大鼠脑红蛋白基因编码区的克隆、多态性分析及该基因组织表达谱研究

参考人和小鼠脑红蛋白（Neuroglobin,NGB)的cDNA序列设计简并引物,用RT－PCR方法从大鼠脑组织中扩增出大鼠NGB基因编码区的cDNA序列,该序列与小鼠NGB基因编码区的序列同尖性为96％,与人NGB基因编码区的序列同源性为88％,进一步分析表明,大鼠NGB基因编码区存在多个多态性位点;113t/c[138P],133a/g[N45D],388a/g[R130G],417t/c.该序列已被GenBank接受,登录号为AF333245,RT－PCR分析表明,该基因在大鼠脑,肝,肾,心肌和骨骼肌中均有较高水平表达,提示了其功能上的重要性。     

Mouse and human GTPBP2, newly identified members of the GP-1 family of GTPase

We earlier identified the GTPBP1 gene which encodes a putative GTPase structurally related to peptidyl elongation factors. This finding was the result of a search for genes, the expression of which is induced by interferon-gamma in a macrophage cell line, THP-1. In the current study, we probed the expressed sequence tag database with the deduced amino acid sequence of GTPBP1 to search for partial cDNA clones homologous to GTPBP1. We used one of the partial cDNA clones to screen a mouse brain cDNA library and identified a novel gene, mouse GTPBP2, encoding a protein consisting of 582 amino acids and carrying GTP-binding motifs. The deduced amino acid sequence of mouse GTPBP2 revealed 44.2% similarity to mouse GTPBP1. We also cloned a human homologue of this gene from a cDNA library of the human T cell line, Jurkat. GTPBP2 protein was found highly conserved between human and mouse (over 99% identical), thereby suggesting a fundamental role of this molecule across species. On Northern blot analysis of various mouse tissues, GTPBP2 mRNA was detected in brain, thymus, kidney and skeletal muscle, but was scarce in liver. Level of expression of GTPBP2 mRNA was enhanced by interferon-gamma in THP-1 cells, HeLa cells, and thioglycollate-elicited mouse peritoneal macrophages. In addition, we determined the chromosomal localization of GTPBP1 and GTPBP2 genes in human and mouse. The GTPBP1 gene was mapped to mouse chromosome 15, region E3, and human chromosome 22q12-13.1, while the GTPBP2 gene is located in mouse chromosome 17, region C-D, and human chromosome 6p21-12.     

猪SOCS-3 cDNA序列克隆及在各组织中表达

 根据大鼠细胞因子信号转导抑制因子（suppressor of cytokine signaling,SOCS)-3设计并合成一对引物,从八眉猪皮下脂肪组织提取总mRNA,RT-PCR扩增获得猪SOCS-3 cDNA;利用半定量（semi-quantitative, SQ）RT-PCR技术检测大白猪各组织中SOCS-3 mRNA的表达量.扩增获得SOCS-3 基因GenBank 登陆号DQ644577,用CDD软件进行SOCS-3 基因结构分析,该序列具有SOCS-3 特有的保守结构域SH2和SOCS-box. 用Clustal W软件进行同源性分析发现,猪SOCS-3 基因与人、大鼠和小鼠的同源性分别为92%、88%和88%.SQ RT-PCR组织表达检测表明：SOCS-3 基因在心脏、肝脏、脾脏、肺脏、肾脏、肌肉、皮下脂肪和内脏脂肪中均有表达,其中肺脏和脾脏的表达丰度最高,肝脏和内脏脂肪中的表达量最低.     

Liver (B-type) phosphofructokinase mRNA. Cloning, structure, and expression

Mouse liver mRNA enriched in sequences coding for liver phosphofructokinase by polysome immunoadsorption was used as a template for the synthesis of cDNA. The double-stranded cDNA was inserted into the expression vector lambda gt11 and cloned. Preliminary identification of clones containing cDNA sequences for phosphofructokinase was made by screening the library with anti-rat liver phosphofructokinase serum and horseradish peroxidase-conjugated goat anti-rabbit IgG as second antibody. Subsequently, by selecting antibodies specific to fusion proteins expressed by putative clones and by reacting with Western blots of mouse liver proteins several clones were positively identified as containing liver phosphofructokinase sequences. A cDNA clone corresponding to 2708 nucleotides of liver phosphofructokinase mRNA was further characterized and sequenced. The liver phosphofructokinase mRNA has an open reading frame of 2343 nucleotides followed by a 3'-untranslated region of 303 nucleotides. The G/C-rich (76%) portion of the 5'-untranslated region precedes a characteristic translational start site of CCGCC(AUG). The mRNA coding sequence indicates that the liver phosphofructokinase subunit is composed of 780 amino acid residues and has a Mr of 85,000. Comparison of the deduced amino acid sequence of mouse liver phosphofructokinase with the known rabbit muscle phosphofructokinase shows 68% homology. The N-half of the liver phosphofructokinase has conserved substrate binding sites for ATP and fructose-6-P. The 25 C-terminal residues, which contain the ATP inhibitory site, are the least homologous (20%) but contain a putative phosphorylation site (Arg-Arg-X-X-Ser). The liver phosphofructokinase mRNA is under nutritional and hormonal regulation. The liver phosphofructokinase mRNA level increased 4-fold when previously starved mice were refed a high carbohydrate, fat-free diet. This increase in mRNA level was blocked by 50% by the administration of dibutyryl cAMP. The induction of liver phosphofructokinase mRNA by fasting/refeeding was also diminished in streptozotocin diabetic mice.     

Survey of fructose 1,6-bisphosphatase isoenzyme in rat organs and ontogenic expression of the enzyme in rat fetus

1. Among eleven tissues of rat, the liver type of fructose 1,6-bisphosphatase (FBPase) subunit was detected in the liver, kidney, testis, pancreas and lung by Western blot analysis using anti-(liver FBPase) or anti-(muscle FBPase) serum. 2. The muscle type of the enzyme subunit was detected only in the pancreas other than skeletal muscle. Both types of the enzyme subunit were found in the pancreas. 3. Neither anti-(liver FBPase) nor anti-(muscle FBPase) serum detected the band of enzyme subunit on the blots of the extracts of brain, heart, small intestinal mucosa, spleen and placenta. 4. FBPase is present in fetal rat liver at least as early as the 14th day of gestation. 5. In agreement with the increase in immunological staining density, the level of the enzyme activity in fetal liver increased exponentially during fetal development. 6. The muscle enzyme was not detected until the fetus reached the 19th day of gestation.     

Human brain glycogen phosphorylase. Cloning, sequence analysis, chromosomal mapping, tissue expression, and comparison with the human liver and muscle isozymes

We have cloned the cDNA encoding a new isozyme of glycogen phosphorylase (1,4-D-glucan:orthosphosphate D-glucosyltransferase, EC 2.4.1.1) from a cDNA library prepared from a human brain astrocytoma cell line. Blot-hybridization analysis reveals that this message is preferentially expressed in human brain, but is also found at a low level in human fetal liver and adult liver and muscle tissues. Although previous studies have suggested that the major isozyme of phosphorylase found in all fetal tissues is the brain type, our data show that the predominant mRNA in fetal liver (24-week gestation) is the adult liver form. The protein sequence deduced from the nucleotide sequence of the brain phosphorylase cDNA is 862 amino acids long compared with 846 and 841 amino acids for the liver and muscle isozymes, respectively; the greater length of brain phosphorylase is entirely due to an extension at the far C-terminal portion of the protein. The muscle and brain isozymes share greater identity with regard to nucleotide and deduced amino acid sequences, codon usage, and nucleotide composition than either do with the liver sequence, suggesting a closer evolutionary relationship between them. Spot blot hybridization of the brain phosphorylase cDNA to laser-sorted human chromosome fractions, and Southern blot analysis of hamster/human hybrid cell line DNA reveals that the exact homolog of the newly cloned cDNA maps to chromosome 20, but that a slightly less homologous gene is found on chromosome 10 as well. The liver and muscle genes have previously been localized to chromosomes 14 and 11, respectively. This suggests that the phosphorylase genes evolved by duplication and translocation of a common ancestral gene, leading to divergence of elements controlling gene expression and of structural features of the phosphorylase proteins that confer tissue-specific functional properties.     

Molecular cloning and expression analyses of a novel swine gene-ARF4

The mRNA differential display technique was performed to investigate the differences of gene expression in the longissimus muscle tissues from Meishan and Large White pigs. One novel gene that was differentially expressed was identified through semi-quantitative RT-PCR and the cDNA complete sequence was then obtained using the rapid amplification of cDNA ends (RACE) method. The nucleotide sequence of the gene is not homologous to any of the known porcine genes. The sequence prediction analysis revealed that the open reading frame of this gene encodes a protein of 180 amino acids that contains the putative conserved domain of ADP-ribosylation factor (ARF) which has high homology with the ADP-ribosylation factor 4 (ARF4) of six species-bovine (98%), human and orangutan (96%), African clawed frog (96%), mouse and rat (98%)-so that it can be defined as swine ADP-ribosylation factor 4 (ARF4). This novel porcine gene was finally assigned to GeneID:595108. The phylogenetic tree analysis revealed that the swine ARF4 has a closer genetic relationship with the rat and mouse ARF4 than with those of human and African clawed frog. The tissue expression analysis indicated that the swine ARF4 gene is over expressed in muscle, fat, heart, spleen, liver, and ovary and moderately expressed in lung and kidney but weakly expressed in small intestine. Our experiment is the first to establish the primary foundation for further research on the swine ARF4 gene.     

Identification of the candidate ALS2 gene at chromosome 2q33 as a human aldehyde oxidase gene

Denver, Tokyo, and Salt Lake City investigators recently published different complimentary deoxyribonucleic acid (cDNA) sequences for human liver xanthine dehydrogenase/xanthine oxidase (XD/XO). The gene encoding the Denver cDNA was subsequently linked to juvenile familial amyotrophic lateral sclerosis (JFALS) at chromosome 2q33 and has been proposed as the ALS2 locus. The present investigation was undertaken to elucidate the differences between the three cDNA sequences, and we provide evidence that the Denver cDNA encodes aldehyde oxidase (AO): first, the Denver cDNA sequence diverged significantly from the Tokyo and Salt Lake City cDNA sequences which were very similar; second, the deduced protein sequence from the Denver cDNA was very similar to the amino acid sequence of purified rabbit liver AO protein; third, the deduced Denver protein sequence was 76% identical to the encoded 101 amino acid long peptides from partial cDNAs for rabbit and rat AO and 81.7% identical to 300 amino acids from an incomplete cDNA encoding bovine AO; fourth, the Denver gene was expressed in liver, kidney, lung, pancreas, prostate, testes, and ovary while the Tokyo XD gene was expressed predominantly in liver and small intestine; fifth, the Denver gene was previously mapped to chromosome 2q33 which is syntenic to the mouse AO locus on chromosome 1. Our results have revealed dramatic similarities in protein and DNA sequence in the human molybdenum hydroxylases, have uncovered unanticipated complexity in the human molybdenum hydroxylase genes, and advance the potential for AO derived oxygen radicals in JFALS and other human diseases.