Identification of FerLCH,isolation of ferritin and functional analysis related to interaction with pathogens in Eri-silkworm,Samia cynthia ricini |
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Authors: | Li-Ang Yang Jie Wang Shahzad Toufeeq Lin-Bao Zhu Shang-Zhi Zhang Ling-Ling You Pei Hu Hai-Zhong Yu Kang Zhao Xin Xu Jia-Ping Xu |
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Affiliation: | 1. Department of Science and Technology of Anhui Province, School of Life Sciences, Anhui Agricultural University, Hefei, China National Fund Committee of China, Anhui International Joint Research and Developmental Center of Sericulture Resources Utilization, Hefei, China Li-Ang Yang and Jie Wang contributed equally to this study.;2. Department of Science and Technology of Anhui Province, School of Life Sciences, Anhui Agricultural University, Hefei, China National Fund Committee of China, Anhui International Joint Research and Developmental Center of Sericulture Resources Utilization, Hefei, China;3. Department of Science and Technology of Anhui Province, School of Life Sciences, Anhui Agricultural University, Hefei, China |
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Abstract: | Ferritin is a ubiquitous and conserved iron storage protein that plays a significant role in host detoxification, iron storage, and immune response. Although ferritin has been studied in many species, little is known about its role in the Eri-silkworm (Samia cynthia ricini). In this study, the ferritin light-chain subunit gene, named ScFerLCH, was identified from S. c. ricini. The full-length gene, ScFerLCH, was 1,155 bp and encoded a protein consisting of 231 amino acids with a deduced molecular weight of 26.38 kDa. Higher ScFerLCH expression levels were found in the midgut, silk gland, and fat body by quantitative reverse-transcription polymerase chain reaction and western blot analysis. Injection of Staphylococcus aureus and Pseudomonas aeruginosa could induce upregulation of ScFerLCH in the hemolymph, fat body, and midgut, indicating that ScFerLCH may contribute to the host defense against invading pathogens. In addition, the native ferritin protein was isolated from S. c. ricini by native polyacrylamide gel electrophoresis and its two subunits, ferritin heavy-chain subunit (ScFerHCH) and ferritin light-chain subunit (ScFerLCH), were identified by mass spectrometry. Specifically, we found that recombinant ferritin subunits could self-assemble into a protein complex in vitro; moreover, both recombinant subunits and the protein complex were found to bind different bacteria, including Escherichia coli, P. aeruginosa, S. aureus, and Bacillus subtilis. However, bactericidal tests showed that the protein complex could not inhibit the growth of bacteria directly. Taken together, our results suggest that ScFerritin might play an important role in mediating molecular interaction with pathogens. |
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Keywords: | ferritin light-chain subunit pathogens interaction Samia cynthia ricini |
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