Molecular cloning,expression patterns and subcellular localization of porcine <Emphasis Type="Italic">TMCO1</Emphasis> gene

The product of transmembrane and coiled-coil domains 1 (TMCO1) gene is a member of DUF841 superfamily of several eukaryotic proteins with unknown function. The partial DNA sequence of porcine TMCO1 was first cloned with a pig 567 bp ORF encoding 188 amino acids. By tissues expression analysis, the TMCO1 was found highly expressed in the liver, kidney and heart. The porcine TMCO1 protein was subsequently demonstrated to localize in the mitochondrion by confocal fluorescence microscopy. This data provides an important basis for conducing further studies on the functions and regulatory mechanisms underlying the role of TMCO1 gene.     

Developmental expression of the amphioxus <Emphasis Type="Italic">Tbx1</Emphasis>/<Emphasis Type="Italic">10</Emphasis> gene illuminates the evolution of vertebrate branchial arches and sclerotome

We have isolated an amphioxus T-box gene that is orthologous to the two vertebrate genes, Tbx1 and Tbx10, and examined its expression pattern during embryonic and early larval development. AmphiTbx1/10 is first expressed in branchial arch endoderm and mesoderm of developing neurulae, and in a bilateral, segmented pattern in the ventral half of newly formed somites. Branchial expression is restricted to the first three branchial arches, and disappears completely by 4 days post fertilization. Ventral somitic expression is restricted to the first 10–12 somites, and is not observed in early larvae except in the most ventral mesoderm of the first three branchial arches. No expression can be detected by 4 days post fertilization. Integrating functional, phylogenetic and expression data from amphioxus and a variety of vertebrate model organisms, we have reconstructed the early evolutionary history of the Tbx1/10 subfamily of genes within the chordate lineage. We conclude that Tbx1/10-mediated branchial arch endoderm and mesoderm patterning functions predated the origin of neural crest, and that ventral somite specification functions predated the origin of vertebrate sclerotome, but that Tbx1 was later co-opted during the evolution of developmental programs regulating branchial neural crest and sclerotome migration.Edited by M. Akam     

Drosophila morgue and the intersection between protein ubiquitination and programmed cell death

In Drosophila, cell survival decisions are mediated by the integrated functions of the Grim-Reaper death activators and Inhibitor-of-Apoptosis-Proteins (IAPs), such as DIAP1, to regulate caspase activities. We recently identified a gene that enhances the actions of the Grim-Reaper proteins and negatively regulates the levels of DIAP1 protein. This gene, morgue, encodes a novel protein that contains both an F box and a ubiquitin conjugase domain. Interestingly, the Morgue conjugase domain lacks the active site cysteine required for covalent linkage to ubiquitin. Morgue could target IAPs and other proteins for ubiquitination and proteasome-dependent turnover by acting either in an SCF ubiquitin E3 ligase complex, or as a ubiquitin E2 conjugase enzyme variant (UEV) in conjunction with a catalytically active E2 conjugase. Morgue is evolutionarily conserved, as a Morgue ortholog was identified from the mosquito, Anopheles gambiae. Elucidation of morgue function should provide novel insights into the mechanisms of ubiquitination and programmed cell death.     

Molecular cloning,expression analysis and chromosome localization of the <Emphasis Type="Italic">Tpt1</Emphasis> gene coding for the pig translationally controlled tumor protein (TCTP)

This work describes the cloning and structural analysis of a Tpt1 cDNA coding for the porcine translationally controlled tumor protein (TCTP) molecule and its expression in porcine cells and tissues. Pig Tpt1 cDNA is 842-pb long that displays typical features of translationally controlled mRNAs, including a 5′-UTR containing a 5′-terminal oligopyrimidine tract (5′-TOP), and a 3′-UTR with a high CG-content and one AU rich element (ARE). Both 5′-UTR and 3′-UTR are highly conserved when they are compared with those of other mammals. The pig Tpt1 cDNA contains a 516-b open reading frame that encodes a predicted TCTP protein composed of 172 amino acids that exhibits extensive conservation compared with TCTP sequences from other species and a common structural feature with all the other TCTP proteins analyzed in mammals. Expression analysis demonstrated that Tpt1 mRNA is ubiquitously expressed in normal porcine tissues and cells, showing a higher expression in spleen, lymph nodes and lung, and a lower one in skin and heart. The pig Tpt1 gene localizes on the porcine chromosome 11, region p11.     

Partial molecular characterization,expression pattern,polymorphism and association analysis of porcine <Emphasis Type="Italic">SKP2</Emphasis> gene

As a component of E3 ubiquitin protein ligases called SCFs, SKP2 protein belongs to a member of FBLs protein which is the biggest eukaryotic subfamily of F-BOX proteins with 12 members. In this study, we cloned and sequenced partial cDNA, intron 1 and intron 6 of porcine SKP2 gene. The partial cDNA is 1,402 bp long and has an open reading frame of 1,272 bp which encodes 424 putative amino acids. The deduced protein comprises a conserved F-BOX domain at position from the 90th to 140th amino acid. The phylogenetic tree indicated that porcine SKP2 has the closest genetic relationship with bovine SKP2 than other selected animal species. Quantitative RT-PCR analysis displayed that the tissue expression level of porcine SKP2 fluctuated remarkably in a large range, and it expressed in thymus with the highest level and in longissimus dorsi muscle with the lowest level. Two SNPs were identified, meanwhile, further polymorphism analysis with Cfr42I showed that AA genotype was in dominance absolutely among four kinds of unrelated Chinese indigenous miniature and one introduced Landrace pig breeds. In addition, association analysis with immune traits and blood parameters revealed that the SNP Cfr42I in intron 1 was significantly associated with red cell distribution width of neonate piglets at 0 day (P = 0.027).     

Structure and function of cytokinin oxidase/dehydrogenase genes of maize,rice,<Emphasis Type="Italic"> Arabidopsis</Emphasis> and other species

Cytokinin oxidases/dehydrogenases (CKX) catalyze the irreversible degradation of the cytokinins isopentenyladenine, zeatin, and their ribosides in a single enzymatic step by oxidative side chain cleavage. To date the sequences of 17 fully annotated CKX genes are known, including two prokaryotic genes. The CKX gene families of Arabidopsis thaliana and rice comprise seven and at least ten members, respectively. The main features of CKX genes and proteins are summarized in this review. Individual proteins differ in their catalytic properties, their subcellular localization and their expression domains. The evolutionary development of cytokinin-catabolizing gene families and the individual properties of their members indicate an important role for the fine-tuned control of catabolism to assure proper regulation of cytokinin functions. The use of CKX genes as a tool in studies of cytokinin biology and biotechnological applications is discussed.     

Subcellular localization, expression patterns, SNPs and association analyses of the porcine HUMMLC2B gene

Myosin regulatory light chain (MLC) regulates myofilament activation via phosphorylation by Ca²⁺ dependant myosin light chain kinase. In order to further understand the functions of the porcine fast myosin regulatory light chain gene (HUMMLC2B) in muscle, the subcellular localization, the temporal and spatial distributions of its gene product were analyzed, and the association between the presence of specific polymorphisms and commercial meat traits in pig was also examined. HUMMLC2B was demonstrated to localize both in the cytoplasm and the nucleus by confocal fluorescence microscopy. Real-time PCR further revealed HUMMLC2B expression variation in a waveform manner in the skeletal muscle of both Chinese Tongcheng and Western Landrace pig breeds at days 33, 65 and 90 post coitum (pc). After birth, the expression levels of HUMMLC2B were also found to decrease gradually with age. Our spatial expression analysis showed that HUMMLC2B was highly expressed in the semitendinosus, gastrocnemius, biceps femoris and longissimus dorsi muscles. In contrast, only low levels of expression of this gene were evident in fat, and no expression was detectable in brain, heart, kidney, lung, liver, lymph node, spleen, stomach, or in either large or small intestine. A total of 23 potential polymorphisms, comprising 3 exonic and 20 intronic, were detectable in the porcine HUMMLC2B gene and the G1094A, T1513C, G1876A and T2005G polymorphisms were further analyzed. The significant associations between the T1513C, G1876A and T2005G polymorphisms with marbling score, dressing percent and meat color, respectively, were identified (P < 0.05). Associations with the percentage of leaf fat could also be demonstrated by analysis of haplotypes harboring these three polymorphisms. Our current results thus shed further light on the roles and functions of the HUMMLC2B gene in muscle.     

巨桉BRI1基因的克隆和表达分析

为了解BRI1基因在巨桉中的功能,采用PCR技术克隆了EgrBRI1基因,分析了EgrBRI1的生物信息学和亚细胞定位,并对EgrBRI1基因响应激素和胁迫的差异表达进行了分析。结果表明,EgrBRI1基因全长3 893 bp,编码1 197个氨基酸。EgrBRI1蛋白稳定,空间结构复杂,存在3个motifs,主要定位于细胞膜。茉莉酸甲酯和油菜素内酯(BR)处理后,EgrBRI1基因在叶片中的表达上升,而水杨酸处理则没有明显的变化。盐胁迫和冷胁迫下,EgrBRI1基因表达表现为先下降后上升的趋势。因此,EgrBRI1基因能快速对外施激素做出响应,并在巨桉抗逆方面发挥重要作用,这可能是通过对BR信号的响应来实现的。     

The deubiquitinase OTUB1 fosters papillary thyroid carcinoma growth through EYA1 stabilization

Deubiquitinating enzyme OTU domain-containing ubiquitin aldehyde-binding proteins 1 (OTUB1) has been shown to have an essential role in multiple carcinomas. However, the function of OTUB1 in papillary thyroid cancer (PTC) and the underlying mechanisms regulating PTC cells proliferation remain poorly understood. In this study, OTUB1 was significantly upregulated in papillary thyroid carcinoma tissues and cells. Through in vitro and in vivo experiments, knockdown of OTUB1 suppressed PTC cells growth whereas OTUB1 overexpression enhanced the proliferation ability of PTC cells. Moreover, the eyes absent homologue 1 (EYA1) was recognized as a potential target of OTUB1 through mass spectrometry analysis, and we further verified that EYA1 protein level was positively correlated with OTUB1 expression in PTC cells and clinical samples. Mechanistically, OTUB1 could interact with EYA1 directly and deubiquitinate EYA1 to stabilize it. At last, EYA1 was found to play an essential role in OTUB1-derived PTC cells growth. Overall, our investigation reveals that OTUB1 is a previously unrecognized oncogenic factor in PTC cells proliferation and suggests that OTUB1 might be a novel therapeutic target in PTC.     

Investigation of <Emphasis Type="Italic">Lpin1</Emphasis> as a candidate gene for fat deposition in pigs

Lpin1 deficiency prevents normal adipose tissue development and remarkably reduces adipose tissue mass, while overexpression of the Lpin1 gene in either skeletal muscle or adipose tissue promotes adiposity in mice. However, little is known about the porcine Lpin1 gene. In the present study, a 5,559-bp cDNA sequence of the porcine Lpin1 gene was obtained by RT-PCR and 3′RACE. The sequence consisted of a 111-bp 5′UTR, a 2,685-bp open reading frame encoding a protein of 894 amino acids and a 2,763-bp 3′UTR. Semi-quantitative RT-PCR analysis revealed that Lpin1 had a high level of expression in the liver, spleen, skeletal muscle and fat, a low level of expression in the heart, lung and kidney. The porcine Lpin1 gene was assigned to 3q21-27 by using the somatic cell hybrid panel (SCHP) and the radiation hybrid (IMpRH) panel. One C93T single nucleotide polymorphism (SNP) was identified and genotyped using the TaqI PCR-RFLP method. Association analysis between the genotypes and fat deposition traits suggested that different genotypes of the Lpin1 gene were associated with percentage of leaf fat and intramuscular fat.     

Identification and functional characterization of <Emphasis Type="Italic">Candida albicans CDC4</Emphasis>

Summary The CDC4 gene of Saccharomyces cerevisiae encodes an essential function that is required for G1-S and G2-M transitions during mitosis and at various stages during meiosis. We have isolated a functional homologue of CDC4 (CaCDC4) from the pathogenic yeast Candida albicans by complementing the S. cerevisiae cdc4-3 mutation with CaCDC4 expressed from its own promoter on a single-copy vector. The predicted product of CaCDC4 has 37% overall identity to the S. cerevisiae Cdc4 protein, although this identity is biased towards the C-terminal region of the two proteins which contains eight copies of the degenerate WD-40 motif, an element found in proteins that regulate diverse biological processes and an F-box domain proximal to the first iteration of the WD-40 motif. Both the F-box domain and WD-40 motifs appear necessary for the mitotic functions of Cdc4 in both yeasts. In contrast to its conserved role in mitosis, C. albicans CDC4 is unable to rescue the meiotic deficiency in a S. cerevisiae cdc4 homozygous diploid under restrictive conditions, even when expressed from an efficient S. cerevisiae promoter. In opposition to S. cerevisiae CDC4 being essential, C. albicans CDC4 appears to be nonessential and in its absence is critical for filamentous growth in C. albicans.     

Cloning,Expression and Characterization of the Human <Emphasis Type="BoldItalic">NOB1</Emphasis> gene

The yeast Nob1p (Nin one binding protein) gene is required for proteasome function and RNA metabolism. We report here the cloning and characterization of the human orthologue NOB1 gene and its products. The human NOB1 gene is composed of nine exons and eight introns and is localized on human chromosome 16q22.1. The NOB1 cDNA is 1749 bp long and contains a putative open reading frame of 1239 bp. The predicted NOB1 protein comprises a PIN (PilT amino terminus) domain and a zinc ribbon domain. Western blot analysis showed that the molecular weight of NOB1 is about 50 KDa. RT-PCR analysis of mRNA from human adult tissues showed that NOB1 is expressed mainly in liver, lung and spleen. Expression of NOB1 in mammalian culture cells indicated that the NOB1 protein is mainly localized in the nucleus. Our data provides important information for further study of the function of the NOB1 gene and its products.     

酿酒酵母细胞基因组中与转录因子Rim101亚细胞定位相关的磷酸酶和激酶基因的筛选

Rim101是一个具有锌指结构的转录因子,在调控酿酒酵母细胞耐受碱性和高盐环境、钙离子稳态、细胞分裂以及硒毒性方面起作用。前人研究结果显示,细胞周期依赖性激酶基因PHO85的缺失,导致Rim101蛋白在细胞核内积累。为了探索Rim101亚细胞定位的新调节因子,通过荧光显微镜技术对酿酒酵母细胞基因组中编码磷酸酶的73个非必需基因缺失株和编码激酶的139个非必需基因缺失株进行了筛选,发现编码磷脂酰肌醇磷酸(Ptd Ins P)的磷酸酶Sac1调控Rim101的亚细胞定位。     

小立碗藓扩展蛋白基因家族的鉴定与生物信息学分析

扩展蛋白(Expansins,EXP)是一类基因家族,几乎参与了植物发育的全过程,从种子萌发到果实成熟都有扩展蛋白的参与。该研究利用生物信息学的方法对小立碗藓(Physcomitrella patens) Expansin基因家族成员进行鉴定,分析了其基因结构、染色体定位以及系统发生关系。结果表明:小立碗藓基因组中含有Expansin A(EXPA) 32个、Expansin-like A(EXLA) 6个,并未发现Expansin-like B(EXLB)及Expansin B(EXPB)。扩展蛋白氨基酸序列长度在228～290 aa之间,编码蛋白质具有两个保守的结构域Pollen_allerg_1和DPBB_1。蛋白质亚细胞定位预测结果表明:运用CELLO在线工具预测发现小立碗藓中约4/5的EXP家族基因定位于细胞外;而Euk-mPLoc预测结果则显示小立碗藓EXP基因家族成员全定位于细胞外。基因结构分析表明,小立碗藓中约68%Expansin基因有含有1～3个内含子。以上结果可为深入研究小立碗藓扩展蛋白基因的分子进化与生物学功能奠定基础。     

Co-bombardment,integration and expression of rice chitinase and thaumatin-like protein genes in barley (<Emphasis Type="Italic">Hordeum vulgare</Emphasis> cv. Conlon)

Pathogenesis-related (PR) proteins associated with degradation of structural components of pathogenic filamentous fungi were overexpressed in the two-rowed malting barley (Hordeum vulgare L.) cultivar Conlon. Transgenes were introduced by co-bombardment with two plasmids, one carrying a rice (Oryza sativa L.) chitinase gene (chi11) and another carrying a rice thaumatin-like protein gene (tlp). Each gene was under the control of the maize ubiquitin (Ubi1) promoter. Fifty-eight primary transformants from three independent transformation events were regenerated. T₁ plants with high rice chi11 and tlp protein expression levels were advanced to identify T₂ homozygotes by herbicide spray and subjected to further molecular analyses. T₃ progeny from one event (E2) had stable integration and expression of the rice chi11 and tlp while those from the other events (E1 and E3) showed stable integration only of tlp. The successful production of these lines overexpressing the antifungal chi and tlp proteins provides materials to test the effects of these genes on a variety of fungal diseases that attack barley and to serve as potential additional sources of disease resistance.