羧甲基赖氨酸(CML)检测试剂盒(酶联免疫吸附试验法)
ELISA Kit for Carboxymethyl Lysine (CML)
N(6)-Carboxymethyllysine
- 编号CEB977Ge
- 物种Pan-species (General,通用) 相同的名称,不同的物种。
- 实验方法竞争抑制
- 反应时长2h
- 检测范围61.7-5,000ng/mL
- 灵敏度最小可检测剂量小于等于25.9ng/mL.
- 样本类型Serum, plasma and other biological fluids
- 下载 英文说明书 中文说明书
- 规格 48T96T 96T*5 96T*10 96T*100
- 价格 ¥ 3392 ¥ 4845 ¥ 21803 ¥ 41183 ¥ 339150
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产品包装(模拟)
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产品包装(模拟)
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实验结果图
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标准曲线图
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通过ISO 9001、ISO 13485质量体系认证
特异性
本试剂盒用于检测羧甲基赖氨酸(CML),经检测与其它相似物质无明显交叉反应。
由于受到技术及样本来源的限制,不可能完成对所有相关或相似物质交叉反应检测,因此本试剂盒有可能与未经检测的其它物质有交叉反应。
回收率
分别于定值血清及血浆样本中加入一定量的羧甲基赖氨酸(CML)(加标样品),重复测定并计算其均值,回收率为测定值与理论值的比率。
| 样本 | 回收率范围(%) | 平均回收率(%) |
| serum(n=5) | 79-98 | 90 |
| EDTA plasma(n=5) | 82-93 | 87 |
| heparin plasma(n=5) | 82-104 | 89 |
精密度
精密度用样品测定值的变异系数CV表示。CV(%) = SD/mean×100
批内差:取同批次试剂盒对低、中、高值定值样本进行定量检测,每份样本连续测定20 次,分别计算不同浓度样本的平均值及SD值。
批间差:选取3个不同批次的试剂盒分别对低、中、高值定值样本进行定量测定,每个样本使用同一试剂盒重复测定8次,分别计算不同浓度样本的平均值及SD值。
批内差: CV<10%
批间差: CV<12%
线性
在定值血清及血浆样本内加入适量的羧甲基赖氨酸(CML),并倍比稀释成1:2,1:4,1:8,1:16的待测样本,线性范围即为稀释后样本中羧甲基赖氨酸(CML)含量的测定值与理论值的比率。
| 样本 | 1:2 | 1:4 | 1:8 | 1:16 |
| serum(n=5) | 83-101% | 98-105% | 87-95% | 87-94% |
| EDTA plasma(n=5) | 82-102% | 99-105% | 80-95% | 87-101% |
| heparin plasma(n=5) | 91-105% | 91-103% | 91-98% | 89-103% |
稳定性
经测定,试剂盒在有效期内按推荐温度保存,其活性降低率小于5%。
为减小外部因素对试剂盒破坏前后检测值的影响,实验室的环境条件需尽量保持一致,尤其是实验室内温度、湿度及温育条件。其次由同一实验员来进行操作可减少人为误差。
实验流程
1. 实验前标准品、试剂及样本的准备;
2. 加样(标准品及样本)50µL,
加入50µL检测液A(临用前配制);
37°C温育1小时。
3. 洗板3次;
4. 加检测溶液B100µL,37°C孵育30分钟;
5. 洗板5次;
6. 加TMB底物90µL,37°C孵育10-20分钟;
7. 加终止液50µL,立即450nm读数。
实验原理
本试剂盒应用竞争抑制酶联免疫分析法测定标本中待测物质水平。将羧甲基赖氨酸(CML)单克隆抗体包被微孔板,制成固相载体,往包被抗体的微孔中同时加入生物素标记的抗原和待测抗原(标准品或样本),待测抗原与生物素标记抗原对特异性抗体进行竞争结合。温育后经洗涤去掉未结合物,然后加入HRP标记的亲和素,经过温育和彻底洗涤后加入底物TMB显色。TMB在过氧化物酶的催化下转化成蓝色,并在酸的作用下转化成最终的黄色。待测标本浓度越高,标记抗原和抗体的结合就越受到抑制,显色愈浅。显色的深浅与酶量呈正相关,而与样品中待测物质含量呈负相关。用酶标仪在450nm波长下测定吸光度(O.D.值),计算样品浓度。
相关产品
| 编号 | 适用物种:Pan-species (General,通用) | 应用(仅供研究使用,不用于临床诊断!) |
| CEB977Ge | 羧甲基赖氨酸(CML)检测试剂盒(酶联免疫吸附试验法) | Enzyme-linked immunosorbent assay for Antigen Detection. |
| LMB977Ge | 羧甲基赖氨酸(CML)等多因子检测试剂盒(流式荧光发光法) | FLIA Kit for Antigen Detection. |
参考文献
| 杂志 | 参考文献 |
| PLoS ONE | Advanced Glycation End Products Induce Human Corneal Epithelial Cells Apoptosis through Generation of Reactive Oxygen Species and Activation of JNK and p38 MAPK Pathways [PubMed: PMC3680386] |
| Int J Vitam Nutr Res. | Effects of combined lipoic acid and pyridoxine on albuminuria, advanced glycation end-products, and blood pressure in diabetic nephropathy. [Pubmed: 24491880] |
| Geriatr Gerontol Int | Advanced glycation end-products accelerate the cardiac aging process through the receptor for advanced glycation end-products/transforming growth factor-β-Smad signaling pathway in cardiac fibroblasts [PubMed: 26016731] |
| J Agric Food Chem | Inhibition of Advanced Glycation Endproduct Formation by Lotus Seedpod Oligomeric Procyanidins through RAGE-MAPK Signaling and NF-κB Activation in High-Fat-Diet Rats. [PubMed: 26207852] |
| Journal of Diabetes and Its Complications. | Association of serum N Îľ-Carboxy methyl lysine with severity of diabetic retinopathy [Pubmed:26782022] |
| J Nat Med. | Hyperoside reduces albuminuria in diabetic nephropathy at the early stage through ameliorating renal damage and podocyte injury. [Pubmed:27255369] |
| J Diabetes Complications | Increased levels of N(ε)- Carboxy methyl lysine (N(ε)-CML) are associated with topographic alterations in retinal pigment epithelium: A preliminary study [Pubmed:27039312] |
| J Nutr Biochem. | Long-term administration of advanced glycation end-product stimulates the activation of NLRP3 inflammasome and sparking the development of renal injury. [pubmed:27816762] |
| Renal Failure | Plasma heparanase is associated with blood glucose levels but not urinary microalbumin excretion in type 2 diabetic nephropathy at the early stage [pubmed:28994624] |
| Nutrition, Metabolism, and Cardiovascular Diseases | High intake of dietary advanced glycation end-products is associated with increased arterial stiffness and inflammation in subjects with type 2 diabetes. [pubmed:28958695] |
| Journal of Food Science and Technology | Antiglycation and antioxidant activities of mogroside extract from (Swingle) fruits [Pubmed:29666541] |
| Indian J Ophthalmol | Elevated advanced glycation end products are associated with subfoveal ellipsoid zone disruption in diabetic macular edema [34708772] |
