关键词云

成果统计

合作作者[TOP 5]

访问统计


  总访问量
 511

  访问来源
    内部: 22
    外部: 489
    国内: 357
    国外: 154

  年访问量
 228

  访问来源
    内部: 1
    外部: 227
    国内: 163
    国外: 65

  月访问量
 16

  访问来源
    内部: 0
    外部: 16
    国内: 12
    国外: 4

访问量

访问量

1. 分子动力学模拟与分子生物力学 [2026]
2. Molecular Modeling and Affinity Determination of scFv Antibody: Pr.. [1429]
3. Direct Observation of Catch Bonds Involving Cell-Adhesion Molecule.. [1265]
4. 第七届世界生物力学大会简介暨分子-细胞生物力学研究前沿 [1178]
5. Differential regulation of stiffness, topography, and dimension of.. [1162]
6. 一种可同步实验吸吮加载与荧光观测的细胞力学装置 [1159]
7. 生物力学:与生命科学的有机融合--关于我国生物力学"十一?五"发展的一点.. [1074]
8. 基底微拓扑结构对细胞生物学行为的影响 [1042]
9. Space Program SJ-10 of Microgravity Research [973]
10. Advances in Experiments and Modeling in Micro- and Nano-Biomechani.. [972]
11. Determining beta(2)-Integrin and Intercellular Adhesion Molecule 1.. [967]
12. 流体剪切力作用下无间隙连接成骨细胞阵列内的钙响应 [939]
13. 第四届世界生物力学大会简介 [929]
14. Distinct binding affinities of Mac-1 and LFA-1 in neutrophil activ.. [912]
15. Multi-patterned dynamics of mitochondrial fission and fusion in a .. [898]
16. Fluid flow-induced calcium response in early or late differentiate.. [897]
17. 细胞-分子生物力学:力学-生物学、力学-化学耦合 [849]
18. (微)重力影响细胞生命活动的力学-生物学耦合规律 [837]
19. Conformational Stability Analyses of Alpha Subunit I Domain of LFA.. [828]
20. 2D Kinetics and Forced Dissociation of Selectin-ligand Bindings [826]
21. The cytosolic GH loop regulates the phosphatidylinositol 4,5-bisph.. [823]
22. 细胞-分子生物力学研究进展 [813]
23. Quantifying the Effects of Molecular Orientation and Length on Two.. [808]
24. Probe stiffness regulates receptor-ligand bond lifetime under forc.. [800]
25. Space experimental studies of microgravity fluid science in China [790]
26. 微吸管法研究肝癌细胞粘弹性的理论模型 [790]
27. Tyrosine replacement of PSGL-1 reduces association kinetics with P.. [763]
28. Probe stiffness regulates receptor-ligand bond lifetime under forc.. [753]
29. IL-8-induced L-selectin shedding regulates its binding kinetics to.. [743]
30. 骨细胞网络中力致钙信号响应与传递的理论模型与数值分析 [740]
31. Modeling of Cell Aggregation Dynamics Governed by Receptor-Ligand .. [722]
32. Special Issue: Experiments and Modeling in Micro- and Nano-Biomech.. [719]
33. Effects of oriented substrates on cell morphology, the cell cycle,.. [714]
34. 肝癌细胞的粘附力学特性及其与细胞周期的关系 [710]
35. 利用力致分子动力学模拟方法构建剪切流场 [697]
36. β2整合素介导的人中性粒细胞在ICAM-1裱衬表面的铺展动力学 [696]
37. 微模式化基底上大鼠骨髓间充质干细胞的增殖、分化和迁移 [693]
38. 牵拉力对共培养的表皮干细胞及成纤维细胞迁移行为的影响 [693]
39. Impact of carrier stiffness and microtopology on two-dimensional k.. [675]
40. Differential regulation of morphology and stemness of mouse embryo.. [675]
41. Fluid Dynamics Analysis of a Novel Micropatterned Cell Bioreactor [671]
42. Measuring Binding Kinetics Of Surface-Bound Molecules Using The Su.. [666]
43. IL-8刺激L-选择素水解断裂对细胞膜拓扑结构和刚度的影响 [657]
44. Molecular dynamics simulation of shear- and stretch-induced dissoc.. [648]
45. 一种可同步实现流动加载与荧光观测的细胞力学装置 [646]
46. Low Spring Constant Regulates P-Selectin-Psgl-1 Bond Rupture [635]
47. Spreading of human neutrophils on an ICAM-1-immobilized substrate .. [635]
48. β_2整合素-ICAM-1配体相互作用的生物力学与生物物理 [630]
49. 整合素-ICAM-1相互作用的二维反应动力学研究 [628]
50. Parametric Analysis for Monitoring 2D Kinetics of Receptor-Ligand .. [625]
51. 细胞-分子生物力学:与生命科学有机融合的领域 [624]
52. 作用力对TNF-α抗原/抗体二维反应的影响 [623]
53. Spreading area and shape regulate apoptosis and differentiation of.. [620]
54. P-选择素CR结构域功能的模拟预测 [615]
55. 微重力细胞生物学实验地面模拟技术研究 [611]
56. Asymmetric Migration of Human Keratinocytes under Mechanical Stret.. [609]
57. 微重力细胞生物学实验地面模拟技术研究 [607]
58. 一种用于悬浮细胞微重力效应模拟的培养系统 [597]
59. A Novel Counter Sheet-Flow Sandwich Cell Culture Device For Mammal.. [593]
60. Developing A Microfluidic-Based System To Quantify Cell Capture Ef.. [578]
61. 一种间隙可调的双层细胞共培养装置 [577]
62. P-选择素Lectin结构域变构的模拟预测 [574]
63. 中国科学院力学研究所生物力学与生物工程中心正式成立 中国科协第103.. [572]
64. 牵拉力对共培养的表皮干细胞及成纤维细胞迁移行为的影响 [572]
65. Computational Modeling of Stem Cell Migration: A Mini Review [571]
66. L-Selectin Shedding Regulates Two-Dimensional Binding To Psgl-1 [567]
67. 分子生物力学研究方法与技术 [564]
68. Dynamics of morphological changes for mitochondrial fission and fu.. [557]
69. 以交叉促发展 以开放促创新——中国科学院微重力重点实验室建设成效显.. [556]
70. Quantifying the Effects of Contact Duration, Loading Rate, and App.. [552]
71. 应用光阱技术测量P-selectin/PSGL-1键解离的断裂力 [540]
72. P-selectin去折叠的分子动力学模拟 [533]
73. P-选择素Lectin结构域变构的模拟预测 [532]
74. 分子生物力学与抗体药物设计 [531]
75. 钾离子通道Kir2.1/C-末端功能区的分子动力学模拟 [524]
76. 推动交叉学科研究 促进生命与医学科学的发展 [521]
77. P-选择素Lectin结构域稳定性的模拟预测 [519]
78. Forced Dissociation of Selectin-ligand Complexes Using Steered Mol.. [515]
79. Five days of head-down-tilt bed rest induces noninflammatory shedd.. [515]
80. Measuring Receptor/Ligand Interaction at the Single-Bond Level: Ex.. [512]
81. 不同长度β_2整合素_M亚基与ICAM-1的亲和性比较 [509]
82. 可溶性L-选择素竞争性调控膜L-选择素与其配体PSGL-1反应动力学 [507]
83. 中国力学学会学术大会’2005(CCTAM’2005)会议简介 [502]
84. Two-Dimensional Kinetics Of Beta(2)-Integrin And Icam-1 Bindings B.. [499]
85. 加载历史对低刚度下P-选择素-PSGL-1键寿命的影响 [499]
86. 利用表面等离子体共振技术测定BSA-抗BSA抗体间二维反应动力学 [495]
87. 整合素-ICAM-1相互作用的二维反应动力学研究 [495]
88. 生物分子间二维与三维反应动力学的比较研究 [494]
89. Surface-Bound Selectin-Ligand Binding Is Regulated By Carrier Diff.. [493]
90. Mechanomics: an emerging field between biology and biomechanics [485]
91. Probabilistic Modeling of Rosette Formation [481]
92. 细胞生物力学空间实验装置的研制 [475]
93. 利用力致分子动力学模拟方法构建剪切流场 [467]
94. Kinetic measurements of cell surface E-selectin/carbohydrate ligan.. [465]
95. 可溶性L-选择素竞争性调控膜L-选择素与其配体PSGL-1反应动力学 [462]
96. The impact of N-terminal phosphorylation on LHCII conformation in .. [461]
97. Quantifying Cell Binding Kinetics Mediated By Surface-Bound Blood .. [459]
98. 成骨细胞铺展形状和面积对其凋亡的影响 [453]
99. 成骨细胞铺展形状和面积对其凋亡的影响 [453]
100. P-选择素CR结构域功能的模拟预测 [448]

下载量

1. Direct Observation of Catch Bonds Involving Cell-Adhesion Molecule.. [543]
2. Molecular Modeling and Affinity Determination of scFv Antibody: Pr.. [495]
3. 分子动力学模拟与分子生物力学 [482]
4. Differential regulation of stiffness, topography, and dimension of.. [464]
5. 基底微拓扑结构对细胞生物学行为的影响 [389]
6. 应用光阱技术测量P-selectin/PSGL-1键解离的断裂力 [282]
7. 细胞-分子生物力学研究进展 [277]
8. Distinct binding affinities of Mac-1 and LFA-1 in neutrophil activ.. [250]
9. Fluid flow-induced calcium response in early or late differentiate.. [242]
10. Space experimental studies of microgravity fluid science in China [239]
11. 生物力学:与生命科学的有机融合--关于我国生物力学"十一?五"发展的一点.. [229]
12. 细胞-分子生物力学:与生命科学有机融合的领域 [228]
13. Advances in Experiments and Modeling in Micro- and Nano-Biomechani.. [223]
14. 微模式化基底上大鼠骨髓间充质干细胞的增殖、分化和迁移 [220]
15. Space Program SJ-10 of Microgravity Research [204]
16. β2整合素介导的人中性粒细胞在ICAM-1裱衬表面的铺展动力学 [201]
17. 流体剪切力作用下无间隙连接成骨细胞阵列内的钙响应 [195]
18. Quantifying the Effects of Molecular Orientation and Length on Two.. [192]
19. Conformational Stability Analyses of Alpha Subunit I Domain of LFA.. [191]
20. IL-8-induced L-selectin shedding regulates its binding kinetics to.. [189]
21. Special Issue: Experiments and Modeling in Micro- and Nano-Biomech.. [188]
22. Differential regulation of morphology and stemness of mouse embryo.. [187]
23. Tyrosine replacement of PSGL-1 reduces association kinetics with P.. [186]
24. Probe stiffness regulates receptor-ligand bond lifetime under forc.. [178]
25. Quantifying the Effects of Contact Duration, Loading Rate, and App.. [174]
26. The cytosolic GH loop regulates the phosphatidylinositol 4,5-bisph.. [173]
27. 作用力对TNF-α抗原/抗体二维反应的影响 [171]
28. Spreading area and shape regulate apoptosis and differentiation of.. [171]
29. 微重力细胞生物学实验地面模拟技术研究 [170]
30. Multi-patterned dynamics of mitochondrial fission and fusion in a .. [170]
31. Effects of oriented substrates on cell morphology, the cell cycle,.. [169]
32. (微)重力影响细胞生命活动的力学-生物学耦合规律 [168]
33. Determining beta(2)-Integrin and Intercellular Adhesion Molecule 1.. [165]
34. Spreading of human neutrophils on an ICAM-1-immobilized substrate .. [164]
35. 分子生物力学研究方法与技术 [163]
36. 整合素-ICAM-1相互作用的二维反应动力学研究 [162]
37. Asymmetric Migration of Human Keratinocytes under Mechanical Stret.. [162]
38. Mechanomics: an emerging field between biology and biomechanics [162]
39. Parametric Analysis for Monitoring 2D Kinetics of Receptor-Ligand .. [159]
40. Modeling of Cell Aggregation Dynamics Governed by Receptor-Ligand .. [159]
41. Probe stiffness regulates receptor-ligand bond lifetime under forc.. [154]
42. Computational Modeling of Stem Cell Migration: A Mini Review [152]
43. 利用力致分子动力学模拟方法构建剪切流场 [151]
44. 第七届世界生物力学大会简介暨分子-细胞生物力学研究前沿 [149]
45. 分子生物力学与抗体药物设计 [146]
46. 一种用于悬浮细胞微重力效应模拟的培养系统 [146]
47. 牵拉力对共培养的表皮干细胞及成纤维细胞迁移行为的影响 [142]
48. IL-8刺激L-选择素水解断裂对细胞膜拓扑结构和刚度的影响 [139]
49. 利用表面等离子体共振技术测定BSA-抗BSA抗体间二维反应动力学 [137]
50. L-选择素水解断裂对选择素-配体反应动力学的影响 [137]
51. P-选择素CR结构域功能的模拟预测 [136]
52. 细胞-分子生物力学:力学-生物学、力学-化学耦合 [136]
53. P-选择素Lectin结构域变构的模拟预测 [135]
54. 肝癌细胞的粘附力学特性及其与细胞周期的关系 [134]
55. Measuring Receptor/Ligand Interaction at the Single-Bond Level: Ex.. [130]
56. 不同长度β_2整合素_M亚基与ICAM-1的亲和性比较 [128]
57. 2D Kinetics and Forced Dissociation of Selectin-ligand Bindings [127]
58. 以交叉促发展 以开放促创新——中国科学院微重力重点实验室建设成效显.. [127]
59. Molecular dynamics simulation of shear- and stretch-induced dissoc.. [127]
60. 利用光镊技术研究力作用下P-selectin/PSGL-1键的解离 [127]
61. P-选择素Lectin结构域稳定性的模拟预测 [124]
62. 微吸管法研究肝癌细胞粘弹性的理论模型 [124]
63. 磷酸化影响捕光天线分子LHCll结构的分子动力学模拟 [124]
64. 如何在地球表面模拟空间微重力环境或效应:从空间细胞生长对微重力响应.. [123]
65. P-selectin去折叠的分子动力学模拟 [121]
66. 受体-配体键二维正反应率的直接实验测定 [120]
67. 关于科技论文写作的一点粗浅体会 [119]
68. 牵拉力对共培养的表皮干细胞及成纤维细胞迁移行为的影响 [119]
69. Fluid Dynamics Analysis of a Novel Micropatterned Cell Bioreactor [116]
70. The impact of N-terminal phosphorylation on LHCII conformation in .. [116]
71. 周期性机械拉伸对表皮干细胞分化及生物学效应的影响 [113]
72. 地基微重力效应模拟影响骨髓间充质干细胞生物学行为及其调控机理研究进.. [113]
73. Forced Dissociation of Selectin-ligand Complexes Using Steered Mol.. [112]
74. Quantifying Cell Binding Kinetics Mediated By Surface-Bound Blood .. [112]
75. Low Spring Constant Regulates P-Selectin-Psgl-1 Bond Rupture [112]
76. 可溶性L-选择素竞争性调控膜L-选择素与其配体PSGL-1反应动力学 [112]
77. 推动交叉学科研究 促进生命与医学科学的发展 [112]
78. 利用力致分子动力学模拟方法构建剪切流场 [112]
79. Five days of head-down-tilt bed rest induces noninflammatory shedd.. [112]
80. 成骨细胞铺展形状和面积对其凋亡的影响 [110]
81. IL-8刺激粒细胞在ICAM-1底板上的铺展及流体调控 [109]
82. 生物分子间二维与三维反应动力学的比较研究 [108]
83. Impact of carrier stiffness and microtopology on two-dimensional k.. [107]
84. 一种间隙可调的双层细胞共培养装置 [107]
85. Forced extension of P-selectin construct using steered molecular d.. [106]
86. 肝癌细胞与内皮细胞的粘附力学特性研究 [106]
87. 一种可同步实验吸吮加载与荧光观测的细胞力学装置 [106]
88. Measuring Binding Kinetics Of Surface-Bound Molecules Using The Su.. [104]
89. A Novel Counter Sheet-Flow Sandwich Cell Culture Device For Mammal.. [103]
90. Developing A Microfluidic-Based System To Quantify Cell Capture Ef.. [102]
91. 钾离子通道Kir2.1/C-末端功能区的分子动力学模拟 [101]
92. 中国力学学会学术大会’2005(CCTAM’2005)会议简介 [101]
93. 成骨细胞铺展形状和面积对其凋亡的影响 [100]
94. P-选择素CR结构域功能的模拟预测 [99]
95. Distinct kinetics features of LFA-1 and Mac-1 in neutrophil activa.. [98]
96. 细胞生物力学空间实验装置的研制 [95]
97. 加载历史对低刚度下P-选择素-PSGL-1键寿命的影响 [94]
98. 空间微重力环境——生物力学的“另一个花园”? [92]
99. 生物分子间二维与三维反应动力学的比较研究 [91]
100. Surface-Bound Selectin-Ligand Binding Is Regulated By Carrier Diff.. [90]