CheKine™ Micro Lactate Assay Kit
Katalog-Nummer KTB1100-96
Size : 96T/96S
Marke : Abbkine
Specification
| Product name | CheKine™ Micro Lactate Assay Kit |
| Applications notes | CheKine™ Micro Lactate Assay Kit provides a convenient means for detecting L (+) -Lactate in biological samples such as in serum or plasma, cells, culture and fermentation media. In this kit lactate is oxidized by lactate dehydrogenase to generate a product which interacts with a tetrazolium salt WST-8 dye to form a colorimetric (450 nm) product, proportional to the lactate present. |
Product Properties
| Kit components | • Lactate Assay Buffer • Lactate Dehydrogenase • Lactate Dehydrogenase Cofactor • WST-8 • Enhancer • L (+) -Lactate Standard (100 mM) |
| Features & Benefits | • Determination of L (+) -Lactate in serum, plasma, cell/tissue samples, plant tissues,urine and other biological fluids. • Detect biological samples at a level of 0.03 mM-2 mM. • Pre-treatment or purification of samples are not required. • Using WST-8 as substrate, more sensitive than MTT. |
| Usage notes | • If not assayed immediately, samples can be stored at -80°C for one month. • It is recommended to perform several dilutions of your sample to ensure the readings are within the standard value range. • Fresh samples are necessary for good results. If don't perform the assay at the same time, it's better to complete the Sample Preparation step before storing the samples. |
| Storage instructions | Storage at -20°C and Keep from light immediately upon receipt. Kit has a storage time of 6 months from receipt. Refer to list of materials supplied for storage conditions of individual components. |
| Shipping | Gel pack with blue ice. |
| Precautions | The product listed herein is for research use only and is not intended for use in human or clinical diagnosis. Suggested applications of our products are not recommendations to use our products in violation of any patent or as a license. We cannot be responsible for patent infringements or other violations that may occur with the use of this product. |
Additional Information
| Background | Lactate is an important intermediate product in the metabolic process of organisms, which is closely related to glucose metabolism, lipid metabolism, protein metabolism and intracellular energy metabolism. The content of lactate is an important indicator to evaluate glycogen metabolism and aerobic metabolism. |
Image & description
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Transcription Factor STAT3-Activated LDHB Promotes Tumor Properties of Endometrial Cancer Cells by Inducing MDH2 Expression(KTB1100-112.70)
Author:Shen L, Wang J, Li Y Publication name:Molecular Biotechnology IF:112.70
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α-myosin heavy chain lactylation maintains sarcomeric structure and function and alleviates the development of heart failure(KTB1100-44.1)
Author:Zhang, Naijin, et al. Publication name:Cell Research IF:44.1
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Targeting the PDK/PDH axis to reverse metabolic abnormalities by structure-based virtual screening with in vitro and in vivo experiments(KTB1100-30.20)
Author:J Yue, J Xu, Y Yin Publication name:International Journal of Biological Macromolecules IF:30.20
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ZNF207-Driven PRDX1 Lactylation and NRF2 Activation in Regorafenib Resistance and Ferroptosis Evasion.(KTB1100-21.700)
Author:Yang, Tianfeng, et al. Publication name:Drug Resistance Updates IF:21.700
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Divalent metal ions enhance bone regeneration through modulation of nervous systems and metabolic pathways.(KTB1100-20.300)
Author:Luo, Ying, et al. Publication name: Bioactive Materials IF:20.300
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Targeting macrophage polarization by inhibiting Pim2 alleviates inflammatory arthritis via metabolic reprogramming.(KTB1100-19.800)
Author:Xu, Xiaojun, et al. Publication name:Cellular & Molecular Immunology IF:19.800
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TNF‐α‐Induced KAT2A Impedes BMMSC Quiescence by Mediating Succinylation of the Mitophagy‐Related Protein VCP(KTB1100-15.1)
Author:Su, Zepeng, et al Publication name:Advanced Science IF:15.1
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TNF‐α‐Induced KAT2A Impedes BMMSC Quiescence by Mediating Succinylation of the Mitophagy‐Related Protein VCP.(KTB1100-14.3)
Author:Su, Zepeng, et al. Publication name:Advanced Science IF:14.3
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METTL14‐Mediated M6A Modification of LINC01094 Induces Glucose Metabolic Reprogramming in Breast Cancer by Recruiting the PKM2/JMJD5 Complex.(KTB1100-14.100)
Author:Wang, Mengqi, et al. Publication name:Advanced Science IF:14.100
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High Sugar Induced RCC2 Lactylation Drives Breast Cancer Tumorigenicity Through Upregulating MAD2L1.(KTB1100-14.100)
Author:Zheng, Bowen, et al. Publication name: Advanced Science IF:14.100
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UGDH lactylation aggravates osteoarthritis by suppressing glycosaminoglycan synthesis and orchestrating nucleocytoplasmic transport to activate MAPK signaling.(KTB1100-14.100)
Author:Lan, Weiren, et al. Publication name: Advanced Science IF:14.100
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Enhancing photocatalytic hydrogen production from engineered Escherichia coli-biohybrid system via intracellular electron redirection.(KTB1100-13.3)
Author:Lin, Song, et al. Publication name:Chemical Engineering Journal IF:13.3
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DLGAP5 enhances bladder cancer chemoresistance by regulating glycolysis through MYC stabilization.(KTB1100-13.300)
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Lactate exacerbates lung damage induced by nanomicroplastic through the gut microbiota–HIF1a/PTBP1 pathway(KTB1100-12.8)
Author:Xuan L, Xu Z, Luo J, et al Publication name:Experimental & Molecular Medicine IF:12.8
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CDCA3-MYC positive feedback loop promotes bladder cancer progression via ENO1-mediated glycolysis.(KTB1100-12.800)
Author:Shen, Dexin, et al. Publication name:Journal of Experimental & Clinical Cancer Research IF:12.800
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Peptide-based PROTAC degrader of FOXM1 suppresses cancer and decreases GLUT1 and PD-L1 expression(KTB1100-12.658)
Author: Wang K, Dai X, Yu A Publication name:Journal of Experimental & Clinical Cancer Research IF:12.658
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Kindlin-2 enhances c-Myc translation through association with DDX3X to promote pancreatic ductal adenocarcinoma progression(KTB1100-12.4)
Author:Chengmin Liu, Ke Jiang, Yanyan Ding, Aihua Yang, Renwei Cai, Panzhu Bai Publication name:theranostics IF:12.4
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IGF1R Enhances Calcium Oxalate Monohydrate-Induced Epithelial-Mesenchymal Transition by Reprogramming Metabolism via the JAK2/STAT3 Signaling.(KTB1100-10.000)
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KAT7 enhances the proliferation and metastasis of head and neck squamous carcinoma by promoting the acetylation level of LDHA.(KTB1100-9.1)
Author:Lu, Ying, et al. Publication name:Cancer Letters IF:9.1
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FcγRIIIA activation-mediated up-regulation of glycolysis alters MDSCs modulation in CD4+ T cell subsets of Sjögren syndrome(KTB1100-9)
Author:Qi, Jingjing, et al. Publication name:Cell Death & Disease IF:9
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TAB182 Regulates Glycolytic Metabolism by Controlling LDHA Transcription to Impact Tumor Radiosensitivity(KTB1100-9)
Author:Chen, S., Xie, D. F., Li, S., Luo, J., Han, Y., Guo, H., ... & Zhou, P. K Publication name:Cell Death & Disease IF:9
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CXCR4 regulates macrophage M1 polarization by altering glycolysis to promote prostate fibrosis.(KTB1100-8.2)
Author:Zhang, Yi, et al. Publication name: Cell Communication and Signaling IF:8.2
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TAB182 regulates glycolytic metabolism by controlling LDHA transcription to impact tumor radiosensitivity.(KTB1100-8.1)
Author:Chen, Shi, et al. Publication name:Cell Death & Disease IF:8.1
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Chicoric acid ameliorates sepsis-induced cardiomyopathy via regulating macrophage metabolism reprogramming(KTB1100-7.90)
Author:Sun H J, Zheng G L, Wang Z C Publication name:Phytomedicine IF:7.90
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Targeting the PDK/PDH axis to reverse metabolic abnormalities by structure-based virtual screening with in vitro and in vivo experiments.(KTB1100-7.7)
Author:Yue, Jianda, et al. Publication name:International Journal of Biological Macromolecules IF:7.7
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Lactate Facilitates Pancreatic Repair Following Acute Pancreatitis by Promoting Reparative Macrophage Polarization.(KTB1100-7.400)
Author:Jiang, Jing, et al. Publication name:Cellular and Molecular Gastroenterology and Hepatology IF:7.400
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Metformin Attenuates Neutrophil Recruitment through the H3K18 Lactylation/Reactive Oxygen Species Pathway in Zebrafish(KTB1100-7)
Author:R Zhou, RC Ding, Q Yu, CZ Qiu, HY Zhang, ZJ Yin, DL Ren Publication name:Antioxidants IF:7
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3-tert-Butyl-4-hydroxyanisole perturbs renal lipid metabolism in vitro by targeting androgen receptor-regulated de novo lipogenesis(KTB1100-6.8)
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The potential role of CMC1 as an immunometabolic checkpoint in T cell immunity.(KTB1100-6.5)
Author:Chen, Yuwen, et al. Publication name: Oncoimmunology IF:6.5
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Leveraging AI technology for distinguishing Eucommiae Cortex processing levels and evaluating anti-fatigue potential.(KTB1100-6.300)
Author:Pan, Yijing, et al. Publication name:Computers in Biology and Medicine IF:6.300
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Neutrophil-derived heparin-binding protein increases endothelial permeability in acute lung injury by promoting TRIM21 and the ubiquitination of P65.(KTB1100-5.900)
Author:Zhang, Jian, et al. Publication name: Cell biology and toxicology IF:5.900
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Glycolysis regulates palatal mesenchyme proliferation through Pten-Glut1 axis via Pten classical and non-classical pathways.(KTB1100-5.900)
Author:Wang, Yijia, et al. Publication name: Cell Biology and Toxicology IF:5.900
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Tumor microenvironment-activated Nb2C quantum dots/lactate oxidase nanocatalyst mediates lactate consumption and macrophage repolarization for enhanced …(KTB1100-5.8)
Author:Zhang, Yaqian, et al. Publication name:Colloids and Surfaces B: Biointerfaces IF:5.8
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Modulation of SEMA4D-modified titanium surface on M2 macrophage polarization via activation of Rho/ROCK-mediated lactate release of endothelial cells: In vitro …(KTB1100-5.80)
Author:Zhou J, Mei Y K, Qian X Publication name:Colloids and Surfaces B: Biointerfaces IF:5.80
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Simultaneous suppression of PKM2 and PHGDH elicits synergistic anti-cancer effect in NSCLC(KTB1100-5.6)
Author:Wang, Kaixuan, et al. Publication name:Frontiers in Pharmacology IF:5.6
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Baicalin promotes anti-tumor immunity in hepatocellular carcinoma through HIF-1α/Lactate/CXCL9 axis.(KTB1100-5.600)
Author:Yang, Xuemei, et al. Publication name:Biochemical Pharmacology IF:5.600
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Exosomes from PYCR1 knockdown bone marrow mesenchymal stem inhibits aerobic glycolysis and the growth of bladder cancer cells via regulation of the EGFR …(KTB1100-5.2)
Author:Li,Zhuo,et al. Publication name:International Journal of Oncology IF:5.2
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A novel co-cultivation strategy to generate low-crystallinity bacterial cellulose and increase nisin yields(KTB1100-5.162)
Author:W Qiao, Y Qiao, Z Liao, G Gao, Z Wu, PEJ Saris Publication name:Int J Biol Macromol IF:5.162
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Natural product fargesin interferes with H3 histone lactylation via targeting PKM2 to inhibit non‐small cell lung cancer tumorigenesis.(KTB1100-5)
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Calcium-mediated mitochondrial fission and mitophagy drive glycolysis to facilitate arterivirus proliferation.(KTB1100-4.900)
Author:Sun, Zhe, et al. Publication name: PLoS pathogens IF:4.900
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Gastrodin regulates H3K14la through the CDT2-KAT2A axis to treat Sepsis-induced myocardial dysfunction.(KTB1100-4.700)
Author:Yu, Huiming, et al. Publication name:International Immunopharmacology IF:4.700
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Targeting ALDOA to modulate tumorigenesis and energy metabolism in retinoblastoma.(KTB1100-4.6)
Author:Wang, Yinghao, et al. Publication name:Iscience IF:4.6
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Oncogenic HPV-induced high expression of ESM1 predicts poor prognosis and regulates aerobic glycolysis in cervical cancer."(KTB1100-4.6)
Author:Yuan, Lin, et al. Publication name:Iscience IF:4.6
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Hypoxia promotes histone H3K9 lactylation to enhance LAMC2 transcription in esophageal squamous cell carcinoma.(KTB1100-4.6)
Author:Zang, Yong, et al. Publication name:Iscience IF:4.6
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Remote ischemic postconditioning-mediated neuroprotection against stroke by promoting ketone body-induced ferroptosis inhibition.(KTB1100-4.1)
Author:Huang, Lin-yan, et al. Publication name:ACS chemical neuroscience IF:4.1
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Vitamin D-VDR (vitamin D receptor) alleviates glucose metabolism reprogramming in lipopolysaccharide-induced acute kidney injury(KTB1100-4)
Author:Dai, Qing, et al. Publication name:Frontiers in Physiology IF:4
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DRAM1 enhances the proliferation and metastasis of gastric cancer through the PI3K/AKT/mTOR signaling pathway and energy metabolism.(KTB1100-3.900)
Author:Wu, Xinrong, et al. Publication name:Scientific Reports IF:3.900
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IGF2BP1 stabilizes Akt2 mRNA to promote glucose metabolism and maintain spermatogonial proliferation.(KTB1100-3.700)
Author:Liu, Yanan, et al. Publication name: Reproduction IF:3.700
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A Novel Prognostic Signature Integrating Immune and Glycolytic Pathways for Enhanced Prognosis and Immunotherapy Prediction in Hepatocellular Carcinoma.(KTB1100-3.400)
Author:Zhang, Zeyu, et al. Publication name: Journal of Hepatocellular Carcinoma IF:3.400
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Tamsulosin alters the pharmacokinetics of metformin via inhibition of renal multidrug and toxin extrusion protein 1 and organic cation transporter 2 in rats(KTB1100-3.209)
Author:Saad AAA, Zhang F, Refat M, Mohammed EAH, Zhang M, Chen Y, Al Hamyari B, Alafifi J, Wu X, Publication name:J Pharm Biomed Anal IF:3.209
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SUMOylated GLUT1 inhibited the glycometabolism disorder in chondroctyes during osteoarthritis.(KTB1100-3.100)
Author:Xiong, Liwei. Publication name: Glycoconjugate Journal IF:3.100
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Circular RNA, circular RARS, promotes aerobic glycolysis of non‐small‐cell lung cancer by binding with LDHA(KTB1100-2.9)
Author:Li H, Huang Q, Guo H, Chen X, Li X, Qiu M, Publication name:Thorac Cancer IF:2.9
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NCAPD3 is involved in papillary thyroid carcinoma proliferation, metastasis, and aerobic glycolytic pathway.(KTB1100-2.900)
Author:Zhang, Liubing, Aiping Peng, and Yue Qin. Publication name:Discover Oncology IF:2.900
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Lactate administration induces skeletal muscle synthesis by influencing Akt/mTOR and MuRF1 in non‐trained mice but not in trained mice(KTB1100-2.5)
Author:S Kyun, J Kim, D Hwang, I Jang, HY Park, K Lim Publication name:Physiological Reports IF:2.5
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Low level of lactate and trophoblast dysfunction mediated by SNAI1/PDK1 contributes to miscarriage.(KTB1100-2.500)
Author:Gou, Rui, et al. Publication name: Placenta IF:2.500
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Transcription Factor STAT3-Activated LDHB Promotes Tumor Properties of Endometrial Cancer Cells by Inducing MDH2 Expression.(KTB1100-2.500)
Author:Shen, Li, et al. Publication name: Molecular Biotechnology IF:2.500
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Revealing the effects of lactate on bovine SCNT embryo development through transcriptome sequencing analyses.(KTB1100-2.500)
Author:Li, Nannan, et al. Publication name:Theriogenology IF:2.500
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Lactate administration induces skeletal muscle synthesis by influencing Akt/mTOR and MuRF1 in non‐trained mice but not in trained mice.(KTB1100-2.2)
Author:Kyun, Sunghwan, et al. Publication name: Physiological Reports IF:2.2
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Regulatory effect of lactate on peripheral blood CD4+ T cell subsets in patients with rheumatoid arthritis." Beijing da xue xue bao. Yi xue ban= Journal of Peking University.(KTB1100-2.1)
Author:Huang, Huina, et al. Publication name:Health Sciences IF:2.1
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