Solution structure of the RNA binding domain in the human muscleblind‐like protein 2

The muscleblind‐like (MBNL) proteins 1, 2, and 3, which contain four CCCH zinc finger motifs (ZF1–4), are involved in the differentiation of muscle inclusion by controlling the splicing patterns of several pre‐mRNAs. Especially, MBNL1 plays a crucial role in myotonic dystrophy. The CCCH zinc finger is a sequence motif found in many RNA binding proteins and is suggested to play an important role in the recognition of RNA molecules. Here, we solved the solution structures of both tandem zinc finger (TZF) motifs, TZF12 (comprising ZF1 and ZF2) and TZF34 (ZF3 and ZF4), in MBNL2 from Homo sapiens. In TZF12 of MBNL2, ZF1 and ZF2 adopt a similar fold, as reported previously for the CCCH‐type zinc fingers in the TIS11d protein. The linker between ZF1 and ZF2 in MBNL2 forms an antiparallel β‐sheet with the N‐terminal extension of ZF1. Furthermore, ZF1 and ZF2 in MBNL2 interact with each other through hydrophobic interactions. Consequently, TZF12 forms a single, compact global fold, where ZF1 and ZF2 are approximately symmetrical about the C2 axis. The structure of the second tandem zinc finger (TZF34) in MBNL2 is similar to that of TZF12. This novel three‐dimensional structure of the TZF domains in MBNL2 provides a basis for functional studies of the CCCH‐type zinc finger motifs in the MBNL protein family.     

Identification and expression analysis of hypoxia stress inducible CCCH-type zinc finger protein genes in rice

Flooding is one of the threatening abiotic stresses in recent global warming. In order to understand flooding-caused low oxygen stress response at molecular level, microarray-linked isolation of the hypoxia inducible genes were conducted. Seventeen genes that were up-regulated by the factor of more than 3 fold, were confirmed as hypoxia inducible. Among them, a CCCH-type zinc finger protein gene, OsCCCH-Zn-1, was further characterized due to its novelty as a hypoxia-inducible zinc finger gene as well as its significant induction by hypoxia stress. OsCCCH-Zn-1 was also up-regulated by submergence, ABA and drought stresses. In the normal growth condition, OsCCCH-Zn-1 was expressed in the flag leaf sheath, highest internode and developing seeds. In rice, at least 12 CCCH-type zinc finger protein genes were retrieved by in silico analysis. Among these, we found that the zinc finger genes OsCCCH-Zn-1, -2, -6 were induced by hypoxia stress.     

Rice <Emphasis Type="BoldItalic">ZFP15</Emphasis> Gene Encoding for a Novel C2H2-type Zinc Finger Protein Lacking DLN box,is Regulated by Spike Development but not by Abiotic Stresses

A novel C2H2-type zinc finger protein gene, ZFP15, was cloned from rice by RT-PCR approach. The ZFP15 gene encodes a protein of 144 amino acid residues with a predicted molecular mass of 15 kDa. The ZFP15 protein comprises two C2H2-type zinc finger domains, a putative nuclear localization signal (NLS) at its N-terminus but the DLN-box identified in all reported plant C2H2-type zinc finger proteins was not found. A homology search revealed that ZFP15 gene was localized within a cluster of C2H2-type zinc finger genes in BAC clone OJ1754_E06 mapped on chromosome 3. All three members in the cluster encoded proteins showed high identities in amino acids and might contribute to a co-regulation. The RT-PCR assay revealed that ZFP15 mRNA was not regulated by cold, salt, drought and ABA stresses, though CRT/DRE and ABRE elements were found in the promoter region of ZFP15 gene. The expression profiling also showed that ZFP15 mRNA was expressed with a lower level in leaves and roots, but not detected in stems. Besides, ZFP15 was shown to accumulate much more in flowering spike than in immature spike. Thus, ZFP15, as the first characterized C2H2-type zinc finger protein in rice, might play a regulatory role on rice spike development.     

牵牛胁迫应答基因PnLOG2的克隆及功能验证

RING型E3泛素连接酶在植物应答非生物胁迫过程中发挥着重要功能。该研究从圆叶牵牛中克隆出RING型E3泛素连接酶基因PnLOG2,该基因序列号为XM_019321049.1。利用ORF Finder预测PnLOG2基因编码开放阅读框长度为912 bp (51~992 bp),编码313个氨基酸,蛋白分子质量34.38 kD,理论等电点为5.14。系统发育分析表明,PnLOG2基因与番茄亲缘关系最近。组织特异性分析表明,PnLOG2基因在牵牛不同组织均有表达,在老茎和新叶中表达量较高。qRT PCR分析结果表明,PnLOG2基因在圆叶牵牛根和叶中受干旱、盐碱胁迫诱导显著上调表达。通过异源表达PnLOG2基因于酵母细胞中,发现干旱、盐碱胁迫下PnLOG2基因提高了重组酵母的耐盐和耐旱能力,但降低了对碱的耐受性。该研究初步阐明了PnLOG2基因在干旱、盐碱胁迫下的功能,为进一步研究RING型E3泛素连接酶在非生物胁迫中的机理提供了理论依据。     

Genome Wide Identification of C2H2-Type Zinc Finger Proteins of Tomato and Expression Analysis Under Different Abiotic Stresses

In plants, C2H2-type zinc finger proteins play important roles in multiple processes, including plant growth and development, as well as biotic and abiotic responses. In the present study, based on the presence of the C2H2 domain (CX2~4CX3FX5LX2HX3~5H), 112 C2H2-type zinc finger proteins were predicted in tomato. Through gene and protein structures analyses and phylogenetic analysis, the 112 C2H2-type zinc finger proteins were divided into five subfamilies. Members of the same subfamily shared similarities in gene and protein structures, while members of different subfamilies contained different numbers of the C2H2 domain. The tissue expression pattern analysis showed that 24 C2H2-type zinc finger proteins are constitutively expressed in all tissues, indicating that they may play important roles in the growth and development of all tissues. In addition, under chilling (4 °C), heat (42 °C), high salinity (200 Mm NaCl), and osmotic (20% PEG) stresses, members of C2H2-type zinc finger family were induced to varying degrees, which suggested that these genes were involved in multiple abiotic stress responses. This study will provide theoretical basis for further research of C2H2-type zinc finger proteins in tomato.

     

Evidence of positive selection and concerted evolution in the rapidly evolving PRDM9 zinc finger domain in goats and sheep

Meiotic recombination contributes to augmentation of genetic diversity, exclusion of deleterious alleles and proper segregation of chromatids. PRDM9 has been identified as the gene responsible for specifying the location of recombination hotspots during meiosis and is also the only known vertebrate gene associated with reproductive isolation between species. PRDM9 encodes a protein with a highly variable zinc finger (ZF) domain that varies between as well as within species. In the present study, the ZF domain of PRDM9 on chromosome 1 was characterized for the first time in 15 goat breeds and 25 sheep breeds of India. A remarkable variation in the number and sequence of ZF domains was observed. The number of ZF repeats in the ZF array varied from eight to 12 yielding five homozygous and 10 heterozygous genotypes. The number of different ZF domains was 84 and 52 producing 36 and 26 unique alleles in goats and sheep respectively. The posterior mean of dN/dS or omega values were calculated using the codeml tool of pamlx to identify amino acids that are evolving positively in goats and sheep, as positions ?1, +3 and +6 in the ZF domain have been reported to experience strong positive selection across different lineages. Our study identified sites ?5, ?1, +3, +4 and +6 to be experiencing positive selection. Small ruminant zinc fingers were also found to be evolving under concerted evolution. Our results demonstrate the existence of a vast diversity of PRDM9 in goats and sheep, which is in concert with reports in many metazoans.     

Isolation and characterization of a novel RING-H2 finger gene induced in response to cold and drought in the interfertile Citrus relative Poncirus trifoliata

Many genes in different organisms encode proteins with really interesting gene (RING) finger domain(s). The RING zinc finger domain is involved in a wide variety of functions in diverse organisms. A cDNA clone showing homology with RING zinc finger genes and nine-fold induction in response to cold was previously identified during a gene expression study in the interfertile Citrus relative Poncirus trifoliata (L.) Raf. In this study, the full-length cDNA of this clone was isolated from 2-day cold-acclimated P. trifoliata by a rapid amplification of cDNA ends method using gene-specific primers. The full-length cDNA was 956 bp containing a complete open reading frame of 474 bp encoding a polypeptide of 158 amino acids. The full-length cDNA showed a high level of homology with genes encoding putative RING zinc finger proteins in plants. The deduced amino acid sequence of this gene contained a signature sequence motif for a RING zinc finger close to the C terminus of the protein. The RING zinc finger domain was significantly similar to previously characterized RING zinc finger proteins from different organisms. Additionally, it had a histidine residue at the fifth co-ordination site, indicating that this gene encodes a RING-H2 finger protein. Northern blot hybridization showed that the expression of the RING finger gene was induced in response to cold in cold-hardy P. trifoliata but not to the same extent in cold-sensitive Citrus grandis L. Osb. (pummelo). However, the gene was induced by drought stress similarly in both the species. To our knowledge, this study presents the first isolation of the full-length sequence of a RING zinc finger gene induced in response to abiotic stress in plants and the initial characterization of this gene in Citrus .     

Increased tolerance of rice to cold, drought and oxidative stresses mediated by the overexpression of a gene that encodes the zinc finger protein ZFP245

ZFP245 is a cold- and drought-responsive gene that encodes a zinc finger protein in rice. The ZFP245 protein localizes in the nucleus and exhibits trans-activation activity. Transgenic rice plants overexpressing ZFP245 were generated and found to display high tolerance to cold and drought stresses. The transgenic plants did not exhibit growth retardation, but showed growth sensitivity against exogenous abscisic acid, increased free proline levels and elevated expression of rice pyrroline-5-carboxylatesynthetase and proline transporter genes under stress conditions. Overproduction of ZFP245 enhanced the activities of reactive oxygen species-scavenging enzymes under stress conditions and increased the tolerance of rice seedlings to oxidative stress. Our data suggest that ZFP245 may contribute to the tolerance of rice plants to cold and drought stresses by regulating proline levels and reactive oxygen species-scavenging activities, and therefore may be useful for developing transgenic crops with enhanced tolerance to abiotic stress.     

一个与小鼠锌指蛋白基因ZF-12相关的假基因的克隆和鉴定

小鼠类Krüppel锌指蛋白基因ZF-12为人的类Krüppel锌指蛋白基因ZNF191的同源基因,它们都编码368个氨基酸残基,N端存在SCAN结构域,C端有4个连续的锌指模体,最近的研究表明ZNF191是肝癌发生的相关基因。我们以人锌指蛋白基因ZNF191的cDNA为探针,筛选小鼠λ噬菌体基因组文库,意外地获得了1个与小鼠锌指蛋白基因ZF-12相类似的基因,多种组织的RT-PCR和启动子序列分析,暗示该基因不表达,且该基因无内含子,与ZF-12高度相似,存在突变,暗示其为与ZF-12相关的假基因序列,经查新证实它为新的序列后,以ZF12p(ZF-12 pseudogene)命名在GenBank登录(AY040222)。查寻GenBank的人类基因组库以及Southern结果显示人类基因组中无ZNF191假基因序列。ZF12p与ZF-12高度相似,暗示ZF12p在进化过程中产生的时间较晚,这对研究锌指蛋白基因ZF-12的突变与进化具有重要的意义。