Tianfu Zhao scite author profile

We constructed three different fibroin H-chain expression systems to estimate the efficacy of producing recombinant proteins in the cocoon of transgenic silkworms. The results showed that the three different EGFP/H-chain fusion genes were all expressed selectively in the posterior silk gland of the transgenic silkworm. The recombinant protein content of transgenic silkworm cocoons is up to 15% (w/w) when using the most highly efficient H-chain expression system. To our knowledge, in comparison with silkworm silk gland expression systems in the literature, the highly efficient expression system developed in this study is the most efficient silkworm silk gland expression system to date. This expression system is the best candidate for foreign gene production and for creation of novel functional silk material. The results suggested the N-terminal domain and the intron of the H-chain gene are important in the secretion of fibroin and its transcription, respectively.

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Transgenic silkworms (Bombyx mori) produce recombinant spider dragline silk in cocoons

Wen

et al. 2009

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Spider dragline silk is a unique fibrous protein with a combination of tensile strength and elasticity, but the isolation of large amounts of silk from spiders is not feasible. In this study, we generated germline-transgenic silkworms (Bombyx mori) that spun cocoons containing recombinant spider silk. A piggyBac-based transformation vector was constructed that carried spider dragline silk (MaSp1) cDNA driven by the sericin 1 promoter. Silkworm eggs were injected with the vector, producing transgenic silkworms displaying DsRed fluorescence in their eyes. Genotyping analysis confirmed the integration of the MaSp1 gene into the genome of the transgenic silkworms, and silk protein analysis revealed its expression and secretion in the cocoon. Compared with wild-type silk, the recombinant silk displayed a higher tensile strength and elasticity. The results indicate the potential for producing recombinant spider silk in transgenic B. mori.

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Novel Molecular and Mechanical Properties of Egg Case Silk from Wasp Spider, Argiope bruennichi

Zhao

Nakagaki

et al. 2006

Biochemistry

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Araneoid spiders use specialized abdominal glands to produce up to seven different protein-based silks/glues that have various mechanical properties. To date, the fibroin sequences encoding egg case fibers have not been fully determined. To gain further understanding of a recently reported spider silk protein gene family, several novel strategies were utilized in this study to isolate two full-length cDNAs of egg case silk proteins, cylindrical silk protein 1 (CySp1, 9.1 kb) and cylindrical silk protein 2 (CySp2, 9.8 kb), from the wasp spider, Argiope bruennichi. Northern blotting analysis demonstrated that CySp1 and CySp2 are selectively expressed in the cylindrical glands. The amino acid composition of raw egg case silk was closely consistent with the deduced amino acid composition based on the sequences of CySp1 and CySp2, which supports the assertion that CySp1 and CySp2 represent two major components of egg case silk. CySp1 and CySp2 are primarily composed of remarkable homogeneous assemble repeats that are 180 residues in length and consist of several complex subrepeats, and they contain highly homologous C-termini and markedly different N-termini. Our results suggest a possible link between CySp1 and CySp2. In addition, comparisons of stress/strain curves for dragline and egg case silk from Argiope bruennichi showed obvious differences in ultimate strength and extensibility, and similarities in toughness.

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Self‐Propelling Janus Particles for Hemostasis in Perforating and Irregular Wounds with Massive Hemorrhage

et al. 2020

Adv Funct Materials

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Achieving rapid and safe control of perforating and irregular hemorrhage, defined as bleeding wounds with irregular external and internal wound shape, located deep within complex and covert hemorrhage sites, is vital to decrease the risk of mortality during prehospital treatments and surgical procedures. However, current hemostatic materials do not control hemorrhage effectively as their ability to access the bleeding source and coagulate blood is limited. Here, a biphasic Janus self-propelled hemostatic particle (MSS@CaCO 3) is prepared via uniaxial growth of flower-like calcium carbonate crystal (CaCO 3) on negatively-modified-microporous starch (MSS). The as-synthesized hemostatic particle (MSS@CaCO 3 T) is loaded with thrombin and powered by the internal component CaCO 3, with the collaborative use of protonated tranexamic acid. These particles are capable of traveling against the blood flow allowing them to access deep bleeding sites, inducing synergistic blood coagulation effects to effectively halt hemorrhaging. The self-propelling Janus hemostatic particle is sufficiently available in the deep bleeding sites of liver and femoral artery hemorrhage models, wherein the hemorrhage is rapidly controlled in ≈50 s and ≈3 min, respectively. To the authors' knowledge, this is the first attempt of controlling hemorrhage using Janus hemostatic particles with a self-propelling property.

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Tianfu Zhao

New and highly efficient expression systems for expressing selectively foreign protein in the silk glands of transgenic silkworm

Transgenic silkworms (Bombyx mori) produce recombinant spider dragline silk in cocoons

Novel Molecular and Mechanical Properties of Egg Case Silk from Wasp Spider, Argiope bruennichi

Self‐Propelling Janus Particles for Hemostasis in Perforating and Irregular Wounds with Massive Hemorrhage

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