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Molecular basis for governing the morphology of type-I collagen fibrils by Osteomodulin

机译：骨调节蛋白调控I型胶原纤维形态的分子基础

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Small leucine-rich repeat proteoglycan (SLRP) proteins have an important role in the organization of the extracellular matrix, especially in the formation of collagen fibrils. However, the mechanism governing the shape of collagen fibrils is poorly understood. Here, we report that the protein Osteomodulin (OMD) of the SLRP family is a monomeric protein in solution that interacts with type-I collagen. This interaction is dominated by weak electrostatic forces employing negatively charged residues of OMD, in particular Glu284 and Glu303, and controlled by entropic factors. The protein OMD establishes a fast-binding equilibrium with collagen, where OMD may engage not only with individual collagen molecules, but also with the growing fibrils. This weak electrostatic interaction is carefully balanced so it modulates the shape of the fibrils without compromising their viability.

机译：富含亮氨酸的小重复蛋白聚糖（SLRP）小蛋白在细胞外基质的组织中，特别是在胶原原纤维的形成中具有重要作用。但是，对胶原原纤维形状的控制机理了解甚少。在这里，我们报道SLRP家族的蛋白质Osteomodulin（OMD）是与I型胶原蛋白相互作用的溶液中的单体蛋白。这种相互作用被弱的静电力所支配，该静电力使用OMD带负电荷的残基（尤其是Glu284和Glu303），并受熵因素控制。 OMD蛋白与胶原蛋白建立了快速结合的平衡，OMD不仅可以与单个胶原蛋白分子结合，还可以与生长的原纤维结合。仔细地平衡了这种弱的静电相互作用，以调节原纤维的形状而不会损害它们的生存能力。

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期刊名称 Communications Biology
作者
Takumi Tashima; Satoru Nagatoishi; Jose M. M. Caaveiro; Makoto Nakakido; Hiroshi Sagara; Osamu Kusano-Arai; Hiroko Iwanari; Hitomi Mimuro; Takao Hamakubo; Shin-ichi Ohnuma; Kouhei Tsumoto;
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年(卷),期 2018(1),-1
年度 2018
页码 33
总页数 10
原文格式 PDF
正文语种
中图分类生物学;
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入库时间 2022-08-17 12:59:03

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专利

1. Molecular basis for governing the morphology of type-I collagen fibrils by Osteomodulin [J] . Takumi Tashima, Satoru Nagatoishi, Jose M. M. Caaveiro, Communications Biology . 2018,第1期

机译：骨调节蛋白调控I型胶原纤维形态的分子基础
2. Type-I collagen fibrils: From growth morphology to local order [J] . Charvolin Jean, Sadoc Jean-Francois The European physical journal, E. Soft matter . 2019,第4期

机译：I型胶原蛋白原纤维：从生长形态到本地秩序
3. Molecular basis of organization of collagen fibrils [J] . Steplewski A, Hintze V, Fertala A Journal of Structural Biology . 2007,第2期

机译：胶原原纤维组织的分子基础
4. SMART MOLECULES: ORGANIZATION AND MORPHOLOGY OF THE SELF-ASSEMBLED COLLAGEN FIBRILS FORMED FROM A SOLUTION OF DENSLY PACKED COLLAGEN MONOMERS [C] . Nima Saeidi, Jeffrey W. Ruberti ASME summer bioengineering conference;SBC2008 . 2009

机译：智能分子：由密集包装的胶原蛋白单体溶液形成的自组装胶原蛋白原纤维的组织和形态
5. On the control of collagen fibril organization and morphology. [D] . Saeidi, Nima. 2009

机译：关于控制胶原纤维的组织和形态。
6. PTRF (polymerase I and transcript-release factor) is tissue-specific and interacts with the BFCOL1 (binding factor of a type-I collagen promoter) zinc-finger transcription factor which binds to the two mouse type-I collagen gene promoters. [O] . T Hasegawa, A Takeuchi, O Miyaishi, 2000

机译：PTRF（聚合酶I和转录释放因子）是组织特异性的并与BFCOL1（I型胶原蛋白启动子的结合因子）锌指转录因子相互作用后者与两个小鼠I型胶原蛋白基因启动子结合。
7. Supramolecular organization of collagen fibrils in healthy and osteoarthritic human knee and hip joint cartilage: Supramolecular Structure and Assembly of Collagen Fibrils [O] . Stolz, Martin 2016

机译：健康和骨关节炎人类膝关节和髋关节软骨中胶原纤维的超分子组织：超分子结构和胶原纤维的组装

Molecular basis for governing the morphology of type-I collagen fibrils by Osteomodulin

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