Katsumi Koga

Site-specific gene integration in cultured silkworm cells mediated by φC31 integrase

The integrase from the Streptomyces bacteriophage φC31 carries out efficient recombination between an attP site in the phage genome and an attB site in the host chromosome. In the present study, we have used the φC31 integrase system to mediate site-specific recombination in the cultured silkworm cell line BmN4. A plasmid containing a cDNA encoding DsRed flanked by two φC31 attP sites was co-transfected together with a helper plasmid encoding the φC31 integrase into a cell line in which φC31 attB sites inserted between a baculovirus IE2 promoter, and a polyadenylation signal are present in one chromosome. Seven days after transfection, expression of DsRed was observed in transformed cells. Nucleotide sequence analysis demonstrated that the expected recombination between the attB and attP sites had been precisely carried out by the φC31 integrase. These results indicate that the φC31 site-specific recombination system should be widely applicable for efficient site-specific gene integration into silkworm chromosomes.

Differential expression of a Bombyx mori AHA1 homologue during spermatogenesis

The AHA1 (activator of Hsp90 ATPase) family of proteins were exclusively conserved from yeast to humans, but little is known about their tissue distribution or biological function. In this study, a cDNA for a Bombyx mori AHA1 homologue, BmAHA1, was isolated from the testes of larvae on day 3 of the fifth instar using an mRNA differential display method. This cDNA encodes a protein with 341 amino acid residues. Gene expression studies revealed that BmAHA1 mRNA occurred prominently in the testes. In situ hybridization and immunostaining showed that the BmAHA1 mRNA signals were strongly detected in spermatogonial cells and primary spermatocytes at the fifth larval instar stage, whereas the BmAha1 protein was abundant in round and elongated spermatids at the pupal stage. The localization pattern of the accumulated protein in the elongated spermatids was reminiscent of that reported previously for microtubules, but the BmAha1 protein showed a decrease in apparent concentration during maturation process. The stage‐ and cell‐specific expression indicated that BmAha1 might play a role in silkworm spermatogenesis, especially in postmeiotic differentiation.

Efficient gene transfer into silkworm larval tissues by a combination of sonoporation and lipofection.

Sonoporation (ultrasound treatment) provides a new and attractive nonviral way of in vivo gene transfer. To access the applicability of this method to the silkworm, Bombyx mori, we have compared the efficiencies of gene transfer by means of lipofection (using an appropriate agent, PDD111), sonoporation (ditto, FluoroGene™), and lipofection followed by sonoporation. By these methods, a luciferase expression plasmid was found to be markedly transferred into the haemocoel of newly ecdysed fifth instar silkworm larvae, and also into other tissues although with lower rates compared with the haemocoel. In terms of luciferase activity, the efficiencies of transgene by lipofection plus sonoporation were approximately 6 (hemocytes), 20 (silk glands), 8 (mid‐gut), 38 (fat body), 10 (Malpighian tubules), 33 (ovaries), and 16 (testes) times as high as those by lipofection or sonoporation alone. These results demonstrated that the present method is useful to introduce the exogenous DNA into insect organs in vivo.

Cloning and characterization of a ribonuclease L inhibitor from the silkworm, Bombyx mori.

The ribonuclease L (RNase L) pathway plays an important role in the response of cells to double-stranded RNA (dsRNA) during the events such as virus infection. Ribonuclease L inhibitor (RLI) belonging to the ABC transporter family is known as a regulator of the RNase L pathway. The homologs of RLI were reported in many organisms including the fruit fly and mosquito, but their functions in insects and arthropods have not been elucidated to date. In the present study, we cloned a cDNA of a silkworm RLI homolog, termed BmRLI, and its nucleotide sequence was determined. RT-PCR analysis revealed that the expression of BmRLI mRNA was marked in the testis, ovary and fat body. From the cDNA, recombinant protein with an apparent molecular mass of 69u2009kDa was expressed in Escherichia coli and cultured insect cells. Although no obvious effect of up-regulation of the BmRLI expression on RNAi was observed, its down-regulation slightly reduced RNAi efficiency.

Nonhomologous end-joining in a cell-free extract from the cultured silkworm cell line BmN4

Nonhomologous end-joining (NHEJ) is one of the repair pathways for double-strand breaks (DSBs) in eukaryotic cells. By using linearized plasmid substrates, we have detected intramolecular NHEJ activity in a cell-free extract from the cultured silkworm cell line BmN4. The efficiency of NHEJ differed according to the structure of DNA ends; approximately 1% of input DNA was repaired when the substrate had cohesive ends. The reaction required the hydrolysis of nucleotide triphosphate; interestingly, all of four rNTPs or four dNTPs could support the reaction. A substrate with non-complementary DNA ends was mainly repaired by the DNA polymerase-mediated pathway. These results indicate that the present cell-free system will be useful to analyze the molecular mechanisms of DSB repair and NHEJ in insect cells.