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Oyster Shell Proteins Originate from Multiple Organs and Their Probable Transport Pathway to the Shell Formation Front
Wang, Xiaotong1; Li, Li1; Zhu, Yabing2; Du, Yishuai1; Song, Xiaorui1; Chen, Yuanxin2; Huang, Ronglian1; Que, Huayong1; Fang, Xiaodong2; Zhang, Guofan1; Zhang, GF
2013-06-19
发表期刊PLOS ONE
ISSN1932-6203
卷号8期号:6页码:e66522
文章类型Article
摘要Mollusk shell is one kind of potential biomaterial, but its vague mineralization mechanism hinders its further application. Mollusk shell matrix proteins are important functional components that are embedded in the shell, which play important roles in shell formation. The proteome of the oyster shell had been determined based on the oyster genome sequence by our group and gives the chance for further deep study in this area. The classical model of shell formation posits that the shell proteins are mantle-secreted. But, in this study, we further analyzed the shell proteome data in combination with organ transcriptome data and we found that the shell proteins may be produced by multiple organs though the mantle is still the most important organ for shell formation. To identify the transport pathways of these shell proteins not in classical model of shell formation, we conducted a shell damage experiment and we determined the shell-related gene set to identify the possible transport pathways from multiple organs to the shell formation front. We also found that there may exist a remodeling mechanism in the process of shell formation. Based on these results along with some published results, we proposed a new immature model, which will help us think about the mechanism of shell formation in a different way.; Mollusk shell is one kind of potential biomaterial, but its vague mineralization mechanism hinders its further application. Mollusk shell matrix proteins are important functional components that are embedded in the shell, which play important roles in shell formation. The proteome of the oyster shell had been determined based on the oyster genome sequence by our group and gives the chance for further deep study in this area. The classical model of shell formation posits that the shell proteins are mantle-secreted. But, in this study, we further analyzed the shell proteome data in combination with organ transcriptome data and we found that the shell proteins may be produced by multiple organs though the mantle is still the most important organ for shell formation. To identify the transport pathways of these shell proteins not in classical model of shell formation, we conducted a shell damage experiment and we determined the shell-related gene set to identify the possible transport pathways from multiple organs to the shell formation front. We also found that there may exist a remodeling mechanism in the process of shell formation. Based on these results along with some published results, we proposed a new immature model, which will help us think about the mechanism of shell formation in a different way.
学科领域Science & Technology - Other Topics
DOI10.1371/journal.pone.0066522
URL查看原文
收录类别SCI
语种英语
WOS研究方向Science & Technology - Other Topics
WOS类目Multidisciplinary Sciences
WOS记录号WOS:000322361200091
WOS关键词EASTERN OYSTER ; MINERALIZATION ; INTERFACE ; MOLLUSK ; MATRIX ; NACRE
WOS标题词Science & Technology
引用统计
被引频次:34[WOS]   [WOS记录]     [WOS相关记录]
文献类型期刊论文
条目标识符http://ir.qdio.ac.cn/handle/337002/16711
专题海洋生物技术研发中心
实验海洋生物学重点实验室
通讯作者Zhang, GF
作者单位1.Chinese Acad Sci, Inst Oceanol, Qingdao, Peoples R China
2.BGI Shenzhen, Shenzhen, Peoples R China
第一作者单位中国科学院海洋研究所
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Wang, Xiaotong,Li, Li,Zhu, Yabing,et al. Oyster Shell Proteins Originate from Multiple Organs and Their Probable Transport Pathway to the Shell Formation Front[J]. PLOS ONE,2013,8(6):e66522.
APA Wang, Xiaotong.,Li, Li.,Zhu, Yabing.,Du, Yishuai.,Song, Xiaorui.,...&Zhang, GF.(2013).Oyster Shell Proteins Originate from Multiple Organs and Their Probable Transport Pathway to the Shell Formation Front.PLOS ONE,8(6),e66522.
MLA Wang, Xiaotong,et al."Oyster Shell Proteins Originate from Multiple Organs and Their Probable Transport Pathway to the Shell Formation Front".PLOS ONE 8.6(2013):e66522.
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