Silkworm is a holometabolous insect of Lepidoptera. During metamorphosis, significant morphological changes happen including the dissociation of old tissues and remodeling of new tissues. It has been reported that cathepsins are involved in these processes. Cathepsin is a kind of intracellular proteinase that exists in many species. It includes some subfamilies like cathepsin B, H and L. The studies on cathepsin are useful for clarifying the details of silkworm metamorphosis process. In total, 13 cathepsins were identified by screening the silkworm genome database. The basic information and the expression patterns about these genes were analyzed. Interestingly, an ovary-specific cathepsin L gene (Gene ID: BGIBMGAOO4622) was investigated by the data of silkworm microarray and real-time quantitative PCR (qPCR). The full-length cDNA is 1,209 bp, encoding a protein with 402 amino acids. Sequences alignment revealed that it has a high sequence similarity with cathepsin L of other species, and it is highly conserved in the active-site of the enzyme. The phylogenetic analysis showed that ovary-specific cathepsin L is clustered with other lepidopterous insects. Furthermore, this gene was cloned and prokaryotic expressed. Recombinant protein was present in inclusion body. Importantly, the qPCR result showed that the expression level of this gene is increasing during the early stage of pupal development and reaches the highest value at the 3rd day of pupal stage, which suggests that this gene may be involved in the process of development of the ovary and oocyte.
Animals ; Bombyx ; genetics ; Cathepsins ; genetics ; Insect Proteins ; genetics ; Phylogeny

Cockroaches have been implicated as a cause of respiratory allergy in urban areas worldwide. IgE-reactive German cockroach proteins were identified with molecular weights (MWs) of 90, 66, 50, 43 and 36 KD by immunoblot analysis in both immune BALB/c mice and sensitized humans. Prominent IgE-reactive proteins were purified using FPLC by ion-exchange chromatography, gel filtration and hydrophobic chromatography. The N-terminal amino acid sequence of a purified protein with a MW of 66 KD on SDS-PAGE was Val-Thr-Leu-Lys-Lys(Val)-Met-Ile-Lys-Thr-Phe-Tyr. No homologous protein was found through a search of GenBank that indicated a novel IgE-reactive protein in German cockroach extract. Another purified protein with a MW of 36 KD reacted strongly with a monoclonal antibody against Bla g 2.
Amino Acid Sequence/genetics ; Animal ; Cockroaches/chemistry* ; Human ; IgE/immunology* ; Insect Proteins/isolation & purification* ; Insect Proteins/immunology* ; Insect Proteins/genetics ; Mice ; Mice, Inbred BALB C ; Tissue Extracts/chemistry*

Transmembrane emp24 domain (TMED) gene is closely related to immune response, signal transduction, growth and disease development in mammals. However, only the Drosophila TMED gene has been reported on insects. We identified the TMED family genes of silkworm, Tribolium castaneum, tobacco moth and Italian bee from their genomes, and found that the TMED family gene composition patterns of one α-class, one β-class, one δ-class and several γ-classes arose in the common ancestor of pre-divergent Hymenoptera insects, while the composition of Drosophila TMED family members has evolved in a unique pattern. Insect TMED family γ-class genes have evolved rapidly, diverging into three separate subclasses, TMED6-like, TMED5-like and TMED3-like. The TMED5-like gene was lost in Hymenoptera, duplicated in the ancestors of Lepidoptera and duplicated in Drosophila. Insect TMED protein not only has typical structural characteristics of TMED, but also has obvious signal peptide. There are seven TMED genes in silkworm, distributed in six chromosomes. One of seven is single exon and others are multi-exons. The complete open reading frame (ORF) sequences of seven TMED genes of silkworm were cloned from larval tissues and registered in GenBank database. BmTMED1, BmTMED2 and BmTMED6 were expressed in all stages and tissues of the silkworm, and all genes were expressed in the 4th and 5th instar and silk gland of the silkworm. The present study revealed the composition pattern of TMED family members, their γ class differentiation and their evolutionary history, providing a basis for further studies on TMED genes in silkworm and other insects.
Animals ; Bombyx/metabolism* ; Genes, Insect/genetics* ; Moths/metabolism* ; Insecta/metabolism* ; Drosophila ; Insect Proteins/metabolism* ; Phylogeny ; Mammals/genetics*

The silk gland of silkworm is the organ of silk protein synthesis and secretion. According to the morphological and functional differences, silk gland can be divided into anterior silk gland (ASG), middle silk gland (MSG) and posterior silk gland (PSG). ASG is the place for silk proteins conformation changes although it cannot synthetize silk proteins. ASG has narrow luminal structures and rigid wall which consists of chitin and cuticle proteins so that it can provide the shearing force which plays an important role in the silk protein conformation changes. The objective of this study is to identify the new chitin binding proteins in ASG of silkworm (Bombyx mori), and to analyze their expression patterns in different tissues. We identified a cuticle protein with chitin binding domain Bml1721 (GenBank Accession No. NM-001173285.1) by chitin affinity chromatography column. We also expressed the recombinant protein as inclusion body using the prokaryotic expression system, and then successfully purified the recombinant protein by nickel affinity chromatography column to generate the polyclonal antibodies. The expression patterns analysis in various tissues showed that both in transcriptional and protein levels Bm11721 was specifically expressed in ASG. Furthermore, the expression level of Bm 11721 protein was unchanged during the 5th instar. Immunofluorescence analysis revealed that Bm1 1721 was located in the ASG inner membrane. It is proposed that Bm11721 is a component of inner membrane and probably provides the shearing force for conformational changes.
Animals ; Bombyx ; genetics ; metabolism ; Chitin ; metabolism ; Insect Proteins ; genetics ; metabolism ; Recombinant Proteins ; biosynthesis ; Silk ; biosynthesis

Molting is an important physiological phenomenon of many metamorphosis insects, during which the old and new epidermis are separated by enzymes present in the molting fluid. Various proteomic studies have discovered the presence of Bombyx mori carboxypeptidase A (Bm-CPA) in the molting fluid of silkworm, but its function remains unclear. In order to better understand the role of Bm-CPA in the molting process of silkworm, Bm-CPA was analyzed by bioinformatics analysis, real-time fluorescence quantitative PCR, antibody preparation, immunofluorescence staining, and expression in Pichia pastoris. The results showed that Bm-CPA had a conserved M14 zinc carboxypeptidase domain and glycosylation site. Its expression was regulated by ecdysone 20E, and large expression was observed in the epidermis of the upper cluster stage. Immunofluorescence staining showed that Bm-CPA was enriched in the epidermis during the molting stage, and the inhibitor of Bm-CPA led to the larval death due to the inability to molt. We also successfully obtained a large number of recombinant Bm-CPA proteins by Pichia pastoris expression in vitro. These results may facilitate further understanding the molting development process of silkworm.
Animals ; Molting/genetics* ; Bombyx/genetics* ; Carboxypeptidases A/metabolism* ; Proteomics ; Larva/metabolism* ; Fluorescent Antibody Technique ; Insect Proteins/metabolism*

NHL proteins, which play important roles in regulation of cell proliferation and differentiation, have been extensively studied on mammals. Here, we cloned a member of NHL protein family namely BmBrat in silkworm. The full-length cDNA sequence of BmB rat was obtained by means of the rapid amplification of cDNA ends (RACE), including 3 614 bp. The ORF is 2 580 bp long, encoding a protein with 859 amino acid residues. The molecular weight is 94.3 kDa and the isoeledtric point (pI) is 6.65. The BmBrat expression profile was detected by RT-PCR at L5D3 larval stage, and it was expressed in all tissues, including silk gland, midgut, fat body and malpighian tubule. However, it was highly expressed in ovary and head. The expression profile was also detected at different stage of embryo development, and reached a peak at the 4th and 5th days of the embryonic period. Anti-BmBrat polyclonal antibody was generated f6llowing prokaryotic expression, protein purification and mice immunization, which is highly specific and effective for recognizing BmBrat protein through Western blotting and immunofluorescence staining. Subcellular localization of BmBrat in hemocytes revealed that it was specifically expressed in cytoplasm. This study provides a foundation for further research of the biological function of BmBrat gene.
Animals ; Bombyx ; Cloning, Molecular ; DNA, Complementary ; Insect Proteins ; genetics ; metabolism ; Larva ; Mice

Deacetylation of chitin is closely related to insect development and metamorphosis. Chitin deacetylase (CDA) is a key enzyme in the process. However, to date, the CDAs of Bombyx mori (BmCDAs), which is a model Lepidopteran insect, were not well studied. In order to better understand the role of BmCDAs in the metamorphosis and development of silkworm, the BmCDA2 which is highly expressed in epidermis was selected to study by bioinformatics methods, protein expression purification and immunofluorescence localization. The results showed that the two mRNA splicing forms of BmCDA2, namely BmCDA2a and BmCDA2b, were highly expressed in the larval and pupal epidermis, respectively. Both genes had chitin deacetylase catalytic domain, chitin binding domain and low density lipoprotein receptor domain. Western blot showed that the BmCDA2 protein was mainly expressed in the epidermis. Moreover, fluorescence immunolocalization showed that BmCDA2 protein gradually increased and accumulated with the formation of larval new epidermis, suggesting that BmCDA2 may be involved in the formation or assembly of larval new epidermis. The results increased our understandings to the biological functions of BmCDAs, and may facilitate the CDA study of other insects.
Animals ; Bombyx/metabolism* ; Metamorphosis, Biological/genetics* ; Larva/metabolism* ; Gene Expression ; Insect Proteins/metabolism* ; Chitin

For recent years, the research has been focused on the ina gene application in the field of biological ice nucleation. This paper reviewed the application of ina genes in bacterial cell surface display, construction of reporter gene systems, killing insect pests through induced freezing, sensitive detection of pathogenic bacteria contaminating foods, breeding of cold resistant varieties. A brief introduction of the ina gene application in killing insect pests in China was also made in this review.
Bacterial Outer Membrane Proteins ; genetics ; physiology ; Bacterial Proteins ; genetics ; physiology ; Freezing ; Insect Control ; methods ; Pseudomonas ; genetics ; Recombinant Fusion Proteins ; genetics ; Research Design

Animals ; Drosophila ; genetics ; Drosophila Proteins ; genetics ; Genome, Insect ; Hedgehog Proteins ; genetics ; Humans ; Models, Animal ; Obesity ; genetics ; RNA Interference ; RNA, Small Interfering ; genetics

To produce recombinant Maxadilan using gene engineering technology, the gene of recombinant Maxadilan which expressed in protocaryon were designed and synthesized according to the amino acid sequences of Maxadilan. The recombinant plasmid pKYB-MAX was constructed and transformed into host bacteria Escherichia coli strain ER2566. After the MAX-intein-CBD fusion protein was purified by chintin-affinity chromatography, the self-cleavage activity of the intein was induced by beta-mercaptoethanol and the recombinant Maxadilan was released from the chitin-bound intein tag. The molecular weight of peptides was determined by the laser flight mass spectrometry and the results was conformity with the theoretical value. The biological activity analysis showed that recombinant Maxadilan significantly enhanced the concentration of serum glucose.
Animals ; Base Sequence ; Escherichia coli ; genetics ; metabolism ; Insect Proteins ; biosynthesis ; genetics ; Inteins ; genetics ; Isopropyl Thiogalactoside ; pharmacology ; Molecular Sequence Data ; Recombinant Proteins ; analysis ; biosynthesis ; genetics