Comparison of several promoters and polyadenylation signals for use in heterologous gene expression in cultured Drosophila cells.

We have directly compared the ability of four promoters and three polyadenylation (poly(A)) signals to direct heterologous gene expression in stably transfected Drosophila melanogaster S2 cells. We compared two constitutive Drosophila promoters, the actin 5C distal promoter and the alpha 1-tubulin promoter, with the tightly regulated Drosophila metallothionein (Mtn) promoter and the Bombyx mori fibroin promoter. We find that the actin 5C and induced Mtn promoters generate comparable high levels of RNA and protein in this system. The alpha 1-tubulin promoter generates about four-fold lower levels, and the fibroin promoter shows no detectable activity in S2 cells. Interestingly, genes expressed from the constitutive actin 5C and alpha 1-tubulin promoters are consistently present at three- to four-fold lower copy numbers than genes expressed from the inducible Mtn promoter or the inactive fibroin promoter. Poly(A) signals of both mammalian (SV40) and Drosophila (Mtn) origin efficiently directed stable RNA synthesis in S2 cells, and, as in mammalian cells, the SV40 late poly(A) signal was more efficient than the SV40 early poly(A) signal. Thus the process of polyadenylation appears to be conserved between mammalian and Drosophila cells.     

家蚕丝素蛋白轻链基因（fib-L）启动子序列的克隆及其活性分析

家蚕Bombyx mori丝素蛋白轻链（fibroin light-chain, fib-L）基因fib-L具有在后部丝腺组织专一性、高效性表达的特点。为了利用其启动子构建能够表达外源基因的丝腺生物工厂,本实验对fib-L启动子活性进行了研究。通过PCR法克隆了fib-L启动子元件,序列分析显示fib-L启动子由位于-33 ～ -25处的TATA盒元件和位于－128～－121处的特征性序列GTCAATTT共同组成。用fib-L启动子控制报告基因DsRed进行家蚕BmN细胞和蚕体内的瞬时表达研究,结果表明fib-L启动子可以驱动DsRed报告基因在BmN细胞和家蚕后部丝腺组织中瞬时表达。     

Monitoring dynamic expression of nuclear genes in <Emphasis Type="Italic">Chlamydomonas reinhardtii</Emphasis> by using a synthetic luciferase reporter gene

For monitoring the expression profile of selected nuclear genes in Chlamydomonas reinhardtii in response to altered environmental parameters or during cell cycle, in the past many RNA or protein samples had to be taken and analyzed by RNA hybridization or protein immunoblotting. Here we report the synthesis of a gene that codes for the luciferase of Renilla reniformis (RLuc) and is adapted to the nuclear codon usage of C. reinhardtii. This crluc gene was expressed alone or as a fusion to the zeocin resistance gene ble under control of different promoter variants. Luciferase activity was monitored in living cells, increased with the promoter strength and paralleled the amount of expressed protein. Under control of the Lhcb-1 promoter the Luc-activity in synchronized cultures was dependent on the dark-light cycle. Additionally, crluc was placed under control of the Chop-2 promoter and activity was measured under different light conditions. Chop-2 promoter activity was found to be most pronouced under low-light and dark conditions, further supporting that channelrhodopsin-2 is most active in dark-adapted cells. We conclude that crluc is a reliable tool for convenient monitoring of nuclear gene expression in C. reinhardtii.     

Characterization of tyrosine-rich Antheraea pernyi silk fibroin hydrolysate

Antheraea pernyi silk fibroin (SF) hydrolysate were characterized using UV-VIS spectrometer, amino acid composition and heavy metal contents to explore its potential sources for food or cosmetic additives. The hydrolyzed A. pernyi SF was separated into two parts: (a) SFA, alanine-rich fraction and (b) SFB, tyrosine-rich fraction. SFB exhibited strong absorption peaks at 210 and 280 nm due to the presence of the tyrosine. Heavy metal analysis showed that arsenic and mercury did not detect. Other heavy metals, which includes lead, cadmium, etc., were recorded only a trace amount. Therefore, A. pernyi SF hydrolysate could be safely used as sources of food, cosmetic and pharmaceuticals.     

The DNA sequence of Bombyx mori fibroin gene including the 5' flanking, mRNA coding, entire intervening and fibroin protein coding regions.

Sequence analysis of the cloned genomic fibroin gene and cDNA containing the sequence complementary to fibroin mRNA has been carried out for the regions covering the 5′ flanking, mRNA coding, entire intervening sequence and its borders, and fibroin coding sequences. The sequences determined on the gene extend from nucleotide ?552 to +1497 (assigning +1 to the cap locus); sequence analysis of the cDNA has confirmed our previous mapping of the cap locus (Tsujimoto and Suzuki, 1979). Comparison of the nucleotide sequence of the genomic gene with that of cDNA has confirmed the existence of an intervening sequence 970 bases long. The sequence comparison also pinpointed the 5′ coding-intervening junction at +64?66 and the 3′ intervening-coding junction at +1034?1036. Both the 5′ and 3′ junctions of the fibroin gene (insect) share homologous segments of about 10 nucleotides each with the published sequences of β-globin (mammal), immunoglobulin (mammal) and ovalbumin (avian) genes. A long inverted repeat sequence (17 of 23 base match) has been found next to the junctions within the intervening sequence of the fibroin gene. The repetitious sequence that codes for the Gly-Ala peptide characteristic of fibroin protein begins at position +1448. The characteristics of the N terminal portion of fibroin protein (or its precursor) are discussed, as are the features of the 5′ flanking sequence of the gene and the mRNA sequence (with special attention to the putative promoter sequence for the gene), the possible secondary structure and a sequence complementary to the 3′ end of 18S ribosomal RNA at the 5′ proximal region of fibroin mRNA.     

柞蚕蛹解除滞育过程中海藻糖合成酶基因的表达变化

【目的】克隆柞蚕Antheraea pernyi海藻糖合成酶(trehalose-6-phosphate synthase,TPS)基因,并对其进行组织表达分析,探讨该基因在柞蚕滞育蛹解除滞育过程中的表达规律,为阐明柞蚕滞育期间碳水化合物代谢规律与蛹滞育解除的关系提供数据支持。【方法】利用PCR及3'RACE技术从柞蚕幼虫脂肪体组织中克隆得到TPS基因,并进行生物信息学分析;RT-PCR检测该基因在柞蚕幼虫各组织中的表达分布,进一步采用Real-time PCR分析柞蚕滞育蛹解除滞育过程中该基因在脂肪体组织和血淋巴中的表达量变化。【结果】克隆获得柞蚕海藻糖合成酶基因并命名为ApTPS。其开放阅读框长2 487 bp,编码828个氨基酸,蛋白预测分子量为93.19 k D,等电点(p I)4.61;无信号肽,无跨膜区。蛋白质亚细胞定位预测该蛋白定位于细胞质中;蛋白质结构域分析表明,ApTPS有两个保守功能区:TPS(第22-497位氨基酸)和TPP(第532-772位氨基酸)。组织特异性分析表明,ApTPS基因在柞蚕幼虫脂肪体中表达量最高;柞蚕解除滞育过程中,ApTPS在脂肪体和血淋巴中的表达量均有所升高,且显著高于对照组(P0.05),但血淋巴中表达量的升高滞后于脂肪体。【结论】结果提示ApTPS参与了柞蚕蛹滞育中碳水化合物代谢调控并在其中发挥重要作用,与柞蚕蛹滞育解除关系密切。     

Analysis of transgenic silkworms producing insulin-like growth factor-I in Bombyx mori

Silkworms contain a powerful and effective fibroin promoter, which controls the expression of fibroin, a silk protein. The fibroin promoter and well-known characteristics of silkworm, the application of transgenic technique to silkworm will provide an excellent opportunity to mass-produce biomolecules. In this study, the production of recombinant human insulin like growth factor-I (rhIGF-I) in the silkworm system was designed. The method makes use of the microinjection technique and P element vector to transfer foreign genes into the chromosomes. We constructed the expression vector using the fibroin gene promoter and P element vector containing IGF-I gene (pFpIGF-I). We then microinjected this vector into eggs, and through PCR screening, transgenic silkworms were selected. We isolated and purified rhIGF-I from silkworm cocoons, returning a concentration of rhIGF-I of about 1,300 ng/g from transgenic silkworm cocoons. In a comparison of transgenic silkworm rhIGF-I and colostral IGF-I on cell proliferation, colostral IGF-I was better able to increase the proliferation rate of the cell line relative to the transgenic silkworm rhIGF-I, and showed a similar cell proliferation pattern. The anti-cancer effects of transgenic silkworm rhIGF-I were higher than that of colostral IGF-I on HeLa and SNU-C1 cancer cells. These results confirmed the construction of new transgenic silkworm strains producing rhIGF-I.     

New silk protein: modification of silk protein by gene engineering for production of biomaterials

The interest in silk fibroin morphology and structure have increased due to its attractiveness for bio-related applications. Silk fibers have been used as sutures for a long time in the surgical field, due to the biocompatibility of silk fibroin fibers with human living tissue. In addition, it has been demonstrated that silk can be used as a substrate for enzyme immobilization in biosensors. A more complete understanding of silk structure would provide the possibility to further exploit silk fibroin for a wide range of new uses, such as the production of oxygen-permeable membranes and biocompatible materials. Silk fibroin-based membranes could be utilized as soft tissue compatible polymers. Baculovirus-mediated transgenesis of the silkworm allows specific alterations in a target sequence. Homologous recombination of a foreign gene downstream from a powerful promoter, such as the fibroin promoter, would allow the constitutive production of a useful protein in the silkworm and the modification of the character of silk protein. A chimeric protein consisted of fibroin and green fluorescent protein was expressed under the control of fibroin in the posterior silk gland and the gene product was spun into the cocoon layer. This technique, gene targeting, will lead to the modification and enhancement of physicochemical properties of silk protein.     

New silk protein: modification of silk protein by gene engineering for production of biomaterials.

The interest in silk fibroin morphology and structure have increased due to its attractiveness for bio-related applications. Silk fibers have been used as sutures for a long time in the surgical field, due to the biocompatibility of silk fibroin fibers with human living tissue. In addition, it has been demonstrated that silk can be used as a substrate for enzyme immobilization in biosensors. A more complete understanding of silk structure would provide the possibility to further exploit silk fibroin for a wide range of new uses, such as the production of oxygen-permeable membranes and biocompatible materials. Silk fibroin-based membranes could be utilized as soft tissue compatible polymers. Baculovirus-mediated transgenesis of the silkworm allows specific alterations in a target sequence. Homologous recombination of a foreign gene downstream from a powerful promoter, such as the fibroin promoter, would allow the constitutive production of a useful protein in the silkworm and the modification of the character of silk protein. A chimeric protein consisted of fibroin and green fluorescent protein was expressed under the control of fibroin in the posterior silk gland and the gene product was spun into the cocoon layer. This technique, gene targeting, will lead to the modification and enhancement of physicochemical properties of silk protein.