1) Molecular damage
分子损伤
2) kidney injury molecule-1
肾损伤分子1
1.
Objective To explore the relationship between the changes of urinary β2-microglobin (β2-MG), N-acetyl-beta-D-glucosaminidase (NAG) and kidney injury molecule-1 (KIM-1) in patients with contrast agent-induced nephropathy (CIN) by analyzing the level of urinary β2-MG, NAG and KIM-1.
目的通过检测造影剂相关性肾病患者尿液中β2微球蛋白(β2-MG)、N-乙酰-β-D-氨基葡萄糖苷酶(NAG)及肾损伤分子1(KIM-1)的水平,了解β2-MG、NAG及KIM-1在造影剂相关性肾病患者中的改变及其与肾功能之间的关系。
3) molecule damnification and measuring
分子损伤和检测
1.
In order to understand the application of opposite vertical pyramidal tips in single molecule damnification and measuring system, enhancement of opposite vertical pyramidal tips was computed and analyzed , also influence of different pyramidal tip lengths and excitation light wave lengths on light enhancement was studied.
为了探索对顶四面锥尖在分子损伤和检测中的应用,利用处理色散介质的时域有限差分法((FD)2TD)计算和分析了对顶四面锥尖之间的光增强,研究了不同锥体长度和激励光波长对光增强的影响。
6) damage-associated molecular patterns molecules
损伤相关分子模式分子
补充资料:分子损伤(molecularLesion)
分子损伤(molecularLesion)
辐射造成生物大分子结构与功能的破坏,如放射引起的DNA的碱基损伤、糖基和氢键的破坏、单链或双链的断裂;DNA的合成受抑;DNA之间和DNA与蛋白质之间的交联被破坏等。就蛋白质和酶而言,放射可引起结构松散仍至分子断裂、蛋白质分子之间的交联及酶的失活等。放射可引起染色体畸变,小至基因上个别碱基的变化,大者可导致染色体大片段缺失、交换、颠倒、环和微核的形成等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条