In vitro transcription of the plasma protein genes of Bombyx mori

Sirt5 Inhibits BmNPV Replication by Promoting a Relish-Mediated Antiviral Pathway in Bombyx mori

Silent information regulators (Sirtuins) belong to the family of nicotinamide adenine dinucleotide (NAD⁺)-dependent histone deacetylases (HDACs) that have diverse functions in cells. Mammalian Sirtuins have seven isoforms (Sirt1–7) which have been found to play a role in viral replication. However, Sirtuin members of insects are very different from mammals, and the function of insect Sirtuins in regulating virus replication is unclear. The silkworm, Bombyx mori, as a model species of Lepidoptera, is also an important economical insect. B. mori nucleopolyhedrovirus (BmNPV) is a major pathogen that specifically infects silkworms and causes serious losses in the sericulture industry. Here, we used the infection of the silkworm by BmNPV as a model to explore the effect of Sirtuins on virus replication. We initially knocked down all silkworm Sirtuins, and then infected with BmNPV to analyze its replication. Sirt2 and Sirt5 were found to have potential antiviral functions in the silkworm. We further confirmed the antiviral function of silkworm Sirt5 through its effects on viral titers during both knockdown and overexpression experiments. Additionally, Suramin, a Sirt5 inhibitor, was found to promote BmNPV replication. In terms of molecular mechanism, it was found that silkworm Sirt5 might promote the immune pathway mediated by Relish, thereby enhancing the host antiviral response. This study is the first to explore the role of Sirtuins in insect-virus interactions, providing new insights into the functional role of members of the insect Sirtuin family.

Alternative splicing regulation of doublesex gene by RNA-binding proteins in the silkworm Bombyx mori

Doublesex is highly conserved and sex-specifically spliced in insect sex-determination pathways, and its alternative splicing (AS) is regulated by Transformer, an exonic splicing activator, in the model system of Drosophila melanogaster. However, due to the lack of a transformer gene, AS regulation of doublesex remains unclear in Lepidoptera, which contain the economically important silkworm Bombyx mori and thousands of agricultural pests. Here, we use yeast three-hybrid system to screen for RNA-binding proteins that recognize sex-specific exons 3 and 4 of silkworm doublesex (Bm-dsx); this approach identified BxRBP1/Lark binding to the exon 3, and BxRBP2/TBPH and BxRBP3/Aret binding to the exon 4. Investigation of tissues shows that BxRBP1 and BxRBP2 have no sex specificity, but BxRBP3 has - three of its four isoforms are expressed with a sex-bias. Using novel sex-specific silkworm cell lines, we find that BxRBP1 and BxRBP3 directly interact with each other, and cooperatively function as splicing repressors. Over-expression of BxRBP1 and BxRBP3 isoforms efficiently inhibits splicing of the exons 3 and 4 in the female-specific cells and generates the male-specific isoform of Bm-dsx. We also demonstrate that the sex-determination upstream gene Masc regulates alternatively transcribed BxRBP3 isoforms. Thus, we identify a new regulatory mechanism of doublesex AS in the silkworm, revealing an evolutionary divergence in insect sex-determination.

Construction and detection of expression vectors of microRNA-9a in BmN cells

MicroRNAs (miRNAs) are small endogenous RNAs molecules, approximately 21-23 nucleotides in length, which regulate gene expression by base-pairing with 3' untranslated regions (UTRs) of target mRNAs. However, the functions of only a few miRNAs in organisms are known. Recently, the expression vector of artificial miRNA has become a promising tool for gene function studies. Here, a method for easy and rapid construction of eukaryotic miRNA expression vector was described. The cytoplasmic actin 3 (A3) promoter and flanked sequences of miRNA-9a (miR-9a) precursor were amplified from genomic DNA of the silkworm (Bombyx mori) and was inserted into pCDNA3.0 vector to construct a recombinant plasmid. The enhanced green fluorescent protein (EGFP) gene was used as reporter gene. The Bombyx mori N (BmN) cells were transfected with recombinant miR-9a expression plasmid and were harvested 48 h post transfection. Total RNAs of BmN cells transfected with recombinant vectors were extracted and the expression of miR-9a was evaluated by reverse transcriptase polymerase chain reaction (RT-PCR) and Northern blot. Tests showed that the recombinant miR-9a vector was successfully constructed and the expression of miR-9a with EGFP was detected.

Nucleic Acid programmable protein arrays: versatile tools for array-based functional protein studies

Protein microarrays offer a global perspective on the function of expressed gene products. However, technical issues related to the stability and dynamic range of microarrays printed with purified protein have hampered their widespread adoption. Taking an alternate approach, the Nucleic Acid Programmable Protein Array (NAPPA) is constructed by spotting protein-encoding plasmid DNA at high density, in addressable fashion, on an array surface. Proteins are subsequently generated in situ just prior to experimentation using cell-free expression systems. As such, the NAPPA platform offers a unique and viable alternative that circumvents many of the inherent limitations of spotted protein arrays, enabling diverse functional protein studies including protein-small molecule, protein-protein, antigen-antibody, and protein-nucleic acid interactions. It further offers a versatile and adaptable platform amenable to a variety of capture modalities and expression systems, and, most importantly, construction of the array is accessible to any lab with an array printer and laser slide scanner. This unit is intended to provide a reference for investigators wishing to generate arrays based on this platform, and details (1) the basic construction of cDNA-based protein microarrays from DNA isolation to printing and development, (2) quality-control efforts taken to ensure the usefulness and integrity of microarray data, and (3) a particular example of the application of self-assembling protein arrays to screen for blood-borne antibody biomarkers.

In vitro transcription systems from cultured cells and fat-body tissue of the silkworm, Bombyx mori

This article describes the development of cell-free transcription systems from the cultured cells and fat body tissues of a Lepidpteran insect, the silkworm, Bombyx mori. Detailed protocols are provided for the culture of a B. mori cell line, rearing larvae, preparation of whole cell as well as nuclear extract and conditions for in vitro transcription of cloned plasma protein gene templates.

The fat body cell-free system for tissue-specific transcription of plasma protein gene of Bombyx mori

A nuclear extract was prepared for the larval fat body of the silkworm, Bombyx mori, and a homologous in vitro system was developed for the transcription of major plasma protein gene of B.mori. The gene for SP1, a storage protein of B.mori, and adenovirus 2 major late (AdML) gene were faithfully transcribed under relatively high template concentrations in the nuclear extract prepared from the fat body of female fifth instar larvae. Complete inhibition of gene transcription by a low concentration of alpha-amanitin indicated that the reaction is catalyzed by RNA polymerase II. At low template concentration (0.6 nM) the fat body nuclear extract transcribed the homologous SP1 gene with high efficiency, while AdML gene and larval cuticle protein gene were only barely transcribed in the same extract. The SP1 gene deleted upstream of the TATA box sequence showed little effect on transcription, whereas mutations that destroy TATA sequence totally abolished the gene transcription. These results suggested that the core promoter region of SP1 gene spanning between positions -44 and +16 is essential for the fat body specific transcription in vitro.

Two alternative pathways of transcription initiation in the yeast negative regulatory gene GAL80

The yeast GAL80 gene, encoding a negative regulatory protein of galactose-inducible genes, shows both constitutive and galactose-inducible expression. The inducible transcription is under the control of Gal4p, a common activator for the galactose-inducible genes, which binds to an upstream activation sequence, called UASG, spanning between -105 and -89 in the 5'-flanking region of GAL80. Here we demonstrate that the constitutive transcription started at +1, whereas the inducible transcription occurs from a set of downstream sites at +37, +47, +56, and +67. Both transcriptions were enhanced 10-fold by another UAS, whose 5' boundary is located between -195 and -185. Gal4p stimulated transcription, which depends on the TATA box located at -20, from all the downstream sites. By contrast, the constitutive transcription depended on a small region of less than 16 bp long encompassing the +1 site, which directed transcription even in the absence of both the TATA box and the UASs. When a fragment covering that region was inserted immediately upstream of the open reading frame of HIS3, the resulting gene fusion, if introduced into a his3 yeast strain, supported growth on histidine-lacking medium. We detected by gel retardation assay a protein specifically interacting with this fragment. All the transcriptions observed in the in vivo experiments were faithfully reproduced in a cell-free transcription system. From these results, we suggest that initiation of GAL80 transcription involves two alternative pathways; one is initiator dependent, and the other is Gal4p regulated and TATA dependent.

Two alternative pathways of transcription initiation in the yeast negative regulatory gene GAL80

The yeast GAL80 gene, encoding a negative regulatory protein of galactose-inducible genes, shows both constitutive and galactose-inducible expression. The inducible transcription is under the control of Gal4p, a common activator for the galactose-inducible genes, which binds to an upstream activation sequence, called UASG, spanning between -105 and -89 in the 5'-flanking region of GAL80. Here we demonstrate that the constitutive transcription started at +1, whereas the inducible transcription occurs from a set of downstream sites at +37, +47, +56, and +67. Both transcriptions were enhanced 10-fold by another UAS, whose 5' boundary is located between -195 and -185. Gal4p stimulated transcription, which depends on the TATA box located at -20, from all the downstream sites. By contrast, the constitutive transcription depended on a small region of less than 16 bp long encompassing the +1 site, which directed transcription even in the absence of both the TATA box and the UASs. When a fragment covering that region was inserted immediately upstream of the open reading frame of HIS3, the resulting gene fusion, if introduced into a his3 yeast strain, supported growth on histidine-lacking medium. We detected by gel retardation assay a protein specifically interacting with this fragment. All the transcriptions observed in the in vivo experiments were faithfully reproduced in a cell-free transcription system. From these results, we suggest that initiation of GAL80 transcription involves two alternative pathways; one is initiator dependent, and the other is Gal4p regulated and TATA dependent.

Yeast GAL11 protein stimulates basal transcription in a gene-specific manner by a mechanism distinct from that by DNA-bound activators

The GAL11 gene encodes an auxiliary transcription factor required for full expression of many, if not all, genes of the yeast Saccharomyces cerevisiae. We have recently shown that GAL11-encoded protein (Gal11p) enhances basal transcription from the CYC1 promoter in a cell-free transcription system [(1993) Proc. Natl. Acad. Sci. USA 90, 8382-8386]. Here we indicate that Gal11p stimulates basal transcription in a gene-specific manner in vitro. We further suggest that the mechanism underlying the transcriptional stimulation by Gal11p is distinct from that by DNA-bound activators, since Gal11p stimulated transcription in a reaction system where activators were unable to enhance transcription due to the lack of intermediary factors.

Structure and expression of gene coding for a pupal cuticle protein of Bombyx mori

A specific protein termed as PCP accumulates in the newly synthesized pupal cuticle of the silkworm, Bombyx mori. We have cloned the genomic sequence encoding PCP and analyzed its structure. The PCP gene comprises two exons interspersed by a single intron approx. 5.8 kb in length. Transcription initiation sites of the PCP gene were located at nucleotide level. The 5' flanking region of the gene contains a sequence homologous to the Pit-1 DNA recognition element of the rat prolactin and growth hormone genes. The developmental profile of the PCP precursor RNA in epidermal cells showed that the biosynthesis of PCP is regulated at the transcriptional level in a stage- and tissue-specific fashion during post-embryonic development. Administration of 20-hydroxyecdysone to the isolated abdomens prepared from the early fifth instar larvae provoked the accumulation of PCP mRNA in epidermis, suggesting that the molting hormone triggers the expression of PCP gene.