Chromosomal localization of two human zinc finger protein genes, ZNF24 (KOX17) and ZNF29 (KOX26), to 18q12 and 17p13-p12, respectively

Two members of the zinc finger Krüppel family, ZNF24 (KOX17) and ZNF29 (KOX26), have been localized by somatic cell hybrid analysis and in situ chromosomal hybridization to human chromosomes 18q12 and 17p13-p12, respectively. The mapping of ZNF29 together with the previously reported localization of ZFP3 suggests that a zinc finger gene complex is located on human chromosome 17p. ZNF29 maps centromeric to the human p53 tumor antigen gene (TP53). In the analogous murine position, the two mouse zinc finger genes Zfp2 and Zfp3 have recently been assigned to the distal region of mouse chromosome 11, the murine homolog of human chromosome 17. Both human zinc finger genes ZNF24 and ZNF29 are in chromosomal regions that have been noted to be deleted in neoplasms of the lung and of the central nervous system at chromosome 17p and in colorectal neoplasia at chromosomes 17p and 18q.     

人类锌指结构新基因ZNF18的克隆和表达谱分析

在很多转录因子中发现的锌指结构,被认为在人类心脏的发育和相关疾病的发生过程中发挥重要的作用。本文报道了克隆和表达分析人类新的锌指蛋白基因ZNF18。该基因cDNA长2 767 bp,编码一个有549个氨基酸的蛋白,这一蛋白含有一个SCAN结构域,一个KRAB结构域和5个连续的C2H2型锌指结构域。ZNF18蛋白与小鼠Zfp535有77％的同源性。ZNF18基因定位于人染色体17p12~p13,包含9个外显子和8个内含子。以ZNF18全长编码区为探针进行Northern杂交,结果显示ZNF18在成体小鼠各组织中广泛表达,但在心脏中低丰度表达。整体原位杂交结果显示,ZNF18基因在小鼠胚胎的表达有很高的动态性。ZNF18主要在E7.5小鼠胚胎的胚外组织表达,E8.5出现了胚胎躯干前端表达。ZNF18从E9.0开始在胚胎的心脏和尾部表达,尤其在E10.5胚胎的心脏高丰度表达。这提示ZNF18基因与心脏发育过程可能有密切的关系。     

The zinc finger transcription factor 191 is required for early embryonic development and cell proliferation

Human zinc finger protein 191 (ZNF191/ZNF24) was cloned and characterized as a SCAN family member, which shows 94% identity to its mouse homologue zinc finger protein 191 (Zfp191). ZNF191 can specifically interact with an intronic polymorphic TCAT repeat (HUMTH01) in the tyrosine hydroxylase (TH) gene. Allelic variations of HUMTH01 have been stated to have a quantitative silencing effect on TH gene expression and to correlate with quantitative and qualitative changes in the binding by ZNF191. Zfp191 is widely expressed during embryonic development and in multiple tissues and organs in adult. To investigate the functions of Zfp191 in vivo, we have used homologous recombination to generate mice that are deficient in Zfp191. Heterozygous Zfp191(+/-) mice are normal and fertile. Homozygous Zfp191(-/-) embryos are severely retarded in development and die at approximately 7.5 days post-fertilization. Unexpectedly, in Zfp191(-/-) and Zfp191(+/-) embryos, TH gene expression is not affected. Blastocyst outgrowth experiments and the RNA interference-mediated knockdown of ZNF191 in cultured cells revealed an essential role for Zfp191 in cell proliferation. In further agreement with this function, no viable Zfp191(-/-) cell lines were obtained by derivation of embryonic stem (ES) cells from blastocysts of Zfp191(+/-) intercrosses or by forced homogenotization of heterozygous ES cells at high concentrations of G418. These data show that Zfp191 is indispensable for early embryonic development and cell proliferation.     

Expression of the transcription factor Zfp191 during embryonic development in the mouse

The human zinc finger protein 191 (ZNF191) is a Krüppel-like protein and can specifically interact with the widespread TCAT motif which constitutes the HUMTH01 microsatellite in the tyrosine hydroxylase (TH) gene (encoding the rate-limiting enzyme in the synthesis of catecholamines). Allelic variations of HUMTH01 are known to have a quantitative silencing effect on TH gene expression and to correlate with quantitative and qualitative changes in the binding by ZNF191. This factor has been isolated from bone marrow and promyelocytic leukemia cell lines indicating that ZNF191 also plays a role in hematopoiesis. Thus, ZNF191 could participate in the regulation of several genes implicated in different functions. Moreover, mice that are deficient in Zfp191, the murine homologue of ZNF191, have been shown to be severely retarded in development and to die approximately at embryonic day 7.5. In order to gain further insight into its biological functions, we have analysed the localisation of Zfp191 throughout mouse development. Expression was detected early during embryogenesis in ectodermal, endodermal, mesodermal and extra-embryonic tissues. In particular, Zfp191 was observed in the developing central nervous system. Interestingly, its expression levels were prominent in areas of proliferation such as the subventricular zone. Zfp191 expression pattern during development can account for the phenotypic features of Zfp191(-/-) embryos.     

Differential expression of the zinc finger gene Zfp105 during spermatogenesis

We report the isolation of Zfp105, the mouse homolog of the human ZNF35 zinc finger gene. Zfp105 and ZNF35 are highly conserved at the protein and nucleotide level, and Zfp105 maps to a region of mouse Chromosome (Chr) 9 that is homologous to the human region containing ZNF35. Zpf105 is highly expressed in the testis, especially in pachytene spermatocytes and round spermatids. The possible role of this gene product in maintaining an ordered germ cell differentiation process is discussed. Received: 11 February 1998 / Accepted: 1 May 1998     

Two human genes encoding zinc finger proteins,ZNF12 (KOX 3) and ZNF 26 (KOX 20), map to chromosomes 7p22-p21 and 12q24.33, respectively

Summary Two members of the human zinc finger Krüppel family, ZNF 12 (KOX 3) and ZNF 26 (KOX 20), have been localized by somatic cell hybrid analysis and in situ chromosomal hybridization. The presence of individual human zinc finger genes in mouse-human hybrid DNAs was correlated with the presence of specific human chromosomes or regions of chromosomes in the corresponding cell hybrids. Analysis of such mouse-human hybrid DNAs allowed the assignment of the ZNF 12 (KOX 3) gene to chromosome region 7p. The ZNF 26 (KOX 20) gene segregated with chromosome region 12q13-qter. The zinc finger genes ZNF 12 (KOX 3) and ZNF 26 (KOX 20) were localized by in situ chromosomal hybridization to human chromosome regions 7p22-21 and 12q24.33, respectively. These genes and the previously mapped ZNF 24 (KOX 17) and ZNF 29 (KOX 26) genes, are found near fragile sites.     

运用数字差异展示方法克隆一个人类新的锌指蛋白基因ZNF474

运用数字差异展示方法,克隆一个与生精相关的睾丸高表达基因。借助公共ESTs数据库,利用DDD软件比较分析各种睾丸文库与其他组织或细胞系文库有差异表达的ESTs,成功克隆到一个在人类睾丸中高表达的新基因。结合实验获得新基因cDNA全长,该基因被国际人类基因命名委员会命名为ZNF474(GeneBank登陆号AY461732)。ZNF474的cDNA全长为1 972 bp,定位在5 q23.2。通过RT-PCR及测序验证,其开放阅读框的位置在377 bp~1 471 bp处,编码364个氨基酸,在氨基酸水平与小鼠同源基因有66%的一致性,而与其他已知蛋白质无明显同源性。Northern杂交分析显示ZNF474在成体睾丸组织特异高表达,卵巢组织弱表达,在多种其他组织中不表达,为单一转录本。原位杂交显示ZNF474基因在正常成人睾丸组织各级生精细胞、隐睾组织以及精原细胞癌组织中均有较高表达。综上考虑,推测ZNF474作为生殖细胞中特异的转录因子,对人类的精子发生和卵母细胞的发育可能起重要作用。     

Chromosome localization of the human renin gene (REN) by in situ hybridization

Previous studies by Southern blot analysis of human X mouse somatic cell hybrids localized the renin gene to region p21----qter of human chromosome 1. Using a DNA insert encoding exons 2-5, the renin gene was mapped to human chromosome bands 1q25----q32 by in situ hybridization. The sublocalization of the renin gene will facilitate subsequent detailed linkage analysis of human chromosome 1.     

Cloning and analysis of the mouse Fanconi anemia group A cDNA and an overlapping penta zinc finger cDNA

Despite the cloning of four disease-associated genes for Fanconi anemia (FA), the molecular pathogenesis of FA remains largely unknown. To study FA complementation group A using the mouse as a model system, we cloned and characterized the mouse homolog of the human FANCA cDNA. The mouse cDNA (Fanca) encodes a 161-kDa protein that shares 65% amino acid sequence identity with human FANCA. Fanca is located at the distal region of mouse chromosome 8 and has a ubiquitous pattern of expression in embryonic and adult tissues. Expression of the mouse cDNA in human FA-A cells restores the cellular drug sensitivity to normal levels. Thus, the expression pattern, protein structure, chromosomal location, and function of FANCA are conserved in the mouse. We also isolated a novel zinc finger protein, Zfp276, which has five C(2)H(2) domains. Interestingly, Zfp276 is situated in the Fanca locus, and the 3'UTR of its cDNA overlaps with the last four exons of Fanca in a tail-to-tail manner. Zfp276 is expressed in the same tissues as Fanca, but does not complement the mitomycin C (MMC)-sensitive phenotype of FA-A cells. The overlapping genomic organization between Zfp276 and Fanca may have relevance to the disease phenotype of FA.