李生长发育的调控主要集中在叶、茎和花等器官。低温胁迫对红榄李幼苗这4个基因的表达均有显著的抑制,说明它们参与了红榄李在低温环境下的分子响应,其中LlDEAD12和LlDEAD32可能参与了叶绿体的发育, LlDEAD43和LlDEAD65可能参与到了维持线粒体功能的稳定。以上结果可为红榄李抗冷性苗木的培育提供科学依据。

铁皮石斛两个DEAD-box RNA解旋酶基因克隆及特征分析

为获得铁皮石斛DEAD-box RNA解旋酶(RH,RNA Helicase)基因并进行表达及序列分析,利用RACE从其叶片cDNA中分离RH基因,对编码蛋白相关理化特性进行生物信息分析;采用MEGA 6.0构建系统进化树;借助定量PCR技术检测基因表达特性。结果表明:分离到铁皮石斛两个DEAD-box RH基因DoRH1和DoRH2(GenBank注册号KT957555和KT957556),全长为1648 bp和1851 bp,各编码1条由428和499个氨基酸组成的肽链,编码蛋白相对分子质量分别为48206和55432,等电点5.51和8.65;DoRH1和DoRH2蛋白均包含3个保守的RH结构域和多个基元,无信号肽或跨膜域,预测均定位在细胞核;两个基因与植物DEAD-box RH家族基因相似性高达80%以上;DoRH1、DoRH2分别聚在拟南芥、水稻、大豆和雷蒙德氏棉DEAD-box RH家族基因进化树的Ⅲ、Ⅳ支;DoRH1和DoRH2表达模式不同,DoRH1在根、茎、叶中表达量无显著差异,DoRH2在根中的相对表达量为叶中的3.26倍,茎与叶中无差异。

DEAD-box RNA解旋酶41在髓系肿瘤中的作用机制的研究进展——骨髓增生异常综合征/急性髓系淋巴细胞白血病

DEAD-box RNA解旋酶(DEAD-box helicase,DDX)参与RNA代谢的各个过程,包括基因转录、前体RNA剪切、mRNA转运和翻译、核糖体合成以及miRNA的调控等。DDX家族成员的突变对RNA代谢的影响可导致一系列疾病的产生。DEAD-box RNA解旋酶41(DDX41)是DDX家族的一个重要成员,该分子是剪切复合体的一个重要组成成分,其突变可导致个体出现骨髓增生异常综合征,进而导致急性髓系淋巴细胞白血病这一血液恶性肿瘤的出现,严重影响患者的生存和预后。本文就DDX41在上述血液恶性肿瘤中的作用机制的研究进展作一综述。

RNA helicase DDX20 as a surrogate marker of statin activity in invasive breast cancer

OBJECTIVE To evaluate if RNA helicase DDX20,highly expressed in triple negative breast cancer(TNBC)cells,could serve as a surrogate marker for simvastatin treatment response.METHODS We first assessed correlation between 17 mevalonate pathway-related genes and expression of DDX20 in a cohort of 1325 breast cancer tumors.TNBC cells,MDA-MB-231,were then treated with simvastatin and mevalonate pathway intermediates to assess the alteration in DDX20 expression.In the mouse model,MDA-MB-231 cells were injected to tail veins of mice,groups of 8mice each were injected intraperioneally with vehicle or simvastatin 25mg·kg-1 3times a week for 6weeks.The number of metastatic colonies formed was quantified and immunohistochemical(IHC)staining of DDX20 was carried out in the lung tissues.RESULTS Among the 17 genes evaluated,positive correlation with DDX20 expression was observed in eight of them,with HMGCR having the highest correlation.Our in vitro experiments show exposure of breast cancer cells to simvastatin lead to a Rho-dependent decrease in gene expression of DDX20,leading to decreased tumor proliferation in a mevalonate pathway-dependent manner.Conversely,ectopic overexpression of DDX20 significantly abrogated the anti-metastatic activity of simvastatin.A similar observation is seen in the mouse model,where simvastatin-injected mice show significantly fewer visible lung metastases compared to placebo-fed mice.IHC staining on these lung tissues showed decreased DDX20 expression in simvastatin-injected group,corroborating our observations in vitro.CONCLUSION DDX20 is a potential surrogate marker for simvastatin treatment response in breast cancer and a long term implication of our findings is the possibility of an effective combinatorial therapeutic intervention using statins(to suppress DDX20 gene expression)and a suitable firstline agent″for the kill″of invasive breast cancer.

原发性肝癌组织中RNA解旋酶DDX21表达与预后的相关性分析

目的:探讨RNA解旋酶DDX21在原发性肝细胞肝癌(hepatocellular carcinoma,HCC)组织中的表达情况,分析其与肝癌患者的临床预后关系和意义。方法:我们通过免疫组织化学方法检测86例行根治性切除术的肝细胞肝癌患者癌和癌旁组织中的RNA解旋酶DDX21表达水平。统计分析RNA解旋酶DDX21的表达与临床病理参数的关系,运用癌症相关生存分析工具Kaplan-Meier,分析观察RNA解旋酶DDX21的表达水平与患者预后生存期的关系,建立Cox回归模型,寻找影响肝细胞肝癌患者预后的独立因素。结果:癌旁组织胞浆中RNA解旋酶DDX21表达高于癌组织中的表达(P<0.05);癌旁组织胞浆中RNA解旋酶DDX21高表达患者预后良好和无病生存率显著高于RNA解旋酶DDX21低表达患者,肿瘤大小和RNA解旋酶DDX21蛋白表达水平均与肝细胞肝癌预后密切相关(P<0.05);Cox回归分析显示,肿瘤大小和RNA解旋酶DDX21蛋白表达水平均与肝细胞肝癌预后良好显著相关(P<0.05)。结论:RNA解旋酶DDX21有望成为影响肝细胞肝癌患者预后的生物标志物。

RNA解旋酶DDX5在病理生理作用中的研究进展

RNA解旋酶DDX5(DEAD-box helicase 5)是具有多种生物学功能的核蛋白,对多种转录因子有激活作用,且在mRNA、rRNA、miRNA加工,核糖体合成,细胞增殖及分化,细胞骨架重塑,细胞凋亡中发挥十分重要的作用。在血管疾病中,DDX5可以引起动脉粥样硬化的加剧及抑制血管重构。研究表明DDX5与多种肿瘤的发生、调控的解除及关键致癌因子基因的表达有关。此外DDX5还参与神经系统疾病、肾病及肥胖症等疾病的发生与发展。深入探讨DDX5的结构特点,生物学功能与病理生理作用能够为众多临床相关疾病提供治疗参考。

转座酶可及性染色质测序法联合RNA测序探究解旋酶样转录因子基因的缺失对肝细胞癌的影响

目的:探究解旋酶样转录因子(helicase like transcription factor,HLTF)基因在肝细胞癌(hepatocellular carcinoma,HCC)中潜在的调控机制。方法:构建HLTF基因稳定敲除的HCC细胞株。应用RNA测序法(RNA sequencing,RNA-seq)检测并分析肝癌细胞HLTF基因敲除前后的差异表达基因。应用转座酶可及性染色质测序法(assay for transposase-accessible chromatin using sequencing,ATAC-seq)检测HLTF基因敲除前后肝癌细胞染色质可及性的改变。采用RNA-seq和ATAC-seq多组学数据进行联合分析,寻找HLTF基因潜在的下游调控通路和关键基因。结果:癌症基因组图谱(the cancer genome atlas,TCGA)数据库分析表明HLTF基因在HCC组织中的表达水平升高,且其高表达与HCC预后不良有关联;RNA-seq分析结果显示,与野生型肝癌细胞相比,HLTF基因敲除细胞中有563个基因的表达水平上调,656个基因的表达水平下调;ATAC-seq分析结果显示,共27818个区域在HLTF基因缺失时染色质可及性发生显著改变,其中14225个区域染色质可及性增强,13593个区域染色质可及性减弱;对染色质可及性改变的区域进行motif富集分析,数据显示在染色质可及性增强的区域,Atf3、Fra1和BATF等被富集,在染色质可及性减弱的区域,Fra1、Fra2和JunB等被富集;RNA-seq和ATAC-seq多组学数据联合分析表明,重叠基因主要富集在花生四烯酸代谢通路、Wnt信号通路、钙离子信号通路和转化生长因子β(transforming growth factorβ,TGF-β)信号通路等。HLTF基因的缺失使核RNA输出因子3(nuclear RNA export factor 3,NXF3)基因表达水平升高。NXF3基因高表达的HCC患者的预后较NXF3基因低表达的HCC患者好。结论:在HCC中,HLTF基因可能参与调控花生四烯酸代谢通路、Wnt信号通路和TGF-β信号通路等,NXF3基因可能是HLTF基因的潜在下游基因。

黄鳝DEAD-box家族PL10基因的克隆与序列分析

通过PCR克隆的方法,从黄鳝(Monopterus albus)中得到两个PL10 基因的cDNA片段Mo PL10A和Mo PL10B,长度均为1.127 kb,推测其编码375个氨基酸的蛋白片段.结合其他PL10类同源物序列,对这两条cDNA进行了分析和初步的功能推测.根据此片段的氨基酸序列构建的系统发育树与形态分类结果一致.在不同组织中的RT PCR结果表明Mo PL10A和Mo PL10B的mRNA在各组织中的分布有差异.

DEAD-box基因家族在拟南芥生长发育中的作用

在RNA代谢过程中,需要许多蛋白和核酸的参与,其中一类蛋白就是RNA解旋酶。RNA解旋酶通过水解ATP获得能量来参与RNA代谢的多个方面,包括核内转录、pre-mRNA的剪切、核糖体发生、核质运输、蛋白质翻译、RNA降解、细胞器内基因的表达。DEAD-box蛋白家族是RNA解旋酶中最大的亚家族,它具有9个保守结构域,因motifyⅡ的保守氨基酸序列Asp-Glu-Ala-Asp(DEAD)而命名。该家族在酵母、拟南芥(Arabidopsis thaliana Heynh.)和人类基因组中都有较多的家庭成员。近年来,研究者对拟南芥DEAD-box蛋白家族的结构和功能进行了一些研究,本文着重总结DEAD-box基因家族对拟南芥生长发育的影响。