The Rice B-Box Zinc Finger Gene Family: Genomic Identification,Characterization, Expression Profiling and Diurnal Analysis

Background

The B-box (BBX) -containing proteins are a class of zinc finger proteins that contain one or two B-box domains and play important roles in plant growth and development. The Arabidopsis BBX gene family has recently been re-identified and renamed. However, there has not been a genome-wide survey of the rice BBX (OsBBX) gene family until now.

Methodology/Principal Findings

In this study, we identified 30 rice BBX genes through a comprehensive bioinformatics analysis. Each gene was assigned a uniform nomenclature. We described the chromosome localizations, gene structures, protein domains, phylogenetic relationship, whole life-cycle expression profile and diurnal expression patterns of the OsBBX family members. Based on the phylogeny and domain constitution, the OsBBX gene family was classified into five subfamilies. The gene duplication analysis revealed that only chromosomal segmental duplication contributed to the expansion of the OsBBX gene family. The expression profile of the OsBBX genes was analyzed by Affymetrix GeneChip microarrays throughout the entire life-cycle of rice cultivar Zhenshan 97 (ZS97). In addition, microarray analysis was performed to obtain the expression patterns of these genes under light/dark conditions and after three phytohormone treatments. This analysis revealed that the expression patterns of the OsBBX genes could be classified into eight groups. Eight genes were regulated under the light/dark treatments, and eleven genes showed differential expression under at least one phytohormone treatment. Moreover, we verified the diurnal expression of the OsBBX genes using the data obtained from the Diurnal Project and qPCR analysis, and the results indicated that many of these genes had a diurnal expression pattern.

Conclusions/Significance

The combination of the genome-wide identification and the expression and diurnal analysis of the OsBBX gene family should facilitate additional functional studies of the OsBBX genes.     

哺乳动物锌指蛋白家族中KRAB功能域的进化

KRAB锌指基因是哺乳动物中最大的转录调控因子家族,它的多数成员在基因组上成簇分布,具有五种不同的亚家族,在功能行使上承担着不同的作用。本文通过对人类、黑猩猩、小鼠、大鼠和狗五种哺乳动物全蛋白质组序列及mRNA组织表达谱分析,验证了C2H2锌指结构在单个KRAB蛋白质中出现的数目多于一般锌指蛋白质;KRAB功能域在各物种中分布显著不同且与分化时间不成正比,这表明KRAB相关功能域多样性在灵长类进化过程中潜在的适应性进化。同时,提出KRAB亚家族进化的路线：即KRAB—Aa为起始家族,Ba由Aa直接演变形成,而Ca,blonga和XRCC-Z种亚型可能经过Ba或直接从Aa演变形成;此外,锌指结构在单个蛋白质中出现个数伴随KRAB功能域自身的进化路线逐渐递增,反映了KRAB功能域在形成新转录调控因子方面的积极作用。     

异染色质相关蛋白TRIM28调控锌指蛋白和原钙黏蛋白家族基因的转录

目的 TRIM28是一种异染色质相关蛋白,通过和SETDB1、HP1相互作用参与H3K9me3修饰的建立,本文旨在更深入地研究TRIM28的相关功能。方法 本文利用CRISPR/Cas9技术、染色质免疫共沉淀技术、免疫印迹技术和实时荧光定量PCR技术,建立HEK293F Trim28基因敲除细胞系,分析一系列实验数据结果。结果 Trim28主要抑制内源表达水平较低的基因转录,进一步分析发现Trim28调控锌指蛋白家族基因和原钙黏蛋白β家族基因的转录。在Trim28敲除细胞系中,锌指蛋白家族基因H3K27ac修饰、H3K4me1修饰和H3K4me3修饰都显著上升,H3K9me3修饰下降。原钙黏蛋白β家族基因的H3K4me3修饰显著上升,H3K9me3修饰下降。结论 这些结果提示TRIM28通过改变染色质的开放程度调控锌指蛋白和原钙黏蛋白β家族基因的转录,为更深入研究TRIM28的功能提供了新的思路。     

甘蓝型油菜ZF-HD基因家族的鉴定与系统进化分析

ZF-HD是一类植物特有的转录因子, 在植物生长发育及胁迫响应过程中发挥重要作用。利用生物信息学方法, 在甘蓝型油菜(Brassica napus)基因组中鉴定到62个ZF-HD基因, 其中83.9%的基因缺乏内含子, 93.5%的BnZF-HD等电点大于7, 预测定位于细胞核的蛋白大多由100个以上氨基酸组成。根据进化关系可将其分为6个亚群, 在每个亚群中, 甘蓝(B. oleracea)和白菜(B. rapa)的ZF-HD基因数量相等或近似相等, 而甘蓝型油菜的ZF-HD基因数量接近或等同于甘蓝和白菜的ZF-HD基因数量之和。同一亚群的motif数量和类型高度相似。共线性分析结果显示, 全基因组三倍体化使ZF-HD基因在二倍体祖先得到扩张, 而异源多倍体化又进一步使甘蓝型油菜ZF-HD基因家族扩张。K_a/K_s值说明大多数ZF-HD基因在进化过程中受到了纯化选择。所有BnZF-HD基因都具有光响应元件, 2/3的基因具有MeJA、ABA和厌氧诱导顺式作用元件, 推测这些基因可能参与相关生物学过程。研究结果为进一步挖掘该家族基因的生物学功能奠定基础, 同时为揭示多基因家族在异源多倍体中的进化式样提供借鉴。     

甘蓝型油菜ZF-HD基因家族的鉴定与系统进化分析

ZF-HD是一类植物特有的转录因子, 在植物生长发育及胁迫响应过程中发挥重要作用。利用生物信息学方法, 在甘蓝型油菜(Brassica napus)基因组中鉴定到62个ZF-HD基因, 其中83.9%的基因缺乏内含子, 93.5%的BnZF-HD等电点大于7, 预测定位于细胞核的蛋白大多由100个以上氨基酸组成。根据进化关系可将其分为6个亚群, 在每个亚群中, 甘蓝(B. oleracea)和白菜(B. rapa)的ZF-HD基因数量相等或近似相等, 而甘蓝型油菜的ZF-HD基因数量接近或等同于甘蓝和白菜的ZF-HD基因数量之和。同一亚群的motif数量和类型高度相似。共线性分析结果显示, 全基因组三倍体化使ZF-HD基因在二倍体祖先得到扩张, 而异源多倍体化又进一步使甘蓝型油菜ZF-HD基因家族扩张。K_a/K_s值说明大多数ZF-HD基因在进化过程中受到了纯化选择。所有BnZF-HD基因都具有光响应元件, 2/3的基因具有MeJA、ABA和厌氧诱导顺式作用元件, 推测这些基因可能参与相关生物学过程。研究结果为进一步挖掘该家族基因的生物学功能奠定基础, 同时为揭示多基因家族在异源多倍体中的进化式样提供借鉴。     

Evolution of the X-linked Zinc Finger Gene and the Y-linked Zinc Finger Gene in Primates

We have sequenced the partial exon of the zinc finger genes (ZFX and ZFY) in 5 hominoids, 2 Old World monkeys, 1 New World monkey, and 1 prosimian. Among these primate species, the percentage similarities of the nucleotide sequence of the ZFX gene were 96-100% and 91.2-99.7% for the ZFY gene. Of 397 sites in the ZFX and ZFY gene sequences, 20 for ZFX gene and 42 for ZFY gene were found to be variable. Substitution causes 1 amino acid change in ZFX, and 5 in ZFY, among 132 amino acids. The numbers of synonymous substitutions per site (Ks) between human and the chimpanzee, gorilla and orangutan for ZFY gene were 0.026, 0.033, and 0.085, respectively. In contrast, the Ks value between human and hominoid primates for the ZFX gene was 0.008 for each comparison. Comparison of the ZFX and ZFY genes revealed that the synonymous substitution levels were higher in hominoids than in other primates. The rates of synonymous substitution per site per year were higher in the ZFY exon than in the SRY exon, and higher in the ZFY exon than in the ZFY intron, in hominoid primates.     

Mutant and Overexpression Analysis of a C2H2 Single Zinc Finger Gene of Arabidopsis

The goal of this work was to characterize an Arabidopsis C2H2 single zinc finger gene, named AtZFP11, that is similar to SUPERMAN (SUP) and RABBIT EARS (RBE). No altered phenotype was observed in mutants analyzed that were derived through TILLING nor a T-DNA insertion into the exon of AtZFP11. Plants derived by intercrossing AtZFP11 to SUP and RBE alleles did not display any phenotype that could be attributed to AtZFP11. Transgenic plants constitutively overexpressing the AtZFP11 protein displayed severe abnormalities. Phenotypically normal transgenic plants that contained an ecdysone-inducible promoter system fused to the AtZFP11 gene were recovered. These transgenic plants displayed similar abnormalities once induced with methoxyfenozide. Microarray and RT-PCR analysis of gene expression in plants overexpressing AtZFP11 after induction revealed changes in gene expression of a number of genes involved in auxin, jasmonic acid, and stress responses. These results suggest that AtZFP11 plays a role in regulation of gene expression and may be functionally redundant or that conditions needed to observe phenotypic differences in the mutant plants were not provided in the course of these experiments.     

CCCH型锌指蛋白的研究进展

对Cys3His(CCCH)型锌指蛋白的结构和功能的研究进展进行了综述。研究表明,CCCH型锌指蛋白是最新发现的一类参与RNA代谢,并能激活基因转录的锌指蛋白,对其结构与功能的深入研究,有望揭示真核生物中基因调控的机理。     

CCCH型锌指蛋白研究进展

锌指蛋白是一类生物体中广泛存在的具有典型锌指结构特征的超蛋白家族,几乎参与了生物体生长发育的各个阶段。根据锌指蛋白的结构及功能特点,锌指蛋白主要分为9大类,其中CCCH型锌指蛋白相比其它几类来说较少,约占所有锌指蛋白的0.8%,在植物、动物、微生物中都有发现。CCCH型锌指蛋白包含一个或多个由3个半胱氨酸和一个组氨酸组成的能与锌离子结合的基序。综述了CCCH型锌指蛋白的定义、结构、表达、作用方式和功能。     

人造锌指蛋白的应用

C2H2锌指是真核细胞中最常见的DNA结合模体。由于C2H2锌指域靶位点特异性与结构和功能的模块性构成,使得C2H2锌指域成为构建特定的DNA结合蛋白的常用骨架。保持C2H2锌指的基本骨架不变,替换锌指特定位点的氨基酸残基,并融合表达其他功能域就可以得到具有靶向性的人造锌指蛋白(ZFP)。ZFP可以介导靶基因的转录调控,抑制或激活特定基因的表达与配体依赖的靶基因激活或抑制;对DNA进行修饰,如人造限制性内切酶,重组酶,整合酶;抗病毒感染等。因此,人造锌指蛋白应用前景广阔,研究价值显著,是未来人类基因治疗的革命性的工具。     

锌指蛋白与心脏发育

锌指是最大的DNA结合蛋白家族,是最普遍的核酸识别元件.近年来发现锌指参与生物体的基因转录,复制及蛋白质的合成等各种基因调节和控制过程,心脏发育过程中涉及大量锌指基因.综述了心脏发育过程中起重要调控作用的锌指蛋白以及它们的作用机制.     

锌指蛋白基因ZNF191

锌指是Ｍｉｌｌｅｒ等人 (1 985年 )最初在爪蟾转录因子ＴＦ ＩＩＩＡ中发现的一种特殊结构 ,即在蛋白质一级结构上 ,存在着Ｃ Ｘ2 4 Ｃ Ｘ12 Ｈ Ｘ3 Ｈ的序列单元 (Ｃ :半胱氨酸 ;Ｈ :组氨酸 ;Ｘ :任意氨基酸 ) ,其中的 2个半胱氨酸和 2个组氨酸通过配位键与一个锌离子结合 ,成手指状结构 ,这类序列单元被称为锌指模体 ,含有锌指模体的蛋白质称为锌指蛋白。研究表明 ,锌指蛋白作为一类转录因子而广泛地参与基因表达的调控。这种调控作用主要是通过它与特定的ＤＮＡ序列 (如启动子 )和蛋白质的结合而实现的。锌指蛋白与胚胎发育和细胞分化…     

锌指蛋白的设计及其应用

人工设计的锌指蛋白一般包括两个结构域：DNA结合结构域和效应结构域。DNA结合结构域主要采用对DNA序列特异性识别结合的C2H2型锌指结构域,而功能结构域常常采用某些转录激活结构域、转录抑制结构域或某些酶的活性结构域。这样进行设计的锌指蛋白就可以在特定的核酸序列上行使相应的功能,这对于目的基因的表达调控及蛋白质与核酸的相互作用研究提供了新的思路。     

锌指蛋白结构及功能研究进展

锌指蛋白是一类具有手指状结构域的转录因子,对基因调控起重要的作用。根据其保守结构域的不同,可将锌指蛋白主要分为C2H2型、C4型和C6型。锌指通过与靶分子DNA、RNA、DNA-RNA的序列特异性结合,以及与自身或其他锌指蛋白的结合,在转录和翻译水平上调控基因的表达。我们简要综述了近年来锌指蛋白结构、分类及其与核酸及蛋白质相互作用等方面的研究进展。     

The Protein-Binding Potential of C2H2 Zinc Finger Domains

There are over 10,000 C2H2-type zinc finger (ZF) domains distributed among more than 1,000 ZF proteins in the human genome. These domains are frequently observed to be involved in sequence-specific DNA binding, and uncharacterized domains are typically assumed to facilitate DNA interactions. However, some ZFs also facilitate binding to proteins or RNA. Over 100 Cys2-His2 (C2H2) ZF-protein interactions have been described. We initially attempted a bioinformatics analysis to identify sequence features that would predict a DNA- or protein-binding function. These efforts were complicated by several issues, including uncertainties about the full functional capabilities of the ZFs. We therefore applied an unbiased approach to directly examine the potential for ZFs to facilitate DNA or protein interactions. The human OLF-1/EBF associated zinc finger (OAZ) protein was used as a model. The human O/E-1-associated zinc finger protein (hOAZ) contains 30 ZFs in 6 clusters, some of which have been previously indicated in DNA or protein interactions. DNA binding was assessed using a target site selection (CAST) assay, and protein binding was assessed using a yeast two-hybrid assay. We observed that clusters known to bind DNA could facilitate specific protein interactions, but clusters known to bind protein did not facilitate specific DNA interactions. Our primary conclusion is that DNA binding is a more restricted function of ZFs, and that their potential for mediating protein interactions is likely greater. These results suggest that the role of C2H2 ZF domains in protein interactions has probably been underestimated. The implication of these findings for the prediction of ZF function is discussed.     

人类锌指蛋白ZNF382对肌生成的调控作用

人类基因组中有大量哺乳类特有的KRAB锌指基因,这些基因的功能大多尚不清楚,ZNF382就是其中一个.本文研究了人类锌指蛋白ZNF382对肌生成的调控作用.人类ZNF382基因在肌肉组织中高表达,ZNF382的mRNA水平在C2C12细胞的肌生成过程中上调,ZNF382调节肌肉特异性基因的表达,在NIH3T3细胞中,ZNF382与E-box蛋白E12和成肌调节因子MyoD共转增强肌肉肌酸激酶MCK启动子的活性;ZNF382的启动子预测分析也发现ZNF382的启动子上含有MyoD和血清反应因子SRF的结合位点,这些结果提示人类ZNF382蛋白在肌生成中起着重要的作用.