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Ultrastructure and growth of the sea urchin tooth.

作者信息

Kniprath E

出版信息

Calcif Tissue Res. 1974 Mar 29;14(3):211-28. doi: 10.1007/BF02060296.

DOI:10.1007/BF02060296
PMID:4843789
Abstract
摘要

相似文献

1
Ultrastructure and growth of the sea urchin tooth.海胆牙齿的超微结构与生长
Calcif Tissue Res. 1974 Mar 29;14(3):211-28. doi: 10.1007/BF02060296.
2
SM50 repeat-polypeptides self-assemble into discrete matrix subunits and promote appositional calcium carbonate crystal growth during sea urchin tooth biomineralization.SM50重复多肽自组装成离散的基质亚基,并在海胆牙齿生物矿化过程中促进碳酸钙晶体的并置生长。
Ann Anat. 2016 Jan;203:38-46. doi: 10.1016/j.aanat.2015.06.004. Epub 2015 Jul 6.
3
Biomineralization of the spicules of sea urchin embryos.海胆胚胎骨针的生物矿化。
Zoolog Sci. 2002 Mar;19(3):253-61. doi: 10.2108/zsj.19.253.
4
Sea urchin spine calcite forms via a transient amorphous calcium carbonate phase.海胆刺方解石通过短暂的无定形碳酸钙相形成。
Science. 2004 Nov 12;306(5699):1161-4. doi: 10.1126/science.1102289.
5
Biocrystals.生物晶体
Sci Am. 1977 Apr;236(4):82-4, 86, 89-92. doi: 10.1038/scientificamerican0477-82.
6
Sea urchins have teeth? A review of their microstructure, biomineralization, development and mechanical properties.海胆有牙齿吗?对其微观结构、生物矿化、发育和力学性能的综述。
Connect Tissue Res. 2014 Jan-Feb;55(1):41-51. doi: 10.3109/03008207.2013.867338.
7
The grinding tip of the sea urchin tooth exhibits exquisite control over calcite crystal orientation and Mg distribution.海胆牙齿的研磨尖端对方解石晶体取向和镁分布表现出精确的控制。
Proc Natl Acad Sci U S A. 2009 Apr 14;106(15):6048-53. doi: 10.1073/pnas.0810300106. Epub 2009 Mar 30.
8
Sutural loosening and skeletal flexibility during growth: determination of drop-like shapes in sea urchins.生长过程中的缝线松弛与骨骼柔韧性:海胆中水滴状形态的测定
Proc Biol Sci. 2002 Feb 7;269(1488):215-20. doi: 10.1098/rspb.2001.1881.
9
Organic matrix-related mineralization of sea urchin spicules, spines, test and teeth.海胆的刺、棘、壳和牙齿的有机基质相关矿化。
Front Biosci (Landmark Ed). 2011 Jun 1;16(7):2540-60. doi: 10.2741/3871.
10
Mineral-related proteins of sea urchin teeth: Lytechinus variegatus.海胆牙齿的矿物质相关蛋白:多色刺海胆
Microsc Res Tech. 2002 Dec 1;59(5):342-51. doi: 10.1002/jemt.10216.

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From genome to anatomy: The architecture and evolution of the skeletogenic gene regulatory network of sea urchins and other echinoderms.从基因组到解剖结构:海胆及其他棘皮动物骨骼生成基因调控网络的架构与演化
Genesis. 2018 Oct;56(10):e23253. doi: 10.1002/dvg.23253.
2
The unique biomineralization transcriptome and proteome of Lytechinus variegatus teeth.多色刺海胆牙齿独特的生物矿化转录组和蛋白质组。
Connect Tissue Res. 2018 Dec;59(sup1):20-29. doi: 10.1080/03008207.2017.1408605.
3
Sea urchin growth dynamics at microstructural length scale revealed by Mn-labeling and cathodoluminescence imaging.

本文引用的文献

1
AN AUTORADIOGRAPHIC INVESTIGATION OF TOOTH RENEWAL IN THE PURPLE SEA URCHIN (STRONGYLOCENTROTUS PURPURATUS).紫海胆(强壮紫海胆)牙齿更新的放射自显影研究。
J Exp Zool. 1965 Apr;158:275-81. doi: 10.1002/jez.1401580304.
2
AMINO ACIDS IN CALCAREOUS MARINE SKELETONS.钙质海洋骨骼中的氨基酸
Can J Zool. 1965 Mar;43:351-5. doi: 10.1139/z65-034.
3
Studies on the cellular basis of morphogenesis of the sea urchin embryo. Development of the skeletal pattern.海胆胚胎形态发生的细胞基础研究。骨骼模式的发育。
通过锰标记和阴极发光成像揭示的微观结构长度尺度下的海胆生长动力学。
Front Zool. 2017 Aug 25;14:42. doi: 10.1186/s12983-017-0227-8. eCollection 2017.
4
Expression of the invertebrate sea urchin P16 protein into mammalian MC3T3 osteoblasts transforms and reprograms them into "osteocyte-like" cells.将无脊椎动物海胆 P16 蛋白表达到哺乳动物 MC3T3 成骨细胞中,可将其转化并重新编程为“骨细胞样”细胞。
J Exp Zool B Mol Dev Evol. 2016 Jan;326(1):38-46. doi: 10.1002/jez.b.22663. Epub 2015 Nov 19.
5
SM50 repeat-polypeptides self-assemble into discrete matrix subunits and promote appositional calcium carbonate crystal growth during sea urchin tooth biomineralization.SM50重复多肽自组装成离散的基质亚基,并在海胆牙齿生物矿化过程中促进碳酸钙晶体的并置生长。
Ann Anat. 2016 Jan;203:38-46. doi: 10.1016/j.aanat.2015.06.004. Epub 2015 Jul 6.
6
Sea urchins have teeth? A review of their microstructure, biomineralization, development and mechanical properties.海胆有牙齿吗?对其微观结构、生物矿化、发育和力学性能的综述。
Connect Tissue Res. 2014 Jan-Feb;55(1):41-51. doi: 10.3109/03008207.2013.867338.
7
Organic matrix-related mineralization of sea urchin spicules, spines, test and teeth.海胆的刺、棘、壳和牙齿的有机基质相关矿化。
Front Biosci (Landmark Ed). 2011 Jun 1;16(7):2540-60. doi: 10.2741/3871.
8
On the formation and functions of high and very high magnesium calcites in the continuously growing teeth of the echinoderm Lytechinus variegatus: development of crystallinity and protein involvement.在棘皮动物 Lytechinus variegatus 不断生长的牙齿中高镁方解石和超高镁方解石的形成和功能:结晶度的发展和蛋白质的参与。
Cells Tissues Organs. 2011;194(2-4):131-7. doi: 10.1159/000324227. Epub 2011 May 9.
9
Echinoderm phosphorylated matrix proteins UTMP16 and UTMP19 have different functions in sea urchin tooth mineralization.棘皮动物磷酸化基质蛋白UTMP16和UTMP19在海胆牙齿矿化过程中具有不同功能。
J Biol Chem. 2009 Sep 18;284(38):26149-60. doi: 10.1074/jbc.M109.024018. Epub 2009 Jul 13.
10
The grinding tip of the sea urchin tooth exhibits exquisite control over calcite crystal orientation and Mg distribution.海胆牙齿的研磨尖端对方解石晶体取向和镁分布表现出精确的控制。
Proc Natl Acad Sci U S A. 2009 Apr 14;106(15):6048-53. doi: 10.1073/pnas.0810300106. Epub 2009 Mar 30.
Exp Cell Res. 1961 Nov;25:311-25. doi: 10.1016/0014-4827(61)90282-8.
4
Skeleton formation of sea urchin larvae. V. Continuous observation of the process of matrix formation.海胆幼虫的骨骼形成。V. 基质形成过程的连续观察。
Exp Cell Res. 1965 Dec;40(3):585-96. doi: 10.1016/0014-4827(65)90236-3.
5
Microtubules in the formation and development of the primary mesenchyme in Arbacia punctulata. I. The distribution of microtubules.海胆初级间充质形成与发育过程中的微管。I. 微管的分布
J Cell Biol. 1969 Apr;41(1):201-26. doi: 10.1083/jcb.41.1.201.
6
[Polycristalline calcite in sea urchins (Echinodermata, Echinoidea)].
Z Zellforsch Mikrosk Anat. 1971;119(3):355-77.
7
Formation and structure of the periostracum in Lymnaea stagnalis.椎实螺围壳的形成与结构
Calcif Tissue Res. 1972;9(4):260-71. doi: 10.1007/BF02061966.
8
Comparative studies of the organic matrices of invertebrate mineralized tissues.无脊椎动物矿化组织有机基质的比较研究。
J Ultrastruct Res. 1967 Jun;18(5):519-50. doi: 10.1016/s0022-5320(67)80201-6.
9
Echinoid skeleton: absence of a collagenous matrix.海胆骨骼:不存在胶原基质。
Science. 1970 Sep 18;169(3951):1209-10. doi: 10.1126/science.169.3951.1209.